CN115288400A

CN115288400A - Wall body equipment of caulking for construction

Info

Publication number: CN115288400A
Application number: CN202211078929.7A
Authority: CN
Inventors: 胡小忠; 赵运平; 刘春甲; 温清杰
Original assignee: Jiangxi Youse Construction Group Co ltd
Current assignee: Jiangxi Youse Construction Group Co ltd
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2022-11-04
Anticipated expiration: 2042-09-05
Also published as: CN115288400B

Abstract

The invention relates to the technical field of building construction equipment, in particular to wall joint filling equipment for building construction, which comprises a support frame, a controller, a storage box and a moving mechanism, wherein the support frame is arranged on the support frame; the invention respectively arranges the moving mechanisms above and below the wall body, so that the support frame and the storage box are fixed by the traction ropes above and below the support frame, the support frame and the storage box move in the vertical direction of the wall body by the traction motor and the wheel disc, the support frame and the storage box move transversely by the driving motor and the driving gear, and simultaneously, the extrusion pipe extrudes gap filling materials to fill gaps between ceramic tiles on the wall body, thereby completing gap filling; the invention is suitable for the height of the wall body to depend on the length of the traction rope, so that the invention can be used for filling joints on the surfaces of lower buildings and also can be used for filling joints on the surfaces of the wall bodies of some higher buildings.

Description

Wall body equipment of caulking for construction

Technical Field

The invention relates to the technical field of building construction equipment, in particular to wall joint filling equipment for building construction.

Background

The outer surface of the wall body of a building after construction is generally decorated by painting or tiling, and when the tiling is carried out, gaps exist between adjacent tiles, so that workers need to joint after the tiling is finished, and filling materials (common cement) with the color similar to that of the tiles are smeared in the gaps between the two tiles;

the common mode of filling joints for workers is manual filling joints, the workers stand on a scaffold or a ladder, use a bricklayer tool to smear cement paint into the gaps between the ceramic tiles, then flatten the cement paint, and wipe off the excess cement paint on the two sides of the gaps, so that the workload is huge, and the workers need to ascend, which is dangerous;

therefore, a utility model patent with the application number of CN202121877260.9 exists in the prior art, and the technical scheme adopts manual operation of workers to move the material storage frame and the material discharge pipe for joint filling; according to the technical scheme, the storage frame and the discharge pipe move through the slide rod, so that the movement is limited, the device is not suitable for some higher floors, and only the device can be placed on the ground to joint the wall below, so that limitation is caused.

Therefore, the wall joint filling equipment for building construction is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides wall joint filling equipment for building construction, which overcomes the defects of the prior art and aims to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: wall body equipment of caulking for construction includes

A support frame;

a controller;

a material storage box; the storage box is fixedly connected to the support frame and is fixedly connected and communicated with an electromagnetic valve; the other end of the electromagnetic valve is communicated with an extrusion pipe; a scraper is arranged on the extrusion pipe; the upper end face of the material storage box is fixedly connected with a stirring motor; the output end of the stirring motor extends into the material storage box and is rotationally connected with the material storage box, and the output shaft of the stirring motor is fixedly connected with a spiral stirring paddle;

a moving mechanism; the moving mechanism is connected with the material storage boxes through a traction rope, and the moving mechanism can drive the material storage boxes to move outside the wall body through the traction rope to reach all positions on the outer surface of the wall body.

Preferably, the moving mechanism comprises a sliding rail, a traction rope, a traction seat, a traction motor and a driving motor; the sliding rails can be mutually clamped, and a first sliding groove and a tooth-shaped groove are formed in each sliding rail; the traction seat can be connected in the first sliding groove in a sliding manner; the driving motor is fixedly connected to the traction seat, and the output end of the driving motor is fixedly connected with a driving gear; the side wall of the tooth-shaped groove is tooth-shaped and is meshed with the driving gear;

the traction motor is fixedly connected to the traction seat, and the output end of the traction motor is fixedly connected with a wheel disc; the traction rope is wound on the wheel disc, and the other end of the traction rope is fixedly connected to the support frame;

and the upper side and the lower side of the support frame are both provided with a moving mechanism.

Preferably, two groups of moving mechanisms are arranged below the supporting frame, and one group of moving mechanisms is arranged above the supporting frame; the traction ropes of the three groups of moving mechanisms are inverted Y-shaped traction support frames.

The upper part and the lower part of the wall body are respectively provided with the moving mechanisms, so that the support frame and the storage box are fixed by the traction ropes of the moving mechanisms above and below the support frame, the support frame and the storage box move in the vertical direction of the wall body by the traction motor and the wheel disc, the support frame and the storage box move transversely by the driving motor and the driving gear, and simultaneously, the extrusion pipe extrudes gap filling materials to fill gaps between ceramic tiles on the wall body, so that gap filling is completed; the invention is suitable for the situation that the height of the wall body depends on the length of the traction rope, so that the invention can carry out joint filling on the surface of a lower building and also can carry out joint filling on the surface of the wall body of some higher buildings, and simultaneously, the traction rope connected to the support frame is arranged in an inverted Y shape, so that the stability of the support frame and the storage box in the mid-air is improved under the traction of the traction rope.

Preferably, the side edge of the sliding rail is fixedly connected with a hook; the hook is hooked with an ingredient frame.

Preferably, the extrusion pipe is fixedly connected with a mounting ring; the mounting ring surrounds the extruded tube; four compression springs are uniformly arranged on the mounting ring; the other end of the compression spring is fixedly connected with the scraper; the scraper blade is far away from the one end of extrusion pipe and is the sphere form.

Preferably, the two sides of the top end of the scraper are fixedly connected with inclined plates.

The staff can be at the interior storage joint material of batching frame, increase the weight of batching frame on the one hand, make the load of sliding rail increase, prevent that the gravity of support frame and storage frame and below traction motor from using on the sliding rail and the traction seat of top to traction rope's pulling force, sliding rail and traction seat focus are unstable, make the condition of turning on one's side appear in the building upper end in the sliding rail of the moving mechanism of top, on the other hand, in order to alleviate the load that traction rope and the sliding rail and the traction seat of wall body top received, the storage case should not store too many joint material, when support frame and storage case moved the wall body topmost, the staff supplyes the joint material in the batching frame in the storage case, thereby accomplish the replenishment to the joint material in the storage case.

Preferably, shovel blocks are fixedly connected to two sides of the sliding connection part of the traction seat and the sliding rail.

Preferably, one side of the sliding rail, which is far away from the hook, is provided with a second sliding groove; a circular ring block is connected in the second sliding groove in a sliding manner; the hauling cable passes through the circular ring block.

A second sliding groove and a circular block are arranged on the sliding rail, and the traction rope penetrates through the circular block, so that when the traction seat drives the traction rope to move transversely, the traction rope can pull the circular block to move together; when pulling the support frame from top to bottom at the haulage rope, the haulage rope can be stretched to the ring piece for the haulage rope takes support frame and play workbin to receive the effort of ring piece towards the direction that is close to building wall body surface, makes support frame and storage case paste the wall body surface of tight building.

Preferably, four pressure sensors are embedded in the mounting ring; the pressure sensor is fixedly connected with the compression spring.

Whether the scraper blade is located between the ceramic tile gap is detected through the pressure that two ascending scraper blades of vertical side and two ascending scraper blades of horizontal transmission transmit for corresponding pressure sensor, and then judge whether accurate of the relative position of extrusion pipe, when the deviation appears in the position of extrusion pipe, the staff adjusts the position of extrusion pipe through the haulage rope to the accuracy of extrusion pipe position when extruding caulking material has been guaranteed.

The invention has the beneficial effects that:

1. the invention respectively arranges the moving mechanisms above and below the wall body, so that the supporting frame and the storage box are fixed by the traction ropes above and below the supporting frame, the supporting frame and the storage box are moved in the vertical direction of the wall body by the traction motor and the wheel disc, the supporting frame and the storage box are transversely moved by the driving motor and the driving gear, and meanwhile, the extrusion pipe extrudes gap filling materials to perform gap filling at gaps among ceramic tiles on the wall body, so as to complete gap filling; the invention is suitable for the situation that the height of the wall body depends on the length of the traction rope, so that the invention can carry out joint filling on the surface of a lower building and also can carry out joint filling on the surface of the wall body of some higher buildings, and simultaneously, the traction rope connected to the support frame is arranged in an inverted Y shape, so that the stability of the support frame and the storage box in the mid-air is improved under the traction of the traction rope.

2. According to the invention, whether the scraping plates are positioned between the gaps of the ceramic tiles or not is detected by transmitting the pressure of the two scraping plates in the vertical direction and the pressure of the two scraping plates in the transverse direction to the corresponding pressure sensors, so that whether the relative position of the extruded pipe is accurate or not is judged, and when the position of the extruded pipe deviates, a worker adjusts the position of the extruded pipe through the traction rope, so that the position accuracy of the extruded pipe when the caulking material is extruded is ensured.

Drawings

FIG. 1 is a schematic structural view of the present invention in a front view when positioned on a building wall;

FIG. 2 is a side view of the moving mechanism of the present invention located on a building wall;

FIG. 3 is a schematic view of the structure of the support frame, the storage bin and the extrusion tube of the present invention;

FIG. 4 isbase:Sub>A partial cross-sectional view taken at A-A of FIG. 2;

FIG. 5 is an enlarged view at B in FIG. 2;

FIG. 6 is a schematic view of the structure of the sliding rail, the traction base and the batching frame of the present invention;

FIG. 7 is an enlarged view at C of FIG. 5;

fig. 8 is a partial cross-sectional view of the slide rail and fifth wheel of the present invention.

In the figure: 1. a support frame; 2. a material storage box; 21. an electromagnetic valve; 22. extruding a pipe; 23. a squeegee; 24. a stirring motor; 25. a helical stirring paddle; 3. a moving mechanism; 31. a hauling rope; 32. a sliding rail; 33. a traction seat; 34. a traction motor; 35. a drive motor; 36. a first sliding groove; 37. a toothed groove; 38. a drive gear; 39. a wheel disc; 4. hooking; 5. a batching frame; 6. a mounting ring; 61. a compression spring; 62. an inclined plate; 63. a pressure sensor; 7. shoveling blocks; 71. a second sliding groove; 72. a circular ring block; 8. a wall body.

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.

The first embodiment is as follows:

referring to the attached figure 1 of the specification, the wall joint filling equipment for building construction comprises

A support frame 1;

a controller;

a material storage box 2; the storage box 2 is fixedly connected to the support frame 1, and the storage box 2 is fixedly connected and communicated with an electromagnetic valve 21; the other end of the electromagnetic valve 21 is communicated with an extrusion pipe 22; a scraper 23 is arranged on the extrusion pipe 22; the upper end surface of the material storage box 2 is fixedly connected with a stirring motor 24; the output end of the stirring motor 24 extends into the material storage box 2 and is rotatably connected with the material storage box 2, and the output shaft of the stirring motor 24 is fixedly connected with a spiral stirring paddle 25;

a moving mechanism 3; the moving mechanism 3 is connected with the material storage box 2 through a traction rope 31, and the moving mechanism 3 can drive the material storage box 2 to move outside the wall body 8 through the traction rope 31 and reach various positions on the outer surface of the wall body 8.

Referring to the attached fig. 3 and 6, in this embodiment, the moving mechanism 3 includes a sliding rail 32, a traction rope 31, a traction base 33, a traction motor 34 and a driving motor 35; the sliding rails 32 can be mutually clamped, and a first sliding groove 36 and a tooth-shaped groove 37 are formed in the sliding rails 32; the traction seat 33 can be connected in a sliding groove 36 in a sliding way; the driving motor 35 is fixedly connected to the traction seat 33, and the output end of the driving motor 35 is fixedly connected to the driving gear 38; the side wall of the tooth-shaped groove 37 is tooth-shaped and is meshed with the driving gear 38;

the traction motor 34 is fixedly connected on the traction seat 33, and the output end of the traction motor 34 is fixedly connected with a wheel disc 39; the traction rope 31 is wound on the wheel disc 39, and the other end of the traction rope 31 is fixedly connected to the support frame 1;

the upper and lower sides of the support frame 1 are provided with moving mechanisms 3.

Referring to the attached drawing 1 of the specification, in the embodiment, two groups of moving mechanisms 3 are arranged below a support frame 1, and one group of moving mechanisms 3 is arranged above the support frame 1; the traction ropes 31 of the three groups of moving mechanisms 3 are in an inverted Y shape to pull the support frame 1.

In this embodiment, the traction motor 34 and the drive motor 35 are selected as servo motors; after the worker has built the wall 8 and has pasted tiles on the outer surface of the wall 8, the worker carries the moving mechanism 3 to the top end of the building and the lower end of the building, and then splices and engages the sliding rails 32 at the lower end, the first sliding groove 36 and the tooth-shaped groove 37 on the sliding rail 32 are communicated, and then the traction seat 33 slides into the first sliding groove 36 from the side edge of the sliding rail 32, so that the traction seat 33 is arranged on the sliding rail 32, meanwhile, the driving gear 38 is meshed with the tooth-shaped structure on the tooth-shaped groove 37, the worker installs the moving mechanism 3 above the wall body 8 of the building, and the traction rope 31 is tied on the support frame 1, the traction motor 34 above is controlled by the controller to rotate in the positive direction, so that the traction motor 34 rotates together with the sheave 39, the sheave 39 unwinds the traction rope 31, so that the support frame 1 with the material storage box 2 moves downwards from the upper end of the wall body 8 to the ground at the lower end of the wall body 8, at the moment, the worker fastens the traction rope 31 of the lower moving mechanism 3 to the support frame 1, then controls the two traction motors 34 to rotate through the controller, so that the two hauling ropes 31 pull the support frame 1 towards different directions, thereby tightening the hauling ropes 31 and the support frame 1, the controller controls the traction motor 34 to rotate to drive the storage box 2 and the extrusion pipe 22 of the support frame 1 to move up and down on the outer side of the wall body 8, controls the driving motor 35 to drive the driving gear 38 to rotate, so that the driving gear 38 carries the traction socket 33 and the traction rope 31 to move transversely by engaging with the toothed groove 37, thereby driving the support frame 1, the storage box 2 and the extrusion pipe 22 to move left and right outside the wall body 8, thereby adjusting the position of the extrusion pipe 22, so that the extruded pipe 22 is aligned with the gaps between the tiles on the wall body 8 to complete the installation of the invention on the building;

when the ceramic tiles on the wall 8 of the building are filled, a worker firstly controls the stirring motor 24 to drive the spiral stirring paddle 25 to rotate through the controller, so that the spiral blades push the filling materials in the storage box 2 downwards when the spiral stirring paddle 25 rotates, the filling materials are extruded into the extrusion pipe 22 while being stirred, then the controller controls the upper traction motor 34 to rotate reversely, and controls the lower traction motor 34 to rotate synchronously, so that the upper traction motor 34 drives the wheel disc 39 to wind the traction rope 31, the lower traction motor 34 drives the corresponding wheel disc 39 to unfold the traction rope 31, so that the support frame 1 and the storage box 2 move up and down under the driving of the upper traction rope 31 and the lower traction rope 31, the support frame 1 and the storage box 2 are moved and the electromagnetic valve 21 is controlled to be opened, so that the filling materials are extruded from the extrusion pipe 22 and filled into gaps between the ceramic tiles on the wall 8, and the scraper 23 on the extrusion pipe 22 is driven by the extrusion pipe 22 to flatten the filling materials extruded into the gaps between the ceramic tiles on the wall 8, so that the invention can be filled in the vertical direction of the wall 8;

when the joint filling is carried out on the wall body 8 in the transverse direction, the controller controls all the driving motors 35 to synchronously rotate, so that the driving motors 35 drive the driving gears 38 to rotate, the driving gears 38 drive the traction seats 33 and the traction ropes 31 to transversely move by being meshed with the tooth-shaped grooves 37, and therefore the traction ropes 31 on the upper portion and the lower portion of the support frame 1 drive the support frame 1 to transversely move, the support frame 1 drives the storage box 2 and the extrusion pipes 22 to transversely move, and the extrusion pipes 22 extrude joint filling materials into transverse gaps among tiles on the wall body 8, so that the joint filling is carried out on the wall body 8 in the transverse direction;

referring to the attached drawing 1 of the specification, in the embodiment, a group of moving mechanisms 3 is arranged above a support frame 1, two groups of moving mechanisms 3 are arranged below the support frame 1, and sliding rails 32 of the two groups of moving mechanisms 3 below are spliced with each other, so that three traction ropes 31 connected to the support frame 1 are inverted-Y-shaped in actual work, and the support frame 1 is subjected to forces in three directions, and the limitation is increased, so that the support frame 1 and a storage box 2 are more stable when being pulled by the traction ropes 31, and the situation that the support frame 1 and the storage box 2 shake due to wind blowing under the driving of the traction ropes 31 is reduced;

the moving mechanisms 3 are respectively arranged above and below the wall 8, so that the support frame 1 and the storage box 2 are fixed by the traction ropes 31 above and below the support frame 1, the support frame 1 and the storage box 2 move in the vertical direction of the wall 8 by the traction motor 34 and the wheel disc 39, the support frame 1 and the storage box 2 move transversely by the driving motor 35 and the driving gear 38, and meanwhile, the extrusion pipe 22 extrudes joint filling materials to fill joints at gaps among tiles on the wall 8, so that the joint filling is completed; the invention is suitable for the height of the wall body 8 to depend on the length of the traction rope 31, so the invention can perform joint filling on the lower building surface and also can perform joint filling on the surfaces of some higher building walls 8, and simultaneously the traction rope 31 connected on the support frame 1 is arranged into an inverted Y shape, so that the stability of the support frame 1 and the storage box 2 in the mid-air is increased under the traction of the traction rope 31.

Referring to fig. 6 in the specification, in this embodiment, the side edge of the sliding rail 32 is fixedly connected with a hook 4; the hook 4 is hooked with an ingredient frame 5.

Referring to fig. 5 of the specification, in this embodiment, the extrusion tube 22 is fixedly connected with a mounting ring 6; the mounting ring 6 surrounds the extruded tube 22; four compression springs 61 are uniformly arranged on the mounting ring 6; the other end of the compression spring 61 is fixedly connected with the scraper 23; the end of the scraper 23 remote from the extruded tube 22 is spherical.

Referring to fig. 5 of the specification, in this embodiment, inclined plates 62 are attached to both sides of the top end of the squeegee 23.

In the embodiment, the batching frame 5 is thickened and weighted, a worker hangs the batching frame 5 on the hook 4 on the side edge of the sliding rail 32, and can store joint filling materials in the batching frame 5, so that the weight of the batching frame 5 is increased, the load of the sliding rail 32 is increased, the gravity of the support frame 1 and the batching frame and the pulling force of the pulling motor 34 below on the pulling rope 31 are prevented from acting on the sliding rail 32 and the pulling seat 33 above, the gravity centers of the sliding rail 32 and the pulling seat 33 are unstable, the sliding rail 32 of the moving mechanism 3 above is prevented from turning over at the upper end of a building, and the joint filling materials in the batching frame 5 are supplemented into the storage box 2 by the worker in order to reduce the loads on the pulling rope 31 and the sliding rail 32 and the pulling seat 33 above the wall 8, and the storage box 2 is not suitable for storing too many joint filling materials, and when the support frame 1 and the storage box 2 move to the uppermost end of the wall 8, so as to complete the supplement of the joint filling materials in the storage box 2;

when the storage box 2 drives the extrusion pipe 22 to move, the extrusion pipe 22 drives the scraper 23 to move along the gap between the ceramic tiles; the four scrapers 23 are disposed around the extrusion tube 22, so that when the scrapers 23 are disposed in the upper, lower, left, and right directions of the extrusion tube 22, no matter whether the extrusion tube 22 moves up and down or moves left and right, two scrapers 23 are always in a straight line with the gap between the tiles and located in the gap, and the remaining two scrapers 23 are in contact with the tiles; the scraper 23 in the gap and far away from the moving direction of the extrusion pipe 22 is contacted with the caulking material extruded by the extrusion pipe 22, and the scraper 23 is arranged in a spherical surface shape, so that the caulking material in the gap is uniformly scraped by the scraper 23 contacted with the caulking material in the moving process, and meanwhile, the inclined plates 62 at the two sides of the scraper 23 scrape the caulking material overflowing the gap, thereby not influencing the appearance of the building wall 8 after caulking.

Example two:

the difference between this embodiment and the first embodiment is that

Referring to the description and the attached fig. 8, in this embodiment, shovel blocks 7 are fixedly connected to both sides of the sliding connection portion of the traction seat 33 and the sliding rail 32.

Referring to the description of fig. 5, in this embodiment, a second sliding groove 71 is formed on one side of the sliding rail 32 away from the hook 4; a circular ring block 72 is connected in the second sliding groove 71 in a sliding manner; the pull cord 31 passes through the ring block 72.

When the inclined plate 62 scrapes off the gap filling materials overflowing from the gaps of the ceramic tiles, the gap filling materials fall onto the ground, and the shovel blocks 7 are fixedly connected to two sides of the sliding connection part of the traction seat 33 and the sliding rail 32, so that when the gap filling materials fall into the first sliding groove 36, the top ends of the shovel blocks 7 can shovel the gap filling materials falling into the first sliding groove 36, and the gap filling materials in the first sliding groove 36 are prevented from blocking the traction seat 33 from moving;

a second sliding groove 71 and a circular ring block 72 are arranged on the sliding rail 32, and the traction rope 31 passes through the circular ring block 72, so that when the traction seat 33 carries the traction rope 31 to move transversely, the traction rope 31 pulls the circular ring block 72 to move together; when the support frame 1 is pulled up and down by the hauling cable 31, the ring block 72 stretches the hauling cable 31, so that the hauling cable 31 with the support frame 1 and the discharging box is acted by the ring block 72 in the direction close to the surface of the building wall 8, and the support frame 1 and the storage box 2 are attached to the surface of the building wall 8.

Referring to the description of the attached drawings 4 and the description of the attached drawings 5, in the embodiment, four pressure sensors 63 are embedded in the mounting ring 6; the pressure sensor 63 is fixedly attached to the compression spring 61.

The four pressure sensors 63 correspond to the four scraping plates 23, when the top ends of the scraping plates 23 enter gaps among tiles, the length of the compression spring 61 is relatively long, and the pressure value transmitted to the pressure sensors 63 is relatively small; when the top end of the scraper 23 is contacted with the tiles for entering the gaps between the tiles, the length of the compression spring 61 is relatively short, and the pressure value transmitted to the pressure sensor 63 is relatively large; when the extruding pipe 22 drives the scraping plates 23 to vertically move and joint in the vertical direction, the top ends of the two scraping plates 23 in the vertical direction are located in a gap between tiles, so that when the moving track of the extruding pipe 22 deviates, the top ends of the two scraping plates 23 in the vertical direction are separated from the gap and are in contact with the tiles, the pressure value of the pressure sensor 63 corresponding to the scraping plates 23 is relatively large, the pressure sensor 63 transmits a pressure signal to the controller, the controller gives an alarm to remind a worker, the worker adjusts the position of the traction rope 31 left and right through the driving motor 35, so that the traction rope 31 drives the discharge box of the support frame 1 and the position of the extruding pipe 22 to be adjusted, and the top ends of the scraping plates 23 enter the gap again; similarly, when the moving track of the extrusion tube 22 in the transverse direction deviates, the worker adjusts the traction rope 31 through the traction motor 34, so that the traction rope 31 drives the support frame 1, the storage box 2 and the extrusion tube 22 to be adjusted in position;

according to the invention, the pressure transmitted to the corresponding pressure sensor 63 by the two scraping plates 23 in the vertical direction and the two scraping plates 23 in the transverse direction is used for detecting whether the scraping plates 23 are positioned between the gaps of the ceramic tiles, so as to judge whether the relative position of the extrusion pipe 22 is accurate, and when the position of the extrusion pipe 22 is deviated, a worker adjusts the position of the extrusion pipe 22 through the traction rope 31, so that the position accuracy of the extrusion pipe 22 in extruding the caulking material is ensured.

The foregoing shows and describes the general principles, principal features and advantages of the invention; it will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims; the scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A wall joint filling device for building construction comprises a support frame (1), a storage box (2) and a controller;

the storage box (2) is fixedly connected and communicated with an electromagnetic valve (21); the other end of the electromagnetic valve (21) is communicated with an extrusion pipe (22); a scraper (23) is arranged on the extrusion pipe (22); the upper end surface of the material storage box (2) is fixedly connected with a stirring motor (24); the output end of the stirring motor (24) extends into the material storage box (2) and is rotatably connected with the material storage box (2), and the output shaft of the stirring motor (24) is fixedly connected with a spiral stirring paddle (25);

the method is characterized in that:

also comprises a moving mechanism (3); the moving mechanism (3) is connected with the material storage box (2) through a traction rope (31), and the moving mechanism (3) can drive the material storage box (2) to move outside the wall body through the traction rope (31) and reach each position of the outer surface of the wall body.

2. The wall joint filling equipment for building construction as claimed in claim 1, wherein: the moving mechanism (3) comprises a sliding rail (32), a traction rope (31), a traction seat (33), a traction motor (34) and a driving motor (35); the sliding rails (32) can be mutually clamped, and a first sliding groove (36) and a tooth-shaped groove (37) are formed in each sliding rail (32); the traction seat (33) can be connected in the first sliding groove (36) in a sliding manner; the driving motor (35) is fixedly connected to the traction seat (33), and the output end of the driving motor (35) is fixedly connected with a driving gear (38); the side wall of the tooth-shaped groove (37) is tooth-shaped and is meshed with the driving gear (38);

the traction motor (34) is fixedly connected to the traction seat (33), and the output end of the traction motor (34) is fixedly connected with a wheel disc (39); the traction rope (31) is wound on the wheel disc (39), and the other end of the traction rope (31) is fixedly connected to the support frame (1);

the upper side and the lower side of the support frame (1) are both provided with a moving mechanism (3).

3. The wall caulking apparatus for building construction as claimed in claim 2, wherein: two groups of moving mechanisms (3) are arranged below the supporting frame (1), and one group of moving mechanisms (3) is arranged above the supporting frame (1); the traction ropes (31) of the three groups of moving mechanisms (3) are inverted Y-shaped traction support frames (1).

4. The wall caulking apparatus for building construction as claimed in claim 2, wherein: the side edge of the sliding rail (32) is fixedly connected with a hook (4); the hook (4) is hooked with a batching frame (5).

5. The wall caulking apparatus for building construction as claimed in claim 1, wherein: the extrusion pipe (22) is fixedly connected with a mounting ring (6); the mounting ring (6) surrounds the extrusion tube (22); four compression springs (61) are uniformly arranged on the mounting ring (6); the other end of the compression spring (61) is fixedly connected with the scraper (23); one end of the scraping plate (23) far away from the extrusion pipe (22) is spherical.

6. The wall joint filling equipment for building construction as claimed in claim 5, wherein: the two sides of the top end of the scraper (23) are fixedly connected with inclined plates (62).

7. The wall caulking apparatus for building construction as claimed in claim 2, wherein: shovel blocks (7) are fixedly connected to two sides of the sliding connection part of the traction seat (33) and the sliding rail (32).

8. The wall caulking apparatus for building construction as claimed in claim 2, wherein: a second sliding groove (71) is formed in one side, away from the hook (4), of the sliding rail (32); a circular ring block (72) is connected in the second sliding groove (71) in a sliding manner; the traction rope (31) penetrates through the circular ring block (72).

9. The wall joint filling equipment for building construction as claimed in claim 5, wherein: four pressure sensors (63) are embedded in the mounting ring (6); the pressure sensor (63) is fixedly connected with the compression spring (61).