CN108179866B

CN108179866B - Vertical automatic wall brick pasting device for building construction

Info

Publication number: CN108179866B
Application number: CN201810295121.1A
Authority: CN
Inventors: 文晓斐
Original assignee: Anhui Tancheng Construction Co ltd
Current assignee: Anhui Tancheng Construction Co ltd; Cheng Xiaohu
Priority date: 2018-03-30
Filing date: 2018-03-30
Publication date: 2023-07-11
Anticipated expiration: 2038-03-30
Also published as: CN108179866A

Abstract

The invention discloses a vertical automatic wall brick attaching device for building construction, which comprises a strip-shaped bearing base, wherein a vertical automatic wall brick attaching mechanism is arranged on the upper surface of the strip-shaped bearing base, and a moving mechanism is arranged on the lower surface of the strip-shaped bearing base; the device has the beneficial effects that the device is convenient to rotate, adsorb and attach the wall bricks through control, realize automatic tiling, lighten labor intensity, improve working efficiency, and facilitate extrusion fixation of the attached wall bricks through adjusting the horizontal rolling cylinder.

Description

Vertical automatic wall brick pasting device for building construction

Technical Field

The invention relates to the field of wall bricks, in particular to a vertical automatic wall brick pasting device for building construction.

Background

The wall-sticking brick is an operation of sticking ceramic tiles on the wall surface to enable the wall surface to be smooth.

Along with the continuous development of society, people's living standard is also continuously advancing, after satisfying the temperature and full, more enjoys life, begins to improve living environment, in order to make indoor become pleasing to the eye, perhaps according to some waterproof requirement, need paste the ceramic tile on indoor wall, in the tradition all paste, because the ceramic tile has certain gravity, and the volume of every ceramic tile is than less, therefore large tracts of land wall needs the time long, manual strength is also very big, the wall brick after the laminating finishes in the tradition needs the manual work to extrude for fixed, trouble relatively, so in order to solve these circumstances, it is very necessary to design an automatic wall brick pasting's device.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme. The utility model provides a vertical automatic wall brick device for construction, includes bar bearing base, bar bearing base upper surface establishes vertical automatic wall brick mechanism that pastes, bar bearing base lower surface is equipped with moving mechanism, vertical automatic wall brick mechanism is by fixed connection at the ladder load-bearing frame of bar bearing base upper surface, fixed connection at the bar fixed plate of one end of ladder load-bearing frame upper surface, inlay the horizontal slide rail of dress at bar fixed plate upper surface, set up at the automatically controlled movable block of horizontal slide rail upper surface, set up at automatically controlled movable block upper surface and drive end ascending drive arrangement, the fixed tong of suit on the drive arrangement drive end, set up the rotation load-bearing frame in the fixed tong, the vertical riser of fixed connection in rotation load-bearing frame center department, fixed connection is on the two opposite side surfaces of vertical riser and pass the multiunit horizontal automatically controlled push rod of rotation load-bearing frame, the hollow tube of suit on the terminal surface of every horizontal automatically controlled push rod, the telescopic cylinder sucking disc of suit on the terminal surface of every hollow tube, the telescopic cylinder of fixed connection is set up at the horizontal push piston of every hollow cylinder, set up in the automatically controlled cylinder, set up the telescopic cylinder, set up and the hydraulic pressure cap of telescopic cylinder and the inside the hollow tube on the terminal support plate of L, the hydraulic pressure cap is connected at the side of L, the miniature support plate and the miniature cylinder, the hydraulic pressure side joint is formed at the end face of the miniature support plate in the miniature cylinder.

Preferably, a group of sliding frames are arranged on the lower surface of each L-shaped supporting plate, a group of horizontal sliding ways connected with each group of sliding frames are fixedly connected in the ladder bearing frame, and the upper end of the left side surface of the ladder bearing frame is hinged with a limiting plate which is overlapped with the side surface of each L-shaped supporting plate.

Preferably, the vertical support plate is fixedly connected to the edge of the upper surface of the ladder bearing frame, the first swing arm of a plurality of is hinged to the right side surface of the vertical support plate, the second swing arm of a plurality of, which is matched with the first swing arm of a plurality of, is hinged to the side surface of the first swing arm, the second swing arm is hinged to the side surface of the second swing arm, the horizontal rolling cylinder is fixedly connected to one end of the right side surface of the first horizontal frame and one end of the right side surface of the second horizontal frame, and the n-shaped pushing handle is fixedly connected between the rear surfaces of the first horizontal frame and the second horizontal frame.

Preferably, the side surfaces of the vertical support plates are fixedly connected with two groups of triangular support plates between the upper surfaces of the ladder carrying frames.

Preferably, one end of the lower surface of each L-shaped supporting plate is fixedly connected with an elastic bar-shaped limiting block.

Preferably, the moving mechanism comprises two groups of rectangular fixing plates fixedly connected to four corners of the lower surface of the strip-shaped bearing base, a group of damping springs embedded on the lower surface of each rectangular fixing plate, a bearing frame fixedly connected to the lower surface of each group of damping springs, and universal wheels fixedly connected to the lower surface of each bearing frame.

Preferably, the back surface of the strip-shaped bearing base is fixedly connected with an L-shaped pushing handle, and an anti-slip ring is sleeved on the L-shaped pushing handle.

Preferably, the idle part of the upper surface of the ladder bearing frame is fixedly connected with a vertical stretching rod, and a horizontal stretching scale is sleeved on the vertical stretching rod.

Preferably, the number of the plurality of groups of horizontal electric control push rods is 4-8 groups, and the horizontal electric control push rods are uniformly distributed.

Preferably, a first strip-shaped groove is processed at the lower end of the left side of the ladder bearing frame, an electric storage box body is arranged in the first strip-shaped groove, a group of storage batteries are arranged in the electric storage box body, and the controller is electrically connected with the total output end of the group of storage batteries through a lead.

The device has the beneficial effects that the device is convenient to rotate, adsorb and attach the wall bricks through control, realize automatic tiling, lighten labor intensity, improve working efficiency, and facilitate extrusion fixation of the attached wall bricks through adjusting the horizontal rolling cylinder.

Drawings

FIG. 1 is a schematic structural view of a vertical automatic wall brick attaching device for building construction according to the present invention;

FIG. 2 is a top view of a vertical automatic wall brick attachment device for construction according to the present invention;

FIG. 3 is a top cross-sectional view of a vertical automatic wall brick attachment apparatus for construction according to the present invention;

FIG. 4 is a side cross-sectional view of the cooperation of a horizontal electric control push rod, a hollow tube, a wall brick suction cup, a pushing piston and a stretching tube in a vertical automatic wall brick attaching device for building construction according to the present invention;

FIG. 5 is an enlarged view of a portion of a rotary carriage, horizontal electric control push rod, hollow tube, wall tile suction cup and extension tube of a vertical automatic wall tile attachment device for construction according to the present invention;

the reference numerals in the figures illustrate: 1. a strip-shaped bearing base; 2. a step load frame; 3. a bar-shaped fixing plate; 4. a horizontal slide rail; 5. an electric control moving block; 6. a driving device; 7. fixing the clamping hand; 8. rotating the bearing frame; 9. a vertical plate; 10. a horizontal electric control push rod; 11. a hollow tube; 12. a wall brick sucking disc; 13. a telescopic cylinder; 14. pushing the piston; 15. stretching the tube; 16. an L-shaped support plate; 17. miniature hydraulic ejector rod; 18. a strip-shaped rubber push block; 19. a controller; 20. a carriage; 21. a horizontal slideway; 22. a limiting plate; 23. a vertical support plate; 24. a first swing arm; 25. a second swing arm; 26. a horizontal frame I; 27. a second horizontal frame; 28. a horizontal rolling cylinder; 29. an n-shaped push handle; 30. a triangular support plate; 31. an elastic bar-shaped limiting block; 32. a rectangular fixing piece; 33. a damping spring; 34. a carrier; 35. a universal wheel; 36. l-shaped pushing handles; 37. an anti-slip ring; 38. a vertical stretching rod; 39. horizontally stretching the scale; 40. an electricity storage case; 41. and a storage battery.

Detailed Description

The drawings in the embodiments of the present invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only a few embodiments of the present invention; but not all embodiments. Based on the embodiments in the present invention; all other embodiments obtained by those skilled in the art without undue burden; all falling within the scope of the present invention.

Referring to fig. 1-5, a vertical automatic wall brick attaching device for building construction comprises a strip-shaped bearing base 1, wherein a vertical automatic wall brick attaching mechanism is arranged on the upper surface of the strip-shaped bearing base 1, a moving mechanism is arranged on the lower surface of the strip-shaped bearing base 1, the vertical automatic wall brick pasting mechanism comprises a ladder bearing frame 2 fixedly connected to the upper surface of a bar bearing base 1, a bar-shaped fixed plate 3 fixedly connected to one end of the upper surface of the ladder bearing frame 2, a horizontal sliding rail 4 embedded on the upper surface of the bar-shaped fixed plate 3, an electric control movable block 5 arranged on the upper surface of the horizontal sliding rail 4, a driving device 6 arranged on the upper surface of the electric control movable block 5 and with an upward driving end, a fixed clamping hand 7 sleeved on the driving end of the driving device 6, a rotary bearing frame 8 arranged in the fixed clamping hand 7, a vertical plate 9 fixedly connected to the center of the rotary bearing frame 8, a plurality of groups of horizontal electric control push rods 10 fixedly connected to the surfaces of two opposite sides of the vertical plate 9 and penetrating through the rotary bearing frame 8 the horizontal electric control push rod 10 comprises hollow tubes 11 sleeved on the end surfaces of the horizontal electric control push rods 10, wall brick suckers 12 sleeved on the end surfaces of the hollow tubes 11, a group of telescopic air cylinders 13 fixedly connected to the upper surfaces of the vertical plates 9, pushing pistons 14 arranged in the hollow tubes 11, a stretching tube 15 sleeved on the telescopic ends of the telescopic air cylinders 13 and communicated with the interiors of the hollow tubes 11, a group of L-shaped support plates 16 arranged at the other ends in the ladder bearing frame 2, two groups of miniature hydraulic ejector rods 17 fixedly connected to the side surfaces of the L-shaped support plates 16, and strip-shaped rubber push blocks 18 sleeved on the end surfaces of the miniature hydraulic ejector rods 17, the controller 19 is embedded on the side surface of the ladder bearing frame 2, the controller 19 is electrically connected with the horizontal electric control push rod 10, the telescopic cylinder 13 and the miniature hydraulic ejector rod 17 in the vertical automatic wall brick attaching mechanism through wires respectively; a group of sliding frames 20 are arranged on the lower surface of each L-shaped supporting plate 16, a group of horizontal sliding ways 21 connected with each group of sliding frames 20 are fixedly connected in the ladder bearing frame 2, and a limiting plate 22 overlapped with the side surface of each L-shaped supporting plate 16 is hinged at the upper end of the left side surface of the ladder bearing frame 2; the edge of the upper surface of the ladder bearing frame 2 is fixedly connected with a vertical supporting plate 23, the right side surface of the vertical supporting plate 23 is hinged with a plurality of first swinging arms 24, the right side surface of the ladder bearing frame 2 is hinged with a plurality of second swinging arms 25 which are matched with the plurality of first swinging arms 24 and are positioned below the strip-shaped fixing plate 3, the side surfaces of the plurality of first swinging arms 24 are hinged with a first horizontal frame 26, the side surfaces of the plurality of second swinging arms 25 are hinged with a second horizontal frame 27, one ends of the right side surfaces of the first horizontal frame 26 and the second horizontal frame 27 are fixedly connected with a horizontal rolling cylinder 28, and an n-shaped pushing handle 29 is fixedly connected between the rear surfaces of the first horizontal frame 26 and the second horizontal frame 27; the side surfaces of the vertical support plates 23 are fixedly connected with two groups of triangular support plates 30 between the upper surfaces of the ladder bearing frames 2; one end of the lower surface of each L-shaped supporting plate 16 is fixedly connected with an elastic bar-shaped limiting block 31; the moving mechanism comprises two groups of rectangular fixing plates 32 fixedly connected to four corners of the lower surface of the strip-shaped bearing base 1, a group of damping springs 33 embedded on the lower surface of each rectangular fixing plate 32, a bearing frame 34 fixedly connected to the lower surface of each group of damping springs 33, and universal wheels 35 fixedly connected to the lower surface of each bearing frame 34; the rear surface of the strip-shaped bearing base 1 is fixedly connected with an L-shaped pushing handle 36, and an anti-slip ring 37 is sleeved on the L-shaped pushing handle 36; the idle part of the upper surface of the ladder bearing frame 2 is fixedly connected with a vertical stretching rod 38, and a horizontal stretching scale 39 is sleeved on the vertical stretching rod 38; the number of the plurality of groups of horizontal electric control push rods 10 is 4-8 groups, and the horizontal electric control push rods are uniformly distributed; the lower end of the left side of the ladder bearing frame 2 is provided with a first strip-shaped groove, the first strip-shaped groove is internally provided with an electric storage box body 40, the electric storage box body 40 is internally provided with a group of storage batteries 41, and the controller 19 is electrically connected with the total output ends of the group of storage batteries 41 through wires.

Working principle: firstly, a motor driver and two relays are installed at the idle position of the device, the model of the controller 19 is MAM-220, four output terminals of the controller 19 of the model are respectively connected with the motor driver, the two relays and the input end of the electric control moving block 5 through wires, one motor driver is connected with the wiring end of a driving motor of the horizontal electric control push rod 10 through wires, meanwhile, the two relays are connected with the telescopic cylinder 13 and the electromagnetic valve of the miniature hydraulic push rod 17, and the total output end of a group of storage batteries 41 is connected with the electric connection end of the controller 19 through wires. After programming by the controller 19, the working sequence of each electric device can be completely controlled, and the specific working principle is as follows: when the device is used, the device is pushed to a designated place, firstly, the wall bricks to be paved are placed on a group of L-shaped supporting plates 16, wherein two groups of micro hydraulic pushing rods 17 positioned on the side surface of each L-shaped supporting plate 16 are convenient to properly stretch and retract through control, strip-shaped rubber pushing blocks 18 positioned on the end surface of each micro hydraulic pushing rod 17 are convenient to be relatively anti-slip when pushing, and the wall bricks are provided with a certain weight, so that in order to ensure the stability of stacking a plurality of wall bricks together, after each pushing, a group of micro hydraulic ejector rods 17 on the upper layer of each L-shaped supporting plate 16 properly retract and form an inclined shape with a group of micro hydraulic ejector rods 17 on the lower layer, so that a plurality of wall bricks form an inclined shape, the placement is stable, and when pushing each time, the wall bricks on the side surface of a rotary bearing frame 8 are sucked by a wall brick sucker 12, then, the driving device 6 is controlled in advance to work and rotate, the rotary bearing frame 8 is also rotated by the fixed clamping hand 7, all the horizontal electric control pushing rods 10 positioned on the vertical upright plate 9 are driven by the vertical upright plate 9 positioned on the upper surface of the rotary bearing frame 8 to exchange positions, the absorbed wall bricks are rotated to one side of the wall surface to be attached by the wall brick sucker 12 positioned on the end surface of each horizontal electric control pushing rod 10, the hollow tube 11 positioned between each wall brick sucker 12 and the corresponding horizontal electric control pushing rod 10 is convenient for the absorption, the telescopic cylinder 13 positioned on the upper surface of the vertical upright plate 9 is controlled to properly extend and retract by the control, the pushing piston 14 positioned in the hollow tube 11 moves outwards under the pneumatic pushing, and when contacting the wall bricks, after the wall bricks are overlapped, the air in the wall brick sucking disc 12 is fully discharged, the wall bricks are properly retracted, the air pressure between the inside of the wall brick sucking disc 12 and the wall bricks is enabled to be lower, the air pressure is almost in a vacuum state, the adsorption effect is better, when the wall bricks are attached to the wall surface, pushing is firstly carried out, the inside of the wall brick sucking disc 12 is driven into the air, the wall bricks are loosened, in uniform movement, the wall bricks are adsorbed continuously through control, rotation and attachment operation are carried out, automatic attachment is facilitated, after each wall brick is adsorbed, each miniature hydraulic ejector rod 17 is convenient to retract continuously to realize continuous movement of the wall bricks, a driving device 6 is connected with a horizontal sliding rail 4 through an electric control moving block 5, the electric control moving block 5 can be enabled to move on the corresponding horizontal sliding rail 4, a proper adjustment position is facilitated, the horizontal sliding rail 4 is connected with the upper surface of a ladder bearing frame 2 through a strip-shaped fixed plate 3, the ladder bearing frame 2 is fixedly connected with the upper surface of the bearing base 1, each horizontal pushing rod 10 is adsorbed on the wall brick, the inside of the hollow sliding frame is conveniently stretched and placed on the corresponding air cylinder group 21 through a telescopic support plate 16, the inner side of the hollow sliding frame is conveniently connected with the hollow sliding device 21, the hollow sliding device is conveniently placed on the inner side of the hollow sliding frame 21 through the hollow sliding frame 21, the hollow sliding device is conveniently stretched and is conveniently placed on the hollow sliding frame 21, wherein the elastic bar-shaped limiting block 31 positioned at one end of the upper surface of each L-shaped supporting plate 16 is convenient for effectively limiting the bottom of the wall brick, wherein the elastic bar-shaped limiting block 31 is made of soft rubber, is convenient for taking out the wall brick when the wall brick is adsorbed, and then rebounds to limit the wall brick of the next block, wherein after the lamination is finished, the n-shaped pushing handle 29 is manually held by hand, the first horizontal frame 26 and the second horizontal frame 27 are properly swung, the horizontal rolling cylinder 28 positioned on the side surfaces of the first horizontal frame 26 and the second horizontal frame 27 are closely attached to the surface of the wall brick just laminated, manual extrusion is carried out, the lamination effect is good, the first horizontal plate 26 is connected with the vertical supporting plate 23 on the upper surface of the ladder bearing frame 2 through a plurality of first swinging arms 24, and is convenient for swinging, wherein the second horizontal frame 27 is connected with the side surface of the ladder carrying frame 2 through a plurality of second swinging arms 25, and is also convenient to swing, wherein the strength of extrusion is convenient to adjust according to the distance therebetween, wherein the vertical supporting plate 23 is connected with the upper surface of the ladder carrying frame 2 through two groups of triangular supporting plates 30, the stability of the support is convenient, wherein the limiting block 22 positioned on one end of each horizontal slideway 21 is convenient to limit the movement range of the corresponding sliding frame 20, wherein when the device is moved, the universal wheels 35 positioned below the strip carrying base 1 are convenient to move by pushing, so that the device is moved, wherein each universal wheel 35 is connected with a group of damping springs 33 through a carrying frame 34, each group of damping springs 33 is connected with the lower surface of the strip carrying base 1 through a rectangular fixing plate 32, each damping spring 33 is convenient to reduce vibration, the wall bricks carried in the device are protected, the device is also convenient to press appropriately according to different terrains, so that the fitting is convenient to adjust the levelness, the L-shaped pushing handle 36 positioned on the side surface of the strip-shaped bearing base 1 is convenient to push, the anti-slip ring 37 positioned on the L-shaped pushing handle 36 is convenient to push and comfortable to push, the horizontal stretching scale 39 positioned on the upper surface of the ladder bearing frame 2 is convenient to pull and align with the horizontal line, the horizontal stretching scale 39 is connected with the upper surface of the ladder bearing frame 2 through the vertical stretching rod 38, the stretching height is convenient to adjust according to actual conditions, the storage battery 41 positioned in the storage battery box 40 in the ladder bearing frame 2 is convenient to switch on when the device is used, the storage battery 41 is convenient to protect by the storage battery box 40, the model of each storage battery 41 is 6-QAW-54a, a is adopted in the electric control moving block 5, a double H-bridge direct current motor driving plate is adopted as a control core power source, and an integrated stepping motor driving special chip set is adopted.

The above; is only a preferred embodiment of the present invention; the scope of the invention is not limited in this respect; any person skilled in the art is within the technical scope of the present disclosure; equivalent substitutions or changes are made according to the technical proposal of the invention and the improved conception thereof; are intended to be encompassed within the scope of the present invention.

Claims

1. The utility model provides a vertical automatic wall brick device for construction, its characterized in that, includes bar bearing base (1), bar bearing base (1) upper surface establishes vertical automatic wall brick mechanism, bar bearing base (1) lower surface is equipped with moving mechanism, vertical automatic wall brick mechanism is by fixed connection in ladder bearing frame (2) of bar bearing base (1) upper surface, fixed connection is in bar fixed plate (3) of one end of ladder bearing frame (2) upper surface, inlay horizontal slide rail (4) at bar fixed plate (3) upper surface, set up automatically controlled movable block (5) at horizontal slide rail (4) upper surface, set up automatically controlled movable block (5) upper surface and drive end ascending drive arrangement (6), set up fixed tong (7) on drive arrangement (6) drive end, set up rotating bearing frame (8) in fixed tong (7), fixed vertical riser (9) of connecting in rotating bearing frame (8) center department, fixed connection is on two opposite side surfaces of vertical riser (9) and pass horizontal push rod (10) of rotating bearing frame (8), multiunit horizontal push rod (10) of electric control movable block (5) on each vertical push rod (11) vertical end face of cylinder (11), hollow cylinder (11) of each vertical telescopic connection on vertical end face of hollow cylinder (11) of each vertical push rod The device comprises pushing pistons (14) arranged in each hollow pipe (11), stretching pipes (15) sleeved on the telescopic ends of each telescopic cylinder (13) and communicated with the interiors of a plurality of hollow pipes (11), a group of L-shaped supporting plates (16) arranged at the other ends in a ladder bearing frame (2), two groups of miniature hydraulic ejector rods (17) fixedly connected to the side surfaces of each L-shaped supporting plate (16), and strip-shaped rubber push blocks (18) sleeved on the end surfaces of each miniature hydraulic ejector rod (17), wherein a controller (19) is embedded on the side surfaces of the ladder bearing frame (2), and the controller (19) is electrically connected with a horizontal electric control push rod (10), the telescopic cylinders (13) and the miniature hydraulic ejector rods (17) in a vertical automatic wall-attaching brick mechanism respectively through wires;

a group of sliding frames (20) are arranged on the lower surface of each L-shaped supporting plate (16), a group of horizontal sliding ways (21) connected with each group of sliding frames (20) are fixedly connected in the ladder bearing frame (2), and a limiting plate (22) overlapped with the side surface of each L-shaped supporting plate (16) is hinged at the upper end of the left side surface of the ladder bearing frame (2);

the utility model discloses a ladder bears frame, including ladder bearing frame (2), vertical support board (23) right side surface hinged joint a plurality of swing arm (24), ladder bearing frame (2) right side surface just is located a plurality of swing arm (25) No. two of bar fixed plate (3) below hinged joint and a plurality of swing arm (24) assorted, a plurality of swing arm (24) side surface upper hinge joint No. one horizontal stand (26), a plurality of No. two swing arm (25) side surface hinged joint No. two horizontal stands (27), no. one horizontal roll drum (28) of equal fixed connection in horizontal stand (26) and No. two horizontal stand (27) right side surface one end, fixed connection n shape promotes handle (29) between No. one horizontal stand (26) and No. two horizontal stand (27) rear surfaces.

2. The vertical automatic wall brick device for building construction according to claim 1, wherein the side surfaces of the vertical support plates (23) are fixedly connected with two groups of triangular support plates (30) between the upper surfaces of the ladder carrying frames (2).

3. The vertical automatic wall brick attaching device for building construction according to claim 1, wherein one end of the lower surface of each L-shaped supporting plate (16) is fixedly connected with an elastic bar-shaped limiting block (31).

4. The vertical automatic wall brick device for building construction according to claim 1, wherein the moving mechanism comprises two groups of rectangular fixing plates (32) fixedly connected to four corners of the lower surface of the strip-shaped bearing base (1), a group of damping springs (33) embedded on the lower surface of each rectangular fixing plate (32), a bearing frame (34) fixedly connected to the lower surface of each group of damping springs (33), and universal wheels (35) fixedly connected to the lower surface of each bearing frame (34).

5. The vertical automatic wall brick device for building construction according to claim 1, wherein the rear surface of the strip-shaped bearing base (1) is fixedly connected with an L-shaped pushing handle (36), and an anti-slip ring (37) is sleeved on the L-shaped pushing handle (36).

6. The vertical automatic wall brick attaching device for building construction according to claim 1, wherein a vertical stretching rod (38) is fixedly connected to an idle part of the upper surface of the ladder bearing frame (2), and a horizontal stretching scale (39) is sleeved on the vertical stretching rod (38).

7. The vertical automatic wall brick device for building construction according to claim 1, wherein the number of the plurality of groups of horizontal electric control push rods (10) is 4-8 groups, and the horizontal electric control push rods are uniformly distributed.

8. The vertical automatic wall brick device for building construction according to claim 1, wherein a first strip-shaped groove is processed at the lower end of the left side of the ladder bearing frame (2), an electric storage box body (40) is arranged in the first strip-shaped groove, a group of storage batteries (41) are arranged in the electric storage box body (40), and the controller (19) is electrically connected with the total output ends of the group of storage batteries (41) through wires.