CN218868316U - Hanging rotatable building environment monitoring device - Google Patents

Abstract

The utility model discloses a hang and put rotatable formula building environment monitoring device, this building environment monitoring device aims at solving the unable wiper mechanism that uses fixed mounting of rotatable camera that monitoring device of present engineering scene used and carries out clear technical problem to surface dust, this building environment monitoring device includes the top cover plate, set up the control casing below the top cover plate, fixed connection is in the stores pylon of top cover plate lower extreme, set up the support plate of taking between control casing rear side and stores pylon front side, this building environment monitoring device adopts rotating electrical machines driven control casing, can relapse and the contact of cleaning brush, utilize frictional force to wipe camera surface adhered to's dust, clean efficient and full automation control, the pressure contact of installation and built-in pressure sensor on the control casing can make the response and the distance between reverse control support plate and the control casing through the extrusion force change to the cleaning brush, adjust clean dynamics.

Description

Hanging rotatable building environment monitoring device

Technical Field

The utility model belongs to the supervisory equipment field, concretely relates to hang and put rotatable formula building environment monitoring device.

Background

In the engineering construction process, real-time monitoring management needs to be carried out on the engineering operation progress and the field operation safety, the situation that the operation range is large or a building is shielded in the operation field often occurs in the engineering field, and at the moment, a plurality of monitoring devices need to be arranged on the engineering field for monitoring, so that the operation situation of the whole engineering can be conveniently known.

The utility model discloses chinese utility model, it discloses an intelligent building engineering monitoring device that has bulletin number CN211603898U, including base, fixing base and control system, the top fixedly connected with control shell of fixing base, and the internally mounted of control shell has the control subassembly, the inside left side fixedly connected with water tank of control shell, and the fixed surface of water tank is connected with the atomizer, the inside right side fixedly connected with connecting box of control shell, the right side intercommunication of connecting box has the gas holder, the utility model relates to a monitoring device technical field. This intelligent building engineering monitoring device, through setting up water tank and atomizer, with the water atomization in the water tank, through water pump, connecting box and gas holder, can clear up the dust on monitoring component surface, avoid a large amount of dust that building engineering produced to influence monitoring device's monitoring effect, cooperation motor, threaded rod, thread bush and lift seat can conveniently carry out altitude mixture control according to the field width of vision of control, easy operation, it is convenient to use. The utility model discloses a clean mechanism of water smoke through setting up cleans supervisory equipment, gets rid of the dust, but its control picture angle of this monitoring device is fixed, does not have rotation function, if the monitoring head that uses to have rotation function, then the camera of the unable pairing rotation back of cleaning device cleans, and building site air circumstance is poor, causes the attached dust of camera surface many, and service function is restricted.

Therefore, in order to solve the problem that the rotatable camera used in the engineering field does not have the function of cleaning dust, a novel monitoring device is developed, and dust attached to the surface is cleaned by using a cleaning brush which is fixed in a position and matched with the surface shape of the camera and rotating the camera.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Not enough to prior art, the utility model aims to provide a hang and put rotatable formula building environment monitoring device, this building environment monitoring device aims at solving the unable wiper mechanism who uses fixed mounting of rotatable camera that present on-the-spot monitoring device of engineering used and carries out clear technical problem to surface dust.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a hang like this and put rotatable formula building environment monitoring device, this building environment monitoring device include the top cover plate, set up in control casing, the fixed connection of top cover plate below in the stores pylon of top cover plate lower extreme, set up in control casing rear side with take the support plate between the stores pylon front side, top cover plate installs the rotating electrical machines in the upper end, control casing installs the sliding seat in the upper end, the sliding seat install in on the power executive component of rotating electrical machines lower extreme, control casing front end surface is provided with the camera, take the support plate orientation control casing one side be provided with the curved cleaning brush of control housing face shape looks adaptation.

When the hanging rotatable building environment monitoring device of the technical scheme is used, a user installs the back plate on an existing structure of an engineering construction site through the anchoring bolt, when the monitoring operation is carried out, the rotating motor controls the monitoring shell to rotate left and right by ninety degrees respectively to adjust the shooting angle of the camera, when dust on the construction site is attached to the surface of the camera, the definition of an image shot by the camera is reduced, the dust sensing module arranged in the monitoring shell converts the signal and sends the signal to the starting control unit for controlling the rotating motor and the electric valve after receiving the image signal, the rotating motor controls the monitoring shell to rotate backwards by one hundred eighty degrees to enable the camera to be contacted with the cleaning brush, and the rotating motor controls the monitoring shell to rotate a certain angle repeatedly left and right at the moment, the attached dust is erased through the horizontal friction force with the cleaning brush, meanwhile, the linear motor controls the carrying plate to move longitudinally along the guide rail, the longitudinal friction between the cleaning brush and the camera is enabled, the cleaning effect is enhanced, the electric valve is opened while the cleaning brush is used, clean water in the water tank drops on the cleaning brush from the dropping liquid pipe, the washing effect is generated on the surfaces of the monitoring shell and the camera, in the rotating process of the monitoring shell, the pressure contact is firstly contacted with the cleaning brush, the operation of the horizontal oil cylinder is controlled by matching with the built-in pressure sensor through sensing the extrusion acting force of the cleaning brush, the carrying plate is enabled to move back and forth, and the brushing force of the cleaning brush on the monitoring shell and the camera is adjusted.

Furthermore, a back plate is fixedly mounted at the lower end of the top cover plate, anchoring bolts connected with fixed structures on a construction site are mounted at four corners of the back plate, the back plate is arranged on the rear side of the hanging frame, the monitoring device plays a role in keeping off rain on the upper portion of the top cover plate, and the side face of the back plate is matched with the side face of the back plate and fixedly mounted on the vertical structures to form a hanging state.

Furthermore, the guide rail of vertical setting is installed to the backplate front end, linear electric motor is installed to the guide rail front end, and linear electric motor directly converts the electric energy into linear motion mechanical energy, and the guide rail is the magnetic track that is fixed with magnet, and linear electric motor's active cell includes coil winding, hall element circuit board, thermistor and electronic interface, keeps the position of active cell in the magnetic field that the magnetic track produced through the guide rail, through linear encoder feedback linear electric motor position, and magnetic force promotes linear electric motor along guide rail axial displacement, makes the cleaning brush at camera surface longitudinal movement cleaning brush.

Further, a horizontal oil cylinder is arranged between the hanging rack and the back plate, a connecting frame is fixedly connected between the horizontal oil cylinder and the linear motor, the carrying plate is fixedly installed on a hydraulic execution element at the front end of the horizontal oil cylinder, the horizontal oil cylinder controls the carrying plate to horizontally move front and back, the distance between the carrying plate and the monitoring shell is adjusted, and the extrusion force of the cleaning brush on the surfaces of the monitoring shell and the camera is changed, so that the cleaning effect is ensured.

Further, the spout has vertically been seted up to the stores pylon left and right sides, the slide is installed to horizontal cylinder front end, slide swing joint in the stores pylon outside, the slide front end set up in the spout is inboard, and horizontal cylinder moves along stores pylon longitudinal stabilization with the help of the joint of slide and spout.

Further, the water tank is installed to top cover plate upper end, the dropping liquid pipe that passes the top cover plate is installed to the water tank lower extreme, the dropping liquid pipe set up in the cleaning brush top, the water tank can be used for accepting the rainwater, through the clean environmental protection more of rainwater.

Further, install electric valve in the middle of the dropping liquid pipe, control housing face bilateral symmetry is provided with pressure contact, rotating electrical machines, electric valve and pressure contact all with built-in with dust response module automatically controlled in the control casing is connected, and when rotating electrical machines control casing rotated cleanly, electric valve opened automatically and put down the clean water, when control casing pivoted, pressure contact and cleaning brush contact feed back pressure signal to horizontal cylinder's the control unit, the clean pressure of adjustment cleaning brush to the camera.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a hang and put rotatable formula building environment monitoring device and adopt rotating electrical machines driven control casing, can relapse and cleaning brush contact when the angle is shot with the video-corder to the adjustment camera, utilize frictional force to come the adnexed dust of camera surface to erase, clean efficient and full automation control, guarantee that the control is not influenced at the service function of engineering job site, the pressure contact of installation and built-in pressure sensor on the control casing can make the response and the distance between reverse control take support plate and the control casing through the extrusion force change to the cleaning brush, the clean dynamics of adjustment.

Drawings

FIG. 1 is a schematic front view of an embodiment of a hanging rotatable building environment monitoring device according to the present invention;

FIG. 2 is a schematic side view of an embodiment of the hanging rotatable building environment monitoring device of the present invention;

fig. 3 is a schematic view of the top view structure of the embodiment of the hanging rotatable building environment monitoring device of the present invention.

The labels in the figures are: 1. a top cover plate; 2. a rotating electric machine; 3. a movable seat; 4. monitoring the housing; 5. a camera; 6. a hanger; 7. building a support plate; 8. a cleaning brush; 9. a back plate; 10. anchoring bolts; 11. a guide rail; 12. a linear motor; 13. a horizontal oil cylinder; 14. a connecting frame; 15. a chute; 16. a slide base; 17. a water tank; 18. a dropping tube; 19. an electrically operated valve; 20. and a pressure contact.

Detailed Description

The building environment monitoring device comprises a top cover plate 1, a monitoring shell 4 arranged below the top cover plate 1, a hanging frame 6 fixedly connected to the lower end of the top cover plate 1, and a carrying plate 7 arranged between the rear side of the monitoring shell 4 and the front side of the hanging frame 6, wherein a rotating motor 2 is arranged at the upper end of the top cover plate 1, a movable seat 3 is arranged at the upper end of the monitoring shell 4, the movable seat 3 is arranged on a power execution element at the lower end of the rotating motor 2, a camera 5 is arranged on the surface of the front end of the monitoring shell 4, and a curved cleaning brush 8 matched with the surface shape of the monitoring shell 4 is arranged on one side of the carrying plate 7 facing the monitoring shell 4.

To this embodiment, the start of rotating electrical machines 2 stops control system and embeds the dust induction module in control housing 4, analysis module, contrastive analysis module, the start module links each other, the output of dust induction module is connected with analysis module's input, analysis module's output and start module's input are connected, through setting up dust induction module, analysis module, contrastive analysis module and start module, can be when there is too much dust on induction camera 5 surface, can automatic control rotating electrical machines 2 drive control housing 4 left and right sides reciprocating rotation, clear up with the help of and the friction between the cleaning brush 8, intelligent degree is high.

The monitoring device plays a role of keeping off rain at the upper part through the top cover plate 1, the monitoring device is matched with the side surface of the back plate 9 and fixedly installed on a vertical structure to form a hanging state, the linear motor 12 directly converts electric energy into linear motion mechanical energy, the guide rail 11 is a magnetic rail fixed with a magnet, a rotor of the linear motor 12 comprises a coil winding, a Hall element circuit board, an electric heating regulator and an electronic interface, the position of the rotor in a magnetic field generated by the magnetic rail is kept through the guide rail 11, the position of the linear motor 12 is fed back through a linear encoder, the linear motor 12 is pushed by magnetic force to axially move along the guide rail 11, and the cleaning brush 8 longitudinally moves on the surface of the camera 5.

Meanwhile, a horizontal oil cylinder 13 is arranged between the hanging rack 6 and the back plate 9, a connecting frame 14 is fixedly connected between the horizontal oil cylinder 13 and the linear motor 12, the carrying plate 7 is fixedly installed on a hydraulic execution element at the front end of the horizontal oil cylinder 13, sliding grooves 15 are longitudinally formed in the left side and the right side of the hanging rack 6, a sliding seat 16 is installed at the front end of the horizontal oil cylinder 13, the sliding seat 16 is movably connected to the outer side of the hanging rack 6, the front end of the sliding seat 16 is arranged on the inner side of the sliding groove 15, the horizontal oil cylinder 13 controls the carrying plate 7 to horizontally move back and forth, the distance between the carrying plate and the monitoring shell 4 is adjusted, the extrusion force of the cleaning brush 8 on the surfaces of the monitoring shell 4 and the camera 5 is changed, the cleaning effect is ensured, and the horizontal oil cylinder 13 stably moves longitudinally along the hanging rack 6 by means of clamping of the sliding seat 16 and the sliding grooves 15.

In addition, a water tank 17 is installed at the upper end of the top cover plate 1, a liquid dropping pipe 18 penetrating through the top cover plate 1 is installed at the lower end of the water tank 17, the liquid dropping pipe 18 is arranged above the cleaning brush 8, an electric valve 19 is installed in the middle of the liquid dropping pipe 18, pressure contacts 20 are symmetrically arranged on the surface of the monitoring shell 4 in the bilateral mode, the rotating motor 2, the electric valve 19 and the pressure contacts 20 are electrically connected with a built-in dust sensing module in the monitoring shell 4, the water tank 17 can be used for receiving rainwater, the rainwater is more environment-friendly in cleaning, when the rotating motor 2 controls the monitoring shell 4 to rotate and clean, the electric valve 19 automatically opens and puts down cleaning water, when the monitoring shell 4 rotates, the pressure contacts 20 are in contact with the cleaning brush 8 to feed pressure signals to a control unit of the horizontal oil cylinder 13, and the cleaning pressure of the cleaning brush 8 on the camera 5 is adjusted.

When the rotatable building environment monitoring device is hung and arranged by the technical scheme, a user installs the back plate 9 on an existing structure of an engineering construction site through the anchoring bolts 10, when the monitoring operation is carried out, the rotating motor 2 controls the monitoring shell 4 to rotate left and right by ninety degrees respectively to adjust the shooting angle of the camera 5, when dust on the construction site is attached to the surface of the camera 5, the definition of the image shot by the camera 5 is reduced, after the dust sensing module built in the monitoring shell 4 receives the image signal, the signal is converted and is sent to the starting control unit for controlling the rotating motor 2 and the electric valve 19, the rotating motor 2 controls the monitoring shell 4 to rotate backwards by one hundred and eighty degrees, so that the camera 5 is contacted with the cleaning brush 8, and the rotating motor 2 controls the monitoring shell 4 to rotate a certain angle repeatedly from left to right at the moment, the attached dust is wiped off by the horizontal friction force of the cleaning brush 8, meanwhile, the loading plate 7 is controlled by the linear motor 12 to move longitudinally along the guide rail 11, the cleaning brush 8 and the camera 5 are longitudinally rubbed, the cleaning effect is enhanced, the electric valve 19 is opened while cleaning, clean water in the water tank 17 drops on the cleaning brush 8 from the dropping liquid pipe 18, a water washing effect is generated on the surfaces of the monitoring shell 4 and the camera 5, the pressure contact 20 is firstly contacted with the cleaning brush 8 in the rotating process of the monitoring shell 4, the operation of the horizontal oil cylinder 13 is controlled by sensing the extrusion acting force of the cleaning brush 8 and matching with the built-in pressure sensor, the loading plate 7 is made to move back and forth, and the brushing force of the cleaning brush 8 on the monitoring shell 4 and the camera 5 is adjusted.

Claims (7)

1. The hanging rotatable building environment monitoring device comprises a top cover plate, a monitoring shell arranged below the top cover plate, a hanging frame fixedly connected to the lower end of the top cover plate, and a carrying plate arranged between the rear side of the monitoring shell and the front side of the hanging frame; the intelligent cleaning device is characterized in that a rotating motor is installed at the upper end of the top cover plate, a movable seat is installed at the upper end of the monitoring shell, the movable seat is installed on a power execution element at the lower end of the rotating motor, a camera is arranged on the surface of the front end of the monitoring shell, and a curve-shaped cleaning brush matched with the surface shape of the monitoring shell is arranged on one side of the monitoring shell.

2. The hanging rotatable type building environment monitoring device as claimed in claim 1, wherein a back plate is fixedly installed at the lower end of the top cover plate, anchoring bolts connected with fixed structures on a construction site are installed at four corners of the back plate, and the back plate is arranged at the rear side of the hanging rack.

3. The hanging rotatable building environment monitoring device of claim 2, wherein the front end of the back plate is provided with a longitudinally arranged guide rail, and the front end of the guide rail is provided with a linear motor.

4. The hanging rotatable type building environment monitoring device according to claim 3, wherein a horizontal oil cylinder is arranged between the hanging frame and the back plate, a connecting frame is fixedly connected between the horizontal oil cylinder and the linear motor, and the carrying plate is fixedly installed on a hydraulic execution element at the front end of the horizontal oil cylinder.

5. The hanging rotatable building environment monitoring device according to claim 4, wherein sliding grooves are longitudinally formed in the left side and the right side of the hanging rack, a sliding seat is mounted at the front end of the horizontal oil cylinder, the sliding seat is movably connected to the outer side of the hanging rack, and the front end of the sliding seat is arranged on the inner side of the sliding grooves.

6. The hanging rotatable building environment monitoring device of claim 1, wherein the top cover plate has a water tank mounted on an upper end thereof, and a drip pipe passing through the top cover plate is mounted on a lower end thereof, the drip pipe being disposed above the cleaning brush.

7. The hanging rotatable building environment monitoring device of claim 6, wherein an electric valve is installed in the middle of the dropping liquid pipe, pressure contacts are symmetrically arranged on the left and right sides of the surface of the monitoring shell, and the rotating motor, the electric valve and the pressure contacts are electrically connected with a dust sensing module which is arranged in the monitoring shell in a built-in manner.

Images