CN214615396U - Combined type shaping and assembling template - Google Patents

Abstract

The utility model relates to a modular design equipment template belongs to the field of building construction equipment, and it includes the main part, the main part includes four group's wall bodies of vertical setting, sets up perpendicularly between two sets of adjacent wall bodies, connects through supporting mechanism between two sets of adjacent wall bodies, and the vertical sliding connection of supporting mechanism is between two sets of adjacent wall bodies, and a framework is constituteed with four group's supporting mechanism to four group's wall bodies, and supporting mechanism is located the framework four corners. Thereby four group's supporting mechanism vertical sliding connection are in framework four corners with four group's wall connection, four group's supporting mechanism and four group's wall body formation pouring cavity, and it can dismantle four group's wall bodies to follow the vertical roll-off that makes progress in framework four corners with four group's supporting mechanism during dismantlement, and easy operation makes things convenient for this application to have the convenience and retrieves the template, reduces the extravagant effect of resource.

Description

Combined type shaping and assembling template

Technical Field

The application relates to the field of building construction equipment, in particular to a combined type sizing and assembling template.

Background

The cast-in-place concrete structure is formed by in-situ formwork erecting and integral casting on site, has better overall performance and rigidity, and is suitable for buildings with higher requirements on earthquake proofing and integrity.

In the prior art, referring to fig. 1, a foundation pit 11 is excavated on the ground, reinforcing steel bars are bound, a template layer 12 is built around the reinforcing steel bars by using bricks after the reinforcing steel bars are bound, a mortar layer 13 is smeared on the inner side wall of the template layer 12, and finally concrete is poured into the template layer 12.

Aiming at the related technologies, the inventor thinks that the brick masonry template layer is difficult to recycle, which causes resource waste.

SUMMERY OF THE UTILITY MODEL

In order to conveniently recycle the template and reduce resource waste, the application provides a combined type sizing and assembling template.

The application provides a modular design equipment template adopts following technical scheme:

the utility model provides a modular design equipment template, includes the main part, the main part includes four group's walls of vertical setting, sets up perpendicularly between two sets of adjacent walls, connects through supporting mechanism between two sets of adjacent walls, the vertical sliding connection of supporting mechanism is between two sets of adjacent walls, and a framework is constituteed to four group's walls and four group's supporting mechanism, supporting mechanism is located framework four corners.

Through adopting above-mentioned technical scheme, thereby four group's supporting mechanism vertical sliding connection are in framework four corners with four group's wall connection, four group's supporting mechanism and four group's wall body formation pour the cavity, with four group's supporting mechanism from the vertical upwards roll-off in framework four corners can dismantle four group's wall body, easy operation is convenient, conveniently retrieves the template, reduces the wasting of resources.

Optionally, the wall body includes the polylith backup pad of vertical setting, the backup pad is carried on the back mutually and the biggest both sides face of area is wall medial surface and wall lateral surface respectively, and two adjacent backup pads butt each other and wall medial surface are in same vertical plane, be provided with the fixed establishment who connects two adjacent backup pads on the backup pad wall lateral surface.

Through adopting above-mentioned technical scheme, the adjacent backup pad in the same group wall body passes through fixed establishment to connect to conveniently dismantle the wall body for monolithic backup pad, conveniently retrieve the wall body.

Optionally, fixed establishment includes the connecting block, the connecting block is by two forked tail piece integrated into one piece, two one sides fixed connection of the swallow tail piece area is little each other, a plurality of recesses have all been seted up to wall lateral surface length direction both sides, the recess is the dovetail, and a plurality of recesses interval sets up in vertical direction, and when two adjacent backup pads butt, the connecting block slides in the recess of two adjacent backup pad wall lateral surfaces and with the recess wall butt.

Through adopting above-mentioned technical scheme, after in sliding the connecting block into the recess of two adjacent backup pad walls lateral surface, the connecting block is connected two adjacent backup pads, effectively increases the connection stability between the backup pad.

Optionally, the backup pad wall lateral surface is provided with the seal assembly with the connecting block butt, the seal assembly is including articulating in the first enclosed plate of backup pad wall lateral surface, and it has the second enclosed plate to articulate on the adjacent backup pad wall lateral surface, first enclosed plate and the vertical setting of second enclosed plate axis of rotation, first enclosed plate and second enclosed plate rotation opposite direction, when first enclosed plate and second enclosed plate rotate to first enclosed plate free end towards second enclosed plate free end, first enclosed plate and the equal butt of second enclosed plate in connecting block.

Through adopting above-mentioned technical scheme, when first closing plate and second closing plate rotate to first closing plate free end when the second closing plate free end, first closing plate and second closing plate are with the connecting block butt in the recess, effectively reduce the condition of connecting block follow roll-off in the recess, increase the connection stability between the adjacent backup pad.

Optionally, be provided with the coupling assembling fixed with first closing plate and second closing plate on the closing assembly, coupling assembling includes that fixed connection deviates from the first connecting plate of backup pad one side in first closing plate, first connecting plate is perpendicular with first closing plate, the second closing plate deviates from backup pad one side fixedly connected with second connecting plate, the second connecting plate is perpendicular with the second closing plate, first closing plate deviates from the vertical sliding connection in backup pad one side and has the connecting rod, when first closing plate free end when second closing plate free end, the vertical sliding connection of connecting rod is on first connecting plate and second connecting plate and is fixed first connecting plate and second connecting plate.

Through adopting above-mentioned technical scheme, the connecting rod is fixed back with first connecting plate and second connecting plate, and first closing plate and second closing plate are fixed at the current position, and first closing plate and second closing plate are with the connecting block butt in the recess, effectively reduce the condition of connecting block follow roll-off in the recess, increase the connection stability between the adjacent backup pad.

Optionally, the first connecting plate deviates from second connecting plate one side and has seted up first wedge-face, and first wedge-face is close to first closing plate one side and to being close to second connecting plate direction slope, the second connecting plate deviates from first connecting plate one side and has seted up the second wedge-face, and the second wedge-face is close to second closing plate one side and inclines near second connecting plate direction, the connecting rod has vertically seted up first spout towards first closing plate and second closing plate one side, first spout is the dovetail, first connecting plate and the vertical sliding connection of second connecting plate just with first spout lateral wall butt in first spout.

Through adopting above-mentioned technical scheme, the connecting rod is vertical to be slided and is made first connecting plate and second connecting plate slide into first spout in, and the connecting rod is fixed first connecting plate and second connecting plate, easy dismounting.

Optionally, the supporting plate wall outer side fixedly connected with reinforcing assembly, the reinforcing assembly includes many first reinforcing bars of fixed connection in supporting plate wall outer side, and many first reinforcing bar levels set up and set up at the interval in the vertical direction, the vertical fixedly connected with second reinforcing bar of supporting plate wall outer side, the second reinforcing bar passes first reinforcing bar and is located first reinforcing bar mid point, first reinforcing bar is located between first enclosed plate and the second enclosed plate in same backup pad.

Through adopting above-mentioned technical scheme, first reinforcing bar and second reinforcing bar effectively improve the support capacity of backup pad.

Optionally, the second reinforcing rod deviates from the hanging rod of the vertical fixedly connected with on one side of the outer side surface of the supporting plate wall, the hanging rod is a trapezoidal rod, when the first sealing plate and the second sealing plate rotate to be perpendicular to the outer side surface of the wall, the hanging rod is vertically connected in the first chute in a sliding mode and abutted against the inner wall of the first chute, the first connecting plate deviates from the abutting on one side of the first sealing plate and connected, and the second connecting plate deviates from the abutting on one side of the second sealing plate and abutted against the connecting rod.

Through adopting above-mentioned technical scheme, the carry pole is convenient to be carried the connecting rod in the backup pad, makes the connecting rod support tightly the first connecting plate and the second connecting plate of same backup pad simultaneously, convenient transportation.

Optionally, the supporting mechanism includes a vertically arranged supporting rod, the supporting rod is located on one side of the supporting plate, which deviates from the adjacent supporting plate in the same wall body, the supporting rod is abutted against the adjacent supporting plate, the supporting rod is vertically connected with a trapezoidal sliding block towards one side of the supporting plate, a second sliding groove is vertically formed towards one side of the supporting rod, and the sliding block is slidably connected in the second sliding groove.

Through adopting above-mentioned technical scheme, the bracing piece is vertical to be slided and is made the slider slide-in second spout, and the bracing piece is connected the backup pad of adjacent two sets of wall bodies to make the wall body form wholly, the convenient dismantlement installation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the four groups of supporting mechanisms are vertically and slidably connected to the four corners of the frame body so as to connect the four groups of walls, the four groups of supporting mechanisms and the four groups of walls form a pouring cavity, and the four groups of walls can be disassembled by vertically and upwardly sliding out the four groups of supporting mechanisms from the four corners of the frame body during disassembly, so that the operation is simple and convenient, the template is convenient to recover, and the resource waste is reduced;

2. after the connecting rod fixes the first connecting plate and the second connecting plate, the first sealing plate and the second sealing plate are fixed at the current positions, and the first sealing plate and the second sealing plate abut against the connecting blocks in the grooves, so that the situation that the connecting blocks slide out of the grooves is effectively reduced, and the connecting stability between adjacent supporting plates is improved;

3. the support rods vertically slide to enable the sliding blocks to slide into the second sliding grooves, and the support rods connect the support plates of the two adjacent groups of wall bodies, so that the wall bodies are integrated.

Drawings

FIG. 1 is a drawing of the related art of the present application;

FIG. 2 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 3 is a schematic view of a part of the mechanism of the embodiment of the present application, which is mainly used for showing the wall and the connecting block;

FIG. 4 is a schematic partial structural view of an embodiment of the present application, which is mainly used for showing a wall and a fixing mechanism;

fig. 5 is a partially enlarged schematic view of a portion a in fig. 2, which is mainly used for showing the supporting mechanism.

Description of reference numerals: 11. a foundation pit; 12. a template layer; 13. a mortar layer; 2. a main body; 21. a wall body; 211. a support plate; 212. the inner side of the wall; 213. an outer wall surface; 214. a groove; 215. a second chute; 22. a support mechanism; 221. a support bar; 222. a slider; 3. a fixing mechanism; 31. connecting blocks; 32. a closure assembly; 321. a first closing plate; 322. a second closing plate; 33. a connecting assembly; 331. a first connecting plate; 332. a second connecting plate; 333. a connecting rod; 334. a first chute; 335. a butt joint plate; 34. a reinforcing component; 341. a first reinforcing bar; 342. a second reinforcing bar; 343. a hanging rod.

Detailed Description

The present application is described in further detail below with reference to figures 2-5.

The embodiment of the application discloses a combined type sizing and assembling template. Referring to fig. 2, a combined type shaping and assembling template comprises a main body 2, wherein the main body 2 comprises four groups of walls 21, two adjacent groups of walls 21 are perpendicular to each other, the two adjacent groups of walls 21 are connected through a support mechanism 22, the four groups of walls 21 and the four groups of support mechanisms 22 form a frame, and the support mechanisms 22 are located at four corners of the frame.

The wall body 21 and the supporting mechanisms 22 are connected to form a pouring cavity, concrete is poured into the pouring cavity, and when the formwork needs to be dismantled, the supporting mechanisms 22 located at four corners of the frame body are dismantled, so that the wall body 21 and the concrete can be separated, and the formwork can be dismantled.

Referring to fig. 2, the wall body 21 includes four support plates 211 vertically disposed, two adjacent support plates 211 are abutted to each other, two opposite side surfaces of the support plates 211 with the largest area are a wall inner side surface 212 and a wall outer side surface 213, respectively, and the wall inner side surface 212 is in contact with the cast-in-place concrete. The outer wall surface 213 is provided with a fixing mechanism 3 for connecting the adjacent two support plates 211.

The adjacent supporting plates 211 are mutually abutted, the inner wall surfaces 212 of the adjacent supporting plates 211 are positioned on the same vertical plane, and after the two adjacent supporting plates 211 are connected by the fixing mechanism 3, the inner wall surfaces 212 of the walls are used as the inner wall of the pouring cavity.

Referring to fig. 3 and 4, the fixing mechanism 3 includes a connecting block 31, and the connecting block 31 is integrally formed by two dovetail blocks, and the small-area surfaces of the two dovetail blocks are fixedly connected to each other. Three grooves 214 are formed in two sides of the outer side surface 213 of the wall in the length direction, the grooves 214 are dovetail grooves, the three grooves 214 are arranged at intervals in the vertical direction, and when two adjacent supporting plates 211 are abutted, the connecting block 31 slides into the grooves 214 of the outer side surfaces 213 of the two adjacent walls and is abutted against the walls of the grooves 214. The outer side surface 213 of the wall is provided with a closing component 32 for closing the groove 214, the closing component 32 is provided with a connecting component 33, and the connecting component 33 is provided with a reinforcing component 34.

Referring to fig. 4, the closing assembly 32 comprises a first closing plate 321 hinged to the outer side 213 of the wall, a second closing plate 322 hinged to the outer side 213 of the adjacent wall, and the rotation axes of the first closing plate 321 and the second closing plate 322 are arranged vertically. When the first closing plate 321 and the second closing plate 322 close the dovetail groove on the outer side surface 213 of the wall and the dovetail groove on the outer side surface 213 of the adjacent wall, the free end of the first closing plate 321 faces the free end of the second closing plate 322, and both the first closing plate 321 and the second closing plate 322 abut against the connecting block 31.

After the connecting block 31 and the groove 214 connect two adjacent supporting plates 211, the first closing plate 321 and the second closing plate 322 close the dovetail groove, thereby effectively reducing the situation that the connecting block 31 slides out of the groove 214 and increasing the connection stability between the supporting plates 211.

Referring to fig. 4, the connecting assembly 33 includes a first connecting plate 331 fixedly connected to a side of the first sealing plate 321 facing away from the outer side 213 of the wall, the first connecting plate 331 is perpendicular to the first sealing plate 321, a second connecting plate 332 is fixedly connected to a side of the second sealing plate 322 facing away from the outer side 213 of the wall, and the second connecting plate 332 is perpendicular to the second sealing plate 322. A first wedge-shaped surface is formed on a side of the first connecting plate 331 away from the second connecting plate 332, and a side of the first wedge-shaped surface close to the first closing plate 321 inclines towards a direction close to the second connecting plate 332. A second wedge-shaped surface is formed on a side of the second connecting plate 332 away from the first connecting plate 331, and a side of the second wedge-shaped surface close to the second closing plate 322 inclines towards a direction close to the second connecting plate 332. The first connecting plate 331 and the second connecting plate 332 are vertically and slidably connected with a connecting rod 333, a first sliding groove 334 is vertically formed in one side, facing the first closing plate 321 and the second closing plate 322, of the connecting rod 333, the first sliding groove 334 is a dovetail groove, and the first connecting plate 331 and the second connecting plate 332 are vertically and slidably connected in the first sliding groove 334 and abut against the side wall of the first sliding groove 334. The connecting rod 333 abuts against the first closing plate 321 toward the first closing plate 321, and the connecting rod 333 abuts against the second closing plate 322 toward the second closing plate 322.

When the free end of the first closing plate 321 and the free end of the second closing plate 322 rotate to be opposite, the first closing plate 321 and the second closing plate 322 close the groove 214, the connecting rod 333 slides vertically to slide the first connecting plate 331 and the second connecting plate 332 into the first sliding groove 334, and the connecting rod 333 fixes the first connecting plate 331 and the second connecting plate 332 at the current position.

Referring to fig. 4, an abutting plate 335 is vertically and slidably connected between the first connecting plate 331 and the second connecting plate 332, and when the first connecting plate 331 and the second connecting plate 332 slide into the first sliding slot 334, the abutting plate 335 abuts against the first closing plate 321, the second closing plate 322, the first connecting plate 331 and the second connecting plate 332 at the same time.

Referring to fig. 4, the reinforcing assembly 34 includes three first reinforcing rods 341 fixedly connected to the outer side surface 213 of the wall, the first reinforcing rods 341 are horizontally disposed and vertically spaced apart, a second reinforcing rod 342 is vertically and fixedly connected to the outer side surface 213 of the wall, and the second reinforcing rod 342 passes through the first reinforcing rods 341 and is located at a midpoint of the first reinforcing rods 341. A hanging rod 343 is vertically and fixedly connected to one side of the second reinforcing rod 342, which is away from the outer side surface 213 of the wall, the hanging rod 343 is a trapezoidal rod, and the hanging rod 343 is vertically and slidably connected to the inside of the first sliding groove 334 and abuts against the inner wall of the first sliding groove 334. When the first closing plate 321 rotates to be perpendicular to the outer wall surface 213, the side of the first connecting plate 331 away from the first closing plate 321 abuts against the connecting rod 333. When the second closing plate 322 rotates to be perpendicular to the outer wall surface 213, one side of the second connecting plate 332 away from the second closing plate 322 abuts against the connecting rod 333.

The first reinforcing bar 341 and the second reinforcing bar 342 increase the supporting force of the supporting plate 211. The hanging rod 343 is convenient to hang the connecting rod 333 on the supporting plate 211, and the connecting rod 333 tightly supports the first connecting plate 331 and the second connecting plate 332 of the same supporting plate 211, so that the transportation is convenient.

Referring to fig. 5, the supporting mechanism 22 includes a supporting rod 221 vertically disposed, the supporting rod 221 is located on a side of the supporting plate 211 facing away from the adjacent supporting plate 211 in the same wall body 21, and the supporting rod 221 abuts against the adjacent supporting plate 211. The trapezoidal sliding block 222 is vertically connected to one side of the supporting rod 221 facing the supporting rod 211, the second sliding groove 215 is vertically formed in one side of the supporting rod 211 facing the supporting rod 221, and the sliding block 222 is slidably connected to the second sliding groove 215.

The support rods 221 vertically slide to slide the sliders 222 into the second sliding grooves 215, and the support rods 221 connect the support plates 211 of two adjacent groups of walls 21, so that the walls 21 are integrated.

The implementation principle of the combined type sizing and assembling template in the embodiment of the application is as follows: firstly, assemble a wall body 21, two adjacent backup pads 211 butt, wall medial surface 212 is in same vertical plane, and the wall lateral wall is in same vertical plane, puts into recess 214 with connecting block 31 in, rotates first closing plate 321 and second closing plate 322, and first closing plate 321 drives first connecting plate 331 and rotates, and second closing plate 322 drives second connecting plate 332 and rotates. When the free end of the first closing plate 321 faces the free end of the second closing plate 322, the connecting rod 333 slides to slide the first connecting plate 331 and the second connecting plate 332 into the first sliding slot 334. The abutment plate 335 is slid between the first connecting plate 331 and the second connecting plate 332. The support rods 221 are installed at two ends of the wall body 21, and the sliding blocks 222 slide into the second sliding grooves 215 when the support rods 221 vertically slide.

Another group of walls 21 are arranged on the other side of the support rod 221, the formwork is sequentially installed, and at this time, the four groups of walls 21 and the four groups of support mechanisms 22 form a frame, namely, a pouring cavity.

After pouring is completed, the connecting rod 333 and the abutting plate 335 slide out, the first closing plate 321 and the second closing plate 322 on the same supporting plate 211 are rotated, one side, far away from the first closing plate 321, of the first connecting plate 331 faces one side, far away from the second connecting plate 332, of the second closing plate 322, the connecting rod 333 slides onto the hanging rod 343, and the first connecting plate 331 and the second connecting plate 332 are abutted tightly. The support rod 221 is slid out to complete the disassembly.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a modular design equipment template which characterized in that: including main part (2), main part (2) are including four group's wall bodies (21) of vertical setting, set up perpendicularly between two sets of adjacent wall bodies (21), connect through supporting mechanism (22) between two sets of adjacent wall bodies (21), the vertical sliding connection of supporting mechanism (22) is between two sets of adjacent wall bodies (21), and a framework is constituteed with four group's supporting mechanism (22) to four group's wall bodies (21), supporting mechanism (22) are located the framework four corners.

2. The modular building panel according to claim 1, characterized in that: wall body (21) are including polylith backup pad (211) of vertical setting, backup pad (211) back of the body and the biggest both sides face of area are wall medial surface (212) and wall lateral surface (213) respectively, and two piece adjacent backup pads (211) butt each other and wall medial surface (212) are in same vertical plane, be provided with fixed establishment (3) of connecting two piece adjacent backup pads (211) on backup pad (211) wall lateral surface (213).

3. The modular building panel according to claim 2, characterized in that: fixing mechanism (3) are including connecting block (31), connecting block (31) are by two forked tail piece integrated into one piece, the one side fixed connection of each other that two forked tail piece areas are little, a plurality of recesses (214) have all been seted up to wall lateral surface (213) length direction both sides, recess (214) are the dovetail, and a plurality of recesses (214) interval sets up in vertical direction, when two adjacent backup pad (211) butt, connecting block (31) slide in recess (214) of two adjacent backup pad (211) wall lateral surface (213) and with recess (214) wall butt.

4. A modular building panel according to claim 3, wherein: the utility model discloses a connecting block, including backup pad (211) wall lateral surface (213), backup pad (211) wall lateral surface (213) are provided with the closed assembly (32) with connecting block (31) butt, closed assembly (32) are including articulating in first closing plate (321) of backup pad (211) wall lateral surface (213), and it has second closing plate (322) to articulate on adjacent backup pad (211) wall lateral surface (213), first closing plate (321) and the vertical setting of second closing plate (322) axis of rotation, first closing plate (321) and second closing plate (322) rotation direction are opposite, when first closing plate (321) and second closing plate (322) rotate to first closing plate (321) free end towards second closing plate (322) free end, first closing plate (321) and second closing plate (322) all butt in connecting block (31).

5. The modular building panel of claim 4, wherein: the closing component (32) is provided with a connecting component (33) for fixing the first closing plate (321) and the second closing plate (322), the connecting component (33) comprises a first connecting plate (331) fixedly connected to one side of the first closing plate (321) departing from the supporting plate (211), the first connecting plate (331) is vertical to the first closing plate (321), one side of the second closing plate (322) departing from the supporting plate (211) is fixedly connected with a second connecting plate (332), the second connecting plate (332) is vertical to the second closing plate (322), one side of the first closing plate (321) departing from the supporting plate (211) is vertically connected with a connecting rod (333) in a sliding way, when the free end of the first closing plate (321) faces the free end of the second closing plate (322), the connecting rod (333) is vertically and slidably connected to the first connecting plate (331) and the second connecting plate (332) and fixes the first connecting plate (331) and the second connecting plate (332).

6. The modular building panel of claim 5, wherein: first wedge face has been seted up on one side of first connecting plate (331) deviating from second connecting plate (332), and first wedge face is close to first closing plate (321) one side and has been close to second connecting plate (332) direction slope, second connecting plate (332) deviate from first connecting plate (331) one side and have been seted up the second wedge face, and the second wedge face is close to second closing plate (322) one side and has been close to second connecting plate (332) direction slope, connecting rod (333) have been seted up first spout (334) towards first closing plate (321) and second closing plate (322) one side is vertical, first spout (334) are the dovetail, first connecting plate (331) and the vertical sliding connection of second connecting plate (332) just with first spout (334) lateral wall butt.

7. The modular building panel of claim 6, wherein: backup pad (211) wall lateral surface (213) fixedly connected with reinforcing subassembly (34), reinforcing subassembly (34) include many first reinforcing bars (341) of fixed connection in backup pad (211) wall lateral surface (213), and many first reinforcing bars (341) level sets up and interval setting in vertical direction, the vertical fixedly connected with second reinforcing bar (342) of backup pad (211) wall lateral surface (213), second reinforcing bar (342) pass first reinforcing bar (341) and are located first reinforcing bar (341) mid point, first reinforcing bar (341) are located between first closing plate (321) and second closing plate (322) on same backup pad (211).

8. The modular building panel of claim 7, wherein: the second reinforcing rod (342) deviates from the vertical fixedly connected with hanging rod (343) on one side of the outer side surface (213) of the wall of the supporting plate (211), the hanging rod (343) is a trapezoidal rod, when the first sealing plate (321) and the second sealing plate (322) rotate to be perpendicular to the outer side surface (213) of the wall, the hanging rod (343) is vertically connected in the first sliding groove (334) in a sliding manner and abutted against the inner wall of the first sliding groove (334), the first connecting plate (331) deviates from one side of the first sealing plate (321) and abutted against the connecting rod (333), and the second connecting plate (332) deviates from one side of the second sealing plate (322) and abutted against the connecting rod (333).

9. The modular building panel of claim 8, wherein: support mechanism (22) are including bracing piece (221) of vertical setting, bracing piece (221) are located backup pad (211) and deviate from adjacent backup pad (211) one side in same wall body (21), bracing piece (221) and adjacent backup pad (211) butt, bracing piece (221) are towards backup pad (211) one side vertical connection have trapezoidal slider (222), backup pad (211) have vertically seted up second spout (215) towards bracing piece (221) one side, slider (222) sliding connection is in second spout (215).

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