CN-224231177-U - Roofing seepage detection device

Abstract

The utility model relates to the technical field of roof leakage detection, and discloses a roof leakage detection device which comprises four groups of positioning angle seats, wherein the bottoms of the positioning angle seats are provided with telescopic adjusting assemblies. This roofing seepage detection device is through installing quick detection component, utilize transparent film can carry out the isolation, the roofing region at top will form partial confined state after the isolation, humidity detection can be carried out to the confined area of inside constantly through the inside humidity transducer of controller, after humidity exceeded the threshold value of settlement, the procedure that itself set up will control each group infrared thermal imaging probe and open the temperature distribution who carries out the roofing and carry out the picture acquisition, the range position of moist part and the time of infiltration are judged to the data of rethread picture acquisition, the follow-up maintenance is conveniently carried out, simultaneously can effectually reduce staff's operating pressure, reduce the problem that continuous use infrared thermal imaging leads to the cost to rise.

Inventors

• Liao Qingdeng

Assignees

• 杭州蓝盾建筑科技有限公司

Dates

Publication Date

20260512

Application Date

20250527

Claims (8)

1. 1. The roof leakage detection device comprises four groups of positioning angle seats (1) and is characterized in that a telescopic adjusting assembly is arranged at the bottom of each positioning angle seat (1), the telescopic adjusting assembly is used for flexibly adjusting sections to be installed at the bottoms of roofs with different sizes, and a rapid detection assembly is arranged in the middle of each telescopic adjusting assembly; The telescopic adjusting assembly comprises four groups of right-angle brackets (2), two groups of limiting guide plates (202) are arranged at right-angle ends of the right-angle brackets (2), a long movable sleeve (203) and a turnover movable sleeve (204) are arranged on the outer side of each limiting guide plate (202), the long movable sleeve (203) is respectively positioned on the front side and the back side of a main structure, the turnover movable sleeves (204) are respectively positioned on two sides of the main structure, a fixing screw (102) is arranged at the bottom of each positioning angle seat (1), the fixing screw (102) penetrates through the inner side of each right-angle bracket (2), and a fastening screw sleeve (103) is arranged on the outer side of each fixing screw (102); The rapid detection assembly comprises a controller (4), the controller (4) is located in the middle of the main body structure, a humidity sensor (402) is arranged at the top of the controller (4), and two groups of infrared thermal imaging probes (404) are connected to the front side and the back side of the controller (4) through lines respectively.
2. 2. The roof leakage detection device according to claim 1, wherein four groups of positioning holes (101) are formed in the side face of the positioning angle seat (1), and the positioning holes (101) are fixed with the inner wall of the wall body through bolts.
3. 3. The roof leakage detection device according to claim 1, wherein the middle part of the right-angle bracket (2) is provided with a combined hole (201), the combined hole (201) is positioned at the outer side of the fixed screw (102), and the tail end of the limit guide plate (202) is provided with a bump embedded and limited at the inner sides of the long movable sleeve (203) and the overturning movable sleeve (204).
4. 4. The roof leakage detection device according to claim 1, wherein a combined shaft (205) is arranged in the middle of the turnover movable sleeve (204), a transparent film (206) is arranged at the top of the right-angle bracket (2), and a fixed metal sheet holding support is arranged at the edge of the transparent film (206).
5. 5. The roof leakage detection device according to claim 1, wherein a welding block (301) is arranged on one side, close to the controller (4), of the long movable sleeve (203), a splicing frame (302) is embedded into the top of the welding block (301), and the splicing frame (302) and the welding block (301) are fixed through two groups of splicing bolts (303).
6. 6. The roof leakage detection device according to claim 5, wherein a limiting rod (304) is arranged on one side of the splicing frame (302) close to the controller (4), and a connecting bracket (3) is arranged on the outer side of the limiting rod (304).
7. 7. The roof leakage detection device according to claim 1, wherein a welding disc (401) is arranged on the outer side of the upper end of the controller (4), the welding disc (401) is located between the connecting supports (3), round rods (403) are respectively arranged on two sides of the connecting supports (3), and the round rods (403) are connected with an infrared thermal imaging probe (404).
8. 8. The roof leakage detection device according to claim 1, wherein a PLC control board is arranged in the controller (4), the PLC control board is connected with the humidity sensor (402), a connecting wire of the infrared thermal imaging probe (404) is connected with the PLC control board, and a network connector and a battery are arranged in the controller (4).

Description

Roofing seepage detection device Technical Field The utility model relates to the technical field of roof leakage detection, in particular to a roof leakage detection device. Background Modern roofs suffer from roof leakage due to problems with the building itself or lack of waterproofing, but roof leakage has problems that are not obvious or determinable, and roof leakage detection is often required before delivery is made. In the prior art, when using, current leak detection device needs to carry out ponding before detecting, needs long-time waiting, and can't judge the concrete condition of roofing seepage through the time of seepage, directly adopts infrared thermal imaging to detect can increase staff's operating pressure and cost. Disclosure of utility model The utility model aims to provide a roof leakage detection device, which aims to solve the problems that in the prior art, the existing leakage detection device needs to carry out water accumulation treatment before detection, needs long waiting time, can not judge the concrete condition of roof leakage through the leakage time, can increase the working pressure and cost of staff by directly adopting infrared thermal imaging for detection, and can realize rapid detection of the leakage condition through the arrangement of a block detection component. In order to solve the technical problems, the utility model provides the following technical scheme: the roof leakage detection device comprises four groups of positioning angle seats, wherein the bottoms of the positioning angle seats are provided with telescopic adjusting assemblies, the telescopic adjusting assemblies are used for flexibly adjusting intervals arranged at the bottoms of roofs with different sizes, and the middle parts of the telescopic adjusting assemblies are provided with quick detection assemblies; The telescopic adjusting assembly comprises four groups of right-angle brackets, two groups of limit guide plates are arranged at right-angle ends of the right-angle brackets, a long movable sleeve and a turnover movable sleeve are arranged on the outer sides of the limit guide plates, the long movable sleeve is respectively positioned on the front side and the back side of the main body structure, the turnover movable sleeve is respectively positioned on two sides of the main body structure, a fixing screw is arranged at the bottom of the positioning angle seat and penetrates through the inner side of the right-angle brackets, and a fastening screw sleeve is arranged on the outer sides of the fixing screw; the rapid detection assembly comprises a controller, the controller is located in the middle of the main body structure, a humidity sensor is arranged at the top of the controller, and two groups of infrared thermal imaging probes are connected to the front side and the back side of the controller through lines respectively. Preferably, four groups of positioning holes are formed in the side face of the positioning angle seat, and the positioning holes are fixed with the inner wall of the wall body through bolts. Preferably, the middle part of the right angle bracket is provided with a combined hole, the combined hole is positioned at the outer side of the fixed screw, and the tail end of the limit guide plate is provided with a bump embedded and limited at the inner sides of the long movable sleeve and the overturning movable sleeve. Preferably, the middle part of the turnover movable sleeve is provided with a combined shaft, the top of the right-angle bracket is provided with a transparent film, and the edge of the transparent film is provided with a fixed metal sheet holding support. Preferably, a welding block is arranged on one side, close to the controller, of the long movable sleeve, a splicing frame is embedded in the top of the welding block, and the splicing frame and the welding block are fixed through two groups of splicing bolts. Preferably, a limiting rod is arranged on one side of the splicing frame, which is close to the controller, and a connecting bracket is arranged on the outer side of the limiting rod. Preferably, the welding disk is installed in the outside of controller upper end, and the welding disk is located between the linking bridge, the round bar is installed respectively to the both sides of linking bridge, and the round bar is connected with infrared thermal imaging probe. Preferably, the controller is internally provided with a PLC control board, the PLC control board is connected with the humidity sensor, a connecting wire of the infrared thermal imaging probe is connected with the PLC control board, and a network connector and a battery are arranged in the controller. Compared with the prior art, the utility model has the following beneficial effects: 1. According to the utility model, the rapid detection assembly is arranged, the transparent film is utilized to isolate, the roof area at the top after isolation is in a partially closed state, the h