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CN-224228334-U - Unmanned automation Water electricity experiment shelter

CN224228334UCN 224228334 UCN224228334 UCN 224228334UCN-224228334-U

Abstract

The utility model discloses an unmanned automatic hydroelectric experiment shelter which comprises a shelter body and casters arranged at the bottom of the shelter body, wherein the shelter body comprises a middle frame body, a front plate and a rear plate which are positioned at two sides of the middle frame body, an exchange window and an operation door are further arranged at the end part of the middle frame body, sealing strips are arranged between the operation door and the middle frame body, a plurality of exhaust holes are formed in the top of the middle frame body, and the section of the middle frame body is of a rectangular structure with four round corners. The utility model only supplies external samples to be conveyed through the exchange window, avoids excessive interaction with the outside, is convenient for detection work on the scene of the hydropower system with severe working conditions, can overcome various adverse conditions on the scene of the hydropower system, and ensures that the automatic equipment works safely and stably.

Inventors

  • HUANG YU
  • MA JUN
  • XIE JIE

Assignees

  • 三峡金沙江川云水电开发有限公司

Dates

Publication Date
20260512
Application Date
20250530

Claims (10)

  1. 1. The utility model provides an unmanned automatic water electricity test shelter, its characterized in that is in including the cabin body and setting the truckle of cabin body bottom, the cabin body is including middle framework and be located front bezel and the back plate of middle framework both sides, exchange window and operation door have still been seted up to the tip of middle framework, the operation door with be provided with the sealing strip between the middle framework, a plurality of exhaust holes have been seted up at the top of middle framework, the cross-section of middle framework is the rectangle structure that has four fillets.
  2. 2. The unmanned automatic hydroelectric experiment shelter of claim 1, wherein the middle frame body is internally provided with a plurality of automatic devices, the rear plate is provided with a guide rail extending along the horizontal direction, the guide rail is provided with an explosion-proof electric box, and the automatic devices are connected with the explosion-proof electric box.
  3. 3. The unmanned automatic hydroelectric experiment shelter of claim 2, wherein the back plate is further provided with a plurality of trunking, cables for connecting the automatic equipment with the explosion-proof electrical box are arranged in the trunking, and the trunking extends along the horizontal direction or along the vertical direction.
  4. 4. The unmanned automatic hydroelectric experiment shelter of claim 1, wherein the top of the middle frame body is further provided with a plurality of lifting lugs, and the lifting lugs are respectively positioned at the top corners of the middle frame body.
  5. 5. The unmanned automatic water power test shelter of claim 1, in which a plurality of said vents are distributed in an array on top of said intermediate frame.
  6. 6. The unmanned automatic water power test shelter of claim 1, in which the exchange window and the operation door are located at two ends of the intermediate frame.
  7. 7. The unmanned automatic water power test shelter of claim 6, wherein the end of the middle frame body is provided with a camera and an alarm lamp, the camera and the alarm lamp are both positioned at one end of the operation door, and the camera and the alarm lamp are both positioned above the operation door.
  8. 8. The unmanned automatic hydroelectric experiment shelter of claim 1, wherein the front plate is a transparent plate, and an inner baffle plate for fixing the transparent plate is arranged in the middle frame body.
  9. 9. The unmanned automatic water power test shelter of claim 6, wherein one end of said intermediate frame is further provided with a plurality of ventilation openings, and a plurality of said ventilation openings are all located at one end of said operation door.
  10. 10. The unmanned automatic hydroelectric experiment shelter of claim 1, wherein the back plate is further provided with water passage holes and air passage holes.

Description

Unmanned automation Water electricity experiment shelter Technical Field The utility model belongs to the technical field of laboratory automation equipment, and particularly relates to an unmanned automatic hydroelectric experiment shelter. Background In the existing hydroelectric system automation laboratory, a plurality of detection processes are required to be completed, and the sample treatment path is long, so that the detection work is required to be carried out on site of the hydroelectric system for a long time, and the working condition of the site is severe, so that the automation laboratory is required to overcome various adverse conditions of the site, and the automation laboratory accords with various indexes such as fire protection, environmental protection, safety and the like; the existing laboratory building or box type laboratory is mostly built in an environment with better conditions, and various safety facilities are arranged in the laboratory building laboratory to ensure the normal operation of the laboratory; However, the hydroelectric system requires that the experimental process be completed on site, and the existing laboratory equipment cannot be directly used on site. Disclosure of utility model The utility model aims to overcome the defects of the prior art, and provides an unmanned automatic hydroelectric experiment shelter, which is designed as an integrated shelter body, and an external sample is only supplied to be conveyed through an exchange window, so that excessive interaction with the outside is avoided, and the detection work is conveniently carried out on a hydroelectric system site with severe working conditions, so that various adverse conditions of the hydroelectric system site can be overcome, and the safety and stability of automatic equipment are ensured. The aim of the utility model is achieved by the following technical scheme: The utility model provides an unmanned automatic water electricity experiment shelter, is in including the cabin body and setting the truckle of cabin body bottom, the cabin body includes middle framework and is located front bezel and the back plate of middle framework both sides, exchange window and operation door have still been seted up to the tip of middle framework, the operation door with be provided with the sealing strip between the middle framework, a plurality of exhaust holes have been seted up at the top of middle framework, the cross-section of middle framework is the rectangle structure that has four fillets. In one embodiment, the middle frame body is internally provided with a plurality of automation devices, the rear plate is provided with a guide rail extending along the horizontal direction, the guide rail is provided with an explosion-proof electric box, and the automation devices are connected with the explosion-proof electric box. In one embodiment, the rear plate is further provided with a plurality of trunking, cables for connecting the automation equipment with the explosion-proof electrical box are arranged in the trunking, and the trunking extends along the horizontal direction or along the vertical direction. In one embodiment, the top of the middle frame body is further provided with a plurality of lifting lugs, and the lifting lugs are respectively located at the top corners of the middle frame body. In one embodiment, a plurality of the exhaust holes are distributed in an array on top of the intermediate frame. In one embodiment, the switching window and the operation door are respectively located at both ends of the intermediate frame. In one embodiment, the end of the middle frame body is provided with a camera and an alarm lamp, the camera and the alarm lamp are both positioned at one end of the operation door, and the camera and the alarm lamp are both positioned above the operation door. In one embodiment, the front plate is a transparent plate, and an inner partition plate for fixing the transparent plate is arranged in the middle frame body. In one embodiment, one end of the middle frame body is further provided with a plurality of ventilation openings, and the ventilation openings are all located at one end of the operation door. In one embodiment, the rear plate is further provided with water passage holes and air passage holes. The utility model has the beneficial effects that: The utility model adopts a closed integrated cabin design, and only supplies external samples to be conveyed through the exchange window at one end of the middle frame body and an operation door arranged at the other end of the middle frame body to allow experimental staff to enter and exit, namely, excessive interaction between the cabin body and the outside is avoided to the greatest extent, so that the detection work is convenient to be carried out on the scene of the hydropower system with severe working conditions, various adverse conditions of the scene of the hydropower system can be overcome, and the safety and s