CN114034638A - Building quality detection mechanism and method - Google Patents

Building quality detection mechanism and method Download PDF

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Publication number
CN114034638A
CN114034638A CN202111324738.XA CN202111324738A CN114034638A CN 114034638 A CN114034638 A CN 114034638A CN 202111324738 A CN202111324738 A CN 202111324738A CN 114034638 A CN114034638 A CN 114034638A
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quality detection
building
building quality
pipeline
seat
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CN202111324738.XA
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张启贺
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N19/00Investigating materials by mechanical methods
    • G01N19/08Detecting presence of flaws or irregularities
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25BTOOLS OR BENCH DEVICES NOT OTHERWISE PROVIDED FOR, FOR FASTENING, CONNECTING, DISENGAGING OR HOLDING
    • B25B11/00Work holders not covered by any preceding group in the subclass, e.g. magnetic work holders, vacuum work holders

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • General Health & Medical Sciences (AREA)
  • General Physics & Mathematics (AREA)
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  • Pathology (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • A Measuring Device Byusing Mechanical Method (AREA)

Abstract

The invention relates to the technical field of building quality detection, in particular to a building quality detection mechanism and a building quality detection method. The invention aims to provide a building quality detection mechanism and a building quality detection method, which can carry out comprehensive fault detection on pipelines with different diameters in a building. The purpose of the invention is realized by the following technical scheme: a method of building quality inspection, the method comprising the steps of: the method comprises the following steps: clamping a pipeline in a building by using a building quality detection mechanism; step two: operating the building quality detection mechanism to move along the length direction of the in-building pipeline; step three: stopping moving when a building quality detection mechanism moving on a pipeline in a building encounters a fault on the pipeline; step four: and determining a fault position after the pipeline fault part stops moving to wait for a service man to carry out service.

Description

Building quality detection mechanism and method
Technical Field
The invention relates to the technical field of building quality detection, in particular to a building quality detection mechanism and a building quality detection method.
Background
Building quality detects including many aspects, it is then especially important to carry out fault detection to the pipeline in the building wherein, influence later stage construction, and need lay the pipeline inside the building in advance, whether the pipeline of laying in the large-scale building detects has quality problems, whether there is phenomenons such as arch at first to the surface inspection of this pipeline, the pipeline surface has bellied part comparatively fragile can lead to protruding position to burst apart when circulating high-pressure liquid, then be not convenient for among the prior art to carry out comprehensive fault detection to the pipeline of different diameters in the building.
Disclosure of Invention
The invention aims to provide a building quality detection mechanism and a building quality detection method, which can carry out comprehensive fault detection on pipelines with different diameters in a building.
The purpose of the invention is realized by the following technical scheme: a method of building quality inspection, the method comprising the steps of:
the method comprises the following steps: clamping a pipeline in a building by using a building quality detection mechanism;
step two: operating the building quality detection mechanism to move along the length direction of the in-building pipeline;
step three: stopping moving when a building quality detection mechanism moving on a pipeline in a building encounters a fault on the pipeline;
step four: and determining a fault position after the pipeline fault part stops moving to wait for a service man to carry out service.
Building quality detection mechanism includes grip ring, branch, knock-out pulley, ring seat and spring I, and the knock-out pulley rotates the middle part of connecting at branch, and both sides difference sliding connection is both sides around the grip ring upside middle part around branch, and the ring seat is equipped with two, and two ring seats rigid coupling are both sides around branch respectively, and spring I is equipped with two, and the bottom of two springs I respectively with two ring seat rigid couplings, the upside of two springs I respectively with the both sides rigid coupling around the grip ring upside middle part.
The top wheel is made of rubber.
Building quality detection mechanism still includes mount, roof-rack, base, spacing seat, sliding seat and rotation seat, the mount rigid coupling is in the left side of grip ring, the roof-rack rigid coupling is at the upside of mount, the base rigid coupling is in the front side of mount, spacing seat rigid coupling is at the top on grip ring right side, the sliding seat is equipped with four, two sliding seats rigid coupling respectively are in the upper and lower both sides at grip ring rear side middle part, two other sliding seats rigid coupling respectively are in the upper and lower both sides at grip ring front side middle part, both sides rigid coupling has one to rotate the seat around the grip ring is left respectively.
Each sliding seat is provided with a strip hole.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic method flow diagram of a method of a building quality inspection mechanism of the present invention;
FIG. 2 is a schematic view of a portion of the retaining ring of the present invention;
FIG. 3 is a partial schematic view of the rotary base of the present invention;
FIG. 4 is a schematic view of a portion of the construction of a right angle stand according to the present invention;
FIG. 5 is a schematic view of a portion of the winding ring of the present invention;
FIG. 6 is an enlarged view of a portion of the structure of FIG. 5 in accordance with the present invention;
FIG. 7 is a schematic view of a portion of the structure of the pulling yoke of the present invention;
FIG. 8 is a schematic view of the overall structure of the present invention;
FIG. 9 is an enlarged view of a portion of the structure of FIG. 8 in accordance with the present invention;
FIG. 10 is a schematic diagram II of the overall structure of the present invention.
In the figure: a clamp ring 101; a fixed frame 102; a top frame 103; a base 104; a limiting seat 105; a slide mount 106; a rotary base 107; a strut 201; a top wheel 202; a ring seat 203; a spring I204; a motor 301; a lead screw 302; a slide bar 303; right-angle stand 304; a moving wheel 305; a winding ring 401; a boss 402; a concave plate 403; side panels 404; a spring II 405; a pulling frame 501; a spring III 502; an insertion rod 503; a pulling plate 601; a vertical rod 602; a closing lever 603; arc 604 is located.
Detailed Description
A method of building quality inspection, the method comprising the steps of:
the method comprises the following steps: clamping a pipeline in a building by using a building quality detection mechanism;
step two: operating the building quality detection mechanism to move along the length direction of the in-building pipeline;
step three: stopping moving when a building quality detection mechanism moving on a pipeline in a building encounters a fault on the pipeline;
step four: and determining a fault position after the pipeline fault part stops moving to wait for a service man to carry out service.
This part is according to the working process expressed in figures 2 and 3: the middle part of the supporting rod 201 is rotatably connected with a top wheel 202, the front side and the rear side of the middle part of the upper side of the clamping ring 101 are respectively and slidably connected with the front side and the rear side of the supporting rod 201, the front side and the rear side of the supporting rod 201 are respectively and fixedly connected with a ring seat 203, the upper end of each ring seat 203 is respectively and fixedly connected with the lower end of a spring I204, and the front side and the rear side of the middle part of the upper side of the clamping ring 101 are respectively and fixedly connected with the upper ends of the two springs I204.
It further explains, when using, whether to detect the pipeline that lays in the large building for being convenient for has quality problems, whether have phenomenons such as protruding at first to the surface inspection of this pipeline, there is protruding part comparatively fragile on the pipeline surface can lead to protruding position to burst apart when circulating high-pressure liquid, thereby when using, detect the pipeline in the large building, at first attach grip ring 101 on the pipeline, top wheel 202 extrudees top wheel 202 downwards according to two springs I204 at both ends, be convenient for laminate top wheel 202 to the pipeline that will detect, extrude two springs I204 according to the difference of the diameter of this pipeline, improve the adaptability, help detecting the pipeline of different diameters.
This part is according to the working process expressed in figures 2 and 3: the top wheel 202 rotatably connected to the middle part of the supporting rod 201 is made of rubber.
To explain further, the top wheel 202 is made of rubber so as not to wear the pipeline when moving on the pipeline to be detected.
This part is according to the working process expressed in figures 2 and 3: the left side of grip ring 101 is fixedly connected with mount 102, the upside of mount 102 is fixedly connected with roof-rack 103, the front side of mount 102 is fixedly connected with base 104, the top rigid coupling on grip ring 101 right side has spacing seat 105, sliding seat 106 is equipped with four, the upper and lower both sides at the middle part of grip ring 101 rear side are respectively fixedly connected with a sliding seat 106, the upper and lower both sides at the middle part of grip ring 101 front side are respectively fixedly connected with a sliding seat 106, it is equipped with two to rotate seat 107, two rotate seat 107 respectively the rigid coupling in the left front and back both sides of grip ring 101.
To explain further, a square hole is formed in the middle of the top frame 103, the fixing frame 102 is located on the left side of the clamping ring 101, and the front and rear distances of the fixing frame 102 are equal, so that the front and rear weight of the clamping ring 101 is stabilized, and the clamping ring 101 is more stable when moving.
This part is according to the working process expressed in figures 2 and 3: the four sliding seats 106 are all provided with a bar hole, and the bar hole on each sliding seat 106 is arranged in the middle of the sliding seat 106.
To explain further, each sliding seat 106 is provided with a slot for facilitating the device to move on the sliding seat 106 and to limit the position.
The building quality detection mechanism also comprises a motor 301 and a lead screw 302, slide bar 303, right angle frame 304 and removal wheel 305, motor 301 passes through shaft coupling and lead screw 302 rigid coupling, right angle frame 304 is equipped with two, the upside of two right angle frames 304 is both sides around lead screw 302 transmission connection respectively, the upside of two right angle frames 304 is both sides around slide bar 303 swing joint respectively, the bottom of every right angle frame 304 is all rotated and is connected with one and removes wheel 305, the both ends of lead screw 302 are rotated respectively and are connected both sides around mount 102 upside, the both ends rigid coupling is both sides around mount 102 upside respectively at slide bar 303, motor 301 rigid coupling is on base 104, the upper and lower both sides difference swing joint that are located the right angle frame 304 bottom of rear side is downthehole at the strip that is located two sliding seats 106 of rear side, the upper and lower both sides difference swing joint that are located the right angle frame 304 bottom of front side is downthehole at the strip that is located two sliding seats 106 of front side.
This part is according to the working procedure expressed in figures 4, 8, 9 and 10: the output shaft of motor 301 passes through shaft coupling and lead screw 302 rigid coupling, both ends difference threaded connection has the upside of a right angle frame 304 around the lead screw 302, both sides sliding connection has the upside of two right angle frames 304 respectively around slide bar 303, it is equipped with two to remove wheel 305, two remove wheel 305 and rotate the bottom of connecting at two right angle frames 304 respectively, both sides rotate the both ends that are connected with lead screw 302 respectively around mount 102 upside, both sides rigid coupling has the both ends of slide bar 303 respectively around mount 102 upside, the rigid coupling has motor 301 on the base 104, be located the upper and lower both sides of right angle frame 304 bottom that the strip downthehole difference sliding connection that is located the rear side on two sliding seats 106 of rear side, be located the upper and lower both sides of right angle frame 304 bottom that the strip downthehole difference sliding connection that two sliding seats 106 of front side were located the front side.
To explain further, when in use, the driving motor 301 drives the screw 302 to rotate, and the rotating screw 302 drives the right-angle brackets 304 at two ends to move on the sliding seats 106 at the front and rear sides of the clamping ring 101, so that the moving wheels 305 on the two right-angle brackets 304 clamp the pipeline to be detected in the clamping ring 101, can move on the pipeline, and is convenient for quality detection of the surface of the pipeline in the building.
The screw threads of the front side and the rear side of the screw rod 302 are opposite in rotating direction.
This part is according to the working procedure expressed in figures 4, 8, 9 and 10: the screw threads at the front end and the rear end of the screw 302 which is rotationally connected with the fixed frame 102 are opposite in rotating direction.
For further explanation, the screw threads at the front end and the rear end of the screw rod 302 are opposite in rotating direction, so that the screw rod 302 is convenient to rotate, and the right-angle brackets 304 at the two ends can move towards the middle part or the two sides, so that the pipeline can be clamped conveniently.
The two right-angle frames 304 are arranged in a mirror symmetry mode.
This part is according to the working procedure expressed in figures 4, 8, 9 and 10: the two right-angle frames 304 which are connected with the front end and the rear end of the screw rod 302 through threads are arranged in a mirror symmetry mode.
For further explanation, the mirror symmetry of the two right-angle frames 304 facilitates the specification of the two right-angle frames 304 to be fixed, and prevents errors from being caused and being incapable of accurately aligning the pipes to clamp and move.
Building quality detection mechanism still includes winding ring 401, convex seat 402, concave template 403, curb plate 404 and spring II 405, convex seat 402 rigid coupling is at the left top of winding ring 401, the bottom rigid coupling of concave template 403 is at the upside of convex seat 402, both sides are equipped with a curb plate 404 respectively around the concave template 403 top, the left and right sides of concave template 403 bottom swing joint is respectively in the left and right sides of spacing seat 105, the upside rigid coupling of spring II 405 is on the bottom terminal surface of concave template 403 upside, the top of spring II 405 and the middle part rigid coupling of spacing seat 105 upside.
This part is according to the working process expressed in figures 5, 6, 8, 9 and 10: the left top rigid coupling of winding ring 401 has convex seat 402, and the upside rigid coupling of convex seat 402 has the bottom of concave template 403, and curb plate 404 is equipped with two, and two curb plates 404 rigid couplings are in the front and back both sides at concave template 403 top respectively, and the left and right sides of spacing seat 105 sliding connection has the left and right sides of concave template 403 bottom respectively, and the rigid coupling has the upside of spring II 405 on the bottom terminal surface of concave template 403 upside, and the middle part rigid coupling of spacing seat 105 upside has the top of spring II 405.
Further, the winding ring 401 is in a surrounding shape and surrounds from left to right, when the pipeline detection device is used, the winding ring 401 is wound on a pipeline, the surface of the pipeline is conveniently and comprehensively detected by the aid of the shape of the winding ring 401, the pipeline is comprehensively contacted along the annular direction, when the pipeline is detected by moving the clamping ring 101 on the pipeline, the right end of the winding ring 401 is the advancing direction of the clamping ring 101 along the pipeline during detection, and the clamping ring moves to a protruding portion on the surface of the detected pipeline to be blocked, so that the quality of the pipeline is accurately detected, and timely replacement is facilitated.
The winding ring 401 is made of plastic.
This part is according to the working process expressed in figures 5, 6, 8, 9 and 10: the winding ring 401 is made of plastic material with certain elasticity.
To explain further, when the winding ring 401 is made of a plastic material, and is subjected to resistance of the protruding portion when being used for detecting the pipeline in the building, the winding ring 401 is deformed due to the ductility of the plastic material, so that the winding ring 401 is not damaged.
This part is according to the working procedure expressed in figures 7, 8, 9 and 10: the building quality detection mechanism further comprises a traction frame 501, a spring III 502 and inserting rods 503, wherein the spring III 502 is sleeved on the right side of the traction frame 501, the front end and the rear end of the right end of the traction frame 501 are fixedly connected with the inserting rods 503 respectively, the left side of the traction frame 501 is movably connected to the middle of the top frame 103, the left end of the spring III 502 is fixedly connected with the top frame 103, the right end of the spring III 502 is fixedly connected with the right end of the traction frame 501, and the two inserting rods 503 are inserted into the outer ends of the two side plates 404 respectively.
To explain further, when in use, the two insertion rods 503 are respectively located at the outer side portions of the two side plates 404 in the initial state, and when the winding ring 401 receives an external force to be blocked, the concave plate 403 at the upper end of the convex seat 402 on the left side of the winding ring 401 moves upwards, and in the initial state, the spring ii 405 is in the contracted state, at this time, the spring ii 405 is stretched, and then the two side plates 404 move upwards, so that the two insertion rods 503 are separated from the two side plates 404, the spring iii 502 is in the contracted state in the initial state, and at this time, the spring iii 502 pushes the pulling frame 501 to one side due to elasticity, so that the pulling frame is convenient to be fixed at a convex fault portion of a pipeline subsequently, and waits for an overhaul worker.
This part is according to the working procedure expressed in figures 7, 8, 9 and 10: the building quality detection mechanism further comprises two pulling plates 601, two vertical rods 602, two closing rods 603 and two positioning arcs 604, the left end of each pulling plate 601 is rotatably connected with the upper end of one vertical rod 602, the bottom of each vertical rod 602 is rotatably connected with the middle of one closing rod 603, the left end of each closing rod 603 is fixedly connected with one positioning arc 604, the right ends of the two pulling plates 601 are rotatably connected to the front end and the rear end of the left side of the traction frame 501 respectively, and the right ends of the two closing rods 603 are rotatably connected with the two rotating seats 107 through short columns respectively.
Further, when the pulling frame 501 moves to the right side under the action of the elastic force of the spring iii 502, the two pulling plates 601 are pulled to move at the left side position of the pulling frame 501, so that the pulling plates 601 drive the two closing rods 603 at the bottoms of the two vertical rods 602 to rotate, the right sides of the two closing rods 603 rotate on the two rotating seats 107, the two positioning arcs 604 at the left side positions of the two closing rods 603 clamp the pipeline, the arc surfaces of the two positioning arcs 604 are rough, the fault positions of the pipeline can be conveniently determined at the further fixed positions, the maintenance of a maintenance person is waited, the quality of the pipeline is evaluated, and the pipeline in the building can be used at high quality.

Claims (10)

1. A building quality detection method is characterized by comprising the following steps:
the method comprises the following steps: clamping a pipeline in a building by using a building quality detection mechanism;
step two: operating the building quality detection mechanism to move along the length direction of the in-building pipeline;
step three: stopping moving when a building quality detection mechanism moving on a pipeline in a building encounters a fault on the pipeline;
step four: and determining a fault position after the pipeline fault part stops moving to wait for a service man to carry out service.
2. The building quality detection method according to claim 1, characterized in that: building quality detection mechanism includes grip ring (101), branch (201), knock-pin (202), ring seat (203) and spring I (204), knock-pin (202) rotate to be connected at the middle part of branch (201), both sides are sliding connection respectively in both sides around grip ring (101) upside middle part around branch (201), ring seat (203) are equipped with two, two ring seats (203) rigid coupling are both sides around branch (201) respectively, spring I (204) are equipped with two, the bottom of two springs I (204) respectively with two ring seat (203) rigid couplings, the upside of two springs I (204) respectively with the both sides rigid coupling around grip ring (101) upside middle part.
3. The building quality detection method according to claim 2, characterized in that: the top wheel (202) is made of rubber.
4. The building quality detection method according to claim 2, characterized in that: the building quality detection mechanism further comprises a fixing frame (102), a top frame (103), a base (104), a limiting seat (105), sliding seats (106) and a rotating seat (107), wherein the fixing frame (102) is fixedly connected to the left side of the clamping ring (101), the top frame (103) is fixedly connected to the upper side of the fixing frame (102), the base (104) is fixedly connected to the front side of the fixing frame (102), the limiting seat (105) is fixedly connected to the top of the right side of the clamping ring (101), the four sliding seats (106) are arranged, the two sliding seats (106) are fixedly connected to the upper side and the lower side of the middle portion of the rear side of the clamping ring (101) respectively, the other two sliding seats (106) are fixedly connected to the upper side and the lower side of the middle portion of the front side of the clamping ring (101) respectively, and the front side and the rear side of the left side of the clamping ring (101) are fixedly connected with the rotating seat (107) respectively.
5. The building quality detection method according to claim 4, characterized in that: each sliding seat (106) is provided with a strip hole.
6. The building quality detection method according to claim 5, characterized in that: the building quality detection mechanism further comprises a motor (301), a lead screw (302), two sliding rods (303), two right-angle frames (304) and moving wheels (305), wherein the motor (301) is fixedly connected with the lead screw (302) through a coupler, the upper sides of the two right-angle frames (304) are respectively in transmission connection with the front side and the rear side of the lead screw (302), the upper sides of the two right-angle frames (304) are respectively and movably connected with the front side and the rear side of the sliding rod (303), the bottom of each right-angle frame (304) is rotatably connected with one moving wheel (305), the two ends of the lead screw (302) are respectively and rotatably connected with the front side and the rear side of the upper side of the fixed frame (102), the two ends of the sliding rod (303) are respectively and fixedly connected with the front side and the rear side of the fixed frame (102), the motor (301) is fixedly connected on the base (104), the upper side and the lower side of the bottom of the right-angle frame (304) on the rear side are respectively and movably connected in strip holes on the two sliding seats (106) on the rear side, the upper side and the lower side of the bottom of the right-angle frame (304) positioned at the front side are respectively movably connected in the strip holes on the two sliding seats (106) positioned at the front side.
7. The building quality detection method according to claim 6, characterized in that: the screw threads on the front side and the rear side of the screw rod (302) are opposite in rotating direction.
8. The building quality detection method according to claim 7, characterized in that: the two right-angle frames (304) are arranged in a mirror symmetry mode.
9. The building quality detection method according to claim 8, characterized in that: building quality detection mechanism still includes winding ring (401), convex seat (402), concave type board (403), curb plate (404) and spring II (405), convex seat (402) rigid coupling is at the left top of winding ring (401), the bottom rigid coupling of concave type board (403) is at the upside of convex seat (402), both sides are equipped with one curb plate (404) respectively around concave type board (403) top, the left and right sides of concave type board (403) bottom swing joint is respectively in the left and right sides of spacing seat (105), the upside rigid coupling of spring II (405) is on the bottom terminal surface of concave type board (403) upside, the top of spring II (405) and the middle part rigid coupling of spacing seat (105) upside.
10. The building quality detection method according to claim 9, characterized in that: the winding ring (401) is made of plastic.
CN202111324738.XA 2021-11-10 2021-11-10 Building quality detection mechanism and method Pending CN114034638A (en)

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Application Number Priority Date Filing Date Title
CN202111324738.XA CN114034638A (en) 2021-11-10 2021-11-10 Building quality detection mechanism and method

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Application Number Priority Date Filing Date Title
CN202111324738.XA CN114034638A (en) 2021-11-10 2021-11-10 Building quality detection mechanism and method

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114932523A (en) * 2022-05-06 2022-08-23 安徽省祥森热力有限公司 Integrated equipment for overhauling and replacing boiler heat supply pipeline and application method thereof

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CN211696221U (en) * 2020-03-17 2020-10-16 江苏探索者水下通信设备有限公司 Smoothness detection device for inner wall of communication pipeline
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CN112903582A (en) * 2021-01-26 2021-06-04 申祥意 Equipment for detecting hydraulic pipeline
CN112917265A (en) * 2021-01-18 2021-06-08 曹中伟 Pipeline inspection robot
WO2021120479A1 (en) * 2019-12-20 2021-06-24 江苏科泰检测技术服务有限公司 Weld seam flaw detection auxiliary device
CN113479305A (en) * 2021-07-12 2021-10-08 王继坪 A operation robot for submarine pipeline detects

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Publication number Priority date Publication date Assignee Title
CN108195938A (en) * 2017-12-30 2018-06-22 浙江省送变电工程有限公司 A kind of pipeline weld joint automatized detection device and its method of work
CN209196561U (en) * 2018-11-06 2019-08-02 恩曼自动化技术(上海)有限公司 A kind of oil pipeline radial protrusion detection device
WO2021120479A1 (en) * 2019-12-20 2021-06-24 江苏科泰检测技术服务有限公司 Weld seam flaw detection auxiliary device
CN211696221U (en) * 2020-03-17 2020-10-16 江苏探索者水下通信设备有限公司 Smoothness detection device for inner wall of communication pipeline
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CN112903582A (en) * 2021-01-26 2021-06-04 申祥意 Equipment for detecting hydraulic pipeline
CN113479305A (en) * 2021-07-12 2021-10-08 王继坪 A operation robot for submarine pipeline detects

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114932523A (en) * 2022-05-06 2022-08-23 安徽省祥森热力有限公司 Integrated equipment for overhauling and replacing boiler heat supply pipeline and application method thereof

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