CN213741246U - Piping lane seam leaks and restores structure - Google Patents
Piping lane seam leaks and restores structure Download PDFInfo
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- CN213741246U CN213741246U CN202022650605.9U CN202022650605U CN213741246U CN 213741246 U CN213741246 U CN 213741246U CN 202022650605 U CN202022650605 U CN 202022650605U CN 213741246 U CN213741246 U CN 213741246U
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Abstract
The utility model relates to a piping lane seam leaks and restores structure relates to the piping lane field, the piping lane seam leak and restore structure including closely knit layer and sealing layer, closely knit layer is filled on the piping lane periphery wall, closely knit layer cover piping lane seam, the sealing layer is filled in the piping lane seam. This application can be restoreed the piping lane seam effectively.
Description
Technical Field
The application relates to the field of piping lane, especially relate to a piping lane seam repair structures that leaks.
Background
The pipe gallery, i.e. the corridor of the pipeline, is a main place for intensively laying the pipeline, and generally, the pipe gallery is formed by a basic frame consisting of upright columns, cross beams and trusses of a steel structure or a reinforced concrete structure, and then is formed by pouring concrete.
The whole relative concatenation of piping lane final phase is formed by the piping lane final phase, and in order to improve the waterproof performance of piping lane, pack sealing filler usually in the piping lane seam to install the stagnant water board in the piping lane seam.
With respect to the related art in the above, the inventors consider that: because the piping lane is buried underground usually, the grit layer of piping lane week side is gathering moisture very easily, and the water of gathering can strike sealing filler and sealing plate to cause the damage of sealing filler and sealing plate, arouse the piping lane to leak.
SUMMERY OF THE UTILITY MODEL
In order to restore the piping lane seam position of leaking, this application provides a piping lane seam repair structures that leaks.
The application provides a piping lane seam repair structure that leaks adopts following technical scheme:
the utility model provides a piping lane seam leaks and restores structure, includes closely knit layer and sealing layer, closely knit layer is filled on the piping lane periphery wall, closely knit layer cover piping lane seam, the sealing layer is filled in the piping lane seam.
Through taking above-mentioned technical scheme, closely knit layer can be closely knit with the grit layer packing of piping lane peripheral wall side, when crowding away the water of gathering, can reduce the secondary gathering of water, the sealing layer then directly seals the packing to the piping lane seam to this application can effectively seal the restoration to the piping lane seam, improves the waterproof performance of piping lane.
Optionally, the sealing layer includes a first packing layer, a sealant layer and a second packing layer, and the first packing layer, the sealant layer and the second packing layer are sequentially filled in the pipe gallery seam from outside to inside.
Through taking above-mentioned technical scheme, first packing layer can provide the packing base member for the sealant layer to can strengthen the packing stability of sealant layer in the piping lane seam, the sealant layer then is as the main part of sealed piping lane seam, and the second packing layer then forms the protection to the sealant layer, reduces the wearing and tearing of sealant layer, and the second packing layer also can further improve the sealed effect to the piping lane seam.
Optionally, the first filler layer and the second filler layer are layers formed by tough materials.
Through taking above-mentioned technical scheme, first packing layer can provide the holding power for the sealant layer well, continuously receives the in-process of the load of people and vehicle at the piping lane moreover, and the fracture that takes place because of brittle deformation can be reduced to first packing layer and the second packing layer that the toughness material formed, further improves the water-proof effects to the piping lane seam.
Optionally, the thickness ratio of the first filler layer, the sealant layer and the second filler layer is (1-2): (3-5): (1-2).
Through taking above-mentioned technical scheme, first packing layer forms good support to the sealant layer, and when second filler glue film formed good protection to the sealant layer, there was sufficient area of contact between sealant layer and the piping lane seam to improve the repair effect to the piping lane seam.
Optionally, the inner peripheral wall of the pipe gallery is provided with a rubber water stop, and the rubber water stop covers the joint of the pipe gallery.
Through adopting above-mentioned technical scheme, the lateral wall forms the further sealed of piping lane seam in the piping lane to further improve the sealed effect to the piping lane seam.
Optionally, the rubber water stop is a detachable rubber water stop.
Through taking above-mentioned technical scheme, because the rubber waterstop is located the piping lane inboard, can damage because of receiving the load of people and vehicle to the setting can be dismantled to the rubber waterstop, can conveniently change the rubber waterstop that damages, improves the water-proof effects of piping lane seam.
Optionally, the piping lane runs through on being located the pipe wall of piping lane seam and is provided with the slip casting slot, slip casting slot cell wall links to each other with closely knit layer, it has the plugging layer to fill in the slip casting slot.
Through taking above-mentioned technical scheme, fill the grout material via the grit layer of slip casting hole groove to piping lane periphery wall side, can form closely knit layer after the grout material solidification, utilize blocking layer shutoff slip casting hole groove at last, can accomplish the setting to the sealing layer.
Optionally, the pipe gallery seam is kept away from gradually to the inboard direction of pipe gallery outside along the pipe gallery to the slip casting hole groove.
Through taking above-mentioned technical scheme, when seting up the grout hole groove, the position of keeping away from the piping lane seam at the piping lane inboard begins to set up to can reduce the damage of piping lane seam crossing, the grout outlet end slip casting of grout hole groove is close to the piping lane seam simultaneously, thereby can reduce the area of sealing layer relatively, when not influencing the restoration of piping lane seam, practices thrift the grout material.
Optionally, inlay in the piping lane seam and be equipped with first backup pad, first backup pad is located one side that sealed glue film was kept away from to first packing layer, and the piping lane inside wall is located piping lane seam department and is provided with the second backup pad, be connected with tension spring between first backup pad and the second backup pad, tension spring inlays to be established in the sealing layer.
Through taking above-mentioned technical scheme, because the piping lane can constantly stand the load that people and vehicle brought, the sealing layer inevitably can take place to sink in the piping lane seam, aversion, thereby set up first backup pad and second backup pad, use second backup pad and piping lane inside wall butt position as the stress point, first backup pad can carry out further support to the sealing layer through tension spring, and tension spring can take place elastic deformation, thereby when the load of adjacent piping lane because of people and vehicle takes place slight displacement, tension spring can not damage the sealing layer with the sealing layer between too big effort of taking place.
Optionally, be provided with the buffer block on the end wall that first backup pad and piping lane seam are relative, be provided with the buffering spout on the piping lane inside wall, be provided with the buffering slider in the second backup pad, the buffering slider slides with the buffering spout cell wall and is connected.
Through adopting above-mentioned technical scheme, the buffering slider slides in buffering spout, and elastic deformation takes place for the buffer block to first backup pad and second backup pad can have certain displacement ability, thereby when the load of adjacent piping lane because of people and vehicle takes place slight displacement, reduces the damage of first backup pad and second backup pad.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the application can fill the dense layer outside the pipe gallery, so that the sand and stone layer on the peripheral wall side of the pipe gallery can be tightly filled, accumulated water is squeezed away, and secondary water accumulation can be reduced;
2. the first packing layer formed by the tough material can provide a supporting force for the sealing adhesive layer well, and in the process that the pipe gallery is continuously loaded by people and vehicles, the second packing layer formed by the first packing layer and the tough material can reduce the fracture caused by brittle deformation, so that the waterproof effect on the joint of the pipe gallery is further improved;
3. this application sets up first backup pad and second backup pad, can use second backup pad and piping lane inside wall as the stress point, and first backup pad can carry out further support to the sealing layer through tension spring, and tension spring can take place elastic deformation moreover to when the load of adjacent piping lane because of people and vehicle takes place slight displacement, tension spring can not damage the sealing layer with the too big effort of taking place between the sealing layer.
Drawings
Fig. 1 is a schematic structural diagram of a repair structure in an embodiment of the present application.
Fig. 2 is an enlarged view at a in fig. 1.
Fig. 3 is a schematic structural diagram of a repair structure in the second embodiment of the present application.
Fig. 4 is an enlarged view at B in fig. 3.
Description of reference numerals: 1. a dense layer; 2. a sealing layer; 21. a first filler layer; 22. sealing the adhesive layer; 23. a second packing layer; 3. a rubber waterstop; 4. grouting a hole groove; 5. a blocking layer; 6. a first support plate; 61. a buffer block; 7. a second support plate; 71. a buffer slide block; 72. a buffer chute; 73. a grouting port; 8. a tension spring; 9. pipe gallery seam.
Detailed Description
The present application is described in further detail below with reference to figures 1-4.
The embodiment of the application discloses piping lane seam repair structure that leaks.
Example one
As shown in fig. 1 and fig. 2, a pipe gallery seam water leakage repairing structure mainly comprises a dense layer 1 and a sealing layer 2, wherein the dense layer 1 is filled on the outer peripheral wall of a pipe gallery, in the embodiment, a pipe gallery seam 9 with water leakage is a pipe gallery seam 9 at the bottom wall of the pipe gallery, so that the dense layer 1 is filled on the bottom wall of the pipe gallery, meanwhile, the dense layer 1 covers the pipe gallery seam 9 with water leakage, the sealing layer 2 is filled in the pipe gallery seam 9 with water leakage, meanwhile, an assembling and disassembling type rubber water stop 3 is detachably mounted on the inner peripheral wall of the pipe gallery, and the rubber water stop 3 covers the pipe gallery seam 9 with water leakage; thereby closely knit layer 1 can reduce the secondary of the water in the piping lane outside and gather, sealing layer 2 can directly carry out the shutoff to the piping lane seam 9 that leaks, and rubber waterstop 3 further improves the waterproof performance of piping lane seam 9.
As shown in fig. 1, the densified layer 1 is filled by the following structure: grouting hole grooves 4 are formed in the bottom wall of the pipe gallery in a penetrating mode, the grouting hole grooves 4 are arranged on two sides of the water-leaking pipe gallery joint 9, and the grouting hole grooves 4 are gradually far away from the pipe gallery joint 9 along the direction from the outer side of the pipe gallery to the inner side of the pipe gallery; therefore, grouting materials can be filled into the sandstone layer on the outer side of the bottom wall of the pipe gallery through the grouting hole grooves 4, and the compact layer 1 can be formed after the grouting materials are solidified; meanwhile, after the compact layer 1 is formed, grouting material is injected into the grouting hole groove 4, so that the grouting material forms a plugging layer 5 in the grouting hole groove 4, the grouting hole groove 4 is plugged, and the filling of the compact layer 1 can be completed
As shown in fig. 2, the sealing layer 2 in this embodiment includes a first packing layer 21, a sealant layer 22 and a second packing layer 23, the raw materials of the first packing layer 21 and the second packing layer 23 are tough materials, the tough materials may be epoxy mortar, rubber cement mortar, etc., in this embodiment, the tough materials are epoxy mortar, and the thickness ratio of the first packing layer 21, the sealant layer 22 and the second packing layer 23 is (1-2): (3-5): (1-2); in this embodiment, the tube lane seam 9 is 10 centimeters high; when the sealing layer 2 is filled, firstly, cleaning up the original filling material in the pipe gallery joint 9 with water leakage, then injecting epoxy mortar into the pipe gallery joint 9 with water leakage laterally in the pipe gallery to form a first filling layer 21 with the thickness of 2 cm, after the first filling layer 21 is cured, injecting sealant into the pipe gallery joint 9 with water leakage laterally in the pipe gallery to form a sealing glue layer 22 with the thickness of 6 cm, after the sealing glue layer 22 is cured, injecting epoxy mortar into the pipe gallery joint 9 with water leakage laterally in the pipe gallery to form a second filling layer 23 with the thickness of 2 cm, and after the second filling layer 23 is cured, completing filling of the sealing layer 2, so that the thickness ratio of the first filling layer 21, the sealing glue layer 22 and the second filling layer 23 in the embodiment is 1:3: 1.
The implementation principle of the first embodiment is as follows: closely knit layer 1 can squeeze away the water of gathering in the piping lane diapire outside to carry out closely knit with the grit layer in the piping lane diapire outside, sealing layer 2 then seals the packing to the piping lane seam 9 that leaks, and rubber waterstop 3 further improves the waterproof performance of piping lane seam 9.
Example two
As shown in fig. 3 and 4, the second embodiment is different from the first embodiment in that: a first supporting plate 6 is embedded in the water leaking pipe gallery joint 9, the first supporting plate 6 is positioned on one side of the first packing layer 21 away from the sealing glue layer 22, a buffer block 61 is integrally connected to the end wall of the first supporting plate 6 opposite to the pipe gallery joint 9, and the buffer block 61 is abutted against the side wall of the pipe gallery joint 9; a second support plate 7 is arranged on the inner side wall of the pipe gallery at the position of the joint 9 of the water leaking pipe gallery, a buffer sliding groove 72 is formed in the inner side wall of the pipe gallery, a buffer sliding block 71 is integrally connected to the lower surface of the second support plate 7, the buffer sliding block 71 is connected with the groove wall of the buffer sliding groove 72 in a sliding mode, and a grouting opening 73 is formed in the second support plate 7; and a tension spring 8 is fixedly connected between the first supporting plate 6 and the second supporting plate 7, and the tension spring 8 is embedded in the sealing layer 2.
Before filling first packing layer 21, put into the piping lane seam 9 that leaks earlier first backup pad 6, then insert buffering slider 71 in buffering spout 72 for second backup pad 7 supports on the inner wall of piping lane, then via slip casting mouth 73 pack first packing layer 21, sealant layer 22 and second packing layer 23 in proper order, can make first packing layer 21, sealant layer 22 and second packing layer 23 fill in piping lane seam 9 more steadily.
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 (10)
1. The utility model provides a piping lane seam leaks and restores structure which characterized in that: including closely knit layer (1) and sealing layer (2), closely knit layer (1) is filled on the piping lane periphery wall, closely knit layer (1) covers piping lane seam (9), sealing layer (2) are filled in piping lane seam (9).
2. The piping lane seam leaks water and repairs structure of claim 1, characterized by: the sealing layer (2) comprises a first packing layer (21), a sealing adhesive layer (22) and a second packing layer (23), wherein the first packing layer (21), the sealing adhesive layer (22) and the second packing layer (23) are sequentially filled in the pipe gallery seam (9) from outside to inside.
3. The piping lane seam leaks water and repairs structure of claim 2, characterized by: the first filler layer (21) and the second filler layer (23) are layers formed by flexible materials.
4. The piping lane seam leaks water and repairs structure of claim 2, characterized by: the thickness ratio of the first filler layer (21), the sealant layer (22) and the second filler layer (23) is (1-2): (3-5): (1-2).
5. The piping lane seam leaks water and repairs structure of claim 1, characterized by: the inner peripheral wall of the pipe gallery is provided with a rubber water stop (3), and the rubber water stop (3) covers the joint seam (9) of the pipe gallery.
6. The piping lane seam leaks water and repairs structure of claim 5, characterized by: the rubber water stop (3) is a detachable rubber water stop (3).
7. The piping lane seam leaks water and repairs structure of claim 1, characterized by: the pipe gallery runs through on being located the pipe wall of piping gallery seam (9) and is provided with slip casting hole groove (4), slip casting hole groove (4) cell wall links to each other with closely knit layer (1), it has plugging layer (5) to fill in slip casting hole groove (4).
8. The piping lane seam leaks water and repairs structure of claim 7, characterized by: grouting hole groove (4) are kept away from piping lane seam (9) along the outside direction inboard to the piping lane of piping lane.
9. The piping lane seam leaks water and repairs structure of claim 2, characterized by: inlay in piping lane seam (9) and be equipped with first backup pad (6), one side that sealant layer (22) were kept away from in first packing layer (21) is located in first backup pad (6), and the piping lane inside wall is located piping lane seam (9) department and is provided with second backup pad (7), be connected with tension spring (8) between first backup pad (6) and second backup pad (7), tension spring (8) inlay is established in sealing layer (2).
10. The piping lane seam leaks water and repairs structure of claim 9, characterized by: be provided with buffer block (61) on first backup pad (6) and the relative end wall of piping lane seam (9), be provided with buffering spout (72) on the piping lane inside wall, be provided with buffering slider (71) on second backup pad (7), buffering slider (71) and buffering spout (72) cell wall slide and are connected.
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CN202022650605.9U CN213741246U (en) | 2020-11-16 | 2020-11-16 | Piping lane seam leaks and restores structure |
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CN202022650605.9U CN213741246U (en) | 2020-11-16 | 2020-11-16 | Piping lane seam leaks and restores structure |
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