CN113323164A - Civil construction structure deformation joint connecting structure device and using method thereof - Google Patents

Abstract

The application relates to a civil construction structure deformation joint connecting structure device and a using method thereof, relating to the technical field of deformation joints; the connecting component is connected with two wallboards which are matched with the connecting component, and a deformation joint is reserved between the two wallboards; the connecting assembly comprises a waterproof piece, the waterproof piece comprises a main waterproof coiled material, a first pressing plate and a second pressing plate, the main waterproof coiled material is arranged on the side wall of each wallboard, the first pressing plate is fixedly connected to the side wall of the wallboard, the second pressing plate is fixedly connected to one side, away from the wallboard, of the first pressing plate, the main waterproof coiled material is inserted between the first pressing plate and the second pressing plate, the side walls, facing each other, of the first pressing plate and the second pressing plate are both provided with corrugated surfaces, and the two side walls of the main waterproof coiled material are respectively attached to the corrugated surfaces; this application has the characteristics of the water-proof effects who optimizes movement joint department.

Description

Civil construction structure deformation joint connecting structure device and using method thereof

Technical Field

The application relates to the technical field of deformation joints, in particular to a civil structure deformation joint connecting structure device and a using method thereof.

Background

The deformation joint is a general name of an expansion joint, a settlement joint and a shockproof joint, a building can be deformed under the action of external factors to cause cracking and even damage, and the deformation joint is a structural joint reserved for the condition.

A related Chinese patent with an authorization publication number of CN212836288U discloses a steel frame light energy-saving roof panel deformation joint connecting node structure, which comprises roof panels, deformation joints are reserved between the roof panels, short walls are connected on the end parts of the roof panels at the two ends of the deformation joints, cover plates are arranged above the deformation joints, and the two sides of each cover plate are fixed on the short walls through steel nails; the waterproof layer is laid on the roof board, the waterproof layer covers the deformation joint upwards along the short wall, the waterproof layer is additionally arranged at the corner of the short wall and the roof board below the waterproof layer, the additional waterproof layer covers the deformation joint, and the waterproof layer and the additional waterproof layer are self-adhesive waterproof roll waterproof layers; the waterproof layer and the additional waterproof layer are laid at the deformation joint, and the cover plate covers the deformation joint, so that the waterproof performance of the deformation joint is improved.

To the above-mentioned correlation technique, the inventor thinks that when the short wall is influenced by external environment and appears expanding with heat and contracting with cold, the waterproofing membrane of movement joint department will be stretched because of the shrink of short wall, but because the flexible surplus of the waterproofing membrane that above-mentioned waterproof layer and additional waterproof layer adopted is not enough, easily leads to the waterproofing membrane of movement joint department to be pulled apart to lead to preventing waterproofing membrane's waterproof inefficacy, to sum up, the waterproof effect of the waterproof construction that above-mentioned movement joint department adopted is not good, so await improving.

Disclosure of Invention

In order to improve the not good technical problem of water-proof effects of movement joint department that exists among the correlation technique, this application provides a civil engineering department movement joint connection structure device and application method thereof.

The application provides a civil engineering structure department movement joint connection structure device adopts following technical scheme:

a deformation joint connecting structure device at a civil structure comprises a connecting assembly, wherein the connecting assembly is connected with two wallboards which are matched with the connecting assembly in use, and a deformation joint is reserved between the two wallboards; coupling assembling includes the waterproof piece, the waterproof piece is including setting up in main waterproofing membrane, first clamp plate and the second clamp plate of each wallboard lateral wall, first clamp plate fixed connection is in the wallboard lateral wall, second clamp plate fixed connection deviates from one side of wallboard department in first clamp plate, main waterproofing membrane is inserted and is located between first clamp plate and the second clamp plate, the lateral wall that first clamp plate and second clamp plate moved towards each other all is provided with the ripple face, main waterproofing membrane both sides wall pastes respectively on the ripple face.

Through adopting above-mentioned technical scheme, appear warping when the wall limit, when leading to the movement joint to enlarge, the waterproofing membrane that this moment is located movement joint department is stretched, but because main waterproofing membrane is the ripple shape with the bending and installs between two first clamp plates and second clamp plate, consequently main waterproofing membrane's ripple form mounting structure has enlarged main waterproofing membrane's flexible surplus, reduces the condition that main waterproofing membrane was torn the destruction by the drawing, optimizes the water-proof effects of main waterproofing membrane to the movement joint.

Optionally, the deformation joint internal fixation is provided with the supporting shoe, the supporting shoe lower extreme rotates and is connected with the winding up roller, the winding up roller lateral wall has two-layer reserve waterproofing membrane, every layer reserve waterproofing membrane keeps away from the one end fixed connection of winding up roller department in one of them main waterproofing membrane tip.

Through adopting above-mentioned technical scheme, when being located the outside waterproofing membrane of supporting shoe and receiving tensile, can realize the supply to main waterproofing membrane around rolling up the reserve waterproofing membrane on the winding up roller to further enlarge main waterproofing membrane's flexible surplus, reduce the condition that main waterproofing membrane is pulled apart to appear.

Optionally, a fixing hole for inserting the winding roller is formed in the lower end of the supporting block, a through hole for penetrating the standby waterproof roll is formed in the side wall of the supporting block, the through hole is communicated with the fixing hole, and a smooth layer is arranged on the side wall of the supporting block, which is close to the fixing hole and the through hole.

Through adopting above-mentioned technical scheme, the setting of smooth layer can reduce reserve waterproofing membrane and fixed orifices inner wall, the friction of reserve waterproofing membrane and through-hole inner wall to can make the winding up roller smoothly rotate in the fixed orifices, reduce the wearing and tearing when reserve waterproofing membrane contacts with the fixed orifices inner wall, the reserve waterproofing membrane of being convenient for smoothly passes through the through-hole.

Optionally, foam filling blocks are symmetrically arranged on the outer side wall of the supporting block, and the foam filling blocks are connected to the supporting block in a sliding manner along the height direction of the supporting block; the side wall of each foam filling block, which is far away from the supporting block, is provided with a first inclined surface, and the side wall of each second pressing plate is provided with a second inclined surface which is matched and abutted against the first inclined surface.

Through adopting above-mentioned technical scheme, when the construction, the foam filling block joint is between supporting shoe and second clamp plate, and when the second clamp plate extrudees the foam filling block because of the wallboard inflation, the foam filling block will shift up along supporting shoe direction of height under the effect on first inclined plane and second inclined plane, when the second clamp plate moves towards the direction of keeping away from the foam filling block because of the wallboard meets cold contraction, the foam filling block will shift down along supporting shoe direction of height, consequently, the foam filling block butts in second clamp plate lateral wall all the time at wallboard deformation in-process, with the water-proof effects of further improvement movement joint department.

Optionally, the connecting assembly further comprises a fixing piece, wherein the fixing piece comprises a cover plate, limiting plates symmetrically arranged on two sides of the cover plate, and locking bolts inserted into side walls of the limiting plates; the cover plate covers above the deformation joint, the cover plate is fixedly connected with the supporting block, a gap is reserved between the limiting plate and the wallboard, and the screw part of the locking bolt penetrates through the limiting plate and is in threaded connection with the interior of the wallboard.

Through adopting above-mentioned technical scheme, the space of reserving between limiting plate and the wallboard can be for the breathing preformed space of wallboard, and simultaneously, the setting up of locking bolt is convenient for realize the swift and stable connection to two wallboards.

Optionally, the fixing member further includes a fixing pipe and a rubber pad arranged at each locking bolt, the rubber pad is sleeved on the outer side wall of the fixing pipe, the locking bolt is inserted in the fixing pipe in a threaded manner, and a fixing groove for inserting the fixing pipe and the rubber pad is formed in the side wall of the wallboard.

Through adopting above-mentioned technical scheme, because the rubber pad texture is soft, when the wallboard breathing, the space size between wallboard and the limiting plate will appear changing, wallboard and fixed pipe take place relative movement along fixed pipe length direction this moment, and the rubber pad warp, so the setting of rubber pad can play the effect of the fixed pipe of protection and locking bolt to when realizing the fixed connection of two wallboards through the locking bolt, reduce the cracked condition of locking bolt and fixed pipe of appearing.

Optionally, each outer side wall of the wall board is provided with a heat insulation layer, and the heat insulation layer is located between the wall board and the first pressing plate.

Through adopting above-mentioned technical scheme, the setting up of heat preservation can play the heat preservation effect to the wallboard to reduce the wallboard and meet the condition of cold deformation, indirectly reduce the waterproofing membrane and be drawn the possibility of splitting because of the wallboard warp and by the wallboard.

Optionally, the outer side wall of the wallboard is further provided with a heat insulation layer, the heat insulation layer is located outside the heat insulation layer, and one side, away from the heat insulation layer, of the heat insulation layer is fixedly connected to the side wall of the first pressing plate.

Through adopting above-mentioned technical scheme, the invasion and attack of the high temperature steam to the wallboard in the separation external environment can be separated in the setting of insulating layer, reduces the condition that the wallboard meets thermal expansion.

Optionally, a use method of the deformation joint connection structure device for the civil engineering structural slab includes the following steps:

s1, firstly, sequentially adhering the heat-insulating layer and the heat-insulating layer to the outer side wall of each wallboard, and then fixing the first pressing plate on the outer side wall of the heat-insulating layer through steel nails;

s2, paving a main waterproof coiled material on the corrugated surface of each first pressing plate, covering the second pressing plate on the outer side wall of each first pressing plate to enable the main waterproof coiled material to be inserted between the first pressing plate and the second pressing plate in a corrugated shape, and installing steel nails on one side of the second pressing plate, which is far away from the deformation joint, so that the steel nails penetrate through the second pressing plate and the main waterproof coiled material and are fixed on the side wall of the first pressing plate;

s3, winding two layers of waterproof rolls on a winding roll in advance, inserting the winding roll into a fixing hole, plugging the fixing hole through concrete, and only forming a through hole through which the waterproof roll penetrates out of the fixing hole; the end parts of the two layers of standby waterproof coiled materials penetrate through the through holes and are fixedly adhered to the end parts of the main waterproof coiled material respectively;

s4, inserting the supporting block into the deformation joint, clamping the foam filling block between the supporting block and the second pressing plate, enabling the first inclined plane on the foam filling block to be abutted against the second inclined plane, vertically fixing the supporting rod on the lower surface of the cover plate, and finally inserting the locking bolts on the two sides of the cover plate into the fixing pipe in a threaded mode.

Through adopting above-mentioned technical scheme, establish waterproofing membrane and foam filling layer through adding and improve the water-proof effects of movement joint department, insert through being corrugate with waterproofing membrane and locate between first clamp plate and the second clamp plate to waterproofing membrane's flexible surplus has been increased, through adding in the movement joint and establishing the winding up roller, and receive waterproofing membrane in advance on the winding up roller, in order to be used for realizing the supply to waterproofing membrane, further increase waterproofing membrane's flexible surplus.

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

1. the main waterproof roll is arranged between the two first pressing plates and the second pressing plates in a bent and corrugated shape, so that the corrugated installation structure of the main waterproof roll enlarges the expansion allowance of the main waterproof roll, reduces the condition that the main waterproof roll is broken by pulling, and optimizes the waterproof effect of the main waterproof roll on deformation joints;

2. when the waterproofing membrane that is located the supporting shoe outside receives tensile, can realize the supply to main waterproofing membrane around rolling up the reserve waterproofing membrane on the winding up roller to further enlarge main waterproofing membrane's flexible surplus, reduce the condition that main waterproofing membrane is pulled apart to appear.

Drawings

FIG. 1 is a sectional view of a deformation joint connecting structure device at a civil engineering structure in the embodiment.

Fig. 2 is an enlarged schematic view of the structure of part a in fig. 1.

Description of reference numerals: 1. a wallboard; 11. deformation joints; 12. a heat-insulating layer; 13. a thermal insulation layer; 14. fixing grooves; 16. a deformation gap; 2. a connecting assembly; 21. a fixing member; 211. a cover plate; 212. a limiting plate; 213. locking the bolt; 214. a fixed tube; 215. a rubber pad; 22. a waterproof member; 221. a first platen; 222. a second platen; 2221. a corrugated surface; 2222. a second inclined plane; 223. a primary waterproof roll; 3. a support block; 31. a support bar; 32. a winding roller; 321. a waterproof roll is reserved; 33. a fixing hole; 34. a through hole; 341. a smoothing layer; 35. a foam filling block; 351. a first inclined plane; 26. a chute.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses civil engineering structure department movement joint connection structure device. Referring to fig. 1 and 2, the deformation joint connecting structure device at the civil structure comprises a connecting assembly 2, wherein the connecting assembly 2 is connected with two wall boards 1 matched with the connecting assembly 2 for use, and a deformation joint 11 is reserved between the two wall boards 1; the side wall of each wallboard 1 is fixedly bonded with a heat insulation layer 12 and a heat insulation layer 13 from inside to outside in sequence, the heat insulation layer 12 can be an extruded sheet, and the heat insulation layer 13 can be rock wool. The connecting assembly 2 is positioned at the periphery of the heat-insulating layer 12 and the heat-insulating layer 13, and the connecting assembly 2 is arranged between the two wall boards 1.

Referring to fig. 1 and 2, the connection assembly 2 includes fixing members 21 and waterproof members 22, each of the fixing members 21 includes a cover plate 211, limiting plates 212 integrally formed on both sides of the cover plate 211, fixing pipes 214 inserted into the side walls of each wall panel 1, rubber pads 215 fixedly secured to the outside of each fixing pipe 214, and locking bolts 213 threadedly inserted into the inside of each fixing pipe 214; each wall panel 1 has a fixing groove 14 formed in a side wall thereof for inserting a fixing pipe 214 and a rubber pad 215, and a locking bolt 213 sequentially penetrates through the limiting plate 212, the heat insulating layer 13 and the heat insulating layer 12 and is threadedly inserted into the fixing pipe 214.

Referring to fig. 1, a support rod 31 is vertically welded on the side wall of the cover plate 211 facing the deformation joint 11, a support block 3 is welded on one end of the support rod 31 far away from the cover plate 211, a fixing hole 33 is formed in the support block 3, a winding roller 32 is rotatably connected in the fixing hole 33, and the radial cross sections of the fixing hole 33 and the winding roller 32 are circular; two layers of standby waterproof coiled materials 321 are fixedly bonded on the outer side wall of the winding roller 32, a through hole 34 communicated with the fixing hole 33 is formed in the side wall of the supporting block 3 away from the supporting rod 31, and one end, away from the winding roller 32, of the standby waterproof coiled materials 321 penetrates through the through hole 34 and is located outside the supporting block 3; the inner walls of the fixing hole 33 and the through hole 34 are both bonded with a smooth layer 341, and the smooth layer 341 may be a film made of polytetrafluoroethylene.

Referring to fig. 1, flashing 22 includes a first pressing plate 221 fixedly adhered to an outer sidewall of each insulation layer 13, a second pressing plate 222 positioned at a periphery of each first pressing plate 221, and a main waterproofing membrane 223 disposed between first pressing plate 221 and second pressing plate 222; the first pressing plate 221 and the second pressing plate 222 may be steel plates, and one side of the first pressing plate 221 away from the deformation joint 11 is fixedly connected to the periphery of the first pressing plate 221 through screws.

Referring to fig. 1, a deformation gap 16 for inserting the main waterproof roll 223 is reserved between the first pressing plate 221 and the second pressing plate 222, the side walls of the first pressing plate 221 and the second pressing plate 222 facing each other are provided with corrugated surfaces 2221, the main waterproof roll 223 is inserted into the deformation gap 16, the outer side wall of the main waterproof roll 223 is in seamless fit with the corrugated surfaces 2221, one end of the main waterproof roll 223, which is far away from the deformation joint 11, is fixed between the first pressing plate 221 and the second pressing plate 222 through steel nails, the other end of the main waterproof roll 223 is fixedly bonded to the end of one of the layers of the standby waterproof rolls 321, and each main waterproof roll 223 corresponds to one of the standby waterproof rolls 321.

Referring to fig. 1, one side of the support block 3 facing each second pressing plate 222 is connected with a foam filling block 35 in a sliding manner along the height direction thereof, and a sliding groove 26 for sliding each foam filling block 35 is formed in the side wall of the support block 3 along the height direction thereof; the foam filling block 35 may be block-shaped polyethylene foam, a first inclined surface 351 is disposed on a side wall of the foam filling block 35 facing away from the support block 3, a second inclined surface 2222 is disposed on a side wall of each second pressing plate 222 facing the support block 3, and the first inclined surface 351 is adapted to abut against the second inclined surface 2222; when wallboard 1 is heated and expands and lead to second clamp plate 222 extrusion foam filling block 35, foam filling block 35 has certain toughness on the one hand, therefore foam filling block 35 is difficult for hindering wallboard 1's inflation, and foam filling block 35 can slide along supporting shoe 3 direction of height on the other hand to reduce the condition that foam filling block 35 receives the extrusion fracture, make first inclined plane 351 laminating in second inclined plane 2222 department all the time, optimize the water-proof effects of movement joint 11 department.

A using method adopted by a civil structure deformation joint connecting structure device comprises the following steps:

s1, firstly, sequentially adhering the heat-insulating layer 12 and the heat-insulating layer 13 to the outer side wall of each wall board 1, and then fixing the first pressing plate 221 on the outer side wall of the heat-insulating layer 13 through steel nails;

s2, paving a main waterproof coiled material 223 on the corrugated surface 2221 of each first pressing plate 221, covering the second pressing plate 222 on the outer side wall of the first pressing plate 221, enabling the main waterproof coiled material 223 to be inserted between the first pressing plate 221 and the second pressing plate 222 in a corrugated shape, and installing steel nails on one side of the second pressing plate 222 away from the deformation joint 11, so that the steel nails penetrate through the second pressing plate 222 and the main waterproof coiled material 223 and are fixed on the side wall of the first pressing plate 221;

s3, winding two layers of waterproof rolls 321 on the winding roller 32 in advance, inserting the winding roller 32 into the fixing hole 33, sealing the fixing hole 33 through concrete, and only forming a through hole 34 through which the waterproof roll 321 for standby penetrates out of the fixing hole 33; the end parts of the two layers of standby waterproof coiled materials 321 penetrate through the through holes 34 and are fixedly adhered to the end parts of the main waterproof coiled materials 223 respectively;

s4, inserting the supporting block 3 into the deformation joint 11, clamping the foam filling block 35 between the supporting block 3 and the second pressing plate 222, enabling the first inclined surface 351 on the foam filling block 35 to be abutted against the second inclined surface 2222, vertically fixing the supporting rod 31 on the lower surface of the cover plate 211, and finally inserting the locking bolts 213 on the two sides of the cover plate 211 into the fixing pipes 214 in a threaded manner.

The implementation principle of civil engineering structure department movement joint connection structure device of this application embodiment is: the heat insulation layer 12 and the heat insulation layer 13 are fixedly adhered to the outer side wall of each wall board 1, the first pressing plate 221 is adhered to the outer side of the heat insulation layer 13, the main waterproof coiled material 223 is paved on the side wall of the first pressing plate 221, which is away from the heat insulation layer 13, the second pressing plate 222 is paved on the side wall of the main waterproof coiled material 223, which is away from the first pressing plate 221, and finally the first pressing plate 221 is fixedly covered on the outer sides of the second pressing plate 222 and the main waterproof coiled material 223 through screws, so that the main waterproof coiled material 223 is inserted between the first pressing plate 221 and the second pressing plate 222 in a corrugated shape.

Then fix on winding up roller 32 and wind two-layer waterproof coiled material 321 for later use to wear out supporting shoe 3 and fixed the bonding in main waterproof coiled material 223 tip respectively with one end of these two-layer waterproof coiled material 321 for later use, then insert supporting shoe 3 in movement joint 11 for foam filling block 35 and first inclined plane 351 looks butt, rethread bracing piece 31 realizes being connected of supporting shoe 3 and apron 211, at last with inside locking bolt 213 threaded insertion fixed pipe 214, thereby finally accomplish the construction of movement joint 11 department connection structure device.

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. A deformation joint connecting structure device at a civil structure comprises a connecting assembly (2), wherein the connecting assembly (2) is connected with two wallboards (1) which are matched with the connecting assembly for use, and a deformation joint (11) is reserved between the two wallboards (1); the method is characterized in that: the connecting assembly (2) comprises a waterproof piece (22), the waterproof piece (22) comprises a main waterproof coiled material (223) arranged on the side wall of each wallboard (1), a first pressing plate (221) and a second pressing plate (222), the first pressing plate (221) is fixedly connected to the side wall of the wallboard (1), and the second pressing plate (222) is fixedly connected to one side, away from the wallboard (1), of the first pressing plate (221); the main waterproof roll (223) is inserted between the first pressing plate (221) and the second pressing plate (222), the side walls, facing to each other, of the first pressing plate (221) and the second pressing plate (222) are provided with corrugated surfaces (2221), and two side walls of the main waterproof roll (223) are attached to the corrugated surfaces (2221) respectively.

2. A civil structure department movement joint connection structure device according to claim 1, characterized in that: deformation joint (11) internal fixation is provided with supporting shoe (3), supporting shoe (3) lower extreme rotates and is connected with winding up roller (32), winding up roller (32) lateral wall is around having two-layer reserve waterproofing membrane (321), every layer reserve waterproofing membrane (321) keep away from the one end fixed connection of winding up roller (32) department in one of them main waterproofing membrane (223) tip.

3. A civil structure department movement joint connection structure device according to claim 2, characterized in that: the supporting roller is characterized in that a fixing hole (33) for inserting the winding roller (32) is formed in the lower end of the supporting block (3), a through hole (34) for penetrating the standby waterproof coiled material (321) is formed in the side wall of the supporting block (3), the through hole (34) is communicated with the fixing hole (33), and smooth layers (341) are arranged on the side wall, close to the fixing hole (33) and the through hole (34), of the supporting block (3).

4. A civil structure department movement joint connection structure device according to claim 3, characterized in that: foam filling blocks (35) are symmetrically arranged on the outer side wall of the supporting block (3), and the foam filling blocks (35) are connected to the supporting block (3) in a sliding manner along the height direction of the supporting block (3); the side wall of each foam filling block (35) at the position departing from the supporting block (3) is provided with a first inclined surface (351), and the side wall of each second pressing plate (222) is provided with a second inclined surface (2222) matched and abutted with the first inclined surface (351).

5. A civil structure department movement joint connection structure device according to claim 4, characterized in that: the connecting assembly (2) further comprises a fixing piece (21), wherein the fixing piece (21) comprises a cover plate (211), limiting plates (212) symmetrically arranged on two sides of the cover plate (211), and locking bolts (213) inserted into the side walls of the limiting plates (212); the cover plate (211) covers the deformation joint (11), the cover plate (211) is fixedly connected with the supporting block (3), and the screw part of the locking bolt (213) penetrates through the limiting plate (212) and is in threaded connection with the interior of the wallboard (1).

6. A civil structure department movement joint connection structure device according to claim 5, characterized in that: the fixing piece (21) further comprises a fixing pipe (214) and a rubber pad (215) which are arranged at each locking bolt (213), the rubber pad (215) is sleeved on the outer side wall of the fixing pipe (214), the locking bolt (213) is inserted into the fixing pipe (214) in a threaded manner, and a fixing groove (14) for inserting the fixing pipe (214) and the rubber pad (215) is formed in the side wall of the wallboard (1).

7. A civil structure department movement joint connection structure device according to claim 6, characterized in that: each wallboard (1) lateral wall all is provided with heat preservation (12), heat preservation (12) are located between wallboard (1) and first clamp plate (221).

8. A civil structure department movement joint connection structure device according to claim 7, characterized in that: the outer side wall of the wallboard (1) is further provided with a heat insulation layer (13), the heat insulation layer (13) is located outside the heat insulation layer (12), and one side, away from the heat insulation layer (12), of the heat insulation layer (13) is fixedly connected to the side wall of the first pressing plate (221).

9. The use method of a deformation joint connecting structure device at a civil engineering structure according to claim 8, characterized in that: the method comprises the following steps:

s1, firstly, sequentially adhering the heat-insulating layer (12) and the heat-insulating layer (13) to the outer side wall of each wallboard (1), and then fixing the first pressing plate (221) on the outer side wall of the heat-insulating layer (13) through steel nails;

s2, paving a main waterproof coiled material (223) on the corrugated surface (2221) of each first pressing plate (221), covering the second pressing plate (222) on the outer side wall of the first pressing plate (221), enabling the main waterproof coiled material (223) to be inserted between the first pressing plate (221) and the second pressing plate (222) in a corrugated shape, and installing steel nails on one side, far away from the deformation joint (11), of the second pressing plate (222) so that the steel nails penetrate through the second pressing plate (222) and the main waterproof coiled material (223) and are fixed on the side wall of the first pressing plate (221);

s3, winding two layers of waterproof rolls (321) for later use on the winding roller (32) in advance, inserting the winding roller (32) into the fixing hole (33), plugging the fixing hole (33) through concrete, and only forming a through hole (34) through which the waterproof roll (321) for later use penetrates out of the fixing hole (33); the end parts of the two layers of standby waterproof coiled materials (321) penetrate through the through holes (34) and are fixedly adhered to the end parts of the main waterproof coiled materials (223) respectively;

s4, inserting the supporting block (3) into the deformation joint (11), clamping the foam filling block (35) between the supporting block (3) and the second pressing plate (222), enabling the first inclined surface (351) on the foam filling block (35) to be abutted to the second inclined surface (2222), vertically fixing the supporting rod (31) on the lower surface of the cover plate (211), and finally inserting the locking bolts (213) on the two sides of the cover plate (211) into the fixing pipe (214) in a threaded mode.

Images