CN220819753U - Building outer wall infiltration detection device - Google Patents

Abstract

The utility model belongs to the technical field of engineering supervision, in particular to a building outer wall water seepage detection device, which aims at the problems of smaller adjusting amplitude and low adjusting speed in the prior art and comprises a building outer wall water seepage detection water tank, wherein a bracket is bolted to the top of the building outer wall water seepage detection water tank, and an operation box is bolted to the top of the bracket; the right side inside the operation box is hinged with a transmission frame, the rear side of the transmission frame is hinged with a sliding frame, the left end of the transmission frame is hinged with a sliding block, the rear side of the sliding block is connected with a rack, the tooth engagement of the rack is provided with a connecting frame, the left end of the connecting frame penetrates through a hole on the left side of the operation box and is connected with a spray pipe in a sliding manner, the spray pipe can be driven to rotate through the transmission of the structure, the spray pipe can be continuously driven to rotate up and down, the position of the spray pipe and the connecting frame can be adjusted, the water spraying range of the spray pipe can be adjusted, and the up-down rotation speed of the spray pipe can be ensured by utilizing a power mechanism.

Description

Building outer wall infiltration detection device

Technical Field

The utility model relates to the technical field of engineering supervision, in particular to a water seepage detection device for an outer wall of a building.

Background

The building outer wall needs to carry out infiltration detection in the testing process, needs to use building outer wall infiltration detection device at this moment, and for example, the patent of application number 202221008902.6 discloses an outer wall infiltration detection device for building engineering supervision.

However, the above solution also has some problems, for example, the height of the water spraying structure can be adjusted, but the height adjustment range is smaller, the length of the screw needs to be limited, and the speed of driving the water spraying assembly to move up and down is slower.

Disclosure of utility model

The utility model aims to solve the defects of small adjustment amplitude and low adjustment speed in the prior art, and provides a building outer wall water seepage detection device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The water seepage detection device for the building outer wall comprises a water seepage detection water tank for the building outer wall, wherein a bracket is bolted to the top of the water seepage detection water tank for the building outer wall, and an operation box is bolted to the top of the bracket;

The right side inside the operation box is hinged with a transmission frame, the rear side of the transmission frame is hinged with a sliding frame, the left end of the transmission frame is hinged with a sliding block, the rear side of the sliding block is connected with a rack, the tooth of the rack is meshed with a connecting frame, the left end of the connecting frame penetrates through a hole on the left side of the operation box and is connected with a water spraying pipe in a sliding mode, the rear side of the sliding frame is hinged with a power mechanism, the water spraying pipe can be driven to rotate through the transmission of the structure, so that the water spraying pipe can be continuously driven to rotate up and down, the position of the water spraying pipe and the connecting frame can be adjusted, the water spraying range of the water spraying pipe can be adjusted, and meanwhile, the up-down rotation speed of the water spraying pipe can be ensured by utilizing the power mechanism.

Preferably, the power mechanism comprises a speed reducing motor, a small bevel gear and a large bevel gear;

The output end of the speed reducing motor is bolted to the axis of the bottom of the bevel pinion, the teeth of the bevel pinion are meshed with the teeth of the bevel gear, and the top end of the surface of the bevel gear is hinged with the rear side of the sliding frame.

Further, the power supply of the gear motor is connected, the gear motor can drive the small bevel gear to rotate, the small bevel gear can drive the large bevel gear to rotate, the size of the small bevel gear is smaller than that of the large bevel gear, a speed reduction effect can be achieved, an eccentric structure is formed between the surface of the large bevel gear and the rear side of the sliding frame, and the sliding frame can be driven to move up and down in the rotation process of the large bevel gear.

Preferably, the axle center of the big bevel gear is rotationally connected with the inside of the operation box, and the bottom of the gear motor is bolted with the opening at the bottom end inside the operation box.

Further, the large bevel gear is rotatably arranged with the operation box through the bearing, so that the rotating stability of the large bevel gear is guaranteed, and the gear motor is fixed by the operation box, so that the gear motor can conveniently and stably and normally run.

Preferably, the rear side of the rack is in sliding connection with a limiting frame, and the rear side of the limiting frame is in bolt connection with the inside of the operation box.

Further, the rack is arranged in a sliding mode through the sliding rail and the limiting frame, the rack is guided, and the rack is convenient to drive the connecting frame to rotate.

Preferably, the link includes gear shaft and connecting cylinder, and the both ends on gear shaft surface all rotate with the inside of operation box and cup joint, and the left end of gear shaft extends to the left side of operation box and with the right side bolt of connecting cylinder, and the screw thread on connecting cylinder surface is connected with the gim peg.

Further, the gear shaft of the connecting frame enables the rack to be meshed with the gear ring of the gear shaft, the gear shaft is conveniently driven by the rack to rotate, the gear shaft is rotatably arranged with the operation box through the bearing, stability of rotation of the gear shaft is guaranteed, the gear shaft can drive the connecting cylinder to rotate, and the connecting cylinder is located on the left side of the operation box.

Preferably, the spray pipe comprises a connecting pipe and a spray head communicated with the top end of the connecting pipe, and the surface of the connecting pipe is in sliding connection with the inside of the connecting cylinder.

Further, the surface of the connecting pipe is in sliding connection with the inside of the connecting cylinder through the sliding rail, so that the connecting pipe can move up and down in the connecting cylinder, the height of the spray head can be adjusted, the water spraying range of the spray head can be adjusted conveniently, and the connecting pipe can be fixed and limited through rotation of the fixing bolt.

The beneficial effects are that:

1. The power mechanism can drive the transmission frame to rotate through the sliding frame, the transmission frame can drive the rack to move through the sliding block, and the rack can drive the water spraying pipe to rotate through the connecting frame;

2. The small bevel gear can be driven by the gear motor to rotate, the large bevel gear can be driven by the small bevel gear to rotate, and the sliding frame can be driven by the large bevel gear to move, so that the structure is convenient to drive;

In the utility model, the following components are added: the water spraying pipe can be driven to rotate through the transmission of the structure, so that the water spraying pipe can be continuously driven to rotate up and down, the positions of the water spraying pipe and the connecting frame can be adjusted, the water spraying range of the water spraying pipe can be adjusted, and meanwhile, the up-down rotation speed of the water spraying pipe can be ensured by utilizing the power mechanism.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a water seepage detection device for an outer wall of a building according to the present utility model;

FIG. 2 is a schematic diagram of a power mechanism of a water seepage detection device for an outer wall of a building;

fig. 3 is a schematic diagram of a left-hand structure of a large bevel gear of the water seepage detection device for the building outer wall;

Fig. 4 is a schematic diagram of a large bevel gear perspective structure of a water seepage detection device for an outer wall of a building.

In the figure: 1. the water seepage detection water tank of the building outer wall; 2. a power mechanism; 21. a speed reducing motor; 22. bevel pinion; 23. a large bevel gear; 3. a bracket; 4. an operation box; 5. a sliding frame; 6. a transmission frame; 7. a slide block; 8. a rack; 9. a connecting frame; 10. and a water spraying pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Example 1

Referring to fig. 1-4, a water seepage detection device for an outer wall of a building comprises a water seepage detection water tank 1 for the outer wall of the building, wherein a bracket 3 is bolted to the top of the water seepage detection water tank 1 for the outer wall of the building, and an operation box 4 is bolted to the top of the bracket 3;

The right side in the operation box 4 is hinged with a transmission frame 6, the rear side of the transmission frame 6 is hinged with a sliding frame 5, the left end of the transmission frame 6 is hinged with a sliding block 7, the rear side of the sliding block 7 is connected with a rack 8, teeth of the rack 8 are meshed with a connecting frame 9, the left end of the connecting frame 9 penetrates through a hole in the left side of the operation box 4 and is connected with a spray pipe 10 in a sliding manner, the rear side of the sliding frame 5 is hinged with a power mechanism 2, the right side at the top of the building outer wall seepage detection water tank 1 is provided with a high-pressure water pump which is communicated with the spray pipe 10 through a pipeline, the high-pressure water pump can pump the water in the building outer wall seepage detection water tank 1 into the spray pipe 10, the spray pipe 10 sprays water to the building outer wall, the power mechanism 2 can drive the sliding frame 5 to move up and down, the sliding frame 5 slides at the rear side of the transmission frame 6 and drives the transmission frame 6 to rotate, the transmission frame 6 can drive the slider 7 to move, the slider 7 can slide in the spout of rack 8 and drive rack 8 to move, rack 8 can drive link 9 rotation, link 9 can drive the top of spray pipe 10 and rotate downwards, and through the range that upper and lower activity spray pipe 10 can adjust its top of spray pipe 10 pivoted, spray pipe 10 detects water to building outer wall infiltration detection water tank 1 after having spouted water, use professional building outer wall infiltration detecting instrument to detect on the building outer wall, can drive spray pipe 10 rotation through the transmission of structure, so can constantly drive spray pipe 10 and rotate from top to bottom, and can adjust the position of spray pipe 10 and link 9, so can adjust the spray range of spray pipe 10, the upper and lower rotation speed of spray pipe 10 can be ensured to the utilization power unit 2 simultaneously.

In the utility model, the power mechanism 2 comprises a gear motor 21, a small bevel gear 22 and a large bevel gear 23;

The output end of the gear motor 21 is bolted to the axis of the bottom of the bevel pinion 22, teeth of the bevel pinion 22 are meshed with teeth of the bevel pinion 23, the top end of the surface of the bevel pinion 23 is hinged to the rear side of the sliding frame 5, the power supply of the gear motor 21 is connected, the gear motor 21 can drive the bevel pinion 22 to rotate, the bevel pinion 22 can drive the bevel pinion 23 to rotate, the size of the bevel pinion 22 is smaller than that of the bevel pinion 23, a speed reducing effect can be achieved, an eccentric structure is formed between the surface of the bevel pinion 23 and the rear side of the sliding frame 5, and the bevel pinion 23 can drive the sliding frame 5 to move up and down in the rotation process.

In the utility model, the axis of the large bevel gear 23 is rotationally connected with the inside of the operation box 4, the bottom of the gear motor 21 is bolted with the opening at the bottom end inside the operation box 4, the large bevel gear 23 is rotationally arranged with the operation box 4 through a bearing, the rotation stability of the large bevel gear 23 is ensured, the gear motor 21 is fixed by the operation box 4, and the stable and normal operation of the gear motor 21 is facilitated.

In the utility model, the rear side of the rack 8 is slidingly connected with the limiting frame, the rear side of the limiting frame is bolted with the inside of the operation box 4, and the rack 8 is slidingly arranged with the limiting frame through the sliding rail to guide the rack 8, so that the rack 8 can conveniently drive the connecting frame 9 to rotate.

In the utility model, the connecting frame 9 comprises a gear shaft and a connecting cylinder, both ends of the surface of the gear shaft are rotatably sleeved with the inside of the operating box 4, the left end of the gear shaft extends to the left side of the operating box 4 and is bolted with the right side of the connecting cylinder, a screw hole on the surface of the connecting cylinder is in threaded connection with a fixing bolt, the gear shaft of the connecting frame 9 enables the gear rack 8 to be meshed with a gear ring of the gear shaft, the gear rack 8 conveniently drives the gear shaft to rotate, the gear shaft is rotatably arranged with the operating box 4 through a bearing, the rotation stability of the gear shaft is ensured, the gear shaft can drive the connecting cylinder to rotate, and the connecting cylinder is positioned on the left side of the operating box 4.

In the utility model, the spray pipe 10 comprises a connecting pipe and a spray nozzle communicated with the top end of the connecting pipe, the surface of the connecting pipe is in sliding connection with the inside of the connecting cylinder through the sliding rail, the connecting pipe can move up and down in the inside of the connecting cylinder, the height of the spray nozzle can be adjusted, the spray range of the spray nozzle can be conveniently adjusted, and the connecting pipe can be fixed and limited through the rotation of the fixing bolt.

Example two

This embodiment differs from embodiment 1 in that: the gear motor 21, the small bevel gear 22 and the large bevel gear 23 are replaced by hinged rods with the output ends of the electric push rods, the top ends of the hinged rods are hinged with the transmission frame 6, the electric push rods can drive the hinged rods to move, the hinged rods can drive the transmission frame 6 to rotate, but the hinged structures are more, and the transmission stability is poor, so that the gear motor 21, the small bevel gear 22 and the large bevel gear 23 are preferable.

Working principle: the right side at building outer wall infiltration detects water tank 1 top sets up high-pressure water pump, high-pressure water pump passes through pipeline and spray pipe 10 intercommunication, high-pressure water pump can be with the inside water pump of building outer wall infiltration detects water tank 1 go into spray pipe 10's inside, spray pipe 10 spouts water to the building outer wall, switch on gear motor 21's power, gear motor 21 can drive bevel pinion 22 and rotate, bevel pinion 22 can drive bevel pinion 23 and rotate, bevel pinion 22's size is less than bevel pinion 23's size, can produce the retarding effect, be eccentric structure between bevel pinion 23's surface and the rear side of slide frame 5, slide frame 5 moves down in the clockwise rotation in-process can drive slide frame 5, when slide frame 5 moves down, slide frame 6's rear side slides and drive frame 6 rotates down, drive slider 7 moves down, slider 7 can slide and drive rack 8 and move down in the spout of rack 8, rack 8 can drive link 9 and rotate, link 9 can drive spray pipe 10's top down, and through the spout 10 of moving down, detect water pipe 10 and detect the outside the water pipe that detects the water pipe of building outer wall, the outside the water pipe is used to the detection of building outer wall has been used for detecting the water pipe 10.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The water seepage detection device for the building outer wall comprises a water seepage detection water tank (1) for the building outer wall and is characterized in that a bracket (3) is bolted to the top of the water seepage detection water tank (1) for the building outer wall, and an operation box (4) is bolted to the top of the bracket (3);

The right side inside control box (4) articulates there is drive frame (6), and the rear side of drive frame (6) sideslip is connected with sliding frame (5), and the left end of drive frame (6) articulates there is slider (7), and the rear side of slider (7) sideslip is connected with rack (8), and the tooth meshing of rack (8) has link (9), and the left end of link (9) runs through the hole of control box (4) left side and sliding connection has spray pipe (10), and the rear side of sliding frame (5) articulates there is power unit (2).

2. The building exterior wall water seepage detection device according to claim 1, wherein the power mechanism (2) comprises a speed reduction motor (21), a small bevel gear (22) and a large bevel gear (23);

The output end of the gear motor (21) is bolted with the axle center of the bottom of the bevel pinion (22), the teeth of the bevel pinion (22) are meshed with the teeth of the bevel gear (23), and the top end of the surface of the bevel gear (23) is hinged with the rear side of the sliding frame (5).

3. The device for detecting water seepage of the outer wall of the building according to claim 2, wherein the axis of the large bevel gear (23) is rotatably connected with the inside of the operation box (4), and the bottom of the speed reducing motor (21) is bolted with an opening at the bottom end of the inside of the operation box (4).

4. The device for detecting water seepage of the outer wall of the building according to claim 1, wherein a limit frame is connected to the rear side of the rack (8) in a sliding manner, and the rear side of the limit frame is bolted with the inside of the operation box (4).

5. The water seepage detection device for the outer wall of the building according to claim 1, wherein the connecting frame (9) comprises a gear shaft and a connecting cylinder, both ends of the surface of the gear shaft are rotatably sleeved with the inside of the operation box (4), the left end of the gear shaft extends to the left side of the operation box (4) and is in bolt connection with the right side of the connecting cylinder, and a screw hole on the surface of the connecting cylinder is in threaded connection with a fixing bolt.

6. The water seepage detection device for the outer wall of the building according to claim 5, wherein the water spraying pipe (10) comprises a connecting pipe and a spray head communicated with the top end of the connecting pipe, and the surface of the connecting pipe is in sliding connection with the inside of the connecting cylinder.