阅读说明：本技术 一种基于电气自动化的建筑装修用升降装置 (Elevating gear for building decoration based on electric automatization ) 是由 景然 刘永奇 高建周 杜勇欣 詹林山 胡昆 叶芳 刘娇 田文慧 李晓朋 于 2020-07-21 设计创作，主要内容包括：本发明公开了一种基于电气自动化的建筑装修用升降装置,包括主支撑板,主支撑板上固定有主体滑轨,主体滑轨上安装有限位滑块,限位滑块上通过下端支柱、连接支柱和上端支柱固定有限位顶框,限位顶框上固定有升降电机,升降电机牵引有升降载板,主支撑板的一端固定有第一连接支撑板,主支撑板的另一端固定有第二连接支撑板,第一连接支撑板的另一端可拆卸固定有第一端部支撑板,第二连接支撑板的另一端固定有第二端部支撑板,第一端部支撑板上固定有第一横移电机,第二端部支撑板上固定有第二横移电机,第一横移电机与第二横移电机分别通过第二收放轮与限位滑块牵引连接。该发明的技术效果为适应性高,自动化程度高、使用便捷和组合拆卸便捷。(The invention discloses an electric automation-based lifting device for building decoration, which comprises a main support plate, a main body slide rail is fixed on the main support plate, a limit slide block is arranged on the main body slide rail, a lower end pillar is arranged on the limit slide block, connecting strut and upper end pillar are fixed with spacing top frame, be fixed with elevator motor on the spacing top frame, elevator motor pulls and has the lift support plate, the one end of main tributary fagging is fixed with first joint support board, the other end of main tributary fagging is fixed with second joint support board, the other end of first joint support board can be dismantled and be fixed with first tip backup pad, the other end of second joint support board is fixed with second tip backup pad, be fixed with first sideslip motor in the first tip backup pad, be fixed with second sideslip motor in the second tip backup pad, first sideslip motor receive and release wheel and spacing slider through the second respectively with the second sideslip motor and pull the connection. The invention has the technical effects of high adaptability, high automation degree, convenient use and convenient combination and disassembly.)

1. The utility model provides a elevating gear for building decoration based on electric automatization which characterized in that: comprises a main support plate (1), the upper surface of the main support plate (1) is fixed with two main body slide rails (2) which are arranged in parallel along the length direction, the main body slide rails (2) are respectively provided with two limit slide blocks (3), each limit slide block (3) is respectively fixed with a lower end pillar (4) which is arranged along the vertical direction, the upper end of the lower end pillar (4) is detachably fixed with a plurality of connecting pillars (5), the upper end of each connecting pillar (5) is detachably fixed with an upper end pillar (6), the upper end of each upper end pillar (6) is fixed with a limit top frame (11), a lifting support plate (10) is arranged between frames which are formed between the lower end pillar (4), the connecting pillars (5) and the upper end pillars (6), and four corners of the limit top frame (11) are respectively fixed with a lifting motor (12) which is arranged along the horizontal direction, a first retractable wheel (13) is coaxially fixed at the output end of the lifting motor (12), a first traction rope (14) is fixedly wound on the first retractable wheel (13), the other end of the first traction rope (14) is respectively fixedly connected with the lifting support plate (10), a plurality of first connecting support plates (15) are detachably fixed at one end of the main support plate (1), a plurality of second connecting support plates (16) are detachably fixed at the other end of the main support plate (1), a first end support plate (17) is detachably fixed at the other end of the first connecting support plate (15), a second end support plate (18) is detachably fixed at the other end of the second connecting support plate (16), a first transverse moving motor (29) arranged along the vertical direction is fixed on the first end support plate (17), and a second transverse moving motor (31) arranged along the vertical direction is fixed on the second end support plate (18), the output of first sideslip motor (29) with the output of second sideslip motor (31) is coaxial fixed with the second respectively and receive and releases wheel (30), the second receives and releases wheel (30) and corresponding limit slide (3) fixed connection through second haulage rope (32) respectively, main tributary backup pad (1), first joint support board (15), second joint support board (16), first end backup pad (17) and second end backup pad (18) are equallyd divide and are installed gyro wheel (23) respectively, equally divide on main tributary backup pad (1), first joint support board (15), second joint support board (16), first end backup pad (17) and second end backup pad (18) and be fixed with electric putter (24) that are used for supporting respectively, the lower fixed surface of main tributary backup pad (1) has electric box (26), be provided with battery, electric box (26) in the electric box, The mobile phone comprises an Ethernet communication module, a CPU, a first receiving circuit module, a second receiving circuit module and a third receiving circuit module, wherein the Ethernet communication module is in signal connection with a wireless router, the wireless router is in signal connection with a smart phone, the Ethernet communication module is connected with the CPU, the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively connected with the CPU, a first transverse moving motor (29) and a second transverse moving motor (31) are respectively connected with the first receiving circuit module, an electric push rod (24) is connected with the second receiving circuit module, a lifting motor (12) is respectively connected with the third receiving circuit module, and the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively and electrically connected with a storage battery.

2. The lifting device for building decoration based on electric automation as claimed in claim 1, wherein: the both ends of connecting strut (5) the upper end of lower extreme pillar (4) and the lower extreme of upper end pillar (6) is provided with 3/4 connection sideboard (7) that set up along the outside side respectively, and is adjacent through first fastening bolt (8) fixed connection between 3/4 connection sideboard (7), 3/4 is connected and is offered the first mounting hole that is used for first fastening bolt (8) installation to fix on sideboard (7).

3. The lifting device for building decoration based on electric automation as claimed in claim 1, wherein: the medial surface of lower extreme pillar (4) the medial surface of connecting support (5) with the medial surface of upper end pillar (6) is equallyd divide and is do not seted up being used for the installation of mutual butt joint spacing spout (9) of lift support plate (10), be fixed with on the lateral wall of lift support plate (10) be used for with spacing arch (28) of spacing joint of spacing spout (9).

4. The lifting device for building decoration based on electric automation as claimed in claim 1, wherein: the adjacent first connecting support plates (15) are detachably and fixedly connected, and the adjacent second connecting support plates (16) are detachably and fixedly connected.

5. The lifting device for building decoration based on electric automation as claimed in claim 1, wherein: the one end side of first joint support board (15), the terminal surface of second joint support board (16), the one end side of first end backup pad (17) with it respectively is fixed with two spacing post (20) of inserting equally on the one end side of second end backup pad (18), the both ends side of main tributary backup pad (1), the other end side of first joint support board (15), two spacing jack (21) that are used for connecting the installation are seted up respectively to the other terminal surface of second joint support board (16) spacing post (20) of inserting, main tributary backup pad (1), first joint support board (15) with all through second fastening bolt (33) fixed connection between second joint support board (16) and corresponding spacing post (20), all set up on main tributary backup pad (1), first joint support board (15), second joint support board (16) and the spacing post (20) of inserting and be used for second fastening bolt (33) ) And a second mounting hole (22) fixedly connected.

6. The lifting device for building decoration based on electric automation as claimed in claim 1, wherein: the electric push rod (24) is arranged along the vertical direction, and the end part of a telescopic rod of the electric push rod (24) is arranged downwards and is fixedly connected with a supporting cushion block (25).

7. The lifting device for building decoration based on electric automation as claimed in claim 1, wherein: the first connecting support plate (15), the second connecting support plate (16), the first end support plate (17) and the second end support plate (18) are respectively provided with a splicing slide rail (19) along the length direction.

8. The lifting device for building decoration based on electric automation as claimed in claim 7, wherein: the adjacent main body slide rail (2) with butt joint end to end between concatenation slide rail (19), adjacent butt joint end to end between concatenation slide rail (19).

9. The lifting device for building decoration based on electric automation as claimed in claim 1, wherein: the upper surface of the first end supporting plate (17) and the upper surface of the second end supporting plate (18) are respectively provided with a limiting mounting groove hole (27) for mounting and fixing a corresponding first transverse moving motor (29) and a corresponding second transverse moving motor (31).

Technical Field

The invention relates to the technical field of lifting devices for building decoration, in particular to a lifting device for building decoration based on electrical automation.

Background

Building decoration is a short for building decoration project. The architectural decoration is a variety of processes for the interior and exterior surfaces and spaces of buildings by using decorative materials or ornaments in order to protect the main structure of the buildings, improve the physical properties and use functions of the buildings and beautify the buildings. Especially when decorating hall, hotel, auditorium etc. that some floor height are higher, need use the climbing ladder, the support frame of building or crane to bear the weight of the decorator and carry out the various processing of decorating to higher place, these device structures for bearing the weight of decorator are fairly simple at present, and degree of automation is lower, and the in-process of fitment needs the reciprocal removal of staff to bear the weight of the device, and reciprocating one on the other like this, not only wastes time and energy, but also causes the safety problem very easily.

Therefore, the lifting device for building decoration based on electrical automation is high in automation degree, convenient to assemble and disassemble, capable of being assembled and adapted to decoration construction of a higher wall surface, a top surface, a wider wall surface and a longer wall surface according to needs, and capable of being decorated without climbing up and down and readjusting by workers.

Disclosure of Invention

The invention aims to provide a lifting device for building decoration based on electric automation so as to achieve the technical effects provided in the background technology.

In order to realize the purpose, the invention provides the following technical scheme: a lifting device for building decoration based on electric automation comprises a main support plate, wherein two main body slide rails which are arranged in parallel are fixed on the upper surface of the main support plate along the length direction, two limit sliders are respectively installed on the main body slide rails, a lower end pillar which is arranged along the vertical direction is respectively fixed on each limit slider, a plurality of connecting pillars are detachably fixed at the upper ends of the lower end pillars, upper end pillars are detachably fixed at the upper ends of the connecting pillars, a limit top frame is fixed at the upper end of each upper end pillar, a lifting support plate is installed between the lower end pillars and a frame which is formed by the connecting pillars and the upper end pillars, lifting motors which are arranged along the horizontal direction are respectively fixed at four corners of the limit top frame, a first retractable wheel is coaxially fixed at the output end of each lifting motor, and a first traction rope is fixedly wound on the first retractable wheel, the other end of the first traction rope is respectively fixedly connected with the lifting support plate, one end of the main support plate is detachably fixed with a plurality of first connecting support plates, the other end of the main support plate is detachably fixed with a plurality of second connecting support plates, the other end of the first connecting support plates is detachably fixed with a first end support plate, the other end of the second connecting support plates is detachably fixed with a second end support plate, the first end support plate is fixedly provided with a first transverse moving motor arranged along the vertical direction, the second end support plate is fixedly provided with a second transverse moving motor arranged along the vertical direction, the output end of the first transverse moving motor and the output end of the second transverse moving motor are respectively and coaxially fixed with a second retractable wheel, the second retractable wheel is respectively and fixedly connected with a corresponding limiting slide block through a second traction rope, the main support plate is fixedly connected with the lifting support plate, and the first end of the main support, The first connecting support plate, the second connecting support plate, the first end support plate and the second end support plate are respectively provided with a roller, the main support plate, the first connecting support plate, the second connecting support plate, the first end support plate and the second end support plate are respectively fixed with an electric push rod for supporting, the lower surface of the main support plate is fixed with an electric box, a storage battery, an Ethernet communication module, a CPU, a first receiving circuit module, a second receiving circuit module and a third receiving circuit module are arranged in the electric box, the Ethernet communication module is in signal connection with a wireless router, the wireless router is in signal connection with a smart phone, the Ethernet communication module is connected with the CPU, the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively connected with the CPU, the first transverse moving motor and the second transverse moving motor are respectively connected with the first receiving circuit module, the electric push rod is connected with the second receiving circuit module, the lifting motor is respectively connected with the third receiving circuit module, and the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively and electrically connected with the storage battery.

Preferably, the both ends of connecting strut, the upper end of lower extreme pillar and the lower extreme of upper end pillar is provided with respectively along the 3/4 connection sideboard that outside side set up, and is adjacent 3/4 connect between the sideboard through first fastening bolt fixed connection, 3/4 connect and offer the first mounting hole that is used for first fastening bolt installation fixed on the sideboard.

Preferably, the medial surface of lower extreme pillar the medial surface of connecting strut with the medial surface of upper end pillar is equallyd divide and is do not seted up the installation that is used for of mutual butt joint the spacing spout of lift support plate, be fixed with on the lateral wall of lift support plate be used for with the spacing arch of the spacing joint of spacing spout.

Preferably, adjacent first connection supporting plates are detachably and fixedly connected, and adjacent second connection supporting plates are detachably and fixedly connected.

Preferably, the one end side of first joint support board, a terminal surface of second joint support board, the one end side of first end backup pad with equally divide on the one end side of second end backup pad and be fixed with two spacing posts of inserting respectively, the both ends side of main tributary backup pad, the other end side of first joint support board, another terminal surface of second joint support board is seted up two respectively and is used for connecting the installation spacing jack of inserting the post, the main tributary backup pad, first joint support board with all through second fastening bolt fixed connection between second joint support board and the corresponding spacing post of inserting, all offer the second mounting hole that is used for second fastening bolt fixed connection on main tributary backup pad, first joint support board, second joint support board and the spacing post of inserting.

Preferably, the electric push rod is arranged along the vertical direction, and the end part of the telescopic rod of the electric push rod is downwards arranged and fixedly connected with the supporting cushion block.

Preferably, the first connecting support plate, the second connecting support plate, the first end support plate and the second end support plate are respectively provided with a splicing slide rail along the length direction.

Preferably, the adjacent main body slide rail with the end-to-end butt joint between the concatenation slide rail, adjacent end-to-end butt joint between the concatenation slide rail.

Preferably, the upper surface of the first end supporting plate and the upper surface of the second end supporting plate are respectively provided with a limiting mounting slot hole for mounting and fixing a corresponding first traverse motor and a corresponding second traverse motor.

Compared with the prior art, the invention has the beneficial effects that:

1. the lifting device for building decoration based on electric automation selects a corresponding number of first connecting support plates and second connecting support plates to be butted and assembled with two ends of a main support plate according to the length of a wall surface to be decorated, then butt-joints and assemblies are carried out on the first end support plates and the second end support plates, then the height of the wall surface and the height of the top surface to be decorated are selected, a corresponding number of connecting support columns are selected to be spliced and then spliced with corresponding lower end support columns and upper end support columns, the upper ends of the upper end support columns are fixedly welded with limiting top frames to form a lifting limiting frame, limiting slide blocks are fixedly welded at the lower ends of the lower end support columns, the limiting slide blocks are installed on corresponding main body slide rails, and finally, second traction ropes wound by second retractable wheels on a first traverse motor are fixedly connected with two adjacent limiting slide blocks, with the winding second haulage rope of second winding and unwinding wheel on the second sideslip motor and two adjacent limit slide fixed connection, realize the convenient equipment when elevating gear uses for the building decoration, after finishing using, according to opposite order alright carry out convenient dismantlement to it for it is convenient to dismantle the installation.

2. The lifting device for building decoration based on electric automation is characterized in that a lower end support column arranged along the vertical direction is respectively fixed on each limiting slide block, a plurality of connecting support columns are detachably fixed at the upper ends of the lower end support columns, an upper end support column is detachably fixed at the upper ends of the connecting support columns, a limiting top frame is fixed at the upper end of the upper end support column, a lifting support plate is arranged between the lower end support column and a frame formed by the connecting support columns and the upper end support column, lifting motors arranged along the horizontal direction are respectively fixed at four corners of the limiting top frame, a first winding and unwinding wheel is coaxially fixed at the output end of each lifting motor, a first traction rope is fixedly wound on the first winding and unwinding wheel, the other end of each first traction rope is respectively and fixedly connected with the lifting support plate, the number of the connecting support columns arranged in the lifting device can be increased, the purpose of improving the height of the limiting top frame is achieved, and, the height can be adjusted, and the wall surface and the top surface with a certain height can be decorated.

3. The lifting device for building decoration based on electric automation is characterized in that a plurality of first connecting supporting plates are detachably fixed at one end of a main supporting plate, a plurality of second connecting supporting plates are detachably fixed at the other end of the main supporting plate, a first end supporting plate is detachably fixed at the other end of the first connecting supporting plate, a second end supporting plate is detachably fixed at the other end of the second connecting supporting plate, a first transverse moving motor arranged along the vertical direction is fixed on the first end supporting plate, a second transverse moving motor arranged along the vertical direction is fixed on the second end supporting plate, second retracting wheels are coaxially fixed at the output end of the first transverse moving motor and the output end of the second transverse moving motor respectively, the second retracting wheels are fixedly connected with corresponding limiting slide blocks through second traction ropes respectively, and the number of the first connecting supporting plates and the second connecting supporting plates can be selected as required, the realization is to the extension of its length for the frame of constituteing between lower extreme pillar, connecting strut and the upper end pillar has a more wideer stroke, and carry out traction motion under the drive of first sideslip motor, second sideslip motor, be convenient for to the fitment construction of wall and building wall top surface different positions, realize can be to the fitment construction of extension wall and building top surface.

4. This elevating gear for building decoration based on electric automatization, through at the main tributary backup pad, first joint support board, the second joint support board, it does not install the gyro wheel to equally divide in first end backup pad and the second end backup pad, and at the main tributary backup pad, first joint support board, the second joint support board, it does not be fixed with the electric putter that is used for supporting to equally divide on first end backup pad and the second end backup pad, and set up and fixedly connected with supporting pad down at electric putter's telescopic link tip, when needs move change construction point to whole device, gyro wheel wherein plays the effect of support, realize convenient removal to the device, when needs fitment construction, electric putter wherein plays the effect of support with supporting pad, guarantee the stability that whole device supported.

5. The lifting device for building decoration based on electric automation is characterized in that an electric box is fixed on the lower surface of a support plate through a main body, a storage battery, an Ethernet communication module, a CPU, a first receiving circuit module, a second receiving circuit module and a third receiving circuit module are arranged in the electric box, the Ethernet communication module is in signal connection with a wireless router, the wireless router is in signal connection with a smart phone, the Ethernet communication module is connected with the CPU, the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively connected with the CPU, a first transverse moving motor and a second transverse moving motor are respectively connected with the first receiving circuit module, an electric push rod is connected with the second receiving circuit module, a lifting motor is respectively connected with the third receiving circuit module, the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively and electrically connected with the storage battery, when the intelligent mobile phone is used, a worker only needs to download an APP client on the intelligent mobile phone, wherein the APP client is provided with a control switch for controlling the forward rotation of the second transverse moving motor, a control switch for controlling the reverse rotation of the first transverse moving motor, a control switch for controlling the forward rotation of the lifting motor, a control switch for controlling the reverse rotation of the lifting motor, a control switch for controlling the extension of the electric push rod and a control switch for controlling the contraction of the electric push rod, the worker only needs to press a corresponding remote control switch button in the APP client on a lifting support plate, at the moment, the intelligent mobile phone transmits an instruction signal to the wireless router through a wireless network, then the wireless router transmits the instruction signal to the Ethernet communication module, wherein the Ethernet communication module is used for debugging and debugging the instruction signal transmitted on the Ethernet and converts the instruction signal into data of 0 and 1 which can be identified by a CPU, then the instruction signal is processed by the CPU and transmitted to the first receiving circuit module, the second receiving circuit module and the third receiving circuit module, wherein the first receiving circuit module, the second receiving circuit module and the third receiving circuit module respectively adopt two paths of wireless remote controller switches, l represents a positive input end, N represents a negative input end and is connected with a storage battery, A1 and A2 represent two paths of normally open output ends, B1 and B2 represent public ends, C1 and C2 represent normally closed output ends, A1 and B1 of a first receiving circuit module are connected with a forward rotation control circuit of a second transverse moving motor and A2 and B2 of the first receiving circuit module are connected with a reverse rotation control circuit of the first transverse moving motor, so that left and right traction movement of a frame formed by a lower end support column, a connecting support column and an upper end support column is realized, and decoration construction along the transverse direction of a wall surface is facilitated; the lifting control of the lifting support plate is realized by connecting the forward rotation control circuit of the lifting motor with the A1 and B1 of the third receiving circuit module and the reverse rotation control circuit of the lifting motor with the A2 and B2 of the third receiving circuit module, so that decoration construction can be conveniently carried out along the longitudinal direction of the wall surface; the stretching control circuit of the electric push rod is connected by the aid of the A1 and the B1 of the second receiving circuit module, and the contraction control circuit of the electric push rod is connected by the aid of the A2 and the B2 of the second receiving circuit module, so that stretching and contraction control of the electric push rod is achieved, and the roller support and the electric push rod support can be conveniently and fast switched.

Drawings

FIG. 1 is a schematic view of a combined structure of a lifting device for building decoration based on electric automation;

FIG. 2 is a schematic diagram of a disassembled structure of a lifting device for building decoration based on electric automation;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

fig. 4 is a schematic view of a combined structure of a lower end pillar, a connecting pillar, an upper end pillar, a lifting support plate, a limiting top frame and a lifting motor of the lifting device for building decoration based on electrical automation;

FIG. 5 is a schematic structural view of a lifting support plate of a lifting device for building decoration based on electrical automation;

FIG. 6 is a schematic diagram of an intelligent control system of a lifting device for building decoration based on electrical automation;

FIG. 7 is a schematic diagram of the connection between a first receiving circuit module and a first traverse motor and between a first receiving circuit module and a second traverse motor of the lifting device for building decoration based on electrical automation;

FIG. 8 is a schematic diagram of the connection between the second receiving circuit module and the electric push rod of the lifting device for building decoration based on electric automation;

fig. 9 is a schematic diagram of connection between a third receiving circuit module and a lifting motor of the lifting device for building decoration based on electrical automation.

In the figure: 1-a main supporting plate; 2-a body slide rail; 3-limiting the sliding block; 4-lower end pillars; 5-connecting the supporting columns; 6-upper end pillar; 7-3/4 connecting side plates; 8-a first fastening bolt; 9-a limiting chute; 10-lifting the carrier plate; 11-a limit top frame; 12-a lifting motor; 13-a first retracting wheel; 14-a first pull cord; 15-a first connection support plate; 16-a second connection support plate; 17-a first end support plate; 18-a second end support plate; 19-splicing the sliding rails; 20-limiting inserting columns; 21-a limiting jack; 22-a second mounting hole; 23-a roller; 24-an electric push rod; 25-a support pad block; 26-an electrical box; 27-limiting mounting slot holes; 28-a limit bump; 29-a first traverse motor; 30-a second retracting wheel; 31-a second traverse motor; 32-a second pull cord; 33-second fastening bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a lifting device for building decoration based on electric automation comprises a main support plate 1, wherein two main body slide rails 2 arranged in parallel are fixed on the upper surface of the main support plate 1 along the length direction, two limit sliders 3 are respectively installed on the main body slide rails 2, each limit slider 3 is respectively fixed with a lower end pillar 4 arranged along the vertical direction, the upper end of each lower end pillar 4 is detachably fixed with a plurality of connecting pillars 5, the upper end of each connecting pillar 5 is detachably fixed with an upper end pillar 6, the upper end of each upper end pillar 6 is fixed with a limit top frame 11, a lifting support plate 10 is installed between the lower end pillar 4 and a frame formed between the connecting pillars 5 and the upper end corner pillars 6, four limit top frames 11 are respectively fixed with a lifting motor 12 arranged along the horizontal direction, and the output end of the lifting motor 12 is coaxially fixed with a first retractable wheel 13, a first traction rope 14 is fixedly wound on the first retractable wheel 13, the other end of the first traction rope 14 is fixedly connected with the lifting support plate 10, a plurality of first connecting support plates 15 are detachably fixed at one end of the main support plate 1, a plurality of second connecting support plates 16 are detachably fixed at the other end of the main support plate 1, a first end support plate 17 is detachably fixed at the other end of the first connecting support plate 15, a second end support plate 18 is detachably fixed at the other end of the second connecting support plate 16, a first transverse moving motor 29 arranged along the vertical direction is fixed on the first end support plate 17, a second transverse moving motor 31 arranged along the vertical direction is fixed on the second end support plate 18, and second retractable wheels 30 are coaxially fixed at the output end of the first transverse moving motor 29 and the output end of the second transverse moving motor 31 respectively, the second retractable wheel 30 is fixedly connected with the corresponding limiting slide block 3 through a second traction rope 32, the main support plate 1, the first connecting support plate 15, the second connecting support plate 16, the first end support plate 17 and the second end support plate 18 are respectively provided with a roller 23, the main support plate 1, the first connecting support plate 15, the second connecting support plate 16, the first end support plate 17 and the second end support plate 18 are respectively fixed with an electric push rod 24 for supporting, the lower surface of the main support plate 1 is fixed with an electric box 26, a storage battery, an Ethernet communication module, a CPU, a first receiving circuit module, a second receiving circuit module and a third receiving circuit module are arranged in the electric box 26, the Ethernet communication module is in signal connection with a wireless router, the wireless router is in signal connection with a smart phone, and the Ethernet communication module is connected with the CPU, the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively connected with the CPU, the first transverse moving motor 29 and the second transverse moving motor 31 are respectively connected with the first receiving circuit module, the electric push rod 24 is connected with the second receiving circuit module, the lifting motor 12 is respectively connected with the third receiving circuit module, and the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively and electrically connected with the storage battery.

In this embodiment, the both ends of connecting strut 5, the upper end of lower extreme pillar 4 and the lower extreme of upper end pillar 6 are provided with 3/4 connection sideboard 7 that set up along the outside side respectively, and is adjacent 3/4 connect between the sideboard 7 through first fastening bolt 8 fixed connection, 3/4 is connected and is offered the first mounting hole that is used for first fastening bolt 8 installation fixed on the sideboard 7.

In this embodiment, the inner side surface of the lower end pillar 4, the inner side surface of the connecting pillar 5 and the inner side surface of the upper end pillar 6 are respectively provided with a limiting sliding groove 9 which is butted with each other and used for installing the lifting carrier plate 10, and a limiting protrusion 28 which is used for being clamped with the limiting sliding groove 9 in a limiting manner is fixed on the side wall of the lifting carrier plate 10.

In this embodiment, adjacent first connection support plates 15 are detachably and fixedly connected, and adjacent second connection support plates 16 are detachably and fixedly connected.

In this embodiment, two limit posts 20 are fixed on the side surface of one end of the first connecting support plate 15, the end surface of the second connecting support plate 16, the side surface of one end of the first end support plate 17 and the side surface of one end of the second end support plate 18, two limit insertion holes 21 for connecting and installing the limit insertion posts 20 are respectively arranged on the side surfaces of the two ends of the main support plate 1, the side surface of the other end of the first connection support plate 15 and the other end surface of the second connection support plate 16, the main supporting plate 1, the first connecting supporting plate 15 and the second connecting supporting plate 16 are fixedly connected with the corresponding limiting inserting columns 20 through second fastening bolts 33, and the main support plate 1, the first connecting support plate 15, the second connecting support plate 16 and the limiting insertion column 20 are all provided with second mounting holes 22 for fixedly connecting second fastening bolts 33.

In this embodiment, the electric push rod 24 is disposed along a vertical direction, and an end of a telescopic rod of the electric push rod 24 faces downward and is fixedly connected with a support cushion block 25.

In this embodiment, the first connecting support plate 15, the second connecting support plate 16, the first end support plate 17 and the second end support plate 18 are respectively provided with a splicing slide rail 19 along the length direction.

In this embodiment, the adjacent main body slide rail 2 and the end-to-end butt joint between the splicing slide rails 19, the adjacent end-to-end butt joint between the splicing slide rails 19.

In this embodiment, the upper surface of the first end supporting plate 17 and the upper surface of the second end supporting plate 18 are respectively provided with a limiting mounting slot 27 for mounting and fixing a corresponding first traverse motor 29 and a corresponding second traverse motor 31.

The invention has the beneficial effects that:

the lifting device for building decoration based on electric automation selects a corresponding number of first connecting support plates 15 and second connecting support plates 16 to be butted and assembled with two ends of a main support plate 1 according to the length of a wall surface to be decorated, then butt-joints and assemblies are carried out on a first end support plate 17 and a second end support plate 18, then the height of the wall surface and the height of the top surface to be decorated are selected, a corresponding number of connecting support columns 5 are selected to be spliced and then spliced with corresponding lower end support columns 4 and upper end support columns 6, limiting top frames 11 are fixedly welded on the upper ends of the upper end support columns 6 to form a lifting limiting frame, wherein limiting slide blocks 3 are fixedly welded on the lower ends of the lower end support columns 4, the limiting slide blocks 3 are installed on corresponding main body slide rails 2, and finally second traction ropes 32 wound on second retraction wheels 30 on first traverse motors 29 are fixedly connected with two adjacent limiting slide blocks 3, with the winding second haulage rope 32 of second winding and unwinding wheel 30 on the second sideslip motor 31 and two adjacent spacing slider 3 fixed connection, realize the convenient equipment when elevating gear uses to the building decoration, after finishing using, according to opposite order alright carry out convenient dismantlement to it for it is convenient to dismantle the installation.

The lifting device for building decoration based on electric automation comprises a lower end pillar 4 which is fixed on each limit slider 3 along the vertical direction, a plurality of connecting pillars 5 which are detachably fixed on the upper ends of the lower end pillars 4, an upper end pillar 6 which is detachably fixed on the upper ends of the connecting pillars 5, a limit top frame 11 which is fixed on the upper end of the upper end pillar 6, a lifting support plate 10 which is arranged between the lower end pillar 4 and the frame which is formed by the connecting pillars 5 and the upper end pillar 6, lifting motors 12 which are arranged along the horizontal direction and are respectively fixed on four corners of the limit top frame 11, a first retractable wheel 13 which is coaxially fixed on the output end of the lifting motor 12, a first traction rope 14 which is fixedly wound on the first retractable wheel 13, the other end of the first traction rope 14 is respectively fixedly connected with the lifting support plate 10, wherein the connecting pillars 5 which are arranged can increase the number of the first traction rope, thereby achieving the purpose of improving the height, so that the lifting motor 12 can pull the lifting support plate 10 to reach the required height, and the height can be adjusted to adapt to the decoration of wall surfaces and top surfaces with certain heights.

The lifting device for building decoration based on electric automation comprises a plurality of first connecting support plates 15 detachably fixed at one ends of main support plates 1, a plurality of second connecting support plates 16 detachably fixed at the other ends of the main support plates 1, first end support plates 17 detachably fixed at the other ends of the first connecting support plates 15, second end support plates 18 detachably fixed at the other ends of the second connecting support plates 16, first transverse moving motors 29 arranged in the vertical direction are fixed on the first end support plates 17, second transverse moving motors 31 arranged in the vertical direction are fixed on the second end support plates 18, second retractable wheels 30 are coaxially fixed at output ends of the first transverse moving motors 29 and output ends of the second transverse moving motors 31 respectively, the second retractable wheels 30 are fixedly connected with corresponding limiting sliding blocks 3 through second traction ropes 32 respectively, and the first connecting support plates 15, the second connecting support plates 15 and the second connecting support plates can be selected as required, The quantity of second joint support board 16 realizes the extension to its length for the frame of constituteing between lower extreme pillar 4, connecting strut 5 and the upper end pillar 6 has a wider stroke, and carry out traction motion under first sideslip motor 29, second sideslip motor 31's the drive, be convenient for to the fitment construction of wall and building wall top surface different positions, the realization can be to the fitment construction of extension wall and building top surface.

This elevating gear for building decoration based on electric automatization, through at main tributary backup pad 1, first connection backup pad 15, second connection backup pad 16, it installs gyro wheel 23 respectively to divide equally on first end backup pad 17 and the second end backup pad 18, and at main tributary backup pad 1, first connection backup pad 15, second connection backup pad 16, it is fixed with the electric putter 24 that is used for supporting respectively to divide equally on first end backup pad 17 and the second end backup pad 18, and set up and fixedly connected with supporting pad 25 down at electric putter 24's telescopic link tip, when needs remove the change construction point to whole device, gyro wheel 23 wherein plays the effect of support, realize convenient removal to the device, when needing fitment construction, electric putter 24 wherein and supporting pad 25 play the effect of support, guarantee the stability that whole device supported.

The lifting device for building decoration based on electric automation is characterized in that an electric box 26 is fixed on the lower surface of a support plate 1 through a main body, a storage battery, an Ethernet communication module, a CPU, a first receiving circuit module, a second receiving circuit module and a third receiving circuit module are arranged in the electric box 26, the Ethernet communication module is in signal connection with a wireless router, the wireless router is in signal connection with a smart phone, the Ethernet communication module is connected with the CPU, the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively connected with the CPU, a first transverse moving motor 29 and a second transverse moving motor 31 are respectively connected with the first receiving circuit module, an electric push rod 24 is connected with the second receiving circuit module, a lifting motor 12 is respectively connected with the third receiving circuit module, the first receiving circuit module, the second receiving circuit module and the third receiving circuit module are respectively and electrically connected with the storage battery, when in use, a worker only needs to download an APP client on the own smart phone, wherein the APP client is provided with a control switch for controlling the forward rotation of the second traverse motor 31, a control switch for controlling the reverse rotation of the first traverse motor 29, a control switch for controlling the forward rotation of the lifting motor 12, a control switch for controlling the reverse rotation of the lifting motor 12, a control switch for controlling the extension of the electric push rod 24 and a control switch for controlling the contraction of the electric push rod 24, the worker only needs to press a corresponding remote control switch button in the APP client on the lifting support plate 10, at the moment, the smart phone transmits an instruction signal to the wireless router through a wireless network, and then the wireless router transmits the instruction signal to the Ethernet communication module, wherein the Ethernet communication module is used for debugging and debugging the instruction signal transmitted on the Ethernet and converts the instruction signal into data of 0 and 1 which can be identified by a CPU, then the instruction signal is processed by the CPU and transmitted to the first receiving circuit module, the second receiving circuit module and the third receiving circuit module, wherein the first receiving circuit module, the second receiving circuit module and the third receiving circuit module respectively adopt two paths of wireless remote controller switches, wherein L represents the positive pole input end, N represents the negative pole input end, connect the storage battery, A1, A2 represent two-way normally open output end, B1, B2 represent the common port, C1, C2 represent the normally closed output end, utilize A1, B1 of the first receiving circuit module to connect the forward rotation control circuit of the second traverse motor 31 and utilize A2, B2 of the first receiving circuit module to connect the reverse rotation control circuit of the first traverse motor 29, realize and carry on the left and right traction movement to the frame formed between pillar 4 of the lower end, connecting pillar 5 and pillar 6 of the upper end, facilitate the fitment construction along the horizontal direction of the wall; the forward rotation control circuit of the lifting motor 12 is connected by the aid of the A1 and B1 of the third receiving circuit module, and the reverse rotation control circuit of the lifting motor 12 is connected by the aid of the A2 and B2 of the third receiving circuit module, so that lifting control of the lifting carrier plate 10 is achieved, and decoration construction can be conveniently carried out along the longitudinal direction of the wall surface; the stretching control circuit of the electric push rod 24 is connected by the aid of the A1 and the B1 of the second receiving circuit module, and the contraction control circuit of the electric push rod 24 is connected by the aid of the A2 and the B2 of the second receiving circuit module, so that stretching and contraction control of the electric push rod 24 is achieved, and the support of the roller wheel 23 and the support of the electric push rod 24 can be conveniently switched.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.