阅读说明：本技术 一种智能节能环保房子的设计与拼装方法 (Design and assembly method of intelligent energy-saving environment-friendly house ) 是由 王文梅 于 2019-03-26 设计创作，主要内容包括：本发明公开了一种智能节能环保房子的设计与拼装方法,通过对智能房的总体构想要求,设计构件模块,绘制成构件模块图,据构件模块图制成压制模具,通过压机和压制模具,对定型的设定成长宽厚尺寸的三合板材料的模压,压制为半成品的智能节能环保房子的三合板的平面结构材料模块；经过孩子的对半成品的智能节能环保房子三合板的平面结构材料模块的取件、通过开发调动孩童的智能和脑力、聪明度和动手能力,获得一种智能节能环保房子的平面拼装模板；其通过阅读一种智能节能环保房子的拼装图,按一种智能节能环保房子的拼装程序和方法,拼装成一幢具有风轮、水车的智能节能环保型的高脚楼的别墅式的立体的智能的供儿童喜爱观赏的一种智能节能环保房子。(The invention discloses a design and assembly method of an intelligent energy-saving environment-friendly house, which comprises the steps of designing a component module according to the overall concept requirement of the intelligent house, drawing a component module diagram, manufacturing a pressing mold according to the component module diagram, and pressing a shaped three-ply board material with a set growth width and thickness into a semi-finished planar structure material module of a three-ply board of the intelligent energy-saving environment-friendly house through a press and the pressing mold; the method comprises the steps of obtaining a planar assembly template of the intelligent energy-saving environment-friendly house by taking a piece of a planar structural material module of a semi-finished intelligent energy-saving environment-friendly house three-ply board of a child and developing and mobilizing the intelligence, the mental power, the intelligence and the manual ability of the child; the intelligent energy-saving environment-friendly house is assembled into a villa type three-dimensional intelligent energy-saving environment-friendly house which is provided with wind wheels and waterwheels and enjoys children by reading an assembly drawing of the intelligent energy-saving environment-friendly house and according to an assembly program and method of the intelligent energy-saving environment-friendly house.)

1. The invention discloses a design and assembly method of an intelligent energy-saving environment-friendly house, which is characterized in that a component module is designed according to the requirement of the overall conception of the intelligent energy-saving environment-friendly house, a component module diagram is drawn, a pressing die is manufactured according to the component module diagram, and a press and the pressing die are used for performing die pressing and forming on a shaped three-ply board material with a set growth width and thickness size to press the three-ply board material into a plane structure material module of a three-ply board of a semi-finished intelligent energy-saving environment-friendly house; the method comprises the steps of obtaining a planar assembly template of the intelligent energy-saving environment-friendly house by taking a piece of a planar structural material module of a semi-finished intelligent energy-saving environment-friendly house three-ply board of a child and developing and mobilizing the intelligence, the mental power, the intelligence and the manual ability of the child; children can assemble a villa type three-dimensional intelligent energy-saving environment-friendly house which is provided with wind wheels and waterwheel and enjoys children enjoyment according to an assembling program and a method of the intelligent energy-saving environment-friendly house by reading an assembling picture of the intelligent energy-saving environment-friendly house; the concrete content is as follows:

a design scheme of an intelligent energy-saving environment-friendly house comprises the following steps:

the general idea of an intelligent energy-saving environment-friendly house is as follows:

the general idea of an intelligent energy-saving environment-friendly house is as follows: the building comprises a building base and a high-rise platform, wherein a platform room is arranged on the right side of the platform of the high-rise, a three-storey steeple roof is arranged on the platform of the platform room, and a wind wheel is arranged on the steeple roof to generate electricity by utilizing wind energy; imagine that: the wind power generation is utilized to provide electric energy for automatic intelligent labor, wealth is created, and life of people is met; a layer of sharp-topped house is arranged on the left side of the high-rise platform, and a chimney is arranged above a house roof on the left rear side of the sharp-topped house; imagine that: the food is used for family members to cook dishes and meet the living needs; an assembly waterwheel is arranged on the right side of the platform house; imagine that: the water wheel converts the flowing water power into energy, automatically processes food and generates electricity to provide electric energy, and the intelligent energy-saving product is produced and lives; the stairs are arranged between the two walls of the two rooms of the platform house and the one-storey terrace house for people to walk up and down the building; the intelligent energy-saving environment-friendly house is characterized in that a stair is arranged between a house base and a high-rise platform to provide the general idea of an intelligent energy-saving environment-friendly house for people to walk up and down;

a design method for names and related functions of design component modules of an intelligent energy-saving environment-friendly house comprises the following steps:

the name and related functions of a design component module of an intelligent energy-saving environment-friendly house are as follows: a house base (1); a high-rise platform (2); a platform house front door and a wall panel (3); a platform room right side wall (4); a platform house rear wall (5); a left side wall (6) of the platform house; 4 stairs and stair boards (7) between two walls of two rooms of the platform room and the one-layer gable room are provided, and the size, specification, thickness, length, width, rectangular shape and size of each stair board are the same; a layer of right side wall (8) of the pinnacle house; a layer of a front door and a front window wall (9) of the pinnacle house; a layer of a back wall (10) of the pinnacle house; a layer of left side wall (11) of the pinnacle house; a roof panel (12) of the platform room; the wall panels (13) on the top of the platform house are 4 in total, and the wall panels of each three-layer building are the same in size, specification, thickness, width, length, rectangular shape and size, and the windows of the buildings are uniform in shape, size, height and quantity; a connecting component (14) of the roof of the top roof of the left side wall and the right side wall of the top structure of the top building on the top of the three-layer building on the roof of the platform house; the roof connecting component (15) of the top roof of the front and rear side walls of the top structure of the top building on the top of the three-layer building on the roof of the platform house: the top of a roof connecting component (15) of the top roof structure of the top building on the top of the three-layer building on the roof of the platform house is connected with a connecting rod (15-1) of a wind wheel; the roof panels (16) of the top roof of the top building, which are front, rear, left and right, of the top structure of the top building on the top of the three-layer building on the roof of the platform house, are totally 4, and the size, specification, thickness, width, length, triangular shape and size of each roof panel are the same; a front door of the top house of one floor, and a front roof panel (17) on the top house of one floor on the front window wall (9); a rear roof panel (18) on the one-storey gable on the rear wall (10) of the one-storey gable; one end of a water wheel shaft connecting rod (18-1) on the right side of the platform room is connected with a wall hole of the right side wall (4) of the platform room, and the other end of the water wheel shaft connecting rod passes through a water wheel shaft circular plate and a water wheel shaft center connecting hole (20) and is connected with a cross groove of a water wheel shaft connecting rod (21); a water wheel shaft mounting bracket (19); a water wheel shaft circular plate and a water wheel shaft center connecting hole (20); one end of the water wheel shaft connecting rod (21) penetrates through the water wheel shaft circular plate and the water wheel shaft center connecting hole (20) and is connected with the water wheel shaft connecting rod (18-1) in a crossed way, and the other end of the water wheel shaft connecting rod penetrates through a hole of the fixed backing plate (22) and is connected with a shaft hole of the water wheel shaft mounting frame (19); note: when the fixing plate (22) is assembled, the fixing plate can be omitted or not assembled, if the fixing base plate (22) is assembled, the length of the other inserting tenon of the water wheel shaft connecting rod (21) needs to be lengthened, and the fixing base plate can be connected with the hole of the water wheel shaft mounting frame (19); the arrangement of the assembling difficulty of the fixing plate (22) can further improve the purposes of the hands and brains of children and the development of intelligence;

a fixed gasket (23) of the shaft of the wind wheel on the third roof of the platform room; a wind wheel and wind wheel shaft hole (24); a U-shaped fixing clamp (25) of the wind wheel; a chimney wall panel (26) behind the chimney of the first storey gable; the chimney wall panels (27) on the left side and the right side of the pinnacle house chimney are 2 in total, and the size, specification, thickness, width, length, structural shape and size of each chimney wall panel are the same; a stack wall panel (28) in front of the pinnacle house stack; a chimney top cover fixing plate (29) of a layer of the top room chimney; 2 stair boards (30) on two sides of the stairs of the stair climbing platform are provided, and the size, specification, thickness, width and length of the stair boards on two sides of each stair board are the same as the shape and size of the two-layer groove structure; the stair climbing platform comprises 2 stair climbing plates (31) of the stair climbing platform, and the stair climbing plates are the same in size, specification, thickness, width, length, rectangular structural shape and size; the U-shaped fixing clamping pieces (a) are 5 pieces, have the same size, specification, thickness, width, length, U-shaped structural shape and size and are used for fixing different required template bayonets; the U-shaped fixing clamping pieces (b) are 8 in total, have the same size, specification, thickness, width, length, U-shaped structural shape and size and are used for fixing different required template bayonets; the hydrodynamic drive plate (C) of the water wheel comprises 12 blocks, and the size, specification, thickness, width and length of the hydrodynamic drive plate are the same as the rectangular slotted shape and size;

note: in designing each component module, in order to install an intelligent energy-saving environment-friendly house component module, a three-dimensional installation hole which is shaped like a flat rectangle and has round openings at two sides is arranged at a corresponding position of each component module, a three-dimensional tenon opening which is shaped like a convex rectangle and has round openings at two sides is arranged at the side surface of each component module to be designed, and an interface for installation is arranged between the three-dimensional tenon opening and the side surface of each component module, and a bayonet which is shaped like a groove is arranged at a proper position of the tenon opening and is used for fixing each component module by a U-shaped fixing card;

a design of a planar component module of an intelligent energy-saving environment-friendly house, a manufacturing and pressing method of a mould are disclosed, which comprises the following steps:

the design of a planar component module of an intelligent energy-saving environment-friendly house comprises the following steps:

the design of the plane component module is creatively decomposed and designed into the shape of the plane component module with required shape and function requirement according to the structural requirement of the overall three-dimensional assembly of the intelligent energy-saving environment-friendly house: the flat component module has different shapes, different functions and the same shape and function; meanwhile, according to the designed and shaped planar component module shape, the planar component module is reasonably and tightly distributed within the limited rectangular component plane area range according to the principles of saving raw materials and saving cost to form a structural module plan; the scheme adopts 3 presses, 6 structural module plane pictures are used, every 2 structural module plane pictures are taken as a group, a method of a pair of structural molds is adopted, the manufactured structural molds are utilized by the presses to press the three-ply board with the length, width, thickness and size, and the three-ply board is pressed into the shape of a planar component module;

preparing a mould: 2 graphs of the set structural module plane graph are combined to form 3 pairs of molds, groove-shaped plane steel plate modules in the shape of plane component modules are manufactured, the width of each groove is 0.5 mm, the depth of each groove is 10 mm, the length of each groove is the perimeter of the shape of the plane component module required by each design, the size error of the length, the width and the depth of each groove is not too large, and the shape of the machined precision component module can be suitable for assembling a three-dimensional intelligent energy-saving environment-friendly house; then clamping or inserting or installing a steel blade into the groove shape of the groove-shaped plane steel plate module; requirements for steel blades: the length required by each steel blade is the perimeter which can be suitable for the shape of each planar component module, the steel blade is required to be , the steel blade is good in performance, strong in rigidity and capable of being bent, the width of the steel blade is 14 mm, the width of the blade edge from the blade edge to the plane of the groove-shaped planar steel plate module is 4 mm, the blade edge is required to be sharp and wear-resistant, the blade edge is cut quickly, the two sides of the position from the blade edge to the width of 4 mm are gradually thickened to be 0.5 mm thick, the blade back part of the steel blade is required to be clamped or inserted into or arranged in the groove shape, the thickness of the blade back part is 0.5 mm, the embedding depth is 10 mm, the perimeter is the shape of each planar component module, and the blade edge of the steel blade is required to be 4 mm exposed out of the plane of the groove-shaped; the groove-shaped flat steel plate module is heated to 250-300 ℃, the steel blade is cooled to-10-15 ℃, the steel blade is clamped or inserted or arranged in the groove of the groove-shaped flat steel plate module by adopting a process of thermal expansion and cold contraction, so that the manufactured groove-shaped flat steel plate module always fastens the steel blade at normal temperature, and the steel blade cannot fall off or separate from the groove-shaped flat steel plate module during die pressing, so that the manufactured groove-shaped flat component module is called as an 'lower combined flat component die'; then, according to the plan view of each group of component modules, a groove-shaped flat steel plate module in the shape of each flat component module is manufactured, the width of a groove is 0.7 mm, the depth of the groove is 1.2 mm, the length of each groove is the perimeter of the shape of the flat component module, and the groove-shaped flat steel plate module is called as an upper combined flat component mold of the flat component mold after being manufactured; then, the lower closed plane component mould is arranged at the upper part of a press, the upper closed plane component mould is arranged at the lower part of the press, after each upper and lower closed plane component mould is arranged, the upper and lower closed plane component moulds are debugged to be qualified, and then the component module for pressing the intelligent energy-saving environment-friendly house can be delivered, 3 pairs of upper and lower closed plane component moulds which are different are arranged on the upper and lower closed plane component moulds by the press, and the 3 shaped three-ply boards with the set length, width and thickness are respectively molded by pressing to form the three-ply board structural material module of the intelligent energy-saving environment-friendly house which is formed into 3 different semi-finished products; the structural material modules of the three-ply board of the intelligent energy-saving environment-friendly house which are pressed into 3 different semi-finished products are in a group and can be used as an assembled structural material of the intelligent energy-saving environment-friendly house; the semi-finished product of the structural material module of the three-ply board pressed into 3 different structural materials can be produced into a module by respectively using 3 presses, 3 pairs of upper and lower combined plane component dies and a prepared large batch of three-ply board materials with the length, width, thickness and size being set, and the semi-finished product of the structural material module of the 3 different three-ply boards of the intelligent energy-saving environment-friendly house is produced into a module in a large batch.

The arrangement method of the component module plan view comprises the following steps:

the arrangement of the component module plan view adopts the figure numbers of the attached drawings of the specification as follows: fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 are arranged respectively:

component module plan view: the following groups are adopted in fig. 2 and 3: the flat member module shape of (1), (2), (12), (14), (15-1) (20), (23), (25), (b) × 3 sheets, (c);

component module plan view: the following groups are adopted in fig. 4 and 5: the flat member module shape is composed of (4), (6), (8), (11), (16) × 4 sheets, (17), (18), (24), (27) × 2 sheets, (29), (30) × 2 sheets, (31), (a) × 4 sheets, (b) × 4 sheets, (c) × 8 sheets;

component module plan view: adopt fig. 6 and fig. 7 as a group: the flat member mold is composed of (3), (5), (7) × 4 sheets, (9), (10), (13) × 4 sheets, (18-1), (19), (21), (22), (26), (28), (31), (a), (b), (c) × 3 sheets;

the manufacturing method of the plane component die comprises the following steps:

the planar member dies are grouped according to the above member module plan views 2 and 3; FIGS. 4 and 5 are a group; FIGS. 6 and 7 are a group; respectively manufacturing an upper and a lower combined plane component moulds respectively to obtain 3 pairs of plane component moulds in total; then, 3 pairs of plane component molds are respectively arranged on 3 presses by using 3 presses, a lower combined plane component mold is arranged at the upper part of the press, an upper combined plane component mold is arranged at the lower part of the press, and after the upper combined plane component mold and the lower combined plane component mold are arranged on the 3 presses, the upper combined plane component mold and the lower combined plane component mold can be delivered to be used for pressing a component module of an intelligent energy-saving environment-friendly house after being debugged and qualified; 3 pairs of upper and lower combined plane component moulds which are different from each other are arranged on 3 presses, and the 3 presses of the 3 shaped three-ply boards with the set length, width and thickness are pressed and formed by the operation of the upper and lower combined plane component moulds of the 3 presses to form 3 structural material modules of the three-ply board of the intelligent energy-saving environment-friendly house, which are combined different semi-finished products;

the three-plate structure material module of the intelligent energy-saving environment-friendly house which is made into 3 different semi-finished products which form a group can be used for intelligent development of children and assembly of the intelligent energy-saving environment-friendly house;

an assembling method of an intelligent energy-saving environment-friendly house comprises the following steps:

a child uses 3 pressed semi-finished products which are different and form a group, namely a three-plate structure material module of an intelligent energy-saving environment-friendly house; the needed assembled structural material module of the intelligent energy-saving environment-friendly house is obtained from the pressed three-ply board structural material module, the assembled structural material modules with different shapes and the same shapes are obtained, and the obtained assembled structural material modules are utilized, and compared with an assembled structural drawing and related description thereof, the intelligent, imagination and practical ability of children are exerted, and after the assembled structural material modules which are difficult to assemble or cannot be assembled well are carefully, slightly and precisely processed by adopting applicable tools, such as sanders, files, scissors and knives, the assembled structural material modules are easily assembled and assembled, so that the assembled structural material modules are assembled into the intelligent energy-saving environment-friendly house;

an assembling program and method of an intelligent energy-saving environment-friendly house are disclosed, which comprises the following steps:

selecting (1) and (2) of the assembly structural material module according to the assembly drawing, and placing the (2) on the (1); then (6) inserting one side of the tenon into the right side inserting hole in the middle of (2), and respectively inserting 4 heads of 4 stair boards of the stair boards of (7) into 4 wall holes of the left wall surface of (6) to the depth of about 3 mm; selecting (8), aligning hole sites in 4 holes on the right side wall of the (8), and inserting the hole sites into the other sides of the 4 floor slabs to the depth of about 3 mm; inserting the tenon of the (8) into the left hole in the middle of the (2), and splicing the stair and platform house (6) of the (7) and the wall surface of the top house (8); then, selecting (3) and respectively inserting the two tenons into the two holes in the front of the right side of the (2); selecting (4), and inserting the tenon into the hole on the right side of the (2); selecting (5), inserting the tenon thereof into the back of the right side (3) of the (2); selecting (9) and respectively inserting two tenons into two holes in front of the left side of the (2); selecting (10) to insert the tenon into the hole at the back of the left side (9) of the (2); selecting (11) to insert it into the hole on the left side of (2); selecting (12) and flatly placing the materials on the upper surfaces of (3), (4), (5) and (6), aligning 4 holes with 4 tenons facing upward, and pressing down and splicing the materials; the platform house is well assembled;

4 floor plates with 3 layers of windows are selected in the step (13), and 4 tenons of the floor plates are respectively inserted into 4 holes in the platform room; selecting (14) to insert the two notches into the left and right notches of the (13) respectively; selecting (15) to insert the two notches of the groove into two notches of the front and the back of (13) and a middle groove of (15) and (14) respectively; selecting triangular house top plates of the 4 pointed houses (16), and inserting the triangular house top plates into the left, right, front and back holes of the house top plates respectively in alignment with the tenons; the tip rooms of the third floor on the platform house are basically assembled;

assembling a wind wheel: selecting (15) -1, assembling the connecting rod by the wind wheel, inserting a groove at one end of the connecting rod into a tip of the (15), if the connecting rod is difficult to insert, correcting the angle of the roof component of the (16) by using a tool, inserting and fixing the roof component firmly, installing (24) the wind wheel on a cross rod of a shaft at the other end of the (15) -1, sleeving the axis of the wind wheel (24) on the cross rod of the shaft at the other end of the (15) -1, selecting a wind wheel fixing gasket of the (23), and sleeving the wind wheel (24) on the cross rod of the shaft at the other end of the (15) -1 outside the axis of the wind wheel; and (25) selecting a groove of the U-shaped fixing clamping piece of the wind wheel and a groove of the cross rod of the shaft at the other end of the (15) -1, and inserting the U-shaped fixing clamping piece and the groove into the groove in a crossed manner to fix the wind wheel. The wind wheel is successfully assembled;

two holes on two sides of the front wall are selected and respectively inserted into two tenons on two sides of the front wall, which are respectively aligned with the tenons on two sides of the front wall (8) and the front tenon (11), and are spliced on the front window of the front wall (9) to form a front roof of a roof building; two holes on two sides of the front wall are respectively inserted into two tenons on two sides of the rear surfaces of the two tenons (8) and the two tenons (11) by selecting (18), and the two tenons are spliced on the rear wall of the front wall (10) to form a rear roof of a layer of the gable-roofed house;

mounting of the water wheel: selecting (18) -1, and enabling one end with a flat groove to penetrate through the water wheel (20) and the axis of the water wheel; one end of the water wheel with the flat notch (21) passes through the axle center of the water wheel (20) and the water wheel plate and is connected with the notch of the (18) -1 in a cross-shaped opposite clamping way;

manufacturing of the water wheel (20): selecting the water wheel circular plate in step (20), selecting 12U-shaped water power water wheel plates in step (C), and respectively inserting the 12U-shaped water power water wheel plates into 12 notches of the water wheel circular plate to complete the manufacture of the water wheel;

the selection (22) can be used or not, and is determined by the intelligence and the clever ability of the child and the brain and hand movement ability of the child, so that the child can exert the intelligence;

the notch of the straight notch at the other end of the (18) -1 is selected to be inserted upwards into the wall hole of the (4) and pushed upwards, and the wall hole of the (4) is hooked and clamped by the upward notch of the straight notch; a tenon at the other end of the selected (21) is aligned with the selected assembly hole on the selected (19), the tenon is inserted into the assembly hole, and then the two tenons of the selected (19) are respectively inserted into the two holes at the rightmost side of the water wheel (1), so that the water wheel is successfully installed;

the assembling method of the chimney with the one-layer top house comprises the following steps: selecting (26) a rear wall plate of the chimney and the left and right wall plates of the 2 chimneys of (27), and respectively clamping the two tenons of (26) into the grooves of the left and right chimney wall plates of (27), and selecting two tenons of the front wall plate of the chimney of (28) and respectively clamping the two tenons into the grooves of the left and right chimney wall plates of (27); the chimney formed by the front, rear, left and right wall vertical surface bodies is basically manufactured, the square chimney covers (29) are selected to buckle the front, rear, left and right wall vertical surface bodies of the chimney, the chimney is formed, tenons of the two side walls of the formed chimney (27) are respectively inserted into the two holes on the left upper side of the rear roof of the pinnacle house, and the chimney of the pinnacle house is successfully assembled;

the assembly method of the high-rise stairs comprises the following steps: selecting 2 stair boards on two sides of the stair of the high-rise building (30), selecting 2 stair boards on the upper stair board and the lower stair board of the stair of the high-rise building (31), and firmly clamping corresponding ladder groove openings to form a stair shape; then, 2 lower notches in the stair shape are respectively inserted into 2 stair holes in the step (1), 2 upper notches of the stairs are respectively inserted into 2 stair holes in the step (2), and the stairs from high-rise buildings to platforms are successfully assembled;

the intelligent energy-saving environment-friendly house is successfully assembled, not only is the intelligence, the brain, the hands and the imagination of children developed, but also the plane concept, the shape concept and the geometric concept of the children are increased, and the three-dimensional and space concepts are erected; and the environmental protection consciousness that children utilize natural energy of wind energy and water energy and save energy is also increased.

Technical Field

The invention belongs to the technical field of developing the intelligence and the practical ability of children, and particularly relates to a design and assembly method of an intelligent energy-saving environment-friendly house.

Background

After the child is born, the newborn can be classified into several categories of clever, more clever, common wisdom, more stupid and quite stupid according to the determination of the genetic factors of the congenital parents; but it is not the clever and dull that determines the life of a person, and is invariable; with the development of the child's acquired growth, nutrition, health, education, guidance and intelligence, the comprehension of things, the sensitivity of reaction and the scientific observation, analysis and experience of practical things, the acquired clever can be greatly changed, the intelligence can be developed and improved, so that the child who is clever in the first place can fall behind in the later place, and the child who is stupid in the first place can be clever in the later place; the principle that the bird flies first is to say that the child with the intelligence and the wisdom training and imagination are developed intelligently and cultivated by the postnatal development and the intelligence and the wisdom training to activate the brain of the child with the unprecedented effort and become a dull child.

According to the research, the method comprises the following steps: children are the best gold time for developing intelligence when the children are 2-5 years old, so that the intelligent product suitable for children in the time needs to be created, designed, developed and produced in a targeted mode, and the intelligence development of the children is facilitated.

At present, children toys sold in the society are small, round, smooth and easy to swallow, so that many children are choked to choke by mistake and suffocated to die due to the fact that the children suck the choked stalks among throats, and the children toys are not safe to the children, and therefore, an intelligent children toy product which is suitable for the children and can develop the intelligence of the children and ensure the safety of the children is needed to be developed.

The invention aims to create and invent a design and assembly method of an intelligent energy-saving environment-friendly house, which is used for meeting and achieving the aims of developing intelligence and practical ability and improving intelligence of early children according to the intelligent development and development requirements of the children at the stage.

Disclosure of Invention

The content of the invention is as follows: provides a design and assembly method of an intelligent energy-saving environment-friendly house.

A design and assembly method of intelligent energy-saving environment-friendly house, through the requirement of the overall idea of an intelligent energy-saving environment-friendly house, design the component module, draw into the module diagram of the component, make the compacting tool set according to the module diagram of the component, through press and compacting tool set up the die pressing of the three-ply board material of the set-up width and thickness size, the plane structure material module of the three-ply board of the intelligent energy-saving environment-friendly house pressed into semifinished material; the method comprises the steps of obtaining a planar assembly template of the intelligent energy-saving environment-friendly house by taking a piece of a planar structural material module of a semi-finished intelligent energy-saving environment-friendly house three-ply board of a child and developing and mobilizing the intelligence, the mental power, the intelligence and the manual ability of the child; children can assemble an intelligent energy-saving environment-friendly house which is a villa type three-dimensional intelligent high-rise building with wind wheels and waterwheel and is liked to be enjoyed by children according to an assembling program and a method of the intelligent energy-saving environment-friendly house by reading an assembling drawing of the intelligent energy-saving environment-friendly house.

A design scheme of an intelligent energy-saving environment-friendly house comprises the following steps:

the general idea of an intelligent energy-saving environment-friendly house is as follows:

the general idea of an intelligent energy-saving environment-friendly house is as follows: the building comprises a building base and a high-rise platform, wherein a platform room is arranged on the right side of the platform of the high-rise, a three-storey steeple roof is arranged on the platform of the platform room, and a wind wheel is arranged on the steeple roof to generate electricity by utilizing wind energy; imagine that: the wind power generation is utilized to provide electric energy for automatic intelligent labor, wealth is created, and life of people is met; a layer of sharp-topped house is arranged on the left side of the high-rise platform, and a chimney is arranged above a house roof on the left rear side of the sharp-topped house; imagine that: the food is used for family members to cook dishes and meet the living needs; an assembly waterwheel is arranged on the right side of the platform house; imagine that: the water wheel converts the flowing water power into energy, automatically processes food and generates electricity to provide electric energy, and the intelligent energy-saving product is produced and lives; a stair is arranged between the two walls of the two rooms of the platform house and the one-storey terrace house for people to walk up and down the building; the intelligent energy-saving environment-friendly house is characterized in that a staircase is arranged between a house base and a high-rise platform to provide the general idea of an intelligent energy-saving environment-friendly house for people to walk up and down.

A design method for names and related functions of design component modules of an intelligent energy-saving environment-friendly house comprises the following steps:

the name and related functions of a design component module of an intelligent energy-saving environment-friendly house are as follows: a house base (1); a high-rise platform (2); a platform house front door and a wall panel (3); a platform room right side wall (4); a platform house rear wall (5); a left side wall (6) of the platform house; 4 stairs and stair boards (7) between two walls of two rooms of the platform room and the one-layer gable room are provided, and the size, specification, thickness, length, width, rectangular shape and size of each stair board are the same; a layer of right side wall (8) of the pinnacle house; a layer of a front door and a front window wall (9) of the pinnacle house; a layer of a back wall (10) of the pinnacle house; a layer of left side wall (11) of the pinnacle house; a roof panel (12) of the platform room; the wall panels (13) on the top of the platform house are 4 in total, and the wall panels of each three-layer building are the same in size, specification, thickness, width, length, rectangular shape and size, and the windows of the buildings are uniform in shape, size, height and quantity; a connecting component (14) of the roof of the top roof of the left side wall and the right side wall of the top structure of the top building on the top of the three-layer building on the roof of the platform house; the roof connecting component (15) of the top roof of the front and rear side walls of the top structure of the top building on the top of the three-layer building on the roof of the platform house: the top of a roof connecting component (15) of the top roof structure of the top building on the top of the three-layer building on the roof of the platform house is connected with a connecting rod (15-1) of a wind wheel; the roof panels (16) of the top roof of the top building, which are front, rear, left and right, of the top structure of the top building on the top of the three-layer building on the roof of the platform house, are totally 4, and the size, specification, thickness, width, length, triangular shape and size of each roof panel are the same; a front door of the top house of one floor, and a front roof panel (17) on the top house of one floor on the front window wall (9); a rear roof panel (18) on the one-storey gable on the rear wall (10) of the one-storey gable; one end of a water wheel shaft connecting rod (18-1) on the right side of the platform room is connected with a wall hole of the right side wall (4) of the platform room, and the other end of the water wheel shaft connecting rod passes through a water wheel shaft circular plate and a water wheel shaft center connecting hole (20) and is connected with a cross groove of a water wheel shaft connecting rod (21); a water wheel shaft mounting bracket (19); a water wheel shaft circular plate and a water wheel shaft center connecting hole (20); one end of the water wheel shaft connecting rod (21) penetrates through the water wheel shaft circular plate and the water wheel shaft center connecting hole (20) and is connected with the water wheel shaft connecting rod (18-1) in a crossed way, and the other end of the water wheel shaft connecting rod penetrates through a hole of the fixed backing plate (22) and is connected with a shaft hole of the water wheel shaft mounting frame (19); note: when the fixing plate (22) is assembled, the fixing plate can be omitted or not assembled, if the fixing base plate (22) is assembled, the length of the other inserting tenon of the water wheel shaft connecting rod (21) needs to be lengthened, and the fixing base plate can be connected with the hole of the water wheel shaft mounting frame (19); the arrangement of the assembling difficulty of the fixing plate (22) can further improve the purposes of the hands and brains of children and the development of intelligence;

a fixed gasket (23) of the shaft of the wind wheel on the third roof of the platform room; a wind wheel and wind wheel shaft hole (24); a U-shaped fixing clamp (25) of the wind wheel; a chimney wall panel (26) behind the chimney of the first storey gable; the chimney wall panels (27) on the left side and the right side of the pinnacle house chimney are 2 in total, and the size, specification, thickness, width, length, structural shape and size of each chimney wall panel are the same; a stack wall panel (28) in front of the pinnacle house stack; a chimney top cover fixing plate (29) of a layer of the top room chimney; 2 stair boards (30) on two sides of the stairs of the stair climbing platform are provided, and the size, specification, thickness, width and length of the stair boards on two sides of each stair board are the same as the shape and size of the two-layer groove structure; the stair climbing platform comprises 2 stair climbing plates (31) of the stair climbing platform, and the stair climbing plates are the same in size, specification, thickness, width, length, rectangular structural shape and size; the U-shaped fixing clamping pieces (a) are 5 pieces, have the same size, specification, thickness, width, length, U-shaped structural shape and size and are used for fixing different required template bayonets; the U-shaped fixing clamping pieces (b) are 8 in total, have the same size, specification, thickness, width, length, U-shaped structural shape and size and are used for fixing different required template bayonets; the hydraulic driving plates (C) of the water wheels are 12 in total, and the size, specification, thickness, width and length of the hydraulic driving plates are the same as those of the rectangular slots;

note: in the design of each component module, in order to install the intelligent energy-saving environment-friendly house component module, mounting holes which are shaped like flat rectangular and round-mouth-shaped at two sides are arranged at corresponding positions of the component module, interfaces which are used for mounting the components and are arranged on the side surfaces of the component module are arranged like convex-shaped tenons which are shaped like flat rectangular and round-mouth-shaped at two sides, and bayonets which are shaped like grooves are arranged at proper positions of the tenons and are used for fixing the component modules by U-shaped fixing cards.

A design of a planar component module of an intelligent energy-saving environment-friendly house, a manufacturing and pressing method of a mould are disclosed, which comprises the following steps:

the design of a planar component module of an intelligent energy-saving environment-friendly house comprises the following steps:

the design of the plane component module is creatively decomposed and designed into the shape of the plane component module with required shape and function requirement according to the structural requirement of the overall three-dimensional assembly of the intelligent energy-saving environment-friendly house: the flat component module has different shapes, different functions and the same shape and function; meanwhile, according to the designed and shaped planar component module shape, the planar component module is reasonably and tightly distributed within the limited rectangular component plane area range according to the principles of saving raw materials and saving cost to form a structural module plan; the scheme adopts 3 presses, 6 structural module plane pictures are used, every 2 structural module plane pictures are taken as a group, a method of a pair of structural molds is adopted, the manufactured structural molds are utilized by the presses to press the three-ply board with the length, width, thickness and size, and the three-ply board is pressed into the shape of a planar component module;

preparing a mould: 2 graphs of the set structural module plane graph are combined to form 3 pairs of molds, groove-shaped plane steel plate modules in the shape of plane component modules are manufactured, the width of each groove is 0.5 mm, the depth of each groove is 10 mm, the length of each groove is the perimeter of the shape of the plane component module required by each design, the size error of the length, the width and the depth of each groove is not too large, and the shape of the machined precision component module can be suitable for assembling a three-dimensional intelligent energy-saving environment-friendly house; then clamping or inserting or installing a steel blade into the groove shape of the groove-shaped plane steel plate module; requirements for steel blades: the length required by each steel blade is the perimeter which can be suitable for the shape of each planar component module, the steel blade is required to be , the steel blade is good in performance, strong in rigidity and capable of being bent, the width of the steel blade is 14 mm, the width of the plane from the blade edge to the groove-shaped planar steel plate module is 4 mm, the blade edge is required to be sharp and wear-resistant, the cutting speed of the blade edge is fast, the two sides from the blade edge to the position with the width of 4 mm are gradually thickened to be 0.5 mm thick, the blade back part of the steel blade is required to be clamped or inserted or arranged in the groove shape, the thickness of the blade back part is 0.5 mm, the embedding depth is 10 mm, the length is the perimeter of each planar component module shape, and the blade edge of the steel blade is required to be 4 mm exposed out of the plane of the groove-shaped planar steel; the groove-shaped flat steel plate module is heated to 250-300 ℃, the steel blade is cooled to-10-15 ℃, the steel blade is clamped or inserted or arranged in the groove of the groove-shaped flat steel plate module by adopting a process of thermal expansion and cold contraction, so that the manufactured groove-shaped flat steel plate module always fastens the steel blade at normal temperature, and the steel blade cannot fall off or separate from the groove-shaped flat steel plate module during die pressing, so that the manufactured groove-shaped flat component module is called as an 'lower combined flat component die'; then, according to the plan view of each group of component modules, a groove-shaped flat steel plate module in the shape of each flat component module is manufactured, the width of a groove is 0.7 mm, the depth of the groove is 1.2 mm, the length of the groove is the perimeter of the shape of the flat component module, and after the groove-shaped flat steel plate module is manufactured, the groove-shaped flat steel plate module is called as an upper closed flat component mold of the flat component mold; then, the lower closed plane component mould is arranged at the upper part of a press, the upper closed plane component mould is arranged at the lower part of the press, after each upper and lower closed plane component mould is arranged, the upper and lower closed plane component moulds are debugged to be qualified, and then component modules for pressing an intelligent energy-saving environment-friendly house can be delivered, 3 pairs of upper and lower closed plane component moulds which are different are arranged on the upper and lower closed plane component moulds by the press, and the 3 shaped three-ply boards with the set length, width and thickness are respectively molded by pressing to form the three-ply board structural material module of the intelligent energy-saving environment-friendly house of 3 semi-finished products; the structural material module of the three-ply board of the intelligent energy-saving environment-friendly house which is pressed into 3 different semi-finished products can be used as an assembled structural material of the intelligent energy-saving environment-friendly house; the semi-finished product of the structural material module of the 3 three-ply boards is pressed into a semi-finished product of the structural material module of the 3 three-ply boards, and the semi-finished product of the structural material module of the 3 three-ply boards of the intelligent energy-saving environment-friendly house can be produced into a component in a large batch through 3 presses, 3 sets of upper and lower closed plane component molds and a prepared large batch of three-ply boards with the length, width, thickness and shape.

The arrangement method of the component module plan view comprises the following steps:

the arrangement of the component module plan view adopts the figure numbers of the attached drawings of the specification as follows: fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 are arranged respectively:

component module plan view: the following groups are adopted in fig. 2 and 3: the flat member module shape of (1), (2), (12), (14), (15-1) (20), (23), (25), (b) × 3 sheets, and (c).

Component module plan view: the following groups are adopted in fig. 4 and 5: the flat member module shape is composed of (4), (6), (8), (11), (16) × 4 sheets, (17), (18), (24), (27) × 2 sheets, (29), (30) × 2 sheets, (31), (a) × 4 sheets, (b) × 4 sheets, (c) × 8 sheets.

Component module plan view: adopt fig. 6 and fig. 7 as a group: the flat member module is composed of (3), (5), (7) × 4 sheets, (9), (10), (13) × 4 sheets, (18-1), (19), (21), (22), (26), (28), (31), (a), (b) and (c) × 3 sheets.

The manufacturing method of the plane component die comprises the following steps:

the planar member dies are grouped according to the above member module plan views 2 and 3; FIGS. 4 and 5 are a group; FIGS. 6 and 7 are a group; respectively manufacturing an upper and a lower combined plane component moulds respectively to obtain 3 pairs of plane component moulds in total; then, 3 pairs of plane component molds are respectively arranged on 3 presses by using 3 presses, a lower combined plane component mold is arranged at the upper part of the press, an upper combined plane component mold is arranged at the lower part of the press, and after the upper combined plane component mold and the lower combined plane component mold are arranged on the 3 presses, the upper combined plane component mold and the lower combined plane component mold can be delivered to be used for pressing a component module of an intelligent energy-saving environment-friendly house after being debugged and qualified; 3 pairs of upper and lower combined plane component moulds which are different from each other are arranged on 3 presses, and the 3 presses of the 3 shaped three-ply boards with the set length, width and thickness are pressed and formed by the operation of the upper and lower combined plane component moulds of the 3 presses to form 3 structural material modules of the three-ply board of the intelligent energy-saving environment-friendly house, which are combined different semi-finished products;

the three-plate structure material module of the intelligent energy-saving environment-friendly house which is made into 3 different semi-finished products in a group can be used for intelligent development of children and assembly of the intelligent energy-saving environment-friendly house.

An assembling method of an intelligent energy-saving environment-friendly house comprises the following steps:

a child uses 3 pressed semi-finished products which are different and form a group, namely a three-plate structure material module of an intelligent energy-saving environment-friendly house; the needed assembled structural material modules of the intelligent energy-saving environment-friendly house are obtained from pressed three-ply board structural material modules in different shapes and the same shape, and the obtained assembled structural material modules are utilized to give play to the intelligence, imagination and practical ability of children by comparing with an assembling structure diagram and related explanations, so that the assembled structural material modules which are difficult to assemble or cannot be assembled well at a moment are easily assembled and assembled after being carefully, slightly and precisely processed by adopting applicable tools such as sanders, files, scissors and knives, and the assembled structural material modules are assembled into the intelligent energy-saving environment-friendly house.

An assembling program and method of an intelligent energy-saving environment-friendly house are disclosed, which comprises the following steps:

selecting (1) and (2) of the assembly structural material module according to the assembly drawing, and placing the (2) on the (1); then (6) inserting one side of the tenon into the right side inserting hole in the middle of (2), and respectively inserting 4 heads of 4 stair boards of the stair boards of (7) into 4 wall holes of the left wall surface of (6) to the depth of about 3 mm; selecting (8), aligning hole sites in 4 holes on the right side wall of the (8), and inserting the hole sites into the other sides of the 4 floor slabs to the depth of about 3 mm; and then the tenon of the (8) is inserted into the left hole in the middle of the (2), and the stair and platform house (6) of the (7) and the wall surface of the one-layer sharp top house (8) are assembled. Then, selecting (3) and respectively inserting the two tenons into the two holes in the front of the right side of the (2); selecting (4), and inserting the tenon into the hole on the right side of the (2); and (5) selecting and inserting the tenon thereof into the back of the right side (3) of the (2). Selecting (9) and respectively inserting two tenons into two holes in front of the left side of the (2); selecting (10) to insert the tenon into the hole at the back of the left side (9) of the (2); and (11) inserting the hollow body into the hole on the left side of the (2). Selecting (12) and flatly placing the materials on the upper surfaces of (3), (4), (5) and (6), aligning 4 holes with 4 tenons facing upward, and pressing down and splicing the materials; the flat house is assembled.

4 floor plates with 3 layers of windows are selected and (13), and 4 tenons of the floor plates are respectively inserted into 4 holes in the platform house. Two notches of the two notches are selected (14) to be respectively inserted into the left and right notches of the (13). Two notches of the two notches are inserted into two notches in front and back of the notch (13) and a middle groove of the notches (15) and (14) respectively by selecting (15). Selecting triangular house top plates of the 4 pointed houses (16), and inserting the triangular house top plates into the left, right, front and back holes of the house top plates respectively in alignment with the tenons; the tip rooms of the third floor on the platform house are basically assembled.

Assembling a wind wheel: selecting (15) -1, assembling the connecting rod by the wind wheel, inserting a groove at one end of the connecting rod into a tip of the (15), if the connecting rod is difficult to insert, correcting the angle of the roof component of the (16) by using a tool, inserting and fixing the roof component firmly, installing (24) the wind wheel on a cross rod of a shaft at the other end of the (15) -1, sleeving the axis of the wind wheel (24) on the cross rod of the shaft at the other end of the (15) -1, selecting a wind wheel fixing gasket of the (23), and sleeving the wind wheel (24) on the cross rod of the shaft at the other end of the (15) -1 outside the axis of the wind wheel; and (25) selecting a groove of the U-shaped fixing clamping piece of the wind wheel and a groove of the cross rod of the shaft at the other end of the (15) -1, and inserting the U-shaped fixing clamping piece and the groove into the groove in a crossed manner to fix the wind wheel. The wind wheel is successfully assembled.

And (17) two holes on two sides of the front wall are respectively inserted into two tenons on the front sides of the two tenons (8) and the two tenons (11), and the two tenons are spliced on the front window of the front wall (9) to form a front roof of a roof building. Two holes on two sides of the top roof are respectively inserted into two tenons on the rear sides of the top roofs (8) and the bottom tenons (11) and spliced on the rear wall of the top roof (10) to form a rear roof of a sharp top house.

Mounting of the water wheel: selecting (18) -1, and enabling one end with a flat groove to penetrate through the water wheel (20) and the axis of the water wheel; one end of the water wheel with the flat notch (21) passes through the axle center of the water wheel (20) and the water wheel plate and is connected with the notch (18) -1 in a cross-shaped opposite clamping way.

Manufacturing of the water wheel (20): and (4) selecting the water wheel circular plate in the step (20), selecting 12U-shaped hydrodynamic water wheel plates in the step (C), and respectively inserting the 12U-shaped hydrodynamic water wheel plates into 12 notches of the water wheel circular plate to complete the manufacture of the water wheel.

The selection (22) may or may not be used, which is determined by the child's own intelligence and clever and his own ability to move the brain and hands, allowing it to become intelligent.

The notch of the straight notch at the other end of the (18) -1 is selected to be inserted upwards into the wall hole of the (4) and pushed upwards, and the wall hole of the (4) is hooked and clamped by the upward notch of the straight notch; and aligning the tenon at the other end of the selected (21) with the assembling hole on the selected (19), inserting the tenon into the assembling hole, and then respectively inserting the two tenons of the selected (19) into the two holes on the rightmost side of the water wheel (1), so that the water wheel is successfully installed.

The assembling method of the chimney with the one-layer top house comprises the following steps: selecting (26) a rear wall plate of the chimney and the left and right wall plates of the 2 chimneys of (27), and respectively clamping the two tenons of (26) into the grooves of the left and right chimney wall plates of (27), and selecting two tenons of the front wall plate of the chimney of (28) and respectively clamping the two tenons into the grooves of the left and right chimney wall plates of (27); the chimney formed by the front, rear, left and right wall vertical surfaces is basically manufactured, the front, rear, left and right wall vertical surfaces of the chimney are buckled by square chimney covers (29), the chimney is formed, tenons of the two side walls of the formed chimney (27) are respectively inserted into two holes in the left upper side of the rear roof of the pinnacle house, and the chimney of the pinnacle house is successfully assembled.

The assembly method of the high-rise stairs comprises the following steps: selecting 2 stair boards on two sides of the stair of the high-rise building (30), selecting 2 stair boards on the upper stair board and the lower stair board of the stair of the high-rise building (31), and firmly clamping corresponding ladder groove openings to form a stair shape; then, 2 lower notches of the stair shape are respectively inserted into 2 stair holes of the step (1), 2 upper notches of the stair are respectively inserted into 2 stair holes of the step (2), and the stair of the high-rise building is successfully assembled.

To sum up, the design and assembly method of an intelligent energy-saving environment-friendly house is basically clear, and for facilitating understanding and understanding of the image design scheme and guiding the assembly of the safety map of the child, the following drawings are provided for explanation:

description of the drawings:

FIG. 1 is a perspective view of an intelligent energy-saving environment-friendly house according to the present invention;

which is composed of fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9;

FIG. 1: a perspective view of an intelligent energy-saving environment-friendly house: the wind power generation house comprises a house base and a high-rise platform, wherein a bungalow is arranged on the right side of the high-rise platform, a three-storey pinnacle house is arranged on the platform of the bungalow, and a wind wheel is arranged on the pinnacle house to imagine the use of the wind power generation house; a layer of steeple roof is arranged on the left side of the high-rise building, and a chimney is arranged above the top surface of a house steeple on the left rear side of the steeple roof and is imaginably used for family cooking; a waterwheel is arranged on the right side of the platform house, and is imaginarily used for hydroelectric power generation; a stair is arranged between the two walls of the two rooms of the platform room and the first-floor sharp-top room; an intelligent energy-saving environment-friendly house used for climbing stairs is arranged between a house base and a high-rise platform.

An arrangement of component module plan views of an intelligent energy-saving environment-friendly house is disclosed by the following figures 2 and 3: fig. 4, fig. 5; the numbers of the figures of fig. 6 and 7 are respectively arranged:

an assembly drawing of an intelligent energy-saving environment-friendly house is composed of a drawing 8 and a drawing 9.

FIG. 2 is a component diagram of a base, a building top connecting component, a water wheel shaft circular plate, a driving plate, a wind wheel gasket and a clamping plate of the intelligent energy-saving environment-friendly house;

FIG. 2: by intelligent energy-concerving and environment-protective room base (1), the roof connecting elements (14) of the pinnacle roof of the pinnacle structure's of pinnacle building on the three-layer building roof of platform room top: a connecting member (15) of the roof of the top roof of the front and the rear side walls of the top structure of the top building on the roof of the three-storey building on the roof of the platform house; a water wheel shaft circular plate and a water wheel shaft circular plate shaft center connecting hole (20); a fixed gasket (23) of the shaft of the wind wheel of the three-layer roof on the platform room; a U-shaped fixing clamp (25) of the wind wheel; 2U-shaped fixing clamping pieces (b); a composition arranged graphically in a modular plan view of the components of the waterwheel powered drive plate (C).

FIG. 3 is a component diagram of a high-rise platform, a roof plate of a platform house, a wind wheel connecting rod and a clamping plate of the intelligent energy-saving environment-friendly house;

FIG. 3: a high-rise platform (2); a roof panel (12) of the platform room; the top of a roof connecting member (15) of the top roof of the front and rear side walls of the top roof structure of the top-roof building on the roof of the three-layer building on the top of the platform house is connected with a connecting rod (15-1) of a wind wheel; the component module of the U-shaped fixing card (b) is arranged in a pattern of a plan view.

FIG. 4 is a component diagram of a platform room left side wall, a pinnacle room right side wall, a roof panel of a pinnacle building roof, a wind wheel, a water wheel, a chimney, two side stair boards and a clamping sheet of the intelligent energy-saving environment-friendly house;

FIG. 4: a left side wall (6) of the platform house; a layer of right side wall (8) of the pinnacle house; roof boards (16) × 2 sheets of the building roof of the pinnacle building in front and at the back of the pinnacle structure of the pinnacle building on the roof of the three-layer building on the roof of the platform house; a wind wheel and wind wheel shaft hole (24); a layer of chimney wall panels (27) 2 pieces at the left side and the right side of the pinnacle house chimney; a chimney top cover fixing plate (29) of a layer of the top room chimney; 2 stair plates (30) on two sides of the stairs of the stair climbing platform; 4U-shaped fixing clamping pieces (a); u-shaped securing tabs (b) × 3: a hydraulic drive plate (c); 4 pieces of component modules arranged in a pattern of a plan view.

FIG. 5 is a component diagram of a platform room right side wall, a sharp top room left side wall, a roof panel of a sharp top building roof, a sharp top room roof panel, a stair board, a water wheel drive plate and a card of the intelligent energy-saving environment-friendly house;

FIG. 5: a right side wall (4) of the platform house; a left side wall (11) of a layer of the pinnacle house; roof boards (16) × 2 pieces of the left and right sharp-top building roofs of the sharp-top building roof structure on the top of the three-layer building on the roof of the platform house; a front roof panel (17) on the roof of the first floor; a rear roof panel (18) on the one-storey gable roof; an up-down stair board (31) for climbing the footstep platform stair; a U-shaped fixing clip (b); the hydraulic power driving plate (c) is formed by arranging 4 pieces of component modules in a pattern of a plan view.

FIG. 6 is a component diagram of a platform house front door, a front wall, a rear wall, a stair board, a pinnacle house front door, a front window wall, a rear wall, a water wheel shaft connecting rod, a bracket, a stair board and a card of the intelligent energy-saving environment-friendly house;

FIG. 6: consists of a platform house front door and a wall panel (3); a platform house rear wall (5); 4 stair boards (7) between the platform room and two walls of two rooms of the first-floor tip-top room; a layer of a front door and a front window wall (9) of the pinnacle house; a layer of a back wall (10) of the pinnacle house; a water wheel shaft connecting rod (18-1) on the right side of the platform room; a water wheel shaft mounting bracket (19); a water wheel shaft connecting rod (21); an up-down stair board (31) for climbing the platform stairs of the footstool; the component modules of the U-shaped fixing card (a) are arranged in a pattern of a plan view.

FIG. 7 is a component diagram of a wall panel, a fixed backing plate, a chimney wall panel and a card of a three-layer building on the top of a platform roof of the intelligent energy-saving environment-friendly house;

FIG. 7: the building consists of 4 wall panels (13) on the front, the rear, the left and the right of a three-layer building on the roof of a platform house; a fixed bolster (22); a chimney wall panel (26) behind the chimney of the first storey gable; a stack wall panel (28) in front of the stack of the rooftop house; the component module of the U-shaped fixing card (b) is arranged in a pattern of a plan view.

Fig. 8 is a program assembly diagram of (1) to (18) of an intelligent energy-saving environment-friendly house:

FIG. 9 is a program assembly diagram of (18-1) to (31) of an intelligent energy-saving environment-friendly house:

an assembly drawing of an intelligent energy-saving environment-friendly house: fig. 8 and 9, assembling programs and methods thereof:

the utility model provides an assembly of energy-concerving and environment-protective house of intelligence, according to the assembly drawing: assembling by the programs numbered in the figures 8 and 9, selecting (1) and (2) of the assembled structural material module, and placing (2) on (1); then (6) inserting one side of the tenon into the right side inserting hole in the middle of (2), selecting 4 ends of 4 stair boards of the stair boards of (7), inserting the ends into 4 wall holes of the left wall surface of (6), and inserting the inserting depth to be about 3 mm; selecting (8), aligning hole sites in 4 holes on the right side wall of the (8), inserting the hole sites into the other sides of the 4 floor slabs to the depth of about 3 mm; and then the tenon of the (8) is inserted into the left hole in the middle of the (2), and the stair and platform house (6) of the (7) and the wall surface of the one-layer sharp top house (8) are assembled. Then, selecting (3) and respectively inserting the two tenons into the two holes in the front of the right side of the (2); selecting (4), and inserting the tenon into the hole on the right side of the (2); and (5) selecting and inserting the tenon thereof into the back of the right side (3) of the (2). Selecting (9) and respectively inserting two tenons into two holes in front of the left side of the (2); selecting (10) to insert the tenon into the hole at the back of the left side (9) of the (2); and (11) inserting the hollow body into the hole on the left side of the (2). Selecting (12) to put the square of the square on the upper surfaces of (3), (4), (5) and (6), aligning 4 holes with 4 tenons facing the sky, pressing down and splicing; the flat-topped houses are assembled.

4 floor plates with 3 layers of windows are selected and (13), and 4 tenons of the floor plates are respectively inserted into 4 holes in the flat-topped house. Two notches of the two notches are selected (14) to be respectively inserted into the left and right notches of the (13). Two notches of the two notches are inserted into two notches in front and back of the notch (13) and a middle groove of the notches (15) and (14) respectively by selecting (15). Selecting triangular house top plates of the 4 pointed houses (16), and inserting the triangular house top plates into the left, right, front and back holes of the house top plates respectively in alignment with the tenons; the tip rooms of the third floor on the platform house are basically assembled.

Assembling a wind wheel: selecting (15) -1, assembling the connecting rod by the wind wheel, inserting a groove at one end of the connecting rod of the wind wheel into a tip of the connecting rod (15), and correcting the angle of the roof component (16) by using a tool if the connecting rod is difficult to insert so as to firmly insert and fix the connecting rod; mounting (24) a wind wheel on the cross bar of the shaft at the other end of the (15) -1, sleeving the axis of the wind wheel (24) on the cross bar of the shaft at the other end of the (15) -1, selecting a wind wheel fixing gasket of the (23), and sleeving the wind wheel fixing gasket on the cross bar of the shaft at the other end of the (15) -1 outside the axis of the wind wheel (24); and (25) selecting a groove of the U-shaped fixing clamping piece of the wind wheel and a groove of the cross rod of the shaft at the other end of the (15) -1, and inserting the U-shaped fixing clamping piece and the groove into the groove in a crossed manner to fix the wind wheel. The wind wheel is successfully assembled.

Two holes on two sides of the front wall are selected and inserted into two tenons on two sides of the front wall respectively aligned with the tenons on two sides of the front wall (8) and the front of the front wall (11) to be spliced on the front window of the front wall (9) to form a front roof of a roof building; two holes on two sides of the top roof are respectively inserted into two tenons on two sides of the back of the top roof by selecting (18), and the two tenons are spliced on the back wall of the top roof (10) to form a back roof of a sharp top house.

Mounting of the water wheel: selecting (18) -1, and enabling one end with a flat groove to penetrate through the water wheel (20) and the axis of the water wheel; one end of the water wheel with the flat notch (21) passes through the axle center of the water wheel (20) and the water wheel plate and is connected with the notch (18) -1 in a cross-shaped opposite clamping way.

Manufacturing of the water wheel (20): and (4) selecting the water wheel circular plate in the step (20), selecting 12U-shaped hydrodynamic water wheel plates in the step (C), and respectively inserting the 12U-shaped hydrodynamic water wheel plates into 12 notches of the water wheel circular plate to complete the manufacture of the water wheel.

The selection (22) may or may not be used, which is determined by the child's own intelligence and clever and his own ability to move the brain and hands, allowing it to become intelligent.

The notch of the straight notch at the other end of the (18) -1 is selected to be inserted upwards into the wall hole of the (4) and pushed upwards, and the wall hole of the (4) is hooked and clamped by the upward notch of the straight notch; and aligning the tenon at the other end of the selected (21) with the assembling hole on the selected (19), inserting the tenon into the assembling hole, and then respectively inserting the two tenons of the selected (19) into the two holes on the rightmost side of the water wheel (1), so that the water wheel is successfully installed.

The assembling method of the chimney with the one-layer top house comprises the following steps: selecting (26) a rear wall plate of the chimney and the left and right wall plates of the 2 chimneys of (27), and respectively clamping the two tenons of (26) into the grooves of the left and right chimney wall plates of (27), and selecting two tenons of the front wall plate of the chimney of (28) and respectively clamping the two tenons into the grooves of the left and right chimney wall plates of (27); the chimney formed by the front, rear, left and right wall vertical surfaces is basically manufactured, the square chimney covers (29) are selected to clamp the front, rear, left and right wall vertical surface plates of the chimney, the chimney is formed, tenons of the two side walls of the formed chimney (27) are respectively inserted into the two holes on the left upper side of the rear roof of the pinnacle room, and the chimney of the pinnacle room is successfully assembled.

The assembly method of the high-rise stairs comprises the following steps: selecting 2 stair boards on two sides of the stair of the high-rise building (30), selecting 2 stair boards on the upper stair board and the lower stair board of the stair of the high-rise building (31), and firmly clamping corresponding ladder groove openings to form a stair shape; then, 2 lower notches of the stair shape are respectively inserted into 2 stair holes of the step (1), 2 upper notches of the stair are respectively inserted into 2 stair holes of the step (2), and the stair of the high-rise building is successfully assembled.

Then, the U-shaped fixing clamping pieces with different shapes of (a) and (b) are used for oppositely buckling the groove openings below the house wall foot insertion openings of the component modules and the groove openings of the U-shaped fixing clamping pieces, so that the component modules are firmly fixed. An intelligent energy-saving environment-friendly house is successfully assembled.

In conclusion, the intelligent energy-saving environment-friendly house is successfully assembled, not only is the intelligence, brain, hands and imagination of children developed, but also the plane concept, the shape concept and the geometric concept of the children are increased, and the stereo and space concepts are erected; and the environmental protection consciousness that children utilize natural energy of wind energy and water energy and save energy is also increased.

The specific implementation mode is as follows:

example 1: a design of a planar component module of an intelligent energy-saving environment-friendly house, a manufacturing and pressing method of a mould are disclosed, which comprises the following steps:

the design of the plane component module is creatively decomposed and designed into the shape of the plane component module with required shape and function requirement according to the structural requirement of the overall three-dimensional assembly of the intelligent energy-saving environment-friendly house: the flat component module has different shapes, different functions and the same shape and function; meanwhile, according to the designed and shaped planar component module shape, the planar component module is reasonably and tightly distributed within the limited rectangular component plane area range according to the principles of saving raw materials and saving cost to form a structural module plan;

manufacturing a planar member die: adopting 3 presses, using 6 structural module plane pictures and every 2 structural module plane pictures as a group, making a method of a pair of structural moulds, pressing the three-ply board with the length, width and thickness dimension and the shape of a planar component module by using the manufactured structural mould through the presses;

preparing a mould: 2 graphs of the set structural module plane graph are combined to form 3 pairs of molds, groove-shaped plane steel plate modules in the shape of plane component modules are manufactured, the width of each groove is 0.5 mm, the depth of each groove is 10 mm, the length of each groove is the perimeter of the shape of the plane component module required by each design, the size error of the length, the width and the depth of each groove is not too large, and the shape of the machined precision component module can be suitable for assembling a three-dimensional intelligent energy-saving environment-friendly house; then clamping or inserting or installing a steel blade into the groove shape of the groove-shaped plane steel plate module; requirements for steel blades: the length required by each steel blade is the perimeter which can be suitable for the shape of each planar component module, the steel blade is required to be , the steel blade is good in performance, strong in rigidity and capable of being bent, the width of the steel blade is 14 mm, the width of the plane from the blade edge to the groove-shaped planar steel plate module is 4 mm, the blade edge is required to be sharp and wear-resistant, the cutting speed of the blade edge is fast, the two sides from the blade edge to the position with the width of 4 mm are gradually thickened to be 0.5 mm thick, the blade back part of the steel blade is required to be clamped or inserted or arranged in the groove shape, the thickness of the blade back part is 0.5 mm, the embedding depth is 10 mm, the length is the perimeter of each planar component module shape, and the blade edge of the steel blade is required to be 4 mm exposed out of the plane of the groove-shaped planar steel; the groove-shaped flat steel plate module is heated to 250-300 ℃, the steel blade is cooled to-10-15 ℃, the steel blade is clamped or inserted or arranged in the groove of the groove-shaped flat steel plate module by adopting a process of thermal expansion and cold contraction, so that the manufactured groove-shaped flat steel plate module always fastens the steel blade at normal temperature, and the steel blade cannot fall off or separate from the groove-shaped flat steel plate module during die pressing, so that the manufactured groove-shaped flat component module is called as an 'lower combined flat component die'; then, according to the plan view of each group of component modules, a groove-shaped flat steel plate module in the shape of each flat component module is manufactured, the width of a groove is 0.7 mm, the depth of the groove is 1.2 mm, the length of the groove is the perimeter of the shape of the flat component module, and after the groove-shaped flat steel plate module is manufactured, the groove-shaped flat steel plate module is called as an upper closed flat component mold of the flat component mold; then, the lower closed plane component mould is arranged at the upper part of a press, the upper closed plane component mould is arranged at the lower part of the press, after each upper and lower closed plane component mould is arranged, the upper and lower closed plane component moulds are debugged to be qualified, and then the component module for pressing the intelligent energy-saving environment-friendly house can be delivered, 3 sets of different upper and lower closed plane component moulds are arranged on the upper and lower closed plane component moulds by the press, and the 3 sets of the shaped three-ply boards with the set length, width and thickness are respectively pressed and formed by the respective mould pressing of the 3 three-ply boards to be pressed into 3 different semi-finished products, namely the three-ply board structural material module of the intelligent energy-saving environment-friendly house; pressing the three-ply board into 3 different semi-finished products to form a structural material module of the intelligent energy-saving environment-friendly house, wherein the structural material module is used for assembling the structural material module of the intelligent energy-saving environment-friendly house; the semi-finished products of the structural material modules of the 3 different three-ply boards are pressed into semi-finished products of the structural material modules of the 3 different three-ply boards of the intelligent energy-saving environment-friendly house, and can be produced into components through 3 presses, 3 sets of upper and lower combined plane component molds and a prepared large batch of three-ply boards with the length, width, thickness and shape.

The arrangement method of the component module plan view comprises the following steps:

the arrangement of the component module plan view adopts the figure numbers of the attached drawings of the specification as follows: fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 are arranged respectively:

component module plan view: the following groups are adopted in fig. 2 and 3: the flat member module shape of (1), (2), (12), (14), (15-1) (20), (23), (25), (b) × 3 sheets, and (c).

Component module plan view: the following groups are adopted in fig. 4 and 5: the flat member module shape is composed of (4), (6), (8), (11), (16) × 4 sheets, (17), (18), (24), (27) × 2 sheets, (29), (30) × 2 sheets, (31), (a) × 4 sheets, (b) × 4 sheets, (c) × 8 sheets.

Component module plan view: adopt fig. 6 and fig. 7 as a group: the molded flat member is composed of (3), (5), (7) × 4 sheets, (9), (10), (13) × 4 sheets, (18-1), (19), (21), (22), (26), (28), (31), (a), (b) and (c) × 3 sheets.

The manufacturing method of the plane component die comprises the following steps:

the planar member dies are grouped according to the above member module plan views 2 and 3; FIGS. 4 and 5 are a group; FIGS. 6 and 7 are a group; respectively manufacturing an upper and a lower combined plane component moulds respectively to obtain 3 pairs of plane component moulds in total;

the pressing method comprises the following steps: respectively installing 3 pairs of plane component moulds on the 3 presses by using the 3 presses, respectively installing the lower combined plane component mould on the upper part of the press, installing the upper combined plane component mould on the lower part of the press, installing the upper combined plane component mould and the lower combined plane component mould on the 3 presses, and delivering the upper combined plane component mould and the lower combined plane component mould to be used for pressing a component module of an intelligent energy-saving environment-friendly house after the upper combined plane component mould and the lower combined plane component mould are debugged to be qualified; 3 pairs of upper and lower combined plane component moulds which are different from each other are arranged on 3 presses, and the 3 presses of the 3 shaped three-ply boards with the set length, width and thickness are pressed and formed by the operation of the upper and lower combined plane component moulds of the 3 presses to form 3 structural material modules of the three-ply board of the intelligent energy-saving environment-friendly house, which are combined different semi-finished products;

the three-plate structure material module of the intelligent energy-saving environment-friendly house which is made into 3 different semi-finished products in a group can be used for intelligent development of children and assembly of the intelligent energy-saving environment-friendly house.

Example 2:

an assembling method of an intelligent energy-saving environment-friendly house comprises the following steps:

a child uses 3 pressed semi-finished products which are different and form a group, namely a three-plate structure material module of an intelligent energy-saving environment-friendly house; the needed assembled structural material modules of the intelligent energy-saving environment-friendly house are obtained from pressed three-ply board structural material modules in different shapes and the same shape, and the obtained assembled structural material modules are utilized to give play to the intelligence, imagination and practical ability of children by comparing with an assembling structure diagram and related explanations, so that the assembled structural material modules which are difficult to assemble or cannot be assembled well at a moment are easily assembled and assembled after being carefully, slightly and precisely processed by adopting applicable tools such as sanders, files, scissors and knives, and the assembled structural material modules are assembled into the intelligent energy-saving environment-friendly house.

An assembling program and method of an intelligent energy-saving environment-friendly house are disclosed, which comprises the following steps:

selecting (1) and (2) of the assembly structural material module according to the assembly drawing, and placing the (2) on the (1); then (6) inserting one side of the tenon into the right side inserting hole in the middle of (2), and respectively inserting 4 heads of 4 stair boards of the stair boards of (7) into 4 wall holes of the left wall surface of (6) to the depth of about 3 mm; selecting (8), aligning hole sites in 4 holes on the right side wall of the (8), and inserting the hole sites into the other sides of the 4 floor slabs to the depth of about 3 mm; and then the tenon of the (8) is inserted into the left hole in the middle of the (2), and the stair and platform house (6) of the (7) and the wall surface of the one-layer sharp top house (8) are assembled. Then, selecting (3) and respectively inserting the two tenons into the two holes in the front of the right side of the (2); selecting (4), and inserting the tenon into the hole on the right side of the (2); and (5) selecting and inserting the tenon thereof into the back of the right side (3) of the (2). Selecting (9) and respectively inserting two tenons into two holes in front of the left side of the (2); selecting (10) to insert the tenon into the hole at the back of the left side (9) of the (2); and (11) inserting the hollow body into the hole on the left side of the (2). Selecting (12) to put the square of the square on the upper surfaces of (3), (4), (5) and (6), aligning 4 holes with 4 tenons facing the sky, pressing down and splicing; the flat house is assembled.

4 floor plates with 3 layers of windows are selected and (13), and 4 tenons of the floor plates are respectively inserted into 4 holes in the platform house. Two notches of the two notches are selected (14) to be respectively inserted into the left and right notches of the (13). Two notches of the two notches are inserted into two notches in front and back of the notch (13) and a middle groove of the notches (15) and (14) respectively by selecting (15). Selecting triangular house top plates of the 4 pointed houses (16), and inserting the triangular house top plates into the left, right, front and back holes of the house top plates respectively in alignment with the tenons; the tip rooms of the third floor on the platform house are basically assembled.

Assembling a wind wheel: selecting (15) -1, assembling the connecting rod by the wind wheel, inserting a groove at one end of the connecting rod into a tip of the (15), if the connecting rod is difficult to insert, correcting the angle of the roof component of the (16) by using a tool, inserting and fixing the roof component firmly, installing (24) the wind wheel on a cross rod of a shaft at the other end of the (15) -1, sleeving the axis of the wind wheel (24) on the cross rod of the shaft at the other end of the (15) -1, selecting a wind wheel fixing gasket of the (23), and sleeving the wind wheel (24) on the cross rod of the shaft at the other end of the (15) -1 outside the axis of the wind wheel; and (25) selecting a groove of the U-shaped fixing clamping piece of the wind wheel and a groove of the cross rod of the shaft at the other end of the (15) -1, and inserting the U-shaped fixing clamping piece and the groove into the groove in a crossed manner to fix the wind wheel. The wind wheel is successfully assembled.

Two holes on two sides of the front wall are selected and inserted into two tenons on two sides of the front wall respectively aligned with the tenons on two sides of the front wall (8) and the front of the front wall (11) to be spliced on the front window of the front wall (9) to form a front roof of a roof building; two holes on two sides of the top roof are respectively inserted into two tenons on two sides of the back of the top roof by selecting (18), and the two tenons are spliced on the back wall of the top roof (10) to form a back roof of a sharp top house.

Mounting of the water wheel: selecting (18) -1, and enabling one end with a flat groove to penetrate through the water wheel (20) and the axis of the water wheel; one end of the water wheel with the flat notch (21) passes through the axle center of the water wheel (20) and the water wheel plate and is connected with the notch (18) -1 in a cross-shaped opposite clamping way.

Manufacturing of the water wheel (20): and (4) selecting the water wheel circular plate in the step (20), selecting 12U-shaped hydrodynamic water wheel plates in the step (C), and respectively inserting the 12U-shaped hydrodynamic water wheel plates into 12 notches of the water wheel circular plate to complete the manufacture of the water wheel.

The selection (22) may or may not be used, which is determined by the child's own intelligence and clever and his own ability to move the brain and hands, allowing it to become intelligent.

The notch of the straight notch at the other end of the (18) -1 is selected to be inserted upwards into the wall hole of the (4) and pushed upwards, and the wall hole of the (4) is hooked and clamped by the upward notch of the straight notch; and aligning the tenon at the other end of the selected (21) with the assembling hole on the selected (19), inserting the tenon into the assembling hole, and then respectively inserting the two tenons of the selected (19) into the two holes on the rightmost side of the water wheel (1), so that the water wheel is successfully installed.

The assembling method of the chimney with the one-layer top house comprises the following steps: selecting (26) a rear wall plate of the chimney and the left and right wall plates of the 2 chimneys of (27), and respectively clamping the two tenons of (26) into the grooves of the left and right chimney wall plates of (27), and selecting two tenons of the front wall plate of the chimney of (28) and respectively clamping the two tenons into the grooves of the left and right chimney wall plates of (27); the chimney formed by the front, rear, left and right wall vertical surfaces is basically manufactured, the front, rear, left and right wall vertical surfaces of the chimney are buckled by square chimney covers (29), the chimney is formed, tenons of the two side walls of the formed chimney (27) are respectively inserted into two holes in the left upper side of the rear roof of the pinnacle house, and the chimney of the pinnacle house is successfully assembled.

The assembly method of the high-rise stairs comprises the following steps: selecting 2 stair boards on two sides of the stair of the high-rise building (30), selecting 2 stair boards on the upper stair board and the lower stair board of the stair of the high-rise building (31), and firmly clamping corresponding ladder groove openings to form a stair shape; then, 2 lower notches of the stair shape are respectively inserted into 2 stair holes of the stair body (1), 2 upper notches of the stair body are respectively inserted into 2 stair holes of the stair body (2), and the stair from the bottom of the high-rise building to the platform is successfully assembled.

In conclusion, the intelligent energy-saving environment-friendly house is successfully assembled, not only is the intelligence, brain, hands and imagination of children developed, but also the plane concept, the shape concept and the geometric concept of the children are increased, and the stereo and space concepts are erected; and the environmental protection consciousness that children utilize natural energy of wind energy and water energy and save energy is also increased.