A brick laying and curing spraying device for building construction

By designing a bricklaying curing spraying device that includes a water collection platform, support frame, and spraying mechanism, the problems of uneven bricklaying spraying and inconvenient transportation were solved, improving construction efficiency and bricklaying protection effect.

CN117124445BActive Publication Date: 2026-06-23THE FIRST COMPARY OF CHINA EIGHTH ENG BUREAU LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
THE FIRST COMPARY OF CHINA EIGHTH ENG BUREAU LTD
Filing Date
2023-08-24
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing bricklaying spray curing methods are prone to omissions, are inconvenient for high-rise construction, have low transportation efficiency and are easily damaged, resulting in low construction efficiency.

Method used

A bricklaying curing spraying device for building construction was designed, comprising a water collection platform, a support frame, an external spraying mechanism, and an internal spraying mechanism. It can spray the bricklaying evenly from the top and inside, and is easy to transport through a structure of limit wheels and omnidirectional wheels.

Benefits of technology

It achieves uniform spray curing of bricks, improves construction efficiency, simplifies the transportation process of bricks, and reduces the risk of damage.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides a brick laying maintenance spraying device for building construction, and belongs to the field of building construction auxiliary equipment. The technical scheme is: a water collecting bottom platform, a supporting frame arranged on the water collecting bottom platform, an outer spraying mechanism arranged on the supporting frame, a brick laying placing box, an inner spraying mechanism arranged in the brick laying placing box, the supporting frame includes a placing plate and a top frame which are arranged in parallel above the water collecting bottom platform, a plurality of rows of limiting wheels are arranged in parallel on the placing plate along the width direction of the placing plate, a vertical plate is arranged on the placing plate at the rear side of the plurality of rows of limiting wheels, a brick laying placing box is arranged between the vertical plate and the adjacent limiting wheel, and the outer spraying mechanism is arranged on the top frame corresponding to the positions of the plurality of brick laying placing boxes. The application has the advantages of simple structure and convenient use, can ensure uniform spraying maintenance of the brick laying, facilitate the transportation of the brick laying, and greatly improve the construction efficiency.
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Description

Technical Field

[0001] This invention relates to the field of auxiliary equipment for building construction, and more particularly to a bricklaying curing spray device for building construction. Background Technology

[0002] Bricks are used in construction, and they are used with cement mortar to build walls. When these bricks are piled up before use, they can become brittle and prone to breakage. Therefore, they need to be sprayed for curing. However, the common curing method is for workers to use water hoses to spray the bricks, which often misses some bricks. In addition, in the construction of high-rise buildings, it is inconvenient to spray the bricks for curing indoors. They need to be sprayed outdoors in advance before being transported indoors. The transportation process is time-consuming and labor-intensive. Usually, the sprayed bricks are piled on a dump truck, pushed into the building, and then dumped on the ground. This transportation method is inefficient and can easily break the bricks when they are dumped, resulting in unnecessary waste. Summary of the Invention

[0003] The purpose of this invention is to provide a building construction brick curing spray device that is simple in structure, easy to use, ensures uniform spray curing of bricks on the one hand, facilitates the transportation of bricks on the other hand, and greatly improves construction efficiency.

[0004] This invention is achieved through the following measures:

[0005] A bricklaying curing spray device for building construction is characterized by comprising a water collection platform, a support frame disposed on the water collection platform, an external spraying mechanism and a bricklaying placement box disposed on the support frame, and an internal spraying mechanism disposed within the bricklaying placement box.

[0006] The bricklaying box can hold bricks.

[0007] The external spraying mechanism can spray the bricks from the top, and the internal spraying mechanism can further spray the bricks inside the brick placement box.

[0008] The support frame includes a placement plate and a top frame arranged parallel to the bottom of the water collection platform. The placement plate is set on the bottom of the water collection platform by a number of support legs. The top frame is set on the top of the placement plate by a number of support rods. A number of rows of limiting wheels are arranged parallel to the width of the placement plate. A vertical plate is set on the back side of the rows of limiting wheels and on the placement plate. A brick placement box is set between the vertical plate and the adjacent limiting wheel.

[0009] External spray pipes are provided on the top frame corresponding to the positions of several brick placement boxes;

[0010] The internal spraying mechanism includes several partitions arranged parallel to each other inside the bricklaying box. The partitions are arranged along the width of the bricklaying box. Each partition is provided with several vertical pipes. An internal water inlet pipe communicating with the vertical pipes is provided on the inner wall of the bricklaying box. The free end of the internal water inlet pipe is located outside the bricklaying box. A main water inlet pipe is provided on the vertical plate. The main water inlet pipe is provided on the vertical plate through several arc-shaped clamps. Several external water inlet pipes are provided on the main water inlet pipe at positions corresponding to the external positions of the internal water inlet pipes. The internal water inlet pipes are inserted inside the external water inlet pipes.

[0011] Preferably, both the main water inlet pipe and the external spray pipe are connected to a high-pressure water source, and both the external spray pipe and the vertical pipe are equipped with nozzles.

[0012] The invention also has the following specific features:

[0013] The bricklaying box includes a rectangular frame, which includes a left side panel, a right side panel, a front side panel, and a rear side panel.

[0014] Several support rods are provided between the bottom of the front side plate and the rear side plate. The bottom inner sides of the left side plate, the right side plate and the rear side plate are provided with communicating inner grooves. The front side plate is provided with a rectangular socket that communicates with the inner groove. The rectangular socket and the inner groove are both located above the support rods. Insert plates are provided in the inner groove and the rectangular socket.

[0015] The front end of the insert plate is hinged with a semi-circular pull ring, and a semi-circular groove is provided on the front side plate to accommodate the semi-circular pull ring.

[0016] The insert plate includes a pair of inserts, which are respectively inserted into the inner grooves of the left side plate and the right side plate. A support plate is provided between the pair of inserts, and a plurality of rectangular openings are provided on the support plate. A roller is provided in the plurality of rectangular openings, and the diameter of the roller is smaller than the height of the rectangular insertion opening.

[0017] The rectangular frame is provided with an external support frame at its bottom;

[0018] The external support frame includes a base plate disposed at the bottom of the rectangular frame, and a pair of side plates are disposed at both ends of the base plate, on the outer side of the left side plate and the right side plate;

[0019] A slide rail is provided on the top outer side of the side plate, a slider is provided on the slide rail, a crossbar is provided on the slider, and a movable limiting sleeve is provided at the end of the crossbar. Fixed limiting sleeves are provided on the front side plate and the rear side plate corresponding to the periphery of the movable limiting sleeve. A stop block is provided on one side of the fixed limiting sleeve, the front side plate, and the rear side plate.

[0020] A pull rod is provided inside the movable limiting sleeve and the fixed limiting sleeve. A baffle is provided at one end of the pull rod, and the other end of the pull rod passes through the fixed limiting sleeve and the movable limiting sleeve in sequence. The end of the pull rod with the baffle is located between the fixed limiting sleeve and the stop block.

[0021] The front end of the pull rod is provided with a handle sleeve.

[0022] The partition plate has several vertical grooves, and the vertical pipes are installed in the grooves.

[0023] The inner water inlet pipe is provided on the inner side of the left side plate and the rear side plate, and the inner water inlet pipe is provided on the inner side of the right side plate and the front side plate;

[0024] Preferably, the inner walls of the left side plate, the rear side plate, and the front side plate are provided with grooves for installing the inner water inlet pipe. The outermost part of the inner water inlet pipe will not protrude from the inner wall of the rectangular frame, and the vertical pipe will not protrude from the side wall of the partition, so that the inner water inlet pipe and the vertical pipe will not collide with the brickwork.

[0025] A plurality of spherical casters are provided between adjacent limiting wheels and on the placement plate, and a plurality of caster wheel limiting components are provided below the placement plate;

[0026] The placement plate has several circular mounting slots, and the spherical universal wheel is set in the circular mounting slot. The universal wheel includes a spherical shell with open upper and lower ends, and a spherical roller is provided inside the spherical shell.

[0027] The universal wheel limiting assembly includes a lifting limiting plate disposed below the placement plate. The top surface of the lifting limiting plate has several limiting grooves that can fit into the bottom of the spherical rollers at several universal wheel positions. The inner wall of the limiting groove is provided with a rubber layer.

[0028] The placement plate is equipped with several electric cylinders, and the electric push rods of the electric cylinders pass through the placement plate and are mounted on the lifting limit plate.

[0029] A baffle is provided on one side of the vertical plate and on the placement plate, and the brick placement box rests against the baffle.

[0030] The placement plate, the lifting limit plate, the insertion plate, and the base plate are all provided with a number of drainage holes.

[0031] When assembling the bricklaying placement box, place the bricklaying placement box on the outer support frame, then slide the slider to adjust the position of the movable limiting sleeve so that the movable limiting sleeve is concentrically aligned with the fixed limiting sleeve, then push the pull rod so that the front end of the pull rod passes through the movable limiting sleeve, and then insert the insert plate into the bricklaying placement box.

[0032] When placing bricks, arrange them in an orderly manner in the brick placement box so that they are placed on the insert plate;

[0033] In use, first, control the electric cylinder to push the lifting limit plate away from the spherical caster (at this time, the spherical rollers in the spherical caster can rotate freely). Then, the worker holds the pull rod to lift the bricklaying placement box, so that the side with the inner water inlet pipe faces the placement plate. Place the bricklaying placement box between adjacent limit wheels and push the bricklaying placement box until it abuts against the stop bar. At this time, the end of the inner water inlet pipe is inserted into the outer water inlet pipe. Several bricklaying placement boxes are then placed in sequence. After the bricks are placed in the box, the electric cylinder is controlled to reset the lifting limit plate, thereby pressing the lifting limit plate against the spherical casters (at this time, the spherical rollers in the spherical casters cannot rotate freely, and the brick placement box will be stably placed on several spherical rollers without a large external force). Then, the high-pressure water source is turned on, and the external spraying mechanism can spray the bricks from the top. The internal spraying mechanism can further spray the bricks inside the brick placement box. The sprayed water will flow into the water collection platform for treatment before use.

[0034] After spraying is completed, the electric cylinder is controlled to push the lifting limit plate away from the spherical caster (at this time, the spherical rollers in the spherical caster can rotate freely), and the brick placement box is pulled out and placed on a trolley to be transported indoors. After arriving indoors, the position of the pull rod is adjusted so that the pull rod is disengaged from the movable limit cylinder. Then, the slider is slid to adjust the position of the movable limit sleeve so that the movable limit sleeve and the fixed limit sleeve do not overlap. Then, the pull rod is pushed out again, and the worker holds the pull rod to lift the brick placement box (at this time, the brick placement box is disengaged from the outer support frame) and place it on the ground. Then, the semi-circular pull ring is pulled out to remove the insert plate (because several rollers are provided, the insert plate can be pulled out). The bricks in the brick placement box will fall to the ground. The brick placement box is lifted to complete the transportation. Then, the insert plate is inserted back and the outer support frame is assembled for future use.

[0035] The beneficial effects of this invention are: simple structure and easy to use. On the one hand, it ensures that the bricks are sprayed and cured evenly, and on the other hand, it facilitates the transportation of bricks and greatly improves construction efficiency. Attached Figure Description

[0036] Figure 1 This is a schematic diagram of the structure of an embodiment of the present invention.

[0037] Figure 2 This is a first-view structural diagram of the water collection platform, placement plate, and top frame in an embodiment of the present invention.

[0038] Figure 3 This is a schematic diagram of the water collection platform, placement plate, and top frame from a second perspective in an embodiment of the present invention.

[0039] Figure 4 for Figure 3 A magnified view of part A in the middle.

[0040] Figure 5 This is a third-view structural diagram of the water collection platform, placement plate, and top frame in an embodiment of the present invention.

[0041] Figure 6 This is a structural schematic diagram of the brick placement box from a first-view perspective in an embodiment of the present invention.

[0042] Figure 7 for Figure 6 A magnified view of part B in the middle.

[0043] Figure 8 This is a structural schematic diagram of the brick placement box from a second perspective in an embodiment of the present invention.

[0044] Figure 9 This is a schematic diagram of the brick placement box and insert plate in an embodiment of the present invention.

[0045] Figure 10 This is a schematic diagram of the external support frame in an embodiment of the present invention.

[0046] Figure 11 This is a schematic diagram of the structure of an embodiment of the present invention.

[0047] Figure 12 for Figure 11 A magnified view of part C in the middle.

[0048] The attached diagram is labeled as follows: 1. Water collection platform; 2. Placement plate; 201. Baffle strip; 3. Top frame; 4. Support leg; 5. Support rod; 6. Brick placement box; 8. Limiting wheel; 9. Vertical plate; 10. External water inlet pipe; 11. External spray pipe; 12. Spherical caster wheel; 1201. Spherical shell; 1202. Spherical roller; 13. Lifting limit plate; 14. Electric cylinder; 15. Front side plate; 1501. Rectangular socket; 16. Left side plate; 17. 18. Rear side panel; 19. Right side panel; 10. Partition; 1901. Vertical groove; 20. Vertical pipe; 21. Inner water inlet pipe; 22. Bottom plate; 23. Side panel; 24. Insert plate; 2401. Insert strip; 2402. Rectangular opening; 2403. Roller; 2404. Semi-circular pull ring; 25. Slide rail; 26. Slider; 27. Crossbar; 28. Movable limit sleeve; 29. ​​Fixed limit sleeve; 30. Pull rod; 31. Baffle; 32. Stop block. Detailed Implementation

[0049] To clearly illustrate the technical features of this solution, the following detailed implementation method will be used to describe the solution.

[0050] See Figure 1-12 A bricklaying curing spray device for building construction includes a water collection platform 1, a support frame set on the water collection platform 1, an external spraying mechanism and a bricklaying placement box 6 set on the support frame, and an internal spraying mechanism set inside the bricklaying placement box 6.

[0051] The bricklaying placement box 6 can hold bricks.

[0052] The external spraying mechanism can spray the bricks from the top, while the internal spraying mechanism can further spray the bricks inside the brick placement box 6.

[0053] The support frame includes a placement plate 2 and a top frame 3 arranged parallel above the water collection base 1. The placement plate 2 is set on the water collection base 1 by several support legs 4. The top frame 3 is set above the placement plate 2 by several support rods 5. Several rows of limiting wheels 8 are arranged parallel to the width direction of the placement plate 2. A vertical plate 9 is set on the rear side of the several rows of limiting wheels 8 and on the placement plate 2. A brick placement box 6 is set between the vertical plate 9 and the adjacent limiting wheel 8.

[0054] External spray pipes 11 are installed on the top frame 3 at positions corresponding to several brick placement boxes 6;

[0055] The internal spraying mechanism includes several partitions 19 arranged parallel to each other inside the brick placement box 6. The partitions 19 are arranged along the width of the brick placement box 6. Several vertical pipes 20 are provided on each partition 19. An internal water inlet pipe 21 communicating with the vertical pipe 20 is provided on the inner wall of the brick placement box 6. The free end of the internal water inlet pipe 21 is located on the outside of the brick placement box 6. A main water inlet pipe is provided on the vertical plate 9. The main water inlet pipe is set on the vertical plate 9 through several arc-shaped clamps. Several external water inlet pipes 10 are provided on the main water inlet pipe at positions corresponding to the external positions of the internal water inlet pipes 21. The internal water inlet pipes 21 are inserted inside the external water inlet pipes 10.

[0056] Preferably, both the main water inlet pipe and the external spray pipe 11 are connected to a high-pressure water source, and nozzles are installed on both the external spray pipe 11 and the vertical pipe 20.

[0057] The bricklaying box 6 includes a rectangular frame, which includes a left side panel 16, a right side panel 18, a front side panel 15, and a rear side panel 17.

[0058] Several support rods are provided between the bottom of the front side plate 15 and the rear side plate 17. The bottom inner sides of the left side plate 16, the right side plate 18 and the rear side plate 17 are provided with communicating inner grooves. The front side plate 15 is provided with a rectangular socket 1501 communicating with the inner groove. The rectangular socket 1501 and the inner groove are both located above the support rods 5. The inner groove and the rectangular socket 1501 are provided with insert plates 24.

[0059] The front end of the insert plate 24 is hinged with a semi-circular pull ring 2404, and the front side plate 15 has a semi-circular groove to accommodate the semi-circular pull ring 2404.

[0060] The insert plate 24 includes a pair of insert strips 2401, which are respectively inserted into the inner grooves of the left side plate 16 and the right side plate 18. A support plate is provided between the pair of insert strips 2401. The support plate has several rectangular openings 2402. A roller 2403 is provided in the several rectangular openings 2402. The diameter of the roller 2403 is smaller than the height of the rectangular insertion opening 1501.

[0061] The rectangular frame is equipped with an external support frame at the bottom;

[0062] The external support frame includes a base plate 22 at the bottom of the rectangular frame, and a pair of side plates 23 are provided at both ends of the base plate 22, on the outside of the left side plate 16 and the right side plate 18.

[0063] A slide rail 25 is provided on the top outer side of the side plate 23. A slider 26 is provided on the slide rail 25. A crossbar 27 is provided on the slider 26. A movable limiting sleeve 28 is provided at the end of the crossbar 27. A fixed limiting sleeve 29 is provided on the front side plate 15 and the rear side plate 17 around the movable limiting sleeve 28. A stop block 32 is provided on one side of the fixed limiting sleeve 29, the front side plate 15 and the rear side plate 17.

[0064] A pull rod 30 is provided inside the movable limiting sleeve 28 and the fixed limiting sleeve 29. A baffle 31 is provided at one end of the pull rod 30, and the other end of the pull rod 30 passes through the fixed limiting sleeve 29 and the movable limiting sleeve 28 in sequence. The end of the pull rod 30 with the baffle 31 is located between the fixed limiting sleeve 29 and the stop block 32.

[0065] A handle sleeve is provided at the front end of the pull rod.

[0066] The partition 19 has several vertical grooves 1901, and vertical pipes 20 are installed in the grooves 1901.

[0067] An inner water inlet pipe 21 is provided on the inner side of the left side plate 16 and the rear side plate 17, and an inner water inlet pipe 21 is provided on the inner side of the right side plate and the front side plate 15.

[0068] Preferably, the inner walls of the left side plate 16, the rear side plate 17 and the front side plate 15 are provided with grooves for installing the inner water inlet pipe 21. The outermost part of the inner water inlet pipe 21 will not protrude from the inner wall of the rectangular frame, and the vertical pipe 20 will not protrude from the side wall of the partition 19, so that the inner water inlet pipe 21 and the vertical pipe 20 will not collide with the brickwork.

[0069] Several spherical casters 12 are provided between adjacent limiting wheels 8 and on the placement plate 2, and several caster wheel limiting components are provided below the placement plate 2;

[0070] The placement plate 2 has several circular mounting slots, and the spherical caster 12 is installed in the circular mounting slots. The caster includes a spherical shell 1201 with open upper and lower ends, and a spherical roller 1202 is installed inside the spherical shell 1201.

[0071] The universal wheel limiting assembly includes a lifting limiting plate 13 disposed below the placement plate 2. The top surface of the lifting limiting plate 13 has several limiting grooves that can fit into the bottom of the spherical roller 1202 at several universal wheel positions. The inner wall of the limiting groove is provided with a rubber layer.

[0072] A number of electric cylinders 14 are provided on the placement plate 2, and the electric push rod ends of the electric cylinders 14 pass through the placement plate 2 and are set on the lifting limit plate 13.

[0073] A baffle 201 is provided on one side of the vertical plate 9 and on the placement plate 2, and the brick placement box 6 rests against the baffle 201.

[0074] Several drainage holes are provided on the placement plate 2, the lifting limit plate 13, the insertion plate 24, and the base plate 22.

[0075] When assembling the bricklaying placement box 6, place the bricklaying placement box 6 on the outer support frame, then slide the slider 26 to adjust the position of the movable limiting sleeve 28 so that the movable limiting sleeve 28 is concentrically aligned with the fixed limiting sleeve 29. Then push the pull rod 30 so that the front end of the pull rod 30 passes through the movable limiting sleeve 28. Then insert the insert plate 24 into the bricklaying placement box 6.

[0076] When placing the bricks, arrange them in an orderly manner in the brick placement box 6 so that the bricks are placed on the insert plate 24.

[0077] In use, first, control the electric cylinder 14 to push the lifting limit plate 13 away from the spherical caster 12 (at this time, the spherical roller 1202 in the spherical caster 12 can rotate freely). Then, the worker holds the pull rod 30 to lift the bricklaying placement box 6, so that the side with the inner water inlet pipe 21 faces the placement plate 2. Place the bricklaying placement box 6 between adjacent limit wheels 8, and push the bricklaying placement box 6 until it abuts against the stop bar 201. At this time, the end of the inner water inlet pipe 21 is inserted into the outer water inlet pipe 10. Several bricklaying placement boxes 6 are placed in sequence. Then, the control cylinder 14 resets the lifting limit plate 13, thereby pressing the lifting limit plate 13 against the spherical caster 12 (at this time, the spherical rollers 1202 in the spherical caster 12 cannot rotate freely, and the brick placement box 6 will be stably placed on several spherical rollers 1202 without a large external force). Then, the high-pressure water source is turned on, the external spraying mechanism can spray the bricks from the top, and the internal spraying mechanism can further spray the bricks inside the brick placement box 6. The sprayed water will flow into the water collection platform 1 for treatment before use.

[0078] After the spraying is completed, the control cylinder 14 pushes the lifting limit plate 13 away from the spherical caster 12 (at this time, the spherical roller 1202 in the spherical caster 12 can rotate freely), pulls out the brick placement box 6, places it on the trolley and transports it into the room. After arriving indoors, the position of the movable pull rod 30 is adjusted so that the pull rod 30 is disengaged from the movable limit cylinder. Then, the sliding slider 26 is used to adjust the position of the movable limit sleeve 28 so that the movable limit sleeve 28 and the fixed limit sleeve 29 do not overlap. Then, the pull rod 30 is pushed out again, and the worker holds the pull rod 30 to lift the brick placement box 6 (at this time, the brick placement box 6 is disengaged from the outer support frame) and places it on the ground. Then, the semi-circular pull ring 2404 is pulled out to remove the insert plate 24 (because several rollers 2403 are provided, the insert plate 24 can be pulled out). The bricks in the brick placement box 6 will fall to the ground. The brick placement box 6 is lifted to complete the transportation. Then, the insert plate 24 is inserted back and the outer support frame is assembled for future use.

[0079] The technical features of this invention not described can be implemented by or using existing technology, and will not be repeated here. Of course, the above description is not a limitation of this invention, and this invention is not limited to the examples above. Any changes, modifications, additions or substitutions made by those skilled in the art within the scope of this invention should also be within the protection scope of this invention.

Claims

1. A bricklaying curing spray device for building construction, characterized in that, It includes a water collection platform, a support frame disposed on the water collection platform, an external spraying mechanism and a brick placement box disposed on the support frame, and also includes an internal spraying mechanism disposed in the brick placement box; The support frame includes a placement plate and a top frame arranged parallel to the bottom of the water collection platform. The placement plate is set on the bottom of the water collection platform by a number of support legs. The top frame is set on the top of the placement plate by a number of support rods. A number of rows of limiting wheels are arranged parallel to the width of the placement plate. A vertical plate is set on the back side of the rows of limiting wheels and on the placement plate. A brick placement box is set between the vertical plate and the adjacent limiting wheel. External spray pipes are provided on the top frame corresponding to the positions of several brick placement boxes; The internal spraying mechanism includes several partitions arranged parallel to each other inside the bricklaying box. The partitions are arranged along the width of the bricklaying box. Each partition is provided with several vertical pipes. An internal water inlet pipe communicating with the vertical pipes is provided on the inner wall of the bricklaying box. The free end of the internal water inlet pipe is located outside the bricklaying box. A main water inlet pipe is provided on the vertical plate. The main water inlet pipe is provided on the vertical plate through several arc-shaped clamps. Several external water inlet pipes are provided on the main water inlet pipe at positions corresponding to the external positions of the internal water inlet pipes. The internal water inlet pipes are inserted inside the external water inlet pipes. A plurality of spherical casters are provided between adjacent limiting wheels and on the placement plate, and a plurality of caster wheel limiting components are provided below the placement plate; The placement plate has several circular mounting slots, and the spherical universal wheel is disposed in the circular mounting slot. The universal wheel includes a spherical shell with open upper and lower ends, and a spherical roller is disposed inside the spherical shell. The universal wheel limiting assembly includes a lifting limiting plate disposed below the placement plate. The top surface of the lifting limiting plate has several limiting grooves that can fit into the bottom of the spherical rollers at several universal wheel positions. The inner wall of the limiting groove is provided with a rubber layer. The placement plate is equipped with several electric cylinders, and the electric push rods of the electric cylinders pass through the placement plate and are mounted on the lifting limit plate.

2. The bricklaying curing spray device for building construction according to claim 1, characterized in that, The bricklaying box includes a rectangular frame, which includes a left side panel, a right side panel, a front side panel, and a rear side panel. Several support rods are provided between the bottom of the front side plate and the rear side plate. The bottom inner sides of the left side plate, the right side plate and the rear side plate are provided with communicating inner grooves. The front side plate is provided with a rectangular socket that communicates with the inner groove. The rectangular socket and the inner groove are both located above the support rods. Insert plates are provided in the inner groove and the rectangular socket. The front end of the insert plate is hinged with a semi-circular pull ring, and a semi-circular groove is provided on the front side plate to accommodate the semi-circular pull ring.

3. The bricklaying curing spray device for building construction according to claim 2, characterized in that, The insert plate includes a pair of inserts, which are respectively inserted into the inner grooves of the left side plate and the right side plate. A support plate is provided between the pair of inserts, and a plurality of rectangular openings are provided on the support plate. A roller is provided in the plurality of rectangular openings, and the diameter of the roller is smaller than the height of the rectangular insertion opening.

4. The bricklaying curing spray device for building construction according to claim 3, characterized in that, The rectangular frame is provided with an external support frame at its bottom; The external support frame includes a base plate disposed at the bottom of the rectangular frame, and a pair of side plates are disposed at both ends of the base plate, on the outer side of the left side plate and the right side plate; A slide rail is provided on the top outer side of the side plate, a slider is provided on the slide rail, a crossbar is provided on the slider, and a movable limiting sleeve is provided at the end of the crossbar. Fixed limiting sleeves are provided on the front side plate and the rear side plate corresponding to the periphery of the movable limiting sleeve. A stop block is provided on one side of the fixed limiting sleeve, the front side plate, and the rear side plate. A pull rod is provided inside the movable limiting sleeve and the fixed limiting sleeve. A baffle is provided at one end of the pull rod, and the other end of the pull rod passes through the fixed limiting sleeve and the movable limiting sleeve in sequence. The end of the pull rod with the baffle is located between the fixed limiting sleeve and the stop block. The front end of the pull rod is provided with a handle sleeve.

5. The bricklaying curing spray device for building construction according to claim 2, characterized in that, The partition plate has several vertical grooves, and the vertical pipes are installed in the grooves. The inner water inlet pipe is provided on the inner side of the left side plate and the rear side plate, and the inner water inlet pipe is provided on the inner side of the right side plate and the front side plate.

6. The bricklaying curing spray device for building construction according to any one of claims 1-5, characterized in that, A baffle is provided on one side of the vertical plate and on the placement plate, and the brick placement box rests against the baffle.

7. The bricklaying curing spray device for building construction according to claim 4, characterized in that, The placement plate, the lifting limit plate, the insertion plate, and the base plate are all provided with a number of drainage holes.