CN220271928U - Building rubbish combustible identification device - Google Patents

Abstract

The application provides a combustible identification device for construction waste, including fixed establishment, image acquisition module, discernment display mechanism and dust removal mechanism, wherein, dust removal mechanism connect in fixed establishment, and dust removal mechanism has the clean mouth that is used for spraying cleaning medium, clean mouth orientation the image acquisition module, clean mouth is used for dust removal mechanism in predetermineeing the time to the image acquisition module sprays cleaning medium to with the dust that adheres to on the image acquisition module, thereby realize self-cleaning to the image acquisition module, in order to guarantee that the image acquisition module can normally gather construction waste's image information.

Description

Building rubbish combustible identification device

Technical Field

The application belongs to the technical field of construction waste treatment, and more specifically relates to a construction waste combustible identification device.

Background

The construction waste refers to dregs, waste soil, waste materials, sludge and other wastes generated in the process of constructing, paving or dismantling various buildings, structures, pipe networks and the like by construction units or individuals. Typically, construction waste contains combustibles such as plastics, wood or fabrics. At present, for the separation of combustible materials in the construction waste, a combustible material identification device is generally adopted to identify the combustible materials in the construction waste, and then the combustible materials are removed from the construction waste in a manual sorting mode.

At present, the existing construction waste combustible identification device usually detects construction waste through an industrial camera, the industrial camera is fixed at a fixed position, the construction waste is conveyed through a conveying belt arranged below the industrial camera, and the problems caused by adopting the technical scheme are as follows: the construction waste is easy to generate dust in the conveying process and is attached to the lens of the industrial camera, if the construction waste is not cleaned timely, the industrial camera cannot clearly shoot the image of the construction waste, and if the lens of the industrial camera is cleaned manually at regular intervals, the labor cost is increased.

Disclosure of Invention

An object of the embodiment of the application is to provide a combustible identification device for construction waste to solve the technical problem that the combustible identification device for construction waste exists in the prior art that dust can not be automatically cleaned up to a graph acquisition mechanism.

In order to achieve the above purpose, the technical scheme adopted in the application is as follows: provided is a construction waste combustible material recognition device, comprising:

a fixing mechanism;

the image acquisition module is connected with the fixing mechanism and used for acquiring image information of a target material and generating an image signal according to the image information;

the identification display mechanism is in data connection with the image acquisition module and is used for receiving the image signals, displaying the image information according to the image signals and identifying combustible objects in the target materials according to the image signals;

the dust removing mechanism is connected to the fixing mechanism and provided with a cleaning port for spraying cleaning media, the cleaning port faces the image acquisition module, and the cleaning port is used for spraying the cleaning media to the image acquisition module according to preset time in preset time.

Optionally, the dust removing mechanism includes:

an air pump;

the air inlet end of the air storage tank is connected with the air pump;

the air inlet end of the electromagnetic valve is connected with the air outlet end of the air storage tank, the air outlet end of the electromagnetic valve is connected with the cleaning port, and the electromagnetic valve is used for being opened in preset time so that the cleaning medium can clean the image acquisition module.

Optionally, the dust removing mechanism further includes:

the connector is connected to the exhaust end of the air storage tank, a first interface, a second interface, a third interface and a fourth interface are arranged on the connector, the first interface is connected to the exhaust port of the air storage tank, and the electromagnetic valve is connected with the fourth interface;

a safety valve connected to the second port;

and the drain valve is connected with the third interface.

Optionally, the dust removing mechanism further includes:

the controller is electrically connected with the air pump;

the pressure sensor is communicated with the air storage tank and is electrically connected with the controller;

when the pressure in the air storage tank is higher than a preset value, the pressure sensor generates a power-off signal, and the controller is used for receiving the power-off signal and switching off the power supply of the air pump according to the power-off signal;

when the pressure in the air storage tank is lower than the preset value, the pressure sensor generates an energizing signal, and the controller is used for receiving the energizing signal and switching on the power supply of the air pump according to the energizing signal.

Optionally, the dust removing mechanism further includes:

and the filter cotton core is arranged at the air inlet of the air pump.

Optionally, the dust removing mechanism further includes:

the oil-water separator is arranged between the air pump and the air storage tank.

Optionally, the image acquisition module includes:

the transparent cover is connected with the fixing mechanism, and an accommodating cavity is formed in the transparent cover;

and the industrial camera is arranged in the accommodating cavity.

Optionally, the image acquisition module further includes:

the first light supplementing lamp is arranged around the lens of the industrial camera;

and the second light supplementing lamp is connected with the fixing mechanism.

Optionally, the fixing mechanism includes:

the fixing seat is provided with an adjusting hole, and the adjusting hole extends along the extending direction of the fixing seat;

the adjusting frame is connected in the adjusting hole in a sliding way;

the locking piece is in threaded connection in the fixing base, just the locking piece runs through behind the fixing base with the alignment jig butt is used for with the alignment jig locking is in the position of predetermineeing.

Optionally, the construction waste combustible identification device further comprises:

the alarm controller is in communication connection with the identification display mechanism and is used for generating an alarm signal when the combustible object exceeds a preset threshold value arranged in the identification display mechanism;

and the alarm lamp is electrically connected with the alarm controller and is used for receiving the alarm signal and transmitting alarm information according to the alarm signal.

The application provides a combustible identification device for construction waste's beneficial effect lies in: compared with the prior art, the utility model provides a combustible identification device for construction waste includes fixed establishment, image acquisition module, discernment display mechanism and dust removal mechanism, wherein, dust removal mechanism connect in fixed establishment, and dust removal mechanism has the clean mouth that is used for spraying cleaning medium, clean mouth orientation the image acquisition module, clean mouth is used for dust removal mechanism in predetermineeing the time to the image acquisition module sprays cleaning medium to with the dust of attaching on the image acquisition module, thereby realize self-cleaning to the image acquisition module, with the image information of guaranteeing that the image acquisition module can normally gather construction waste.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required for the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a device for identifying combustible objects of construction waste according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a fixing mechanism according to an embodiment of the present application.

Wherein, each reference sign in the figure:

10. a fixing mechanism; 11. a fixing seat; 12. an adjusting frame; 13. a locking member; 20. an image acquisition module; 21. a transparent cover; 22. an industrial camera; 23. a first light supplementing lamp; 24. a second light supplementing lamp; 30. identifying a display mechanism; 31. a control host; 32. a display screen; 40. a dust removing mechanism; 41. a controller; 42. an air pump; 43. a gas storage tank; 44. a pressure sensor; 45. a joint; 46. an electromagnetic valve; 461. a time relay; 47. an oil-water separator, 48, a safety valve; 49. a drain valve; 50. an alarm unit; 51. an alarm controller; 52. and an alarm lamp.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved by the present application more clear, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present application and simplify description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and therefore should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 2, a description will be given of a device for identifying combustible building waste according to an embodiment of the present application.

A construction waste combustible identification device comprises a fixing mechanism 10, an image acquisition module 20, an identification display mechanism 30 and a dust removal mechanism 40.

The fixing mechanism 10 includes a fixing base 11, an adjusting bracket 12, and a locking member 13. Wherein, fixing base 11 extends along vertical direction, and is formed with the regulation hole of extending along vertical direction on the fixing base 11, and the lower extreme sliding connection of alignment jig 12 is in the regulation hole, locking piece 13 threaded connection in fixing base 11, and locking piece 13 runs through fixing base 11 back and with alignment jig 12 butt.

A receiving space is formed between the adjusting frame 12 and the fixing base 11, and is used for placing a conveyor belt for conveying construction waste through the fixing mechanism 10. The height of the adjusting frame 12 relative to the conveying belt is adjusted by adjusting the length of the adjusting frame 12 inserted into the adjusting hole, and when the adjusting frame 12 is adjusted to a preset height, the adjusting frame 12 is locked at the preset height by rotating the locking piece 13.

The image acquisition module 20 is connected to the adjusting frame 12 in the fixing mechanism 10, and when the conveyor belt drives the construction waste to move relative to the image acquisition module 20, the image acquisition module 20 is used for acquiring image information of a target material and generating an image signal according to the image information.

The recognition display mechanism 30 is in data connection with the image acquisition module 20 through the optical fiber box and the optical fiber, and is used for receiving the image signal acquired by the image acquisition module 20, displaying image information according to the image signal, and recognizing combustible objects in the target material according to the image signal.

The dust removing mechanism 40 has a cleaning port for spraying cleaning medium, the cleaning port is connected to the adjusting frame 12 of the fixing mechanism 10 and is spaced from the image collecting module 20, the cleaning port faces the image collecting module 20, the cleaning port is used for spraying cleaning medium to the image collecting module 20 by the dust removing mechanism 40 according to a preset time period in a preset time period, for example, every 40 minutes, the cleaning medium is sprayed to the image collecting module 20 by the dust removing mechanism 40 for 4 seconds, so as to clean the image collecting module 20.

It should be noted that the identifying and displaying mechanism 30 includes a control host 31 and a display screen 32 connected to the control host 31, where the display screen 32 is used to display image information, and a combustible identifying program for identifying the construction waste is provided in the control host 31, for example, the control host 31 determines whether the combustible belongs to plastics, wood or fabrics according to the shape or color of the combustible in the graphic signal, then marks the identified combustible on the display screen 32, for example, a red square frame is displayed on the outside of the combustible on the display screen 32, and then the control host 31 proceeds to count the identified combustible.

Compared with the prior art, the application provides a building rubbish combustible identification device fixed establishment 10, image acquisition module 20, discernment display mechanism 30 and dust removal mechanism 40, wherein, dust removal mechanism 40 is connected in fixed establishment 10, and dust removal mechanism 40 has the clean mouth that is used for spraying cleaning medium, clean mouth orientation image acquisition module 20, clean mouth is used for dust removal mechanism 40 to image acquisition module 20 jet cleaning medium in predetermineeing the time, with the dust that will adhere to on image acquisition module 20, thereby realize self-cleaning to image acquisition module 20, in order to guarantee that image acquisition module 20 can normally gather building rubbish's image information.

Preferably, in the present application, the cleaning medium for cleaning the image capturing module 20 is compressed air. The dust removing mechanism 40 includes a controller 41, an air pump 42, an air tank 43, a pressure sensor 44, a connector 45, and a solenoid valve 46.

Wherein, air pump 42 is connected with the controller 41 electricity, and air inlet of gas holder 43 is connected with three way connection, and one of them interface of three way connection is connected with air inlet of gas holder 43, and the gas vent of air pump 42 is connected with one interface of three way connection, and pressure sensor 44 sets up three way connection's last interface connection, and pressure sensor 44 is connected with the controller 41 electricity. When the pressure in the air storage space of the air storage tank 43 is higher than 100PSI, the pressure sensor 44 generates a power-off signal, and the controller 41 is configured to receive the power-off signal and turn off the power of the air pump 42 according to the power-off signal, so that the air pump 42 stops inflating the air storage tank 43. The pressure sensor 44 generates an energizing signal when the internal pressure of the air tank 43 is lower than 70PSI, and the controller 41 is configured to receive the energizing signal and switch on the power supply of the air pump 42 according to the energizing signal, so that the air pump 42 inflates the air tank 43.

The connector 45 is provided with a first interface, a second interface, a third interface and a fourth interface, the first interface is connected to the exhaust port of the air storage tank 43, and the air inlet end of the electromagnetic valve 46 is communicated with the fourth interface. The electromagnetic valve 46 is provided with a time relay 461, the time relay 461 is electrically connected with the electromagnetic valve 46, a preset time interval arranged in the time relay 461 is 40 minutes, when the preset time interval is reached, the time relay 461 controls the electromagnetic valve 46 to open for 20 seconds, compressed gas in the gas storage tank 43 flows to the image acquisition module 20 through a cleaning port, so that the image acquisition module 20 is cleaned, and after the magnetic valve 46 is opened for 4 seconds, the time relay 461 controls the electromagnetic valve 46 to close.

In the present application, the dust removing mechanism 40 further includes a filter cotton core, an oil-water separator 47, a relief valve 48, and a drain valve 49.

Wherein, the filter cotton core is arranged at the air inlet of the air pump 42 for filtering dust particles in the air. The oil-water separator 47 is disposed between the air tank 43 and the electromagnetic valve 46, and is used for separating impurities such as moisture and oil in the compressed air, and preventing the moisture and oil in the air from polluting the lens of the image acquisition module 20. After the compressed air enters the oil-water separator 47, the flow direction and the speed of the compressed air are changed sharply, and oil drops and water drops with a density higher than that of the compressed air are separated by inertia, so that the compressed air is purified.

The oil-water separator 47 has a water storage chamber, a water outlet is provided right below the water storage chamber, a float is provided in the water storage chamber, the lower part of the float is connected with a water outlet valve through a rope, when the water level in the water storage chamber rises, the float rises under the buoyancy of the water in the water storage chamber, thereby opening the valve of the water outlet and discharging the water in the water storage chamber, when the water in the water storage chamber is discharged, the water level in the water storage chamber falls, and the valve of the water outlet closes the water outlet.

The relief valve 48 is connected to the second port, and when the pressure in the air tank 43 is greater than 105PSI, the relief valve 48 is opened to release the pressure. A drain valve 49 is connected to the third port for draining the water in the water storage tank.

In the present application, the image capturing module 20 includes a transparent cover 21, an industrial camera 22, a first light compensating lamp 23, and a second light compensating lamp 24.

The transparent cover 21 is connected to the adjusting frame 12 of the fixing mechanism 10, and a receiving cavity is formed in the transparent cover 21. The industrial camera 22 is installed in the holding intracavity, and the camera of industrial camera 22 is towards the conveyer belt, first light filling lamp 23 is annular structure, and the camera of industrial camera 22 is located the centre bore of first light filling lamp 23, first light filling lamp 23 is used for carrying out the light filling to construction waste along the direction that the camera of industrial camera 22 was towards, second light filling lamp 24 is connected in alignment jig 12, and the light beam that the second light filling lamp 24 launched is the angle setting with the light beam that first light filling lamp 23 launched for carry out the light filling to construction waste from another angle, in order to strengthen the image brightness of construction waste.

In the present application, the construction waste combustible material identification device further comprises an alarm unit 50, wherein the alarm unit 50 comprises an alarm controller 51 and an alarm lamp 52, and the alarm controller 51 is in communication connection with the control host 31 of the identification display mechanism 30 and is used for generating an alarm signal when the combustible material exceeds a preset threshold value set in the identification display mechanism 30. The alarm lamp 52 is electrically connected to the alarm controller 51, and is configured to receive an alarm signal and transmit alarm information according to the alarm signal.

When the content of combustible contained in the construction waste after being manually sorted is lower than the lowest threshold value (the number of combustible is three percent of the number of construction waste) set in the control host 31, the three-color warning lamp 52 turns on the green light; when the lowest threshold is smaller than the combustible amount and smaller than the highest threshold (the combustible amount is six percent of the amount of the construction waste), the three-color warning lamp 52 lights a yellow lamp; when the amount of combustibles is greater than the highest threshold, the three-color warning lamp 52 lights a red lamp.

The foregoing description of the preferred embodiment of the present utility model is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (10)

1. A construction waste combustible identification device, comprising:

a fixing mechanism;

the image acquisition module is connected with the fixing mechanism and used for acquiring image information of a target material and generating an image signal according to the image information;

the identification display mechanism is in data connection with the image acquisition module and is used for receiving the image signals, displaying the image information according to the image signals and identifying combustible objects in the target materials according to the image signals;

the dust removing mechanism is connected to the fixing mechanism and provided with a cleaning port for spraying cleaning media, the cleaning port faces the image acquisition module, and the cleaning port is used for spraying the cleaning media to the image acquisition module according to preset time in preset time.

2. A construction waste combustible identification device according to claim 1 wherein the dust removal mechanism includes:

an air pump;

the air inlet end of the air storage tank is connected with the air pump;

the air inlet end of the electromagnetic valve is connected with the air outlet end of the air storage tank, the air outlet end of the electromagnetic valve is connected with the cleaning port, and the electromagnetic valve is used for being opened in preset time so that the cleaning medium can clean the image acquisition module.

3. A construction waste combustible identification device in accordance with claim 2 wherein said dust removal mechanism further comprises:

the connector is connected to the exhaust end of the air storage tank, a first interface, a second interface, a third interface and a fourth interface are arranged on the connector, the first interface is connected to the exhaust port of the air storage tank, and the electromagnetic valve is connected with the fourth interface;

a safety valve connected to the second port;

and the drain valve is connected with the third interface.

4. A construction waste combustible identification device according to claim 3 wherein the dust removal mechanism further comprises:

the controller is electrically connected with the air pump;

the pressure sensor is communicated with the air storage tank and is electrically connected with the controller;

when the pressure in the air storage tank is higher than a preset value, the pressure sensor generates a power-off signal, and the controller is used for receiving the power-off signal and switching off the power supply of the air pump according to the power-off signal;

when the pressure in the air storage tank is lower than the preset value, the pressure sensor generates an energizing signal, and the controller is used for receiving the energizing signal and switching on the power supply of the air pump according to the energizing signal.

5. The construction waste combustible identification device of claim 4 wherein the dust removal mechanism further comprises:

and the filter cotton core is arranged at the air inlet of the air pump.

6. The construction waste combustible identification device of claim 5 wherein the dust removal mechanism further comprises:

the oil-water separator is arranged between the air pump and the air storage tank.

7. A construction waste combustible identification device according to any one of claims 1 to 6, wherein the image acquisition module comprises:

the transparent cover is connected with the fixing mechanism, and an accommodating cavity is formed in the transparent cover;

and the industrial camera is arranged in the accommodating cavity.

8. The construction waste combustible identification device of claim 7, wherein the image acquisition module further comprises:

the first light supplementing lamp is arranged around the lens of the industrial camera;

and the second light supplementing lamp is connected with the fixing mechanism.

9. A construction waste combustible identification device according to claim 1 wherein the securing means comprises:

the fixing seat is provided with an adjusting hole, and the adjusting hole extends along the extending direction of the fixing seat;

the adjusting frame is connected in the adjusting hole in a sliding way;

the locking piece is in threaded connection in the fixing base, just the locking piece runs through behind the fixing base with the alignment jig butt is used for with the alignment jig locking is in the position of predetermineeing.

10. The construction waste combustible identification device of claim 1, wherein the construction waste combustible identification device further comprises:

the alarm controller is in communication connection with the identification display mechanism and is used for generating an alarm signal when the combustible object exceeds a preset threshold value arranged in the identification display mechanism;

and the alarm lamp is electrically connected with the alarm controller and is used for receiving the alarm signal and transmitting alarm information according to the alarm signal.