CN115341783B - Building surface waterproof SBS coiled material leakage repairing vehicle - Google Patents

Abstract

The invention relates to the field of waterproof coiled materials, in particular to a building surface waterproof SBS coiled material leakage repairing vehicle. The technical implementation problems of the invention are as follows: the mode that is used for the bulge restoration that seepage formed of waterproof SBS coiled material all adopts artifical cutting and filling mode, realizes the restoration of bulge, but artifical unable debris clean up inside and outside with the bulge, leads to when filling the filler, and the filler is infirm when bonding with waterproof SBS coiled material's fracture, leads to waterproof ability decline. The technical implementation scheme of the invention is as follows: a building surface waterproof SBS coiled material leakage repairing vehicle comprises a detection system, a slotting system and the like; the front part of the detection system is connected with a slotting system for cutting the SBS coiled material. Restoration of roof waterproof SBS coiled material swell adopts the mode of parcel to judge the size of swell, cuts swell department simultaneously to with debris clean up in the swell, avoid debris to influence the bonding of filler, roll the filler simultaneously and level.

Description

Building surface waterproof SBS coiled material leakage repairing vehicle

Technical Field

The invention relates to the field of waterproof coiled materials, in particular to a building surface waterproof SBS coiled material leakage repairing vehicle.

Background

The SBS waterproof film is a reinforced carrier which is formed by skillfully mixing rubber modified asphalt waterproof and high quality, the waterproof SBS coiled material is prepared by using asphalt with styrene-butadiene-styrene (SBS) thermoplastic elastomer as a modifier as an impregnating and coating material, and the upper surface of the waterproof coiled sheet waterproof coiled material is covered with a polyethylene film, fine sand, mineral sheet (particle) material or isolating materials such as aluminum foil, copper foil and the like, but after long-time use, the surface of the waterproof coiled sheet waterproof coiled material is aged to cause local leakage and form a bulge.

In the prior art, the mode of bulge restoration that is used for seepage formation of waterproof SBS coiled material all adopts artifical cutting and filling mode, realizes the restoration of bulge, but artifical unable debris clean up inside and outside with the bulge leads to when filling the filler, and the filler is infirm when bonding with waterproof SBS coiled material's fracture, leads to waterproof ability decline.

In summary, there is an urgent need for a building surface waterproof SBS coil leak repair vehicle to overcome the above-mentioned problems.

Disclosure of Invention

In order to overcome the defect that the waterproof SBS coiled material is unstable when being adhered to the fracture of the waterproof SBS coiled material and the waterproof capability is reduced because the waterproof SBS coiled material is not adhered to the fracture when being filled with the filler, the invention provides the waterproof SBS coiled material leakage repairing vehicle for the building surface.

The technical implementation scheme of the invention is as follows: a building surface waterproof SBS coiled material leakage repairing vehicle comprises a detection system, a slotting system and a repairing system; the front part of the detection system is connected with a slotting system for cutting the SBS coiled material; the middle part of the detection system is connected with a repair system for repairing the bulge area.

Optionally, the detection system comprises a rolling wheel, a first connecting plate, a detection wheel and elastic cloth; the front part of the rolling wheel is rotationally connected with two first connecting plates which are bilaterally symmetrical through a rotating shaft; the front parts of the two first connecting plates are rotationally connected with a detection wheel through a rotating shaft; the upper part of the detection wheel is rotationally connected with a plurality of annular arrays of elastic fabrics through a rotating shaft.

Optionally, the elastic fabric is made of rubber and is used for measuring the bulge.

Optionally, the slotting system comprises a connecting frame, a first electric sliding rail, a first electric sliding block, a first electric push rod and a slotting machine; a connecting frame is fixedly connected between the two first connecting plates, and the upper part of the connecting frame is fixedly connected with two first electric sliding rails which are symmetrical in front-back; the outer surfaces of the two first electric sliding rails are respectively connected with a first electric sliding block in a sliding way; the lower parts of the two first electric sliding blocks are respectively provided with a first electric push rod; the telescopic ends of the two first electric push rods are fixedly connected with a grooving machine.

Optionally, the repairing system includes a second electric push rod, a second connecting plate, a second electric sliding rail, a second electric sliding block, a third connecting plate, a fourth connecting plate, a fixing plate, a bearing seat, a first telescopic rod, a first grinding roller, a second telescopic rod, a second grinding roller, a third electric push rod, a fifth connecting plate, a connecting rod, a fourth electric push rod, a first piston plate, a second piston plate, a first rectangular cylinder, a telescopic pipe, a second rectangular cylinder, a first guide plate, a first blow-off pipe, a second guide cylinder, a second guide plate, a second blow-off pipe, a material barrel, a guide pipe, a third electric sliding rail, a third electric sliding block and a glue injector; two second electric push rods are fixedly connected to the opposite sides of the two first connecting plates respectively; the telescopic ends of every two second electric push rods are fixedly connected with a second connecting plate respectively; two second electric sliding rails are fixedly connected to the opposite sides of the two second connecting plates respectively; the outer surfaces of the four second electric sliding rails are respectively connected with a second electric sliding block in a sliding way; a third connecting plate is fixedly connected to each two second electric sliding blocks; the upper parts of the two third connecting plates are fixedly connected with a fourth connecting plate; a fixed plate is fixedly connected to each of the two third connecting plates; the lower parts of the two fixing plates are fixedly connected with two bearing seats which are symmetrical in front and back respectively; the lower parts of the four bearing seats are respectively and movably connected with a first telescopic rod; the lower parts of every two first telescopic rods are rotationally connected with a first grinding roller through a rotating shaft; the lower parts of the four first telescopic rods are fixedly connected with a second telescopic rod respectively; the lower parts of every two second telescopic rods are rotationally connected with a second grinding roller through a rotating shaft; the lower part of the fourth connecting plate is fixedly connected with two third electric push rods which are symmetrical in front-back; the telescopic ends of the two third electric push rods are fixedly connected with a fifth connecting plate; the lower part of the fifth connecting plate is fixedly connected with four connecting rods; the four connecting rods are distributed in a rectangular shape; the lower parts of the four connecting rods are fixedly connected with a second piston plate; a first rectangular cylinder is fixedly connected between the two third connecting plates; a plurality of groups of diversion trenches are arranged at the lower part of the first rectangular cylinder; the first rectangular cylinder is in sliding connection with a second piston plate; the lower part of the second piston plate is fixedly connected with a telescopic pipe; the lower part of the telescopic pipe is fixedly connected with a second rectangular cylinder; two first drain pipes which are symmetrical in front-back are arranged on the lower part of the second rectangular cylinder in a penetrating way; the opposite sides of the two first blow-down pipes are fixedly connected with a first guide cylinder respectively; two first guide plates which are bilaterally symmetrical are fixedly connected to the opposite sides of the two first guide cylinders respectively; every two first guide plates are fixedly connected with a first blow-down pipe; four second blow-down pipes are arranged on the lower portion of the second rectangular cylinder in a penetrating mode, the four second blow-down pipes are symmetrically arranged in a front-back mode, and each second blow-down pipe is fixedly connected with a second guide cylinder; four second guide plates are fixedly connected to the opposite sides of the two second guide cylinders respectively; every two second guide plates are fixedly connected with a second blow-down pipe; the two first guide cylinders are fixedly connected with the two second guide cylinders; the lower part of the fourth connecting plate is fixedly connected with two fourth electric push rods which are symmetrical front and back; the telescopic ends of the two fourth electric push rods are fixedly connected with a first piston plate; the first piston plate is contacted with the two first guide cylinders and the two second guide cylinders; the upper part of the fourth connecting plate is fixedly connected with a material barrel; the rear part of the material barrel is fixedly connected with a guide pipe; the rear part of the catheter is fixedly connected with a glue injector; the rear part of the fourth connecting plate is fixedly connected with a third electric sliding rail; the outer surface of the third electric sliding rail is connected with a third electric sliding block in a sliding way; the third electric sliding block is fixedly connected with the glue injector.

Optionally, a torsion spring is arranged on the rotating shaft on the bearing seat.

Optionally, the surface of the first roller is covered with a rubber strip for increasing the resistance.

Optionally, a lower portion of the first piston plate is provided in an inverted cone-like configuration.

Optionally, a plurality of diversion trenches are arranged at the lower part of the first rectangular cylinder and used for discharging sundries on the surface of the bulge.

Optionally, the telescopic tube has a wave-shaped structure, so that it can be contracted.

The invention has the following advantages: the invention realizes the restoration of the bulge of the roof waterproof SBS coiled material, adopts a wrapping mode to judge the size of the bulge, cuts the bulge, cleans up sundries in the bulge, avoids the sundries from affecting the adhesion of the filler, and rolls the filler smoothly.

In the present invention: through having set up detecting system, realized judging the bulge, adopt the mode of parcel to judge the size of bulge simultaneously, drive slotting system and repair system simultaneously and remove.

In the present invention: by arranging the slotting system, the slotting at the bulge is realized.

In the present invention: through having set up repair system, realized adopting the clearance of blowing mode with the debris of surface residue to adopt the clearance of the inside debris of waterproofing membrane of negative pressure side.

Drawings

FIG. 1 is a schematic view of a first construction of a building surface waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 2 is a schematic view of a second construction of the building surface waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 3 is a schematic structural view of a 1-detection system of the building surface waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 4 is a schematic view of a partial structure of a 1-detection system of the building surface waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 5 is a schematic view of a first construction of a 2-slotting system of the building surface waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 6 is a schematic diagram of a second construction of a 2-slotting system of the building surface waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 7 is a schematic view of a third construction of a 2-slotting system of the building surface waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 8 is a schematic diagram of a first construction of a 3-repair system of the waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 9 is a schematic diagram of a second construction of a 3-repair system of the waterproof SBS roll leak repair vehicle of the present invention;

FIG. 10 is a schematic view of a third construction of a 3-repair system of the waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 11 is a schematic diagram of a fourth construction of a 3-repair system of the waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 12 is a schematic view of a first partial construction of a 3-repair system of the waterproof SBS roll leak repair vehicle of the present invention;

FIG. 13 is a schematic view of a second partial construction of a 3-repair system of the waterproof SBS roll leak repair vehicle of the present invention;

FIG. 14 is a third schematic structural view of a 3-repair system of the waterproof SBS coiled material leakage repair vehicle of the present invention;

FIG. 15 is a schematic view of a fourth partial construction of a 3-repair system of the waterproof SBS roll leak repair vehicle of the present invention;

fig. 16 is a schematic view showing a fifth partial construction of a 3-repair system of the construction surface waterproof SBS coil leakage repair vehicle of the present invention.

Meaning of reference numerals in the drawings: the sewage draining device comprises a 1-detection system, a 2-slotting system, a 3-repairing system, a 101-grinding wheel, a 102-first connecting plate, a 103-detection wheel, a 104-elastic cloth, a 201-connecting frame, a 202-first electric sliding rail, a 203-first electric sliding block, a 204-first electric push rod, a 205-slotting machine, a 301-second electric push rod, a 302-second connecting plate, a 303-second electric sliding rail, a 304-second electric sliding block, a 305-third connecting plate, a 306-fourth connecting plate, a 307-fixed plate, a 308-bearing seat, a 309-first telescopic rod, 3010-first grinding roller, 3011-second telescopic rod, 3012-second grinding roller, 3013-third electric push rod, 3014-fifth connecting plate, 3015-connecting rod, 3016-fourth electric push rod, 3017-first piston plate, 3018-second piston plate, 3019-first rectangular cylinder, 3019 a-guide slot, 3020-telescopic pipe, 3021-second rectangular cylinder 3022-first guide cylinder 3023-first guide cylinder 3024, 3024-second guide cylinder 3026-guide cylinder 3036-second guide cylinder 3026-guide cylinder, 3037-third guide cylinder 3036-guide cylinder, a sewage draining device and a sewage draining device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

Example 1

The building surface waterproof SBS coiled material leakage repairing vehicle comprises a detection system 1, a slotting system 2 and a repairing system 3 as shown in figures 1-16; the front part of the detection system 1 is connected with a slotting system 2; the middle part of the detection system 1 is connected with a repair system 3.

Firstly, a building surface waterproof SBS coiled material leakage repairing vehicle is moved to a position required to be used, then a detection system 1 is controlled to move forwards on the roof surface, the detection system 1 detects bulges on the roof surface in the process of moving forwards, the positions and the sizes of the bulges are recorded, then the detection system 1 drives a slotting system 2 to move forwards, the slotting system 2 is enabled to move to a position right above the positions recorded by the detection system 1, then the slotting system 2 is controlled to adjust the positions, then the slotting system 2 is controlled to cut the bulged SBS coiled material into a groove, then the detection system 1 is controlled to drive a repairing system 3 to move forwards continuously, the repairing system 3 is enabled to move to a position right above the cut groove, then the repairing system 3 is controlled to adjust the positions, water around the bulges is discharged outwards, meanwhile residual water in the bulges is sucked out, and after the water around the bulges is cleaned, the cut groove is filled by the repairing system 3.

Example 2

1-16, the detection system 1 includes a grinding wheel 101, a first connecting plate 102, a detection wheel 103 and a stretch cloth 104; the front part of the rolling wheel 101 is rotationally connected with two first connecting plates 102 which are bilaterally symmetrical through a rotating shaft; the front parts of the two first connecting plates 102 are rotatably connected with a detection wheel 103 through a rotating shaft; the upper part of the detection wheel 103 is rotatably connected with a plurality of annular arrays of elastic cloth 104 through a rotating shaft.

The stretch cloth 104 is made of rubber and is used for measuring bulges.

The grooving system 2 comprises a connecting frame 201, a first electric sliding rail 202, a first electric sliding block 203, a first electric push rod 204 and a grooving machine 205; a connecting frame 201 is fixedly connected between the two first connecting plates 102, and two first electric sliding rails 202 which are symmetrical in front-back direction are connected to the upper part of the connecting frame 201 through bolts; the outer surfaces of the two first electric sliding rails 202 are respectively connected with a first electric sliding block 203 in a sliding way; a first electric push rod 204 is arranged at the lower part of each of the two first electric sliding blocks 203; the telescopic ends of the two first electric push rods 204 are fixedly connected with a grooving machine 205.

The repairing system 3 comprises a second electric push rod 301, a second connecting plate 302, a second electric sliding rail 303, a second electric sliding block 304, a third connecting plate 305, a fourth connecting plate 306, a fixed plate 307, a bearing seat 308, a first telescopic rod 309, a first rolling roller 3010, a second telescopic rod 3011, a second rolling roller 3012, a third electric push rod 3013, a fifth connecting plate 3014, a connecting rod 3015, a fourth electric push rod 3016, a first piston plate 3017, a second piston plate 3018, a first rectangular cylinder 3019, a telescopic pipe 3020, a second rectangular cylinder 3021, a first guide cylinder 3022, a first guide cylinder 3023, a first drain pipe 3024, a second guide cylinder 3025, a second guide cylinder 3026, a second drain pipe 3027, a material cylinder 3028, a guide pipe 3029, a third electric sliding rail 3030, a third electric sliding block 3031 and a glue injector 3032; two second electric push rods 301 are fixedly connected to opposite sides of the two first connecting plates 102 respectively; the telescopic ends of every two second electric push rods 301 are fixedly connected with a second connecting plate 302 respectively; two second electric sliding rails 303 are fixedly connected to opposite sides of the two second connecting plates 302 respectively; the outer surfaces of the four second electric sliding rails 303 are respectively connected with a second electric sliding block 304 in a sliding way; a third connecting plate 305 is fixedly connected to each two second electric sliding blocks 304; the upper parts of the two third connecting plates 305 are fixedly connected with a fourth connecting plate 306; each of the two third connecting plates 305 is fixedly connected with a fixing plate 307; two bearing seats 308 which are symmetrical in front and back are fixedly connected to the lower parts of the two fixing plates 307 respectively; the lower parts of the four bearing seats 308 are respectively hinged with a first telescopic rod 309; the lower parts of every two first telescopic rods 309 are rotatably connected with a first rolling roller 3010 through a rotating shaft; the lower parts of the four first telescopic rods 309 are fixedly connected with a second telescopic rod 3011 respectively; the lower parts of every two second telescopic rods 3011 are rotatably connected with a second rolling roller 3012 through a rotating shaft; the lower part of the fourth connecting plate 306 is fixedly connected with two third electric push rods 3013 which are symmetrical in front-back; the telescopic ends of the two third electric push rods 3013 are fixedly connected with a fifth connecting plate 3014; the lower part of the fifth connecting plate 3014 is fixedly connected with four connecting rods 3015; the four connecting rods 3015 are distributed in a rectangular shape; the lower parts of the four connecting rods 3015 are fixedly connected with a second piston plate 3018; a first rectangular barrel 3019 is fixedly connected between the two third connecting plates 305; a plurality of groups of diversion trenches 3019a are arranged at the lower part of the first rectangular tube 3019; the first rectangular barrel 3019 is slidably connected to a second piston plate 3018; a telescopic pipe 3020 is fixedly connected to the lower part of the second piston plate 3018; the lower part of the telescopic pipe 3020 is fixedly connected with a second rectangular cylinder 3021; two first drain pipes 3024 which are symmetrical in front-back are arranged at the lower part of the second rectangular cylinder 3021 in a penetrating way; each of the opposite sides of the two first drain pipes 3024 is fixedly connected with a first guide cylinder 3022; two first guide plates 3023 which are symmetrical left and right are fixedly connected to opposite sides of the two first guide cylinders 3022 respectively; every two first guide plates 3023 are fixedly connected with one first drain pipe 3024; four second drain pipes 3027 are arranged in a penetrating manner on the lower portion of the second rectangular cylinder 3021, the four second drain pipes 3027 are symmetrically arranged in a group, and a second guide cylinder 3025 is fixedly connected to each upper portion of each second drain pipe 3027; four second guide plates 3026 are fixedly connected to opposite sides of the two second guide cylinders 3025 respectively; every two second guide plates 3026 are fixedly connected with a second blow-down pipe 3027; the two first guide cylinders 3022 are fixedly connected with the two second guide cylinders 3025; the lower part of the fourth connecting plate 306 is fixedly connected with two fourth electric push rods 3016 which are symmetrical in front-back; the telescopic ends of the two fourth electric push rods 3016 are fixedly connected with a first piston plate 3017; the first piston plate 3017 is in contact with two first guide barrels 3022 and two second guide barrels 3025; the upper part of the fourth connecting plate 306 is fixedly connected with a material barrel 3028; a guide pipe 3029 is fixedly connected to the rear part of the material barrel 3028; the rear part of the catheter 3029 is fixedly connected with a glue injector 3032; a third electric sliding rail 3030 is fixedly connected to the rear part of the fourth connecting plate 306; the outer surface of the third electric sliding rail 3030 is slidably connected with a third electric sliding block 3031; the third motorized pulley 3031 is fixedly connected with the glue injector 3032.

Torsion springs are provided on the rotating shafts on the bearing blocks 308.

The first roller 3010 is covered with rubber strips on its surface for increasing resistance.

The lower portion of the first piston plate 3017 is provided in an inverted cone-like structure.

The lower part of the first rectangular barrel 3019 is provided with a plurality of diversion trenches 3019a for discharging sundries on the bulge surface.

The bellows 3020 has a wave-like configuration that allows it to collapse.

Firstly, placing a building surface waterproof SBS coiled material leakage repairing vehicle on the roof surface, then controlling a rolling wheel 101 to rotate so as to drive two first connecting plates 102 to move forwards, driving two first connecting plates 102 to drive a detection wheel 103 to move forwards, enabling the detection wheel 103 to drive an elastic cloth 104 to rotate, when a plurality of elastic cloths 104 contact bulges on an SBS coiled material, the bulges compress the plurality of elastic cloths 104, then controlling the detection wheel 103 to record the size and the position of the bulges according to the pressed deformation of the elastic cloths 104, then controlling the rolling wheel 101 to further drive the two first connecting plates 102 to move forwards, driving a connecting frame 201 to move forwards to a position right above the position of the bulges recorded by the detection wheel 103 by the two first connecting plates 102, then controlling two first electric sliders 203 to slide on two first electric sliding rails 202, driving two first electric pushrods 204 to move in a following way, driving a grooving machine 205 to move right above the bulges, and then controlling the two first electric pushrods 204 to push the grooving machine to approach and contact the bulges 205, and simultaneously controlling the two electric pushrods 205 to cut the SBS coiled material with the rectangular grooving machine; then the rolling wheel 101 is controlled to rotate continuously to drive the two first connecting plates 102 to move forwards, the two first connecting plates 102 drive the four second electric push rods 301 to move forwards, the four second electric push rods 301 drive the parts connected with the four second electric push rods to move forwards, namely the second electric push rods 301 drive the second connecting plates 302, the second electric sliding rails 303, the second electric sliding blocks 304, the third connecting plates 305, the fourth connecting plates 306, the fixed plates 307, the bearing seats 308, the first telescopic rods 309, the first rolling rollers 3010, the second telescopic rods 3011, the second rolling rollers 3012, the third electric push rods 3013, the fifth connecting plates 3014, the connecting rods 3015, the fourth electric push rods 3016, the first piston plates 3017, the second piston plates 3018, the first rectangular cylinders 3019, the telescopic pipes 3020, the second rectangular cylinders 3021, the first guide cylinders 3022, the first guide plates 3023, the first drain pipes 3024, the second guide cylinders 3025, the second guide plates 3026, the second drain pipes 3027, the material barrels 3028, the guide pipes 3039, the third electric sliding blocks 3030 and the third injectors 3032, simultaneously, the four second electric push rods 301 are controlled to move left and right to match, so that the first rectangular cylinder 3019 moves right above a rectangular groove cut by the grooving system 2, then the four second electric sliding blocks 304 are controlled to slide downwards on the four second electric sliding rails 303, the four second electric sliding blocks 304 drive the two third connecting plates 305 to move downwards, the two third connecting plates 305 drive the fourth connecting plates 306 to move downwards, the fourth connecting plates 306 drive the parts connected with the fourth connecting plates to move downwards, namely the fourth connecting plates 306 drive the third electric push rods 3013, the fifth connecting plates 3014, the connecting rods 3015, the fourth electric push rods 3016, the first piston plates 3017, the second piston plates 3018, the first rectangular cylinders 3019, the telescopic pipes 3020, the second rectangular cylinders 3021 and the first guide cylinders 3022, the first guide plate 3023, the first drain pipe 3024, the second guide cylinder 3025, the second guide plate 3026, the second drain pipe 3027, the material barrel 3028, the guide pipe 3029, the third electric sliding rail 3030, the third electric sliding block 3031 and the glue injector 3032 are moved downward, the first piston plate 3017, the first rectangular cylinder 3019 and the second rectangular cylinder 3021 are moved downward to be close to and contact with the cut rectangular groove, the lower part of the first piston plate 3017 is clamped into the rectangular groove, then the two third electric push rods 3013 are controlled to push the fifth connecting plate 3014 to move downward, the fifth connecting plate 3014 drives the four connecting rods 3015 to move downward, the four connecting rods 3015 drive the second piston plate 3018 to move downward in the first rectangular cylinder 3019, air in the first rectangular cylinder 3019 is extruded, the air in the first rectangular cylinder 3019 is discharged through the guide groove 3019a, and water and sundries in the area covered by the first rectangular cylinder 3019 are discharged, in the process, the second piston plate 3018 extrudes the telescopic pipe 3020, so that the telescopic pipe 3020 compresses, air in the second rectangular cylinder 3021 is forced to be compressed and discharged from the first drain pipe 3024 and the second drain pipe 3027, then the two fourth electric push rods 3016 are controlled to shrink to drive the first piston plate 3017 to move upwards, the lower part of the first piston plate 3017 is separated from a rectangular groove on the SBS coiled material, the first piston plate 3017 slides upwards in the second rectangular cylinder 3021, the space of the second rectangular cylinder 3021 is enlarged, meanwhile, air in a region covered by the second rectangular cylinder 3021 is moved upwards, water and sundries in the air are driven to move upwards to be close to the first guide cylinder 3022 and the second guide cylinder 3025, the air is moved upwards along the first guide cylinder 3022 and the second guide cylinder 3025, the lower part of the first piston plate 3017 loses limit of the rectangular groove on the SBS coiled material, the water and impurities in the SBS coiled material bulge move upwards, the first guide cylinder 3022 and the second guide cylinder 3025 are small at the upper part and large at the lower part, so that the water and impurities entering the second rectangular cylinder 3021 are difficult to enter the lower space, the water and impurities are forced to enter the space with the small upper part and the large lower part formed by the second rectangular cylinder 3021, the first guide cylinder 3022 and the first guide plate 3023, meanwhile, the water and impurities also enter the space with the small upper part and the small lower part formed by the second rectangular cylinder 3021, the second guide cylinder 3025 and the second guide plate 3026, and then after the second piston plate 3018 is pressed downwards for the second time, the collected water and impurities are discharged from the first drain pipe 3024 and the second drain pipe 3027, and the water and impurities in the bulge area are cleaned; in this process, the two third connecting plates 305 drive the two fixing plates 307 to move downwards, the two fixing plates 307 drive the four bearing blocks 308 to move downwards, the four bearing blocks 308 drive the parts connected with the four bearing blocks to move downwards, namely, the bearing blocks 308 drive the first telescopic rod 309, the first rolling roller 3010, the second telescopic rod 3011 and the second rolling roller 3012 to move downwards to approach and contact with the bulge of the SBS coiled material, meanwhile, the two first rolling roller 3010 and the two second rolling rollers 3012 are extruded, but under the limit fit of the four bearing blocks 308, the first telescopic rod 309 and the second telescopic rod 3011, the two first rolling rollers 3010 move towards each other, the two second rolling rollers 3012 move away from each other, the bulge is compacted, the space in the bulge is reduced, water and dirt are conveniently discharged, then the four second electric sliding rails 303 are controlled to move upwards to reset, the two first connecting plates 102 are controlled to continue to move forwards until the square-shaped glue injector 3032 is aligned, the electric sliding rails 3032 are controlled to fill the square-shaped glue injector 3022, the square glue injector 3032 is filled with the square glue injector 3038, and the square glue injector 3032 is filled with the square glue injector 101, and the square glue injector 3032 is controlled to fill the square glue injector 101 into the square glue injector.

The above embodiments are only preferred embodiments of the present invention and are not intended to limit the scope of the present invention, so that all equivalent modifications made by the appended claims shall be included in the scope of the present invention.

Claims (6)

1. A building surface waterproof SBS coiled material leakage repairing vehicle comprises a detection system (1); the method is characterized in that: the system also comprises a slotting system (2) and a repairing system (3); the front part of the detection system (1) is connected with a slotting system (2) for cutting the SBS coiled material; the middle part of the detection system (1) is connected with a repairing system (3) for repairing the bulge area;

the detection system (1) comprises a rolling wheel (101), a first connecting plate (102), a detection wheel (103) and elastic cloth (104); the front part of the rolling wheel (101) is rotationally connected with two first connecting plates (102) which are bilaterally symmetrical through a rotating shaft; the front parts of the two first connecting plates (102) are rotatably connected with a detection wheel (103) through a rotating shaft; a plurality of annular arrays of elastic fabrics (104) are rotatably connected on the detection wheel (103) through a rotating shaft;

the elastic cloth (104) is made of rubber and is used for measuring bulges;

the grooving system (2) comprises a connecting frame (201), a first electric sliding rail (202), a first electric sliding block (203), a first electric push rod (204) and a grooving machine (205); a connecting frame (201) is fixedly connected between the two first connecting plates (102), and two first electric sliding rails (202) which are symmetrical in front-back are fixedly connected to the upper part of the connecting frame (201); the outer surfaces of the two first electric sliding rails (202) are respectively connected with a first electric sliding block (203) in a sliding way; the lower parts of the two first electric sliding blocks (203) are respectively provided with a first electric push rod (204); the telescopic ends of the two first electric push rods (204) are fixedly connected with a grooving machine (205);

the repairing system (3) comprises a second electric push rod (301), a second connecting plate (302), a second electric sliding rail (303), a second electric sliding block (304), a third connecting plate (305), a fourth connecting plate (306), a fixed plate (307), a bearing seat (308), a first telescopic rod (309), a first grinding roller (3010), a second telescopic rod (3011), a second grinding roller (3012), a third electric push rod (3013), a fifth connecting plate (3014), a connecting rod (3015), a fourth electric push rod (3016), a first piston plate (3037), a second piston plate (3018), a first rectangular cylinder (3019), a telescopic pipe (3020), a second rectangular cylinder (3021), a first guide cylinder (3022), a first guide plate (3023), a first drain pipe (3024), a second guide cylinder (3025), a second guide plate (3026), a second drain pipe (3027), a material cylinder (3028), a guide pipe (3029), a third electric sliding rail (3030), a third electric sliding block (3031) and a glue injector (3032); two second electric push rods (301) are fixedly connected to the opposite sides of the two first connecting plates (102); the telescopic ends of every two second electric push rods (301) are fixedly connected with a second connecting plate (302) respectively; two second electric sliding rails (303) are fixedly connected to the opposite sides of the two second connecting plates (302); the outer surfaces of the four second electric sliding rails (303) are respectively connected with a second electric sliding block (304) in a sliding way; a third connecting plate (305) is fixedly connected to each two second electric sliding blocks (304); the upper parts of the two third connecting plates (305) are fixedly connected with a fourth connecting plate (306); each of the two third connecting plates (305) is fixedly connected with a fixed plate (307); the lower parts of the two fixing plates (307) are fixedly connected with two bearing seats (308) which are symmetrical in front and back respectively; the lower parts of the four bearing seats (308) are respectively and movably connected with a first telescopic rod (309); the lower parts of every two first telescopic rods (309) are rotatably connected with a first grinding roller (3010) through a rotating shaft; the lower parts of the four first telescopic rods (309) are fixedly connected with a second telescopic rod (3011) respectively; the lower parts of every two second telescopic rods (3011) are rotatably connected with a second grinding roller (3012) through a rotating shaft; the lower part of the fourth connecting plate (306) is fixedly connected with two third electric push rods (3013) which are symmetrical in front-back; the telescopic ends of the two third electric push rods (3013) are fixedly connected with a fifth connecting plate (3014); the lower part of the fifth connecting plate (3014) is fixedly connected with four connecting rods (3015); the four connecting rods (3015) are distributed in a rectangular shape; the lower parts of the four connecting rods (3015) are fixedly connected with a second piston plate (3018); a first rectangular cylinder (3019) is fixedly connected between the two third connecting plates (305); a plurality of groups of diversion trenches (3019 a) are arranged at the lower part of the first rectangular cylinder (3019); the first rectangular cylinder (3019) is in sliding connection with a second piston plate (3018); the lower part of the second piston plate (3018) is fixedly connected with a telescopic pipe (3020); the lower part of the telescopic pipe (3020) is fixedly connected with a second rectangular cylinder (3021); two first drain pipes (3024) which are symmetrical in front-back are arranged at the lower part of the second rectangular cylinder (3021) in a penetrating way; the opposite sides of the two first blow-down pipes (3024) are fixedly connected with a first guide cylinder (3022) respectively; two first guide plates (3023) which are symmetrical left and right are fixedly connected to the opposite sides of the two first guide cylinders (3022) respectively; every two first guide plates (3023) are fixedly connected with a first blow-down pipe (3024); four second drain pipes (3027) are arranged on the lower portion of the second rectangular cylinder (3021) in a penetrating mode, the four second drain pipes (3027) are symmetrically arranged in a front-back mode, and a second guide cylinder (3025) is fixedly connected to each of the two second drain pipes (3027); four second guide plates (3026) are fixedly connected to opposite sides of the two second guide cylinders (3025) respectively; every two second guide plates (3026) are fixedly connected with a second blow-down pipe (3027); the two first guide cylinders (3022) are fixedly connected with the two second guide cylinders (3025); the lower part of the fourth connecting plate (306) is fixedly connected with two fourth electric push rods (3016) which are symmetrical in front-back; the telescopic ends of the two fourth electric push rods (3016) are fixedly connected with a first piston plate (3017); the first piston plate (3017) is in contact with two first guide cylinders (3022) and two second guide cylinders (3025); the upper part of the fourth connecting plate (306) is fixedly connected with a material barrel (3028); the rear part of the material barrel (3028) is fixedly connected with a guide pipe (3029); the rear part of the catheter (3029) is fixedly connected with a glue injector (3032); the rear part of the fourth connecting plate (306) is fixedly connected with a third electric sliding rail (3030); the outer surface of the third electric sliding rail (3030) is connected with a third electric sliding block (3031) in a sliding way; the third electric slide block (3031) is fixedly connected with the glue injector (3032).

2. A construction surface waterproof SBS coil leak repair vehicle according to claim 1, characterized in that: a torsion spring is arranged on the rotating shaft on the bearing seat (308).

3. A construction surface waterproof SBS coil leak repair vehicle according to claim 1, characterized in that: the surface of the first grinding roller (3010) is sleeved with a rubber strip for increasing resistance.

4. A construction surface waterproof SBS coil leak repair vehicle according to claim 1, characterized in that: the lower part of the first piston plate (3017) is provided with an inverted cone-shaped structure.

5. A construction surface waterproof SBS coil leak repair vehicle according to claim 1, characterized in that: the lower part of the first rectangular cylinder (3019) is provided with a plurality of diversion trenches (3019 a) for discharging sundries on the bulge surface.

6. A construction surface waterproof SBS coil leak repair vehicle according to claim 1, characterized in that: the telescopic tube (3020) has a wave-shaped structure, so that the telescopic tube can be contracted.