CN213934027U - Environmental radiation monitoring device - Google Patents

Abstract

The utility model discloses an environmental radiation monitoring devices, including supporting baseplate, monitoring devices main part, louvre, gyro wheel, servo motor, camera bracing piece, resistant radiation camera, wireless data transmission ware, transmitter apron, apron handle, monitor bracing piece, radiation monitor, support frame, solar panel, host computer bracing piece, host computer control module, data memory and battery, the monitoring devices main part is located on the supporting baseplate, servo motor locates on the gyro wheel, resistant radiation camera locates on the camera bracing piece, wireless data transmission ware is located in the monitoring devices main part, host computer control module locates on the host computer bracing piece, data memory locates on the host computer bracing piece and locates host computer control module top, the battery is located on the supporting baseplate and is located in the monitoring devices main part. The utility model belongs to the technical field of the monitoring facilities, specifically an utilize clean energy, can automize and remove environmental radiation monitoring devices.

Description

Environmental radiation monitoring device

Technical Field

The utility model belongs to the technical field of the monitoring facilities, specifically indicate an ambient radiation monitoring devices.

Background

Radiation refers to the phenomenon that a part of electromagnetic energy emitted by a field source is separated from the field source and is transmitted to a far place and then does not return to the field source, the radiation is widely existed in the nature, along with the development of the society, various electrical equipment is integrated into the life of people, the electromagnetic radiation is widely existed in the space for production and activities of people, when the radiation value exceeds a certain value, the radiation can affect the human body, therefore, the radiation is often in a high-radiation area for a long time, people are not convenient to get close, and the environment radiation monitoring device capable of realizing automatic monitoring is needed to replace the work of people.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides an environmental radiation monitoring devices, the effectual problem of having solved the inconvenient manual monitoring of some high radiation areas has realized the purpose of automatic inspection monitoring radiation, ensures the safety of people's body when using manpower sparingly, and the reliability is high, specifically is one kind utilize clean energy, can automize and remove environmental radiation monitoring devices.

The utility model adopts the following technical scheme: the utility model relates to an environmental radiation monitoring device, which comprises a supporting bottom plate, a monitoring device main body, radiating holes, a roller, a servo motor, a camera supporting rod, a radiation-resistant camera, a wireless data transmitter, a transmitter cover plate, a cover plate handle, a monitor supporting rod, a radiation monitor, a supporting frame, a solar panel, a host supporting rod, a host control module, a data memory and a storage battery, wherein the monitoring device main body is arranged on the supporting bottom plate, the radiating holes are arranged on the monitoring device main body, the roller is arranged on the supporting bottom plate, the servo motor is arranged on the roller, the camera supporting rod is arranged on the supporting bottom plate, the radiation-resistant camera is arranged on the camera supporting rod, the wireless data transmitter is arranged on the monitoring device main body, the transmitter cover plate is hinged on the wireless data transmitter, the cover plate handle is arranged on the transmitter cover plate, the monitoring instrument bracing piece is located on the wireless data transmitter, the support frame is located in the monitoring device main part, solar panel locates on the support frame, the host computer bracing piece is located on the supporting baseplate and is located in the monitoring device main part, the host computer control module is located on the host computer bracing piece, data memory locates on the host computer bracing piece and locates host computer control module top, the battery is located on the supporting baseplate and is located in the monitoring device main part.

Further, the supporting bottom plate is arranged between the roller and the monitoring device main body, the camera supporting rod is arranged between the supporting bottom plate and the radiation-resistant camera, the wireless data transmitter is arranged between the monitoring device main body and the radiation monitor, and the supporting frame is arranged between the monitoring device main body and the solar panel.

Further, the monitoring device main part is perpendicular setting with the supporting baseplate, the louvre is parallel arrangement with the supporting baseplate, the gyro wheel is perpendicular setting with the supporting baseplate, servo motor is perpendicular setting with the gyro wheel, the camera bracing piece is perpendicular setting with the supporting baseplate, the transmitter apron is parallel arrangement with the supporting baseplate, the monitor bracing piece is perpendicular setting with the monitoring device main part, the support frame is perpendicular setting with the monitoring device main part, the host computer bracing piece is perpendicular setting with the supporting baseplate.

Further, the supporting baseplate is the cuboid setting, the monitoring devices main part is hollow cuboid setting, the gyro wheel is the cylinder setting, the camera bracing piece is the cuboid setting, the monitor bracing piece is the cylinder setting, solar panel is the cuboid setting.

Further, the louvre is the setting of rectangle through-hole, the transmitter apron is the setting of U type, the apron handle is the setting of U type, the support frame is the setting of T type, the host computer bracing piece is the setting of L type.

Further, the gyro wheel is equipped with four groups, servo motor is equipped with four groups, the louvre is equipped with eight groups, the host computer bracing piece is equipped with four groups, radiation monitor is equipped with two sets ofly.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the utility model provides an environmental radiation monitoring devices, the effectual problem of having solved the inconvenient manual monitoring of some high radiation areas, realized the purpose of automatic inspection monitoring radiation, guarantee the safety of people's health when using manpower sparingly, the reliability is high, specifically is one kind utilize clean energy, can automize and remove environmental radiation monitoring devices.

Drawings

Fig. 1 is a schematic view of the overall structure of an environmental radiation monitoring device according to the present invention;

fig. 2 is the utility model relates to an environmental radiation monitoring devices's cross-sectional view.

Wherein, 1, supporting baseplate, 2, monitoring devices main part, 3, louvre, 4, gyro wheel, 5, servo motor, 6, camera bracing piece, 7, resistant radiation camera, 8, wireless data transmission ware, 9, transmitter apron, 10, apron handle, 11, monitor bracing piece, 12, radiation monitor, 13, support frame, 14, solar panel, 15, host computer bracing piece, 16, host computer control module, 17, data memory, 18, battery.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-2, the utility model relates to an environmental radiation monitoring device, which comprises a supporting base plate 1, a monitoring device main body 2, a heat dissipation hole 3, a roller 4, a servo motor 5, a camera support rod 6, a radiation-resistant camera 7, a wireless data transmitter 8, a transmitter cover plate 9, a cover plate handle 10, a monitor support rod 11, a radiation monitor 12, a support frame 13, a solar panel 14, a host support rod 15, a host control module 16, a data storage 17 and a storage battery 18, wherein the monitoring device main body 2 is arranged on the supporting base plate 1, the heat dissipation hole 3 is arranged on the monitoring device main body 2, the roller 4 is arranged on the supporting base plate 1, the servo motor 5 is arranged on the roller 4, the camera support rod 6 is arranged on the supporting base plate 1, the radiation-resistant camera 7 is arranged on the camera support rod 6, the wireless data transmitter 8 is arranged on the monitoring device main body 2, the cover plate 9 of the transmitter is hinged on the wireless data transmitter 8, the cover plate handle 10 is arranged on the cover plate 9 of the transmitter, the support rod 11 of the monitor is arranged on the wireless data transmitter 8, the support frame 13 is arranged on the monitoring device main body 2, the solar panel 14 is arranged on the support frame 13, the support plate 1 of the host is arranged on the support plate 1 and arranged in the monitoring device main body 2, the host control module 16 is arranged on the support rod 15 of the host, the data memory 17 is arranged on the support rod 15 of the host and arranged above the host control module 16, the storage battery 18 is arranged on the support plate 1 and arranged in the monitoring device main body 2, the support plate 1 plays a supporting role, the monitoring device main body 2 plays a supporting role, the heat dissipation holes 3 play a heat dissipation role, the rollers 4 play a rolling role, and the servo motor 5 plays a role of driving the rollers 4, the utility model discloses a solar radiation monitoring system, including camera support pole 6, camera cover plate, solar panel 14, host computer bracing piece 15, host computer control module 16, data memory 17, battery 18, solar panel 14, host computer bracing piece 15, host computer control module 16, data memory 17, storage battery 18 plays the effect of storage electric energy and release electric energy, radiation-resistant camera 7 plays the effect of making a video recording, wireless data transmitter 8 plays the effect of transmission data, transmitter apron 9 plays the effect of protection, apron handle 10 plays the effect of grabbing, monitor bracing piece 11 plays the effect of support, radiation monitor 12 plays the effect of detecting the radiation, support frame 13 plays the effect of support, solar panel 14 plays the effect of converting solar energy into the electric energy, host computer bracing piece 15 plays the effect of support, host computer control module 16 plays the effect of control, data memory 17 plays the effect of storage electric energy and release electric energy.

The supporting bottom plate 1 is arranged between the roller 4 and the monitoring device main body 2, the camera supporting rod 6 is arranged between the supporting bottom plate 1 and the radiation-resistant camera 7, the wireless data transmitter 8 is arranged between the monitoring device main body 2 and the radiation monitor 12, and the supporting frame 13 is arranged between the monitoring device main body 2 and the solar panel 14.

Monitoring devices main part 2 is perpendicular setting with supporting baseplate 1, louvre 3 is parallel arrangement with supporting baseplate 1, gyro wheel 4 is perpendicular setting with supporting baseplate 1, servo motor 5 is perpendicular setting with gyro wheel 4, camera bracing piece 6 is perpendicular setting with supporting baseplate 1, transmitter apron 9 is parallel arrangement with supporting baseplate 1, monitor bracing piece 11 is perpendicular setting with monitoring devices main part 2, support frame 13 is perpendicular setting with monitoring devices main part 2, host computer bracing piece 15 is perpendicular setting with supporting baseplate 1.

The supporting baseplate 1 is a cuboid setting, the monitoring device main body 2 is a hollow cuboid setting, the idler wheels 4 are cylinder settings, the camera supporting rod 6 is a cuboid setting, the monitor supporting rod 11 is a cylinder setting, and the solar panel 14 is a cuboid setting.

The louvre 3 is the setting of rectangle through-hole, transmitter apron 9 is the setting of U type, apron handle 10 is the setting of U type, support frame 13 is the setting of T type, host computer bracing piece 15 is the setting of L type.

The gyro wheel 4 is equipped with four groups, servo motor 5 is equipped with four groups, louvre 3 is equipped with eight groups, host computer bracing piece 15 is equipped with four groups, radiation monitor 12 is equipped with two sets of.

When the device is used, a user inputs a patrolled route into the host control module 16 in advance, then the whole device is placed in a working area, the storage battery 18 is opened to supply power to the storage battery 18, solar energy is converted into electric energy by the solar panel 14 arranged on the support frame 13 to be supplemented into the storage battery 18, so that the storage battery 18 can continuously supply power, the host control module 16 sends out an electric signal to control the servo motor 5 to start working after being electrified, the servo motor 5 drives the roller 4 to rotate, so that the whole device can move according to the preset route, in the moving process, the radiation-resistant camera 7 arranged on the camera support rod 6 starts to record the environment on the moving route, stores video data into the data storage 17 on the host support rod 15, and simultaneously transmits the video data to the pan-tilt through the wireless data transmitter 8, the staff can receive data in real time and observe at safe region, when resistant radiation camera 7 work, radiation monitor 12 that sets up on monitor bracing piece 11 also begins work, and constantly give monitoring data transmission on wireless data transmitter 8, thereby give the user through wireless data transmitter 8 with the peripheral radiation numerical value of whole device moving route, when the data in the data memory 17 needs to be cleared up or the copy, the user grasps apron handle 10 and opens transmitter apron 9, with remove storage device access wireless data transmitter 8 on can, the heat that host computer control module 16 and data memory 17 during operation produced dispels the heat through louvre 3, above just be whole environmental radiation monitoring devices's use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. An environmental radiation monitoring device which characterized in that: comprises a supporting bottom plate, a monitoring device main body, heat dissipation holes, a roller, a servo motor, a camera supporting rod, a radiation-resistant camera, a wireless data transmitter, a transmitter cover plate, a cover plate handle, a monitor supporting rod, a radiation monitor, a supporting frame, a solar panel, a host supporting rod, a host control module, a data memory and a storage battery, wherein the monitoring device main body is arranged on the supporting bottom plate, the heat dissipation holes are arranged on the monitoring device main body, the roller is arranged on the supporting bottom plate, the servo motor is arranged on the roller, the camera supporting rod is arranged on the supporting bottom plate, the radiation-resistant camera is arranged on the camera supporting rod, the wireless data transmitter is arranged on the monitoring device main body, the transmitter cover plate is hinged on the wireless data transmitter, the cover plate handle is arranged on the transmitter cover plate, and the monitor supporting rod is arranged on the wireless data transmitter, the support frame is arranged on the monitoring device main body, the solar panel is arranged on the support frame, the host support rod is arranged on the support bottom plate and is arranged in the monitoring device main body, the host control module is arranged on the host support rod, the data storage device is arranged on the host support rod and is arranged above the host control module, and the storage battery is arranged on the support bottom plate and is arranged in the monitoring device main body.

2. The ambient radiation monitoring device of claim 1, wherein: the supporting bottom plate is arranged between the roller and the monitoring device main body, the camera supporting rod is arranged between the supporting bottom plate and the radiation-resistant camera, the wireless data transmitter is arranged between the monitoring device main body and the radiation monitor, and the supporting frame is arranged between the monitoring device main body and the solar panel.

3. The ambient radiation monitoring device of claim 2, wherein: the monitoring device main part is perpendicular setting with the supporting baseplate, the louvre is parallel arrangement with the supporting baseplate, the gyro wheel is perpendicular setting with the supporting baseplate, servo motor is perpendicular setting with the gyro wheel, the camera bracing piece is perpendicular setting with the supporting baseplate, the transmitter apron is parallel arrangement with the supporting baseplate, the monitor bracing piece is perpendicular setting with the monitoring device main part, the support frame is perpendicular setting with the monitoring device main part, the host computer bracing piece is perpendicular setting with the supporting baseplate.

4. The ambient radiation monitoring device of claim 3, wherein: the supporting baseplate is the cuboid setting, the monitoring devices main part is hollow cuboid setting, the gyro wheel is the cylinder setting, the camera bracing piece is the cuboid setting, the monitor bracing piece is the cylinder setting, solar panel is the cuboid setting.

5. The ambient radiation monitoring device of claim 4, wherein: the louvre is the setting of rectangle through-hole, the transmitter apron is the setting of U type, the apron handle is the setting of U type, the support frame is the setting of T type, the host computer bracing piece is the setting of L type.

6. The ambient radiation monitoring device of claim 5, wherein: the gyro wheel is equipped with four groups, servo motor is equipped with four groups, the louvre is equipped with eight groups, the host computer bracing piece is equipped with four groups, radiation monitor is equipped with two sets ofly.

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