CN116657862A - Vertical joint treatment tool for light partition board - Google Patents

Abstract

The utility model provides a vertical joint treatment tool for a light partition board, which belongs to the technical field of building decoration and comprises a support frame, a slurry storage box and a slurry storage cylinder. According to the vertical joint treatment tool for the light partition board, slurry in the first accommodating cavity is coated in the vertical joint of the light partition board through the first slurry outlet by means of self gravity; when the grid cloth passes through the bottom of the slurry storage cylinder, slurry in the second accommodating cavity is coated on the grid cloth through the second slurry outlet by means of self gravity, and the slurry storage cylinder lays the grid cloth coated with the slurry on the surface of the light partition board. According to the vertical seam processing tool for the light partition board, disclosed by the utility model, the vertical seam of the light partition board and the surfaces on two sides of the vertical seam can be respectively coated and processed through the slurry storage box and the slurry storage cylinder, and the slurry outlet rates of the two working conditions can be independently controlled, so that the slurry accumulation phenomenon on the surfaces on two sides of the vertical seam is avoided, and the problem of material waste is solved.

Description

Vertical joint treatment tool for light partition board

Technical Field

The utility model belongs to the technical field of building decoration, and particularly relates to a vertical joint treatment tool for a light partition board.

Background

Along with the daily and monthly variation of the infrastructure and the urban construction of China, the building industry is vigorously developed, a large number of building sites are developed in all places of the country, and the building forms are also various. The light partition board is widely used for civil building non-bearing masonry engineering, and has the characteristics of light weight, high strength, simple installation, high construction efficiency and the like, which are superior to the traditional small building blocks.

Because the light partition board is a vertically installed strip board, a vertical through top vertical seam is reserved after the installation is completed. In order to improve the aesthetic property and the heat insulation performance of a building constructed by using the lightweight partition boards, it is generally required to plug a seam with a slurry (e.g., an anti-crack adhesive) and apply the slurry with a certain width to both sides of the vertical seam, and then cover the surface of the lightweight partition boards coated with the slurry with a fiber mesh cloth.

The utility model patent number CN202220370630.8 discloses a vertical joint treatment tool for a light partition board, which comprises a supporting frame and a distributing device. Wherein, the support frame can slide along light partition wall board. The distributing device is arranged on the supporting frame in a follow-up mode, the distributing device is provided with a containing cavity for containing slurry and a spreading plate which is arranged at a discharge hole of the containing cavity and is attached to the light partition wall board, and the slurry slides down between the spreading plate and the light partition wall board from the discharge hole of the containing cavity by means of the self weight of the slurry, so that the slurry is coated on the light partition wall board. According to the patent, the slurry is coated on the vertical seam of the light partition board and the surfaces on the two sides of the vertical seam through the distributing device, so that the speed of the distributing device for conveying the slurry into the vertical seam and the surfaces on the two sides of the vertical seam is kept consistent; because the vertical seam has certain depth, the amount of the slurry coated in the vertical seam is more than that of the slurry coated on the surfaces of the two sides of the vertical seam, when the slurry coated on the surfaces of the two sides of the vertical seam is finished, the slurry is not filled in the vertical seam, and when the slurry is filled in the vertical seam, excessive slurry can be accumulated on the surfaces of the two sides of the vertical seam, so that the material is wasted.

Disclosure of Invention

The utility model aims to provide a vertical joint treatment tool for a light partition board, and aims to solve the problems that excessive slurry is easily accumulated on the surfaces of two sides of a vertical joint and material is wasted in the conventional vertical joint treatment tool for the light partition board.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a frock is handled to light partition wall board perps, include:

the support frame moves downwards along the vertical joint on the light partition board;

the slurry storage box is fixedly arranged on the support frame and is provided with a first accommodating cavity for accommodating slurry and a first slurry outlet positioned on the side surface of the first accommodating cavity, and the first slurry outlet is opposite to the vertical seam of the light partition board and is attached to the light partition board; and

the slurry storage cylinder is fixedly arranged on the support frame and is positioned right above the slurry storage box, a second accommodating cavity for accommodating slurry is formed in the slurry storage cylinder, a second slurry outlet communicated with the second accommodating cavity is formed in the bottom of the slurry storage cylinder, and the slurry storage cylinder is attached to the light partition board; the grid cloth is wound on the slurry storage cylinder, when the grid cloth passes through the bottom of the slurry storage cylinder, slurry is coated on the grid cloth through the second slurry outlet, and the grid cloth coated with the slurry is laid on the surface of the light partition wall board by the slurry storage cylinder.

In one possible implementation, the support frame includes two side plates arranged in parallel and a first support shaft connecting the two side plates; the vertical seams of the side plates and the light partition plates are kept parallel, and the first supporting shafts are kept vertical to the side plates; the pulp storage box and the pulp storage cylinder are both positioned between the two side plates; one end of the first support shaft, which is positioned outside the side plate, is provided with a travelling wheel; the travelling wheels protrude out of the outer outline of the side plate and are used for travelling on the light partition wall plate.

In one possible implementation manner, the first supporting shaft is sleeved with a winding roller, the winding roller is rotationally connected with the first supporting shaft, the winding roller is used for supporting a grid cloth roll, the winding roller is located above the slurry storage cylinder, the free end of the grid cloth roll bypasses the bottom of the slurry storage cylinder and extends to a position between the slurry storage cylinder and the light partition wall board, and the grid cloth roll is driven to rotate by friction force between the slurry storage cylinder and the light partition wall board, so that grid cloth is released.

In one possible implementation manner, two the inside wall fixed mounting of curb plate has the second back shaft that is used for supporting the thick liquid section of thick bamboo is stored up, the second back shaft with the thick liquid section of thick bamboo coaxial setting is stored up, the top outside of thick liquid section of thick bamboo is equipped with the arc and scrapes the flitch, the arc is scraped the flitch and is used for trowelling the thick liquids on the light partition wall board, the arc scrape the flitch pass through first connecting rod with second back shaft fixed connection, the top of thick liquid section of thick bamboo be stored up seted up with the receiving mouth that the chamber was held in the second intercommunication.

In one possible implementation manner, a swing rod is hinged to one side, away from the pulp storage barrel, of the arc-shaped scraping plate, a compaction roller is rotatably mounted at the free end of the swing rod, the compaction roller is parallel to the pulp storage barrel, a first elastic piece is mounted between the swing rod and the arc-shaped scraping plate and used for applying acting force towards one side of the light partition plate to the swing rod, and the compaction roller compacts and fixes mesh cloth laid on the light partition plate.

In one possible implementation, the slurry storage box comprises a box body and two sliding blocks; the box body is fixedly connected with the two side plates respectively, the inner cavity of the box body is the first accommodating cavity, and the two sliding blocks are respectively and slidably arranged on two sides of the first grout outlet in the horizontal direction; and the two sliding blocks are moved to realize the adjustment of the horizontal width dimension of the first grout outlet.

In one possible implementation manner, a third supporting shaft is installed between the two side plates, the third supporting shaft is parallel to the slurry storage barrel, two guide plates are installed on the third supporting shaft, the two guide plates are symmetrically arranged in the axial center of the third supporting shaft, the two guide plates are located in the vertical seam, and the outer side walls of the guide plates are attached to the inner side walls of the vertical seam.

In one possible implementation, a second elastic member is mounted between the guide piece and the third support shaft, the guide piece having a degree of freedom of axial movement along the third support shaft, the second elastic member being configured to exert a force on the guide piece away from an axial center of the third support shaft.

In one possible implementation manner, the guide piece is fixedly connected with the sliding block through a second connecting rod, and the inner side wall of the sliding block is flush with the outer side wall of the guide piece.

In one possible implementation, the support frame has a handle rotatably mounted thereon.

Compared with the prior art, the scheme provided by the embodiment of the utility model has the advantages that the slurry storage box and the slurry storage cylinder are arranged on the support frame; the first slurry outlet on the slurry storage box is opposite to the vertical seam of the light partition board and is attached to the light partition board, and slurry in the first accommodating cavity is coated in the vertical seam of the light partition board through the first slurry outlet by means of self gravity; the thick liquid section of thick bamboo that stores up is located the thick liquid box of storing up directly over, and the bottom of storing up thick liquid section of thick bamboo is equipped with the second and goes out the thick liquid mouth, and the net cloth is around establishing on storing up thick liquid section of thick bamboo, and when net cloth passed through storing up thick liquid section of thick bamboo bottom, the thick liquids in the second holding chamber relied on self gravity to pass through the second and go out thick liquid mouth coating on net cloth, and the net cloth that stores up thick liquids section of thick bamboo will scribble thick liquids lays on light partition wall board surface. The support frame can move downwards on the light partition board along the vertical joint, so that the operation range of coating slurry on the light partition board is enlarged. According to the vertical seam processing tool for the light partition board, disclosed by the utility model, the vertical seam of the light partition board and the surfaces on two sides of the vertical seam can be respectively coated and processed through the slurry storage box and the slurry storage cylinder, and the slurry outlet rates of the two working conditions can be independently controlled, so that the slurry accumulation phenomenon on the surfaces on two sides of the vertical seam is avoided, and the problem of material waste is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic cross-sectional structure diagram of a light partition board vertical joint treatment tool according to an embodiment of the present utility model;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view at B in FIG. 1;

fig. 4 is a right side view of a support frame according to an embodiment of the present utility model;

FIG. 5 is a schematic cross-sectional view of a slurry storage box according to an embodiment of the present utility model;

fig. 6 is a schematic diagram of a cross-sectional structure of a slurry storage box according to an embodiment of the present utility model;

FIG. 7 is a schematic cross-sectional view of a slurry storage barrel according to an embodiment of the present utility model;

fig. 8 is a schematic diagram of an assembly structure of a third support shaft and a guide plate according to an embodiment of the present utility model;

FIG. 9 is a schematic cross-sectional view of a handle provided in an embodiment of the present utility model;

fig. 10 is a schematic diagram of piping connection according to an embodiment of the present utility model.

In the figure: 1. a support frame; 101. a side plate; 102. a first support shaft; 103. a walking wheel; 104. a winding roller; 105. a second support shaft; 106. an arc scraping plate; 107. a first link; 108. a jackscrew; 109. a first feed hose; 110. a first valve; 111. swing rod; 112. a compacting roller; 113. a first elastic member; 114. a third support shaft; 115. a guide piece; 116. an airflow cavity; 117. an air pump; 118. an air tap; 119. a second elastic member; 120. a second link; 121. a handle; 2. a slurry storage box; 201. a first accommodation chamber; 202. a first slurry outlet; 203. a case body; 204. a slide block; 205. a second feed hose; 206. a second valve; 3. a pulp storage cylinder; 301. a second accommodation chamber; 302. a second slurry outlet; 303. a material receiving port; 4. light partition board; 401. a vertical joint; 5. a mesh cloth; 6. a slurry cylinder; 7. a feed pump; 8. and a main feeding hose.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1, fig. 2 and fig. 5, a description will now be given of a vertical joint processing tool for a light partition board provided by the present utility model. The utility model provides a frock is handled to light partition wall board perps, includes: support frame 1, storage thick liquid box 2 and a thick liquid section of thick bamboo 3. The support frame 1 moves downwards along the vertical seam 401 on the light partition board 4; the slurry storage box 2 is fixedly arranged on the support frame 1, the slurry storage box 2 is provided with a first accommodating cavity 201 for accommodating slurry and a first slurry outlet 202 positioned on the side surface of the first accommodating cavity 201, and the first slurry outlet 202 is opposite to a vertical seam 401 of the light partition board 4 and is attached to the light partition board 4; the pulp storage cylinder 3 is fixedly arranged on the support frame 1, the pulp storage cylinder 3 is positioned right above the pulp storage box 2, a second containing cavity 301 for containing pulp is arranged in the pulp storage cylinder 3, a second pulp outlet 302 communicated with the second containing cavity 301 is formed in the bottom of the pulp storage cylinder 3, and the pulp storage cylinder 3 is attached to the light partition wall board 4; the grid cloth 5 is wound on the slurry storage cylinder 3, when the grid cloth 5 passes through the bottom of the slurry storage cylinder 3, slurry is coated on the grid cloth 5 through the second slurry outlet 302, and the grid cloth 5 coated with the slurry is laid on the surface of the light partition wall board 4 by the slurry storage cylinder 3.

Compared with the prior art, the vertical joint treatment tool for the light partition board is characterized in that a slurry storage box 2 and a slurry storage cylinder 3 are arranged on a support frame 1; the first slurry outlet 202 on the slurry storage box 2 is opposite to the vertical seam 401 of the light partition wall board 4 and is attached to the light partition wall board 4, and slurry in the first accommodating cavity 201 is coated in the vertical seam 401 of the light partition wall board 4 through the first slurry outlet 202 by means of self gravity; the thick liquid storage tube 3 is located directly over the thick liquid storage box 2, and the bottom of thick liquid storage tube 3 is equipped with second thick liquid outlet 302, and net cloth 5 winds and establishes on thick liquid storage tube 3, and when net cloth 5 passed through thick liquid storage tube 3 bottom, the thick liquids in the second holding chamber 301 relied on self gravity to coat on net cloth 5 through second thick liquid outlet 302, and net cloth 5 that the thick liquids will be scribbled is laid at light partition wall board 4 surface to thick liquid storage tube 3. The support frame 1 can move downwards on the lightweight partition board 4 along the vertical slits 401, thereby enlarging the working range of coating the slurry on the lightweight partition board 4. According to the vertical seam processing tool for the light partition board, disclosed by the utility model, the vertical seam 401 of the light partition board 4 and the surfaces at the two sides of the vertical seam 401 can be respectively coated through the slurry storage box 2 and the slurry storage barrel 3, and the slurry outlet rates of the two working conditions can be independently controlled, so that the slurry accumulation phenomenon on the surfaces at the two sides of the vertical seam 401 is avoided, and the problem of material waste is solved.

In this embodiment, the number of the second outlets 302 is plural, and the second outlets are uniformly arranged in the axial direction of the pulp storage cylinder 3. The slurry storage box 2 is positioned at the axial center of the slurry storage cylinder 3, so that the width dimensions of the two sides of the vertical seam 401 of the lightweight partition board 4 coated by the second slurry outlet 302 on the slurry storage cylinder 3 are ensured to be consistent, and the grid cloth 5 can be laid by taking the vertical seam 401 as the center. Since the mesh cloth 5 has a net structure, the slurry coated on the mesh cloth 5 by the second slurry outlet 302 can completely cover both sides of the mesh cloth 5.

In some embodiments, referring to fig. 1 and 4, the support frame 1 includes two side plates 101 arranged in parallel and a first support shaft 102 connecting the two side plates 101; the side plate 101 is parallel to the vertical seam 401 of the light partition wall plate 4, and the first support shaft 102 is vertical to the side plate 101; the pulp storage box 2 and the pulp storage cylinder 3 are positioned between the two side plates 101; one end of the first support shaft 102, which is positioned outside the side plate 101, is provided with a travelling wheel 103; the travelling wheels 103 protrude beyond the outer contour of the side plates 101 for travelling over the lightweight partition board 4. In this embodiment, two side plates 101 are arranged in parallel in the vertical direction, and the side plates 101 are kept parallel to the vertical slits 401 of the lightweight partition board 4. First supporting shafts 102 are fixedly arranged between the two side plates 101, and the number of the first supporting shafts 102 is two, and the first supporting shafts are respectively distributed along the vertical direction. The two first support shafts 102 are for supporting the two side plates 101. The pulp storage box 2 and the pulp storage cylinder 3 are fixedly arranged between the two side plates 101. The first support shaft 102 is fixed to the side plate 101 by welding. Both ends of the first support shaft 102 in the axial direction penetrate through the two side plates 101, respectively. The end part of the first support shaft 102, which is positioned outside the side plate 101, is rotatably provided with a travelling wheel 103, and the travelling wheel 103 plays a role in supporting the whole support frame 1. The vertical joint treatment tool for the light partition board can walk on the light partition board 4 through the walking wheels 103. The two side plates 101 are spaced apart from the surface of the lightweight partition board 4.

In some embodiments, referring to fig. 1, a winding roller 104 is sleeved on the first supporting shaft 102, the winding roller 104 is rotatably connected with the first supporting shaft 102, the winding roller 104 is used for supporting a grid cloth 5 roll, the winding roller 104 is located above the slurry storage cylinder 3, a free end of the grid cloth 5 roll bypasses the bottom of the slurry storage cylinder 3 and extends between the slurry storage cylinder 3 and the light partition wall board 4, and friction force between the slurry storage cylinder 3 and the light partition wall board 4 drives the grid cloth 5 roll to rotate, so that the grid cloth 5 is released. In this embodiment, the winding drum 104 is rotatably mounted on the first support shaft 102 above the pulp storage drum 3, and the web 5 is wound on the winding drum 104. The take-up drum 104 is rotatable about the axis of the first support shaft 102. The free end of the rolls of mesh cloth 5 first passes around the bottom of the pulp storage cylinder 3 downwards and then extends upwards between the pulp storage cylinder 3 and the lightweight partition board 4. When the pulp storage cylinder 3 moves downwards along with the support frame 1, the grid cloth 5 is driven to rotate by friction force between the pulp storage cylinder 3 and the light partition wall board 4, so that the grid cloth 5 is released. The slurry in the slurry storage cylinder 3 is continuously coated on the grid cloth 5 through the second slurry outlet 302, and the grid cloth 5 coated with the slurry is laid on the surface of the light partition board 4 under the action of the slurry storage cylinder 3. Since the slurry storage box 2 is located below the slurry storage cylinder 3, the slurry in the slurry storage box 2 is coated on the vertical seam 401 of the light partition wall board 4 through the first slurry outlet 202, and then the grid cloth 5 is laid on the surface of the light partition wall board 4 under the action of the slurry storage cylinder 3.

In some embodiments, referring to fig. 1, 2, 7 and 10, the inner side walls of the two side plates 101 are fixedly provided with a second supporting shaft 105 for supporting the slurry storage cylinder 3, the second supporting shaft 105 is coaxially arranged with the slurry storage cylinder 3, the outer side of the top of the slurry storage cylinder 3 is provided with an arc scraping plate 106, the arc scraping plate 106 is used for trowelling slurry on the light partition wall plate 4, the arc scraping plate 106 is fixedly connected with the second supporting shaft 105 through a first connecting rod 107, and the top of the slurry storage cylinder 3 is provided with a material receiving port 303 communicated with the second accommodating cavity 301. In the present embodiment, the number of the second support shafts 105 is two, and the second support shafts 105 are fixed to the inner side walls of the two side plates 101 by welding, respectively, and the second support shafts 105 are fixed to the pulp storage cylinder 3 by welding, and the second support shafts 105 are disposed coaxially with the pulp storage cylinder 3. The arc-shaped scraping plate 106 is positioned outside the top of the pulp storage cylinder 3. After the grid cloth 5 is laid on the surface of the light partition board 4, slurry can overflow from the holes of the grid cloth 5, and the arc-shaped scraping board 106 can level the slurry overflowing from the grid cloth 5. The slurry overflowed from the grid cloth 5 is collected in the area between the slurry storage cylinder 3 and the arc scraping plate 106, and then enters the second accommodating cavity 301 through the material receiving opening 303 at the top of the slurry storage cylinder 3, so that the slurry is recycled, and the material waste is avoided. The radian of the arc-shaped scraping plate 106 is consistent with the radian of the circumferential surface of the pulp storage barrel 3, and the central line of the arc-shaped scraping plate 106 coincides with the axis of the pulp storage barrel 3. The length dimension of the arc-shaped scraping plate 106 is larger than or equal to the axial length dimension of the slurry storage cylinder 3, so that the arc-shaped scraping plate 106 can completely cover the area of the grid cloth 5 on the light partition wall plate 4. The first connecting rods 107 are positioned at two ends of the arc scraping plate 106 in the length direction and at two axial sides of the slurry storage cylinder 3. One end of the first connecting rod 107 is welded and fixed with the arc scraping plate 106, the other end of the first connecting rod 107 is rotationally connected with the second supporting shaft 105, a jackscrew 108 is arranged between the first connecting rod 107 and the second supporting shaft 105, and the jackscrew 108 is used for locking and fastening the first connecting rod 107 on the second supporting shaft 105. When the distance between the arc scraping plate 106 and the light partition wall plate 4 needs to be adjusted, the jackscrew 108 is unscrewed, then the first connecting rod 107 rotates relative to the second supporting shaft 105, and after the distance between the arc scraping plate 106 and the light partition wall plate 4 is adjusted in place, the jackscrew 108 is screwed. In order to facilitate the replenishment of the slurry into the second receiving chamber 301 of the slurry storage drum 3, a first feed hose 109 is mounted at one end of the second support shaft 105. A first valve 110 is mounted on the first feed hose 109 for controlling the slurry transfer rate within the first feed hose 109.

In some embodiments, referring to fig. 2, a swing rod 111 is hinged to a side of the arc-shaped scraping plate 106 away from the slurry storage barrel 3, a compaction roller 112 is rotatably mounted at a free end of the swing rod 111, the compaction roller 112 is parallel to the slurry storage barrel 3, a first elastic member 113 is mounted between the swing rod 111 and the arc-shaped scraping plate 106, and the first elastic member 113 is used for applying a force to the swing rod 111 towards one side of the light partition wall board 4, so that the compaction roller 112 compacts and fixes the mesh cloth 5 laid on the light partition wall board 4. In the embodiment, a swing rod 111 is hinged to one side of the arc-shaped scraping plate 106, which is away from the pulp storage barrel 3, a compaction roller 112 is rotatably arranged at the free end of the swing rod 111, the compaction roller 112 is kept parallel to the axial direction of the pulp storage barrel 3, and the axial length of the compaction roller 112 is equal to the axial length of the arc-shaped scraping plate 106. The compaction roller 112 is made of rubber, has certain elasticity and has a smooth surface. The first elastic member 113 is a tension spring, and the tension spring applies a force to the swing rod 111 to enable the compaction roller 112 to further compact and fix the mesh cloth 5 stuck on the light partition board 4, so that the connection between the mesh cloth 5 and the light partition board 4 is firmer.

In some embodiments, referring to fig. 5, 6 and 10, the slurry storage box 2 includes a box body 203 and two sliders 204; the box body 203 is fixedly connected with the two side plates 101 respectively, the inner cavity of the box body 203 is a first accommodating cavity 201, and the two sliding blocks 204 are respectively and slidably arranged at two sides of the first grout outlet 202 in the horizontal direction; by moving the two sliders 204, an adjustment of the horizontal width dimension of the first outlet 202 is achieved. In this embodiment, the box 203 is rectangular, and the inner cavity of the box 203 is the first accommodating cavity 201. The box 203 is positioned at the axial center of the pulp storage cylinder 3. The width dimension of the first accommodation chamber 201 in the horizontal direction is larger than the width dimension of the vertical slit 401 of the lightweight partition board 4. Two sliders 204 are respectively located at two sides of the first grout outlet 202 in the horizontal direction. The two sliders 204 can slide on the case 203 in the width direction of the vertical slit 401 of the lightweight partition board 4. The size of the opening of the first grout outlet 202 is changed by moving the two sliders 204 so that the horizontal width dimension of the first grout outlet 202 is kept consistent with the width dimension of the vertical slit 401 of the lightweight partition board 4. The bottom surface of the first receiving chamber 201 is an inclined surface, and the inclined surface is inclined downward toward a side near the first slurry outlet 202, so that the slurry in the first receiving chamber 201 can smoothly flow toward the first slurry outlet 202. To facilitate the replenishment of the slurry into the first receiving chamber 201, a second feed hose 205 is mounted to the cartridge 203. A second valve 206 is mounted on the first feed hose 109 for controlling the slurry delivery rate in the second feed hose 205.

In some embodiments, referring to fig. 1, 3 and 8, a third supporting shaft 114 is installed between the two side plates 101, the third supporting shaft 114 is parallel to the slurry storage barrel 3, two guiding plates 115 are installed on the third supporting shaft 114, the two guiding plates 115 are symmetrically arranged at the center of the third supporting shaft 114 in the axial direction, the two guiding plates 115 are located in the vertical slits 401, and the outer side walls of the guiding plates 115 are attached to the inner side walls of the vertical slits 401. In the present embodiment, the two axial ends of the third support shaft 114 are fixed to the two side plates 101 by welding. The third support shaft 114 remains parallel to the pulp storage cylinder 3. The number of the guide pieces 115 is two, and the guide pieces are symmetrically arranged with respect to the center of the third support shaft 114 in the axial direction. The guide plate 115 is sleeved on the third support shaft 114, and the guide plate 115 is rotatably connected with the third support shaft 114. The thickness dimension of the two guide pieces 115 is smaller than half the width dimension of the vertical slit 401 of the lightweight partition board 4. The side walls of the two guide plates 115, which are away from each other, are attached to the inner side walls of the vertical joints 401 of the light partition board 4, so that the guide effect of the whole light partition board vertical joint treatment tool is achieved, and the light partition board vertical joint treatment tool moves on the light partition board 4 more stably. The inside of third back shaft 114 is equipped with the air current cavity 116 that is used for high-pressure air current to pass through, the trachea is installed to third back shaft 114 length direction's one end, this tracheal one end and air current cavity 116 intercommunication, the other end and air pump 117 intercommunication, the mid-mounting of third back shaft 114 has air cock 118, air cock 118 is located between two guide plates 115 and deviates from one side of storing up thick liquid box 2, the venthole of air cock 118 is in the vertical joint 401 towards light partition wall board 4, high-pressure gas passes through air cock 118 to blowout in the vertical joint 401 of light partition wall board 4, thereby clear up the foreign matter in the vertical joint 401 of light partition wall board 4, prepare for coating thick liquids in the vertical joint 401 to light partition wall board 4, promote the bonding effect of thick liquids to light partition wall board 4.

In some embodiments, referring to fig. 8, a second elastic member 119 is installed between the guide plate 115 and the third support shaft 114, where the guide plate 115 has a degree of freedom to move axially along the third support shaft 114, and the second elastic member 119 is used to apply a force to the guide plate 115 away from the axial center of the third support shaft 114. In this embodiment, the second elastic member 119 is a compression spring, and the compression spring is located on one side of the guide piece 115 near the axial center of the third support shaft 114. The compression spring is sleeved on the third supporting shaft 114, and the compression spring applies a force to the guide piece 115 to enable the guide piece 115 to abut against the side wall of the vertical slit 401 of the lightweight partition board 4. The width dimension of the vertical seam 401 in the vertical direction is different, and the compression spring can ensure that the guide piece 115 can be always attached to the side wall of the vertical seam 401 under the action of self elasticity, so that the support frame 1 is prevented from shaking in the moving process of the light partition board 4.

In some embodiments, referring to fig. 1, 5 and 6, the guide plate 115 is fixedly connected to the slider 204 through the second link 120, and the inner side wall of the slider 204 is flush with the outer side wall of the guide plate 115. In this embodiment, the guide piece 115 is fixedly connected to the slider 204 through the second link 120. The guide piece 115 drives the sliding block 204 to synchronously move through the second connecting rod 120. Since the inner side wall of the slider 204 is flush with the outer side wall of the guide piece 115 and the outer side wall of the guide piece 115 is attached to the inner side wall of the vertical slit 401, the slider 204 can be adaptively adjusted according to the width change of the vertical slit 401, so that the inner side wall of the slider 204 is always aligned with the inner side wall of the vertical slit 401.

In some embodiments, referring to fig. 1 and 9, a handle 121 is rotatably mounted on the support frame 1. In this embodiment, one end of the handle 121 is hinged to the two side plates 101. An operator can hold the handle 121 on the ground to drive the vertical joint processing tool for the light partition board disclosed by the utility model to move on the light partition board 4 from top to bottom, so that the operation is more convenient.

Referring to fig. 10, in this embodiment, the light partition board vertical joint processing tool of the present utility model further includes a slurry cylinder 6, a feed pump 7 and a main feed hose 8. The slurry cylinder 6 is filled with slurry. One end of the main feed hose 8 opens into the slurry cartridge 6, and the other end communicates with the first feed hose 109 and the second feed hose 205, respectively. The feed pump 7 delivers the slurry in the slurry cartridge 6 through the main feed hose 8 to the first feed hose 109 and the second feed hose 205, respectively, eventually leading to the slurry into the slurry storage box 2 and the slurry storage cartridge 3.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. Frock is handled to light partition wall board perps, its characterized in that includes:

the support frame moves downwards along the vertical joint on the light partition board;

the slurry storage box is fixedly arranged on the support frame and is provided with a first accommodating cavity for accommodating slurry and a first slurry outlet positioned on the side surface of the first accommodating cavity, and the first slurry outlet is opposite to the vertical seam of the light partition board and is attached to the light partition board; and

the slurry storage cylinder is fixedly arranged on the support frame and is positioned right above the slurry storage box, a second accommodating cavity for accommodating slurry is formed in the slurry storage cylinder, a second slurry outlet communicated with the second accommodating cavity is formed in the bottom of the slurry storage cylinder, and the slurry storage cylinder is attached to the light partition board; the grid cloth is wound on the slurry storage cylinder, when the grid cloth passes through the bottom of the slurry storage cylinder, slurry is coated on the grid cloth through the second slurry outlet, and the grid cloth coated with the slurry is laid on the surface of the light partition wall board by the slurry storage cylinder.

2. The tooling for treating the vertical joints of the lightweight partition boards according to claim 1, wherein the supporting frame comprises two side plates which are arranged in parallel and a first supporting shaft which connects the two side plates; the vertical seams of the side plates and the light partition plates are kept parallel, and the first supporting shafts are kept vertical to the side plates; the pulp storage box and the pulp storage cylinder are both positioned between the two side plates; one end of the first support shaft, which is positioned outside the side plate, is provided with a travelling wheel; the travelling wheels protrude out of the outer outline of the side plate and are used for travelling on the light partition wall plate.

3. The light partition board vertical joint treatment fixture according to claim 2, wherein a rolling roller is sleeved on the first supporting shaft and is rotatably connected with the first supporting shaft, the rolling roller is used for supporting a grid cloth roll, the rolling roller is located above the slurry storage cylinder, the free end of the grid cloth roll bypasses the bottom of the slurry storage cylinder and extends between the slurry storage cylinder and the light partition board, and the grid cloth roll is driven to rotate through friction force between the slurry storage cylinder and the light partition board, so that grid cloth is released.

4. The light partition board vertical joint treatment fixture according to claim 2, wherein the inner side walls of the two side plates are fixedly provided with a second supporting shaft for supporting the slurry storage cylinder, the second supporting shaft is coaxially arranged with the slurry storage cylinder, an arc-shaped scraping plate is arranged on the outer side of the top of the slurry storage cylinder and is used for trowelling slurry on the light partition board, the arc-shaped scraping plate is fixedly connected with the second supporting shaft through a first connecting rod, and a material receiving opening communicated with the second accommodating cavity is formed in the top of the slurry storage cylinder.

5. The vertical joint processing tool for the light partition board according to claim 4, wherein a swing rod is hinged to one side of the arc-shaped scraping plate, which is away from the slurry storage cylinder, a compaction roller is rotatably arranged at the free end of the swing rod, the compaction roller is parallel to the slurry storage cylinder, a first elastic piece is arranged between the swing rod and the arc-shaped scraping plate, and the first elastic piece is used for applying an acting force towards one side of the light partition board to the swing rod, so that the compaction roller compacts and fixes grid cloth laid on the light partition board.

6. The light partition board vertical joint treatment tool according to claim 2, wherein the slurry storage box comprises a box body and two sliding blocks; the box body is fixedly connected with the two side plates respectively, the inner cavity of the box body is the first accommodating cavity, and the two sliding blocks are respectively and slidably arranged on two sides of the first grout outlet in the horizontal direction; and the two sliding blocks are moved to realize the adjustment of the horizontal width dimension of the first grout outlet.

7. The light partition board vertical joint treatment tool according to claim 6, wherein a third supporting shaft is installed between the two side plates, the third supporting shaft is parallel to the slurry storage barrel, two guide plates are installed on the third supporting shaft, the two guide plates are symmetrically arranged in the center of the axial direction of the third supporting shaft, the two guide plates are located in the vertical joint, and the outer side walls of the guide plates are attached to the inner side walls of the vertical joint.

8. The tooling for treating a vertical joint of a lightweight partition board according to claim 7, wherein a second elastic member is installed between the guide piece and the third supporting shaft, the guide piece has a degree of freedom of moving axially along the third supporting shaft, and the second elastic member is used for applying a force to the guide piece away from the axial center of the third supporting shaft.

9. The light partition board vertical joint treatment tool according to claim 8, wherein the guide piece is fixedly connected with the sliding block through a second connecting rod, and the inner side wall of the sliding block is flush with the outer side wall of the guide piece.

10. A lightweight partition board vertical joint processing tool as recited in claim 1, wherein the support bracket is rotatably mounted with a handle.