阅读说明：本技术 一种建筑用铺设水泥板设备 (Cement plate laying equipment for building ) 是由 苏秀云 于 2019-11-20 设计创作，主要内容包括：本发明涉及建筑领域,更具体的说是一种建筑用铺设水泥板设备。可以通过筛分组合体对砂石进行筛分,进而获得细沙；可以通过搅拌混合组合体实现对混凝土的制备和运输；可以通过底板固定装置驱动装置移动；可以通过边缘触发组合体适应弧形轨迹的情况；并且可以调节装置在弧形轨迹的运动速率。包括筛分组合体、搅拌混合组合体、底板固定装置、边缘触发组合体、中端转轴一、连接皮带一,中端转柱一运动,通过中端转柱一带动着凸轮二运动,进而驱动着凸轮一运动,进而驱动着中端转柱二运动,进而驱动着锥齿轴皮带二运动,进而通过框架锥齿轴二带动着框架锥齿二运动,进而通过传动锥齿五驱动着反向滑轮运动,通过反向滑轮与弧形轨迹的接触。(The invention relates to the field of buildings, in particular to a cement board laying device for buildings. The sand and stone can be screened through the screening combination body, and then fine sand is obtained; the preparation and transportation of concrete can be realized through the stirring and mixing assembly; the driving device can move through the bottom plate fixing device; the situation of an arc-shaped track can be adapted through the edge trigger assembly; and the rate of movement of the device in an arcuate path can be adjusted. Including the screening assembly, the mixed assembly of stirring, bottom plate fixing device, the edge triggers the assembly, middle-end pivot one, connect belt one, middle-end rotary column motion, it moves to drive cam two through middle-end rotary column one, and then drive cam one and move, and then drive middle-end rotary column two and move, and then drive the motion of awl tooth axle belt two, and then drive the motion of frame awl tooth two through frame awl tooth axle two, and then drive reverse pulley motion through transmission awl tooth five, through the contact of reverse pulley with the arc orbit.)

1. The utility model provides a cement board equipment of laying for building, includes screening assembly (1), the mixed assembly of stirring (2), bottom plate fixing device (3), edge trigger assembly (4), middle-end pivot (5), connection belt (6), its characterized in that: screening combination body (1) mixes combination body (2) with the stirring and is connected, and the stirring mixes combination body (2) and is connected with bottom plate fixing device (3), and edge trigger combination body (4) is connected with bottom plate fixing device (3), and middle-end pivot (5) are connected with bottom plate fixing device (3), and connecting belt (6) are connected with stirring and mix combination body (2), and connecting belt (6) are connected with middle-end pivot (5).

2. The apparatus for laying cement boards for construction according to claim 1, wherein: the screening assembly (1) comprises a rectangular outer frame (1-1), an outer wall boss (1-2), a sliding waist groove (1-3), a transverse sliding rod (1-4), a driving cross rod (1-5), a hinged connecting rod (1-6), a middle end rotating wheel (1-7), an arc-shaped sliding rod (1-8), an inner end clamp (1-9), a matching clamping rod (1-10), an inner end pushing spring I (1-11), an inner end pushing spring II (1-12), a screen plate I (1-13), a screen plate II (1-14), a rectangular screen hole I (1-15), a rectangular screen hole II (1-16), an inner end slider (1-17), an inner end sliding column (1-18), a sliding column pushing spring (1-19), a clamping groove (1-20), an inner end pushing spring III (1-21), Inner end clips A (1-22) and hinging blocks (1-23), an outer wall boss (1-2) is connected with a rectangular outer frame (1-1), a sliding waist groove (1-3) is connected with the rectangular outer frame (1-1), a transverse sliding rod (1-4) is connected with the outer wall boss (1-2), a hinging connecting rod (1-6) is connected with the transverse sliding rod (1-4), a driving cross rod (1-5) is connected with the hinging connecting rod (1-6), the transverse sliding rod (1-4) is connected with an arc-shaped sliding rod (1-8), an inner end clip (1-9) is connected with a middle end rotating wheel (1-7), an inner end push spring II (1-12) is connected with the inner end clip (1-9), and a matching clamping rod (1-10) is connected with the arc-shaped sliding rod (1-8), an inner end push spring I (1-11) is connected with a matching clamping rod (1-10), an inner end clamp (1-9) is connected with the matching clamping rod (1-10), a sieve plate I (1-13) is connected with a sieve plate II (1-14), a rectangular sieve pore I (1-15) is connected with the sieve plate I (1-13), a rectangular sieve pore II (1-16) is connected with the sieve plate II (1-14), an inner end sliding column (1-18) is connected with the sieve plate II (1-14), a sliding column push spring (1-19) is connected with the inner end sliding column (1-18), an inner end slider (1-17) is connected with the inner end sliding column (1-18), an inner side wall clamping groove (1-20) is connected with the sieve plate II (1-14), an inner end clamp A (1-22) is connected with the inner end slider (1-17), an inner end push spring III (1-21) is connected with an inner end slider (1-17), an inner end clamp A (1-22) is connected with an inner side wall clamping groove (1-20), a hinge block (1-23) is connected with a sieve plate I (1-13), the hinge block (1-23) is connected with a driving cross rod (1-5), and an inner end sliding column (1-18) is connected with a rectangular outer frame (1-1).

3. The apparatus for laying cement boards for construction according to claim 1, wherein: the stirring and mixing assembly (2) comprises a stirring and mixing outer frame (2-1), an inner end arc-shaped groove (2-2), an outer plate (2-3), a communication hole I (2-4), a hinge rod A (2-5), a belt pulley tooth I (2-6), a straight tooth I (2-7), a straight tooth II (2-8), a discharge pipeline (2-9), a spiral blade (2-10), an upper end cover (2-11), a stirring rod (2-12), a connecting belt II (2-13), a conical gear shaft I (2-14), a conical gear I (2-15), a conical gear II (2-16), an inclined plane boss (2-17), an inner cavity I (2-18) and an inner cavity II (2-19), wherein the inner end arc-shaped groove (2-2) is connected with the stirring and mixing outer frame (2-1), an outer plate (2-3) is connected with a stirring and mixing outer frame (2-1), a communication hole I (2-4) is connected with the outer plate (2-3), a hinge rod A (2-5) is connected with the outer plate (2-3), a spiral blade (2-10) is connected with the outer plate (2-3), a pulley tooth I (2-6), a straight tooth I (2-7) and a straight tooth II (2-8) are connected with the spiral blade (2-10), the pulley tooth I (2-6) is connected with the straight tooth I (2-7), the straight tooth I (2-7) is connected with the straight tooth II (2-8), a discharge pipeline (2-9) is connected with the outer plate (2-3), the discharge pipeline (2-9) is connected with the communication hole I (2-4), an inner cavity I (2-18) is connected with the discharge pipeline (2-9), the inner cavity II (2-19) is connected with a discharging pipeline (2-9), the upper end cover (2-11) is connected with a stirring and mixing outer frame (2-1), the stirring rod (2-12) is connected with the upper end cover (2-11), the connecting belt II (2-13) is connected with the stirring rod (2-12), the connecting belt II (2-13) is connected with the bevel gear shaft I (2-14), the bevel gear shaft I (2-14) is connected with the upper end cover (2-11), the bevel gear I (2-15) is connected with the bevel gear shaft I (2-14), the bevel gear I (2-15) is connected with the bevel gear II (2-16), the bevel gear II (2-16) is connected with the spiral blade (2-10), the inclined plane boss (2-17) is connected with the stirring and mixing outer frame (2-1), the rectangular outer frame (1-1) is connected with the stirring and mixing outer frame (2-1), the middle-end rotating shaft I (5) is connected with the hinge rod A (2-5), the middle-end rotating shaft I (5) is connected with the connecting belt I (6), and the connecting belt I (6) is connected with the belt wheel teeth I (2-6).

4. The apparatus for laying cement boards for construction according to claim 1, wherein: the bottom plate fixing device (3) comprises an input motor (3-1), a transmission bevel gear I (3-2), a bottom plate I (3-3), a transmission belt III (3-4), a middle-end transmission shaft (3-5), a connecting belt wheel (3-6), a transmission bevel gear II (3-7), a lower end roller (3-8), a roller (3-9), a roller bevel gear (3-10), a middle shaft (3-11), a middle shaft bevel gear (3-12), a middle-end supporting rod (3-13) and a transmission belt IV (3-14), wherein the input motor (3-1) is connected with the bottom plate I (3-3), the transmission bevel gear I (3-2) is connected with the input motor (3-1), the middle-end supporting rod (3-13) is connected with the input motor (3-1), a third transmission belt (3-4) is connected with an input motor (3-1), a connecting belt wheel (3-6) is connected with the third transmission belt (3-4), a middle transmission shaft (3-5) is connected with the connecting belt wheel (3-6), the middle transmission shaft (3-5) is connected with a middle support rod (3-13), a second transmission bevel gear (3-7) is connected with a first transmission bevel gear (3-2), a lower roller (3-8) is connected with a roller (3-9), a roller bevel gear (3-10) is connected with the roller (3-9), a roller bevel gear (3-10) is connected with a middle shaft bevel gear (3-12), the middle shaft bevel gear (3-12) is connected with a middle shaft (3-11), the middle shaft (3-11) is connected with a first bottom plate (3-3), a transmission belt IV (3-14) is connected with the middle shaft (3-11), the transmission belt IV (3-14) is connected with the input motor (3-1), the stirring and mixing outer frame (2-1) is connected with the bottom plate I (3-3), the middle end transmission shaft (3-5) is connected with the middle end rotating wheel (1-7), and the middle end rotating shaft I (5) is connected with the transmission bevel gear II (3-7).

5. The apparatus for laying cement boards for construction according to claim 1, wherein: the edge trigger assembly (4) comprises an outer frame (4-1), a frame sliding column (4-2), a frame bevel gear I (4-3), a frame bevel gear shaft I (4-4), a bevel gear shaft belt I (4-5), a middle end rotating column I (4-6), a middle end rotating column II (4-7), a bevel gear shaft belt II (4-8), a frame bevel gear II (4-9), a frame bevel gear shaft II (4-10), a reverse pulley (4-11), a transmission bevel gear V (4-12), a rectangular sliding block (4-13), an inner end push spring R (4-14), a cam I (4-15), a cam II (4-16), a drive slider I (4-17), a drive rod (4-18), a drive slider II (4-19), a cam III (4-20), A fourth cam (4-21), a frame sliding column (4-2) is connected with the outer frame (4-1), a frame bevel gear I (4-3) is connected with a frame bevel gear shaft I (4-4), the frame bevel gear shaft I (4-4) is connected with the outer frame (4-1), a bevel gear shaft belt I (4-5) is connected with the frame bevel gear shaft I (4-4), the bevel gear shaft belt I (4-5) is connected with a middle end rotating column I (4-6), the middle end rotating column I (4-6) is connected with a second cam (4-16), the second cam (4-16) is connected with the outer frame (4-1), the middle end rotating column II (4-7) is connected with the first cam (4-15), the first cam (4-15) is connected with the outer frame (4-1), a second frame bevel gear shaft (4-10) is connected with an outer frame (4-1), the second frame bevel gear shaft (4-10) is connected with a second frame bevel gear (4-9), the second frame bevel gear shaft (4-10) is connected with a second bevel gear shaft belt (4-8), the second bevel gear shaft belt (4-8) is connected with a second middle-end rotating column (4-7), a reverse pulley (4-11) is connected with a fifth transmission bevel gear (4-12), the fifth transmission bevel gear (4-12) is connected with a rectangular sliding block (4-13), an inner end push spring R (4-14) is connected with a sliding column (4-2) of the frame, the sliding column (4-2) of the frame is connected with the rectangular sliding block (4-13), a first driving sliding block (4-17) is connected with the second middle-end rotating column (4-7), the driving slider II (4-19) is connected with the middle-end rotating column I (4-6), the driving rod (4-18) is connected with the driving slider II (4-19), the driving rod (4-18) is connected with the driving slider I (4-17), the cam III (4-20) and the cam IV (4-21) are connected with the outer frame (4-1), the cam IV (4-21) is connected with the middle-end rotating column II (4-7), the cam III (4-20) is connected with the middle-end rotating column I (4-6), the bottom plate I (3-3) is connected with the outer frame (4-1), and the frame cone tooth I (4-3) is connected with the roller cone tooth (3-10).

Technical Field

The invention relates to the field of buildings, in particular to a cement board laying device for buildings.

Background

The cement board laying equipment for the building is a common equipment in the building engineering, but the common cement board laying equipment for the building has single function.

Disclosure of Invention

The invention aims to provide cement board paving equipment for buildings, which can sieve sand and stone through a sieving combination body so as to obtain fine sand; the preparation and transportation of concrete can be realized through the stirring and mixing assembly; the driving device can move through the bottom plate fixing device; the situation of an arc-shaped track can be adapted through the edge trigger assembly; and the rate of movement of the device in an arcuate path can be adjusted.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a cement slab laying equipment for building, includes that screening assembly, stirring mix assembly, bottom plate fixing device, edge trigger assembly, middle-end pivot one, connection belt one, screening assembly mixes the assembly with the stirring and is connected, and the stirring mixes the assembly and is connected with bottom plate fixing device, and the edge triggers the assembly and is connected with bottom plate fixing device, and middle-end pivot one is connected with bottom plate fixing device, and connection belt one mixes the assembly with the stirring and is connected, and connection belt one is connected with middle-end pivot one.

As a further optimization of the technical scheme, the invention relates to cement slab paving equipment for buildings, which comprises a rectangular outer frame, an outer wall boss, a sliding waist groove, a transverse sliding rod, a driving cross rod, a hinged connecting rod, a middle-end rotating wheel, an arc-shaped sliding rod, an inner end clamp, a matching clamping rod, an inner end push spring I, an inner end push spring II, a sieve plate I, a sieve plate II, a rectangular sieve mesh I, a rectangular sieve mesh II, an inner end slider, an inner end sliding column, a sliding column push spring, an inner side wall clamping groove, an inner end push spring III, an inner end clamp A and a hinged block, wherein the outer wall boss is connected with the rectangular outer frame, the sliding waist groove is connected with the rectangular outer frame, the transverse sliding rod is connected with the outer wall boss, the hinged connecting rod is connected with the transverse sliding rod, the transverse sliding rod is connected with the arc-shaped sliding rod, the inner end clamp, the inner end pushing spring III is connected with the inner end slider, the inner end clip is connected with the inner end sliding column, the inner end slider is connected with the first sieve plate, the inner end slider is connected with the inner end sliding column, the inner side clamping groove is connected with the second sieve plate, the inner end clip A is connected with the inner end slider, the inner end pushing spring III is connected with the inner end slider, the inner end clip A is connected with the inner end slider, the inner end hinge block is connected with the first sieve plate, the hinge block is connected with the driving cross rod, and the inner end sliding column is connected with the rectangular outer frame.

As a further optimization of the technical scheme, the invention relates to cement plate paving equipment for buildings, which comprises a stirring and mixing outer frame, an inner end arc-shaped groove, an outer plate, a communication hole I, a hinge rod A, a belt wheel tooth I, a straight tooth II, a material discharge pipeline, a spiral blade, an upper end cover, a stirring rod, a connecting belt II, a bevel gear shaft I, a bevel gear II, a bevel boss, an inner cavity I and an inner cavity II, wherein the inner end arc-shaped groove is connected with the stirring and mixing outer frame, the outer plate is connected with the stirring and mixing outer frame, the communication hole I is connected with the outer plate, the hinge rod A is connected with the outer plate, the spiral blade is connected with the outer plate, the belt wheel tooth I, the straight tooth I and the straight tooth II are connected with the spiral blade, the belt wheel tooth I is connected with the straight tooth I, the straight tooth I is connected with the communication hole, inner chamber one is connected with row material pipeline, inner chamber two is connected with row material pipeline, the upper end cover is connected with the mixed frame of stirring, the puddler is connected with the upper end cover, it is connected with the puddler to connect belt two, it is connected with awl fluted shaft one to connect belt two, awl fluted shaft one is connected with the upper end cover, awl fluted shaft one is connected with awl fluted shaft one, awl fluted shaft one is connected with awl fluted two, awl fluted shaft two is connected with the spiral leaf, the inclined plane boss is connected with the mixed frame of stirring, the rectangle frame is connected with the mixed frame of stirring, middle-end pivot one is connected with hinge bar A, middle-end pivot one is connected with connecting belt one, connecting belt one is connected with band pulley tooth one.

As a further optimization of the technical scheme, the invention relates to cement slab paving equipment for buildings, which comprises a bottom plate fixing device, an input motor, a first transmission bevel gear, a first bottom plate, a third transmission belt, a middle end transmission shaft, a connecting belt wheel, a second transmission bevel gear, a lower end roller, a roller, a roller bevel gear, a middle shaft bevel gear, a middle end support rod and a fourth transmission belt, wherein the input motor is connected with the first bottom plate, the first transmission bevel gear is connected with the input motor, the middle end support rod is connected with the input motor, the third transmission belt is connected with the input motor, the connecting belt wheel is connected with the three phases of the transmission belt, the middle end transmission shaft is connected with the connecting belt wheel, the middle end transmission shaft is connected with the middle end support rod, the second transmission bevel gear is connected with the first transmission bevel gear, the lower end roller is connected with the roller, the roller bevel gear is, the middle shaft bevel gear is connected with the middle shaft, the middle shaft is connected with the first bottom plate, the fourth transmission belt is connected with the middle shaft, the fourth transmission belt is connected with the input motor, the stirring and mixing outer frame is connected with the first bottom plate, the middle end transmission shaft is connected with the middle end rotating wheel, and the first middle end rotating shaft is connected with the second transmission bevel gear.

As a further optimization of the technical scheme, the invention relates to cement plate paving equipment for buildings, which comprises an outer frame, a frame sliding column, a frame bevel gear I, a frame bevel gear shaft I, a bevel gear shaft belt I, a middle end rotating column II, a bevel gear shaft belt II, a frame bevel gear shaft II, a reverse pulley, a transmission bevel gear fifth, a rectangular slide block, an inner end push spring R, a cam I, a cam II, a driving slider I, a driving rod, a driving slider II, a cam III and a cam IV, wherein the frame sliding column is connected with the outer frame, the frame bevel gear I is connected with the frame bevel gear shaft I, the frame bevel gear shaft belt I is connected with the frame bevel gear shaft I, the bevel gear shaft belt I is connected with the middle end rotating column I, the cam II and the outer frame, the middle end rotating column II is connected with the cam I, the first cam is connected with the outer frame, the second frame bevel gear shaft is connected with the second frame bevel gear, the second frame bevel gear shaft is connected with the second bevel gear shaft belt, the second bevel gear shaft belt is connected with the second middle end rotating column, the reverse pulley is connected with the fifth transmission bevel gear, the fifth transmission bevel gear is connected with the rectangular sliding block, the inner end push spring R is connected with the frame sliding column, the frame sliding column is connected with the rectangular sliding block, the first driving slider is connected with the second middle end rotating column, the second driving slider is connected with the first middle end rotating column, the driving rod is connected with the second driving slider, the driving rod is connected with the first driving slider, the third cam and the fourth cam are connected with the outer frame, the fourth cam is connected with the second middle end rotating column, the third cam is connected with the first middle end rotating column, the first bottom plate is connected with the outer frame, and the first.

The cement board laying equipment for the building has the beneficial effects that:

the invention relates to cement board paving equipment for buildings, which is characterized in that a middle-end rotating column I moves, a cam II is driven to move through the middle-end rotating column I, then the cam I is driven to move, then the middle-end rotating column II is driven to move, further a bevel gear shaft belt II is driven to move, further a frame bevel gear II is driven to move through a frame bevel gear shaft II, further a reverse pulley is driven to move through a transmission bevel gear V, and the track of the equipment is changed through the contact of the reverse pulley and an arc track; the driving slider I and the driving slider II are shifted through the driving rod to slide along the middle-end rotating column II and the middle-end rotating column I respectively, and are connected with the cam I and the cam II or the cam III and the cam IV respectively in a matched mode through the middle-end rotating column II and the middle-end rotating column I, so that the rotation speed of the reverse pulley is adjusted.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a third schematic view of the overall structure of the present invention;

FIG. 4 is a first schematic illustration of the screen assembly configuration of the present invention;

figure 5 is a second schematic illustration of the screen assembly configuration of the present invention;

figure 6 is a schematic illustration of a third screen assembly configuration of the present invention;

figure 7 is a fourth schematic illustration of the screen assembly configuration of the present invention;

figure 8 is a fifth schematic illustration of the screening assembly configuration of the present invention;

figure 9 is a sixth schematic representation of the screening assembly of the present invention;

figure 10 is a seventh schematic illustration of the screening assembly configuration of the present invention;

figure 11 is a schematic view eight of the screen assembly configuration of the present invention;

figure 12 is a ninth screen assembly configuration of the present invention;

FIG. 13 is a first schematic structural view of a stirring and mixing assembly of the present invention;

FIG. 14 is a schematic structural view of a stirring and mixing assembly of the present invention;

FIG. 15 is a third schematic structural view of a stirring and mixing assembly of the present invention;

FIG. 16 is a fourth schematic structural view of a stirring and mixing assembly of the present invention;

FIG. 17 is a fifth schematic structural view of a stirring and mixing assembly of the present invention;

FIG. 18 is a first structural view of a base plate fixing device of the present invention;

FIG. 19 is a second structural view of the bottom plate fixing device of the present invention;

FIG. 20 is a first schematic view of the edge triggered assembly of the present invention;

FIG. 21 is a second schematic structural diagram of the edge triggered assembly of the present invention;

FIG. 22 is a third schematic view of the edge triggered assembly of the present invention;

FIG. 23 is a fourth schematic view of the edge triggered assembly of the present invention;

FIG. 24 is a fifth schematic view of the edge triggered assembly of the present invention;

fig. 25 is a sixth schematic view of the edge triggered assembly of the present invention.

In the figure: a screening assembly 1; a rectangular outer frame 1-1; 1-2 parts of an outer wall boss; 1-3 of a sliding waist groove; 1-4 of a transverse sliding rod; 1-5 of a driving cross bar; hinged connecting rods 1-6; 1-7 of a middle-end rotating wheel; 1-8 arc slide bars; inner end clips 1-9; 1-10 of a matching clamping rod; the inner end pushes the spring 1-11; the inner end pushes a spring II 1-12; 1-13 parts of a sieve plate I; sieve plate II 1-14; 1-15 rectangular sieve holes; a second rectangular screen hole is 1-16; inner end sliders 1 to 17; inner end sliding columns 1-18; a strut push spring 1-19; inner side wall clamping grooves 1-20; the inner end pushes the spring three 1-21; inner end clips A1-22; hinge blocks 1-23; a stirring and mixing assembly 2; stirring and mixing the outer frame 2-1; an inner end arc-shaped groove 2-2; an outer panel 2-3; 2-4 of a communication hole I; hinge rods A2-5; 2-6 of a belt wheel tooth I; 2-7 parts of straight teeth I; 2-8 parts of straight teeth II; 2-9 parts of a discharge pipeline; 2-10 parts of spiral leaves; 2-11 parts of an upper end cover; 2-12 parts of a stirring rod; connecting belts II 2-13; 2-14 parts of a bevel gear shaft I; 2-15 parts of a first bevel gear; 2-16 parts of a second bevel gear; 2-17 of a bevel boss; 2-18 parts of a first inner cavity; 2-19 parts of a second inner cavity; a bottom plate fixing device 3; inputting a motor 3-1; 3-2 parts of a first transmission bevel gear; 3-3 of a first bottom plate; 3-4 parts of a transmission belt; 3-5 parts of a middle-end transmission shaft; connecting belt wheels 3-6; 3-7 parts of a second transmission bevel gear; 3-8 parts of lower end rollers; 3-9 parts of roller shafts; 3-10 parts of roller conical teeth; 3-11 of a middle shaft; 3-12 parts of middle shaft bevel gear; 3-13 parts of middle-end supporting rod; a fourth transmission belt 3-14; an edge trigger assembly 4; an outer frame 4-1; a frame strut 4-2; 4-3 of a frame bevel gear I; 4-4 of a frame bevel gear shaft; 4-5 parts of a bevel gear shaft belt I; 4-6 of a middle-end rotating column I; 4-7 of a middle-end rotary column II; 4-8 parts of a bevel gear shaft belt II; 4-9 parts of frame bevel gear II; 4-10 of a frame bevel gear shaft II; 4-11 of a reverse pulley; 4-12 parts of transmission bevel gear five; 4-13 of a rectangular sliding block; the inner end pushing spring R4-14; 4-15 parts of a cam I; 4-16 parts of a second cam; 4-17 of a driving slider; a drive rod 4-18; driving the slider two 4-19; 4-20 parts of a cam; 4-21 parts of cam; a middle end rotating shaft I5; and a first connecting belt 6.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by welding; fixing by means of thread fixing and the like, and using different fixing modes by combining different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; the required sealing positions are sealed by sealing rings or O-shaped rings.