CN219551695U - Infrared electrified detection device based on temperature and humidity automatic compensation - Google Patents

Abstract

The utility model discloses an infrared electrified detection device based on automatic temperature and humidity compensation, and relates to the technical field of infrared temperature detection. The infrared detector comprises an infrared detector body, wherein an infrared detection window is arranged on the infrared detector body, a fixed shaft is fixedly arranged on the infrared detector body, a connecting block is rotatably arranged on the fixed shaft, two notches matched with the infrared detection window are arranged on the connecting block, the front end of one notch is fixedly arranged and communicated with a vacuum isolation tube, the front end of the other notch is fixedly provided with a non-isolation support, the front end of the non-isolation support is fixedly provided with a heating plate, the heating plate is fixedly connected with the vacuum isolation tube, the actual temperature value of equipment to be detected can be obtained, and the precision requirement of on-site infrared electrified detection can be met in an environment with higher humidity or an environment with more dust.

Description

Infrared electrified detection device based on temperature and humidity automatic compensation

Technical Field

The utility model belongs to the technical field of infrared temperature detection, and particularly relates to an infrared electrified detection device based on automatic temperature and humidity compensation.

Background

The infrared detection technology can further obtain infrared images formed by different thermal infrared rays by detecting the infrared difference between the target object and the background, and finally obtain the temperature of the target object, and the detection method of the infrared detection technology has been gradually popularized and applied in the electric field by a series of advantages of special non-contact, rapid implementation, visual image, high accuracy, wide application range and the like.

The infrared electrified detection device based on temperature and humidity automatic compensation with the prior patent application number of CN201621115362.6 comprises a main body and the like, an infrared thermal image detector, a temperature and humidity detection window, a temperature and humidity sensor, an automatic compensator and a memory are all positioned on the main body, the infrared thermal image detector is positioned on the left side of the memory, the temperature and humidity sensor is positioned below the infrared thermal image detector, the automatic compensator is positioned on the right side of the temperature and humidity sensor, a lens is connected with a lens cover, the lens cover is positioned on the left side surface of the main body and above the temperature and humidity detection window, and the temperature and humidity detection window is positioned on the left side surface of the main body and below the lens cover. The utility model integrates the environment temperature storage, carries out automatic compensation of target temperature according to the environment temperature and humidity, solves the problem of larger error of detection results caused by larger relative humidity in rainy and foggy days in the infrared electrification detection of power grid equipment, has high temperature measurement precision under the condition of larger relative humidity, and can well meet the precision requirement of the on-site infrared electrification detection.

The above patent is to make the humidity temperature sensor detect the temperature and humidity of the environment through the temperature and humidity detection window, the automatic compensator compensates according to the ambient temperature, humidity and the detection result of the infrared radiation spectrum, and in the environment with higher humidity, the influence of the moisture in the air on the detection result is reduced, but in some environments, not only the moisture will influence the detection result of the infrared detection sensor, but also the impurity and dust floating in the air will influence the detection result, if the infrared detection is performed in the environment with larger dust, the accurate result is difficult to detect.

Therefore, it is necessary to improve the defects and shortcomings of the prior art and provide an infrared electrified detection device based on automatic temperature and humidity compensation.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide an infrared electrification detection device based on automatic temperature and humidity compensation, which can overcome the problems or at least partially solve the problems.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that: the utility model provides an infrared electrification detection device based on humiture automatic compensation, includes the infrared detector appearance body, be equipped with infrared detection window on the infrared detector appearance body, fixed mounting has the fixed axle on the infrared detector appearance body, rotate on the fixed axle and install the connecting block, be equipped with on the connecting block two with infrared detection window assorted notch, the front end fixed mounting of one of them notch and intercommunication have the vacuum isolation pipe, the front end fixed mounting of another notch has non-isolation support, the front end fixed mounting of non-isolation support has the hot plate, the hot plate with vacuum isolation pipe fixed connection.

In order to store when not in use, preferably, the infrared detector body is provided with a storage groove matched with the connecting block, the fixed shaft is positioned in the storage groove, and the fixed shaft is in sliding connection with the heating plate.

In order to prevent the connecting block from sliding out during storage, further, a magnetic iron is arranged in the storage groove, a metal sheet matched with the magnetic iron is arranged on the bottom surface of the connecting block, and a handle is fixedly arranged at the front end of the heating plate.

In order to prevent the connecting block from rotating randomly when in use, preferably, the infrared detector body is provided with a sliding clamping block in a sliding manner, and the connecting block is provided with two limiting clamping grooves matched with the sliding clamping block.

In order to seal the isolation window and simultaneously make the detection conditions of the non-isolation support and the vacuum isolation tube similar, preferably, the rear ends of the vacuum isolation tube and the non-isolation support are fixedly provided with the isolation window.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects: according to the infrared charged detection device based on automatic temperature and humidity compensation, the standard value is obtained by measuring in a vacuum environment through the vacuum isolation tube, then the non-isolation support is used, the vacuum environment is changed into the current air environment, other conditions are the same as those of the vacuum isolation tube, detection is carried out, the influence factors of humidity, dust and impurities in the current air environment on infrared temperature detection can be obtained, when the distance between the infrared detection window and equipment to be detected is multiplied by the influence factors, the influence value of the humidity, dust and impurities in air on the actual temperature value can be obtained when the infrared detection window detects the equipment to be detected, the influence value and the detected value are calculated, and finally the actual temperature value of the equipment to be detected can be obtained, and the precision requirement of on-site infrared charged detection can be met no matter in the environment with higher humidity or the environment with more dust.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a schematic diagram of the structure of the utility model during normal detection;

FIG. 2 is a schematic drawing of a heater plate pull-out configuration of the present utility model;

FIG. 3 is a schematic diagram of a detection structure using a vacuum isolation tube according to the present utility model;

FIG. 4 is a schematic diagram of a detection configuration using a non-isolated scaffold of the present utility model;

fig. 5 is a schematic view of the structure of the heating plate of the present utility model.

In the figure: 1. an infrared detector body; 101. a storage groove; 2. an infrared detection window; 3. a heating plate; 4. a fixed shaft; 5. a handle; 6. a vacuum isolation tube; 7. a non-isolated scaffold; 8. sliding the clamping block; 9. a limit clamping groove; 10. an isolation window; 11. and (5) connecting a block.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model, but are not intended to limit the scope of the present utility model.

Examples:

referring to fig. 1-5, an infrared electrified detection device based on automatic temperature and humidity compensation comprises an infrared detector body 1, wherein an infrared detection window 2 is arranged on the infrared detector body 1, a fixed shaft 4 is fixedly installed on the infrared detector body 1, a connecting block 11 is rotatably installed on the fixed shaft 4, two notches matched with the infrared detection window 2 are arranged on the connecting block 11, the front end of one notch is fixedly installed and communicated with a vacuum isolation tube 6, the front end of the other notch is fixedly installed with a non-isolation support 7, the front end of the non-isolation support 7 is fixedly provided with a heating plate 3, and the heating plate 3 is fixedly connected with the vacuum isolation tube 6.

Be equipped with in the infrared detector appearance body 1 with connecting block 11 assorted accomodate groove 101, fixed axle 4 is located accomodates groove 101, fixed axle 4 and hot plate 3 sliding connection are equipped with the magnetism and inhale the iron in accomodating groove 101, the bottom surface of connecting block 11 is equipped with magnetism and inhale iron assorted sheetmetal, the front end fixed mounting of hot plate 3 has handle 5, when not using, accomodate connecting block 11, vacuum isolation pipe 6 and non-isolation support 7 along fixed axle 4 slip into accomodate inslot 101, fix through the magnetic attraction, hold handle 5 when using, drag.

The infrared detector body 1 is provided with the sliding clamping block 8 in a sliding manner, the connecting block 11 is provided with two limiting clamping grooves 9 matched with the sliding clamping block 8, when the vacuum isolation tube 6 and the non-isolation support 7 are used for detection, the sliding clamping block 8 is used for fixing the connecting block 11, and when detection is guaranteed, the connecting block 11 cannot rotate.

The rear ends of the vacuum isolation tube 6 and the non-isolation support 7 are fixedly provided with isolation windows 10, and the vacuum isolation tube 6 is in a vacuum sealing state, so that the isolation windows 10 are required to be arranged, the infrared detection window 2 penetrates through the isolation windows 10, the temperature of the heating plate 3 is detected through the vacuum isolation tube 6, and the non-isolation support 7 is required to be the same as the vacuum isolation tube 6 in detection except for different detection environments, so that the isolation windows 10 are also arranged on the vacuum isolation tube 6.

According to the utility model, the device is placed around equipment to be detected, the heating plate 3 is held, the heating plate 3 is pulled, the vacuum isolation tube 6, the non-isolation support 7 and the connecting block 11 are pulled out, the air environment in the non-isolation support 7 is identical to the air environment around the equipment to be detected, the connecting block 11 is rotated by taking the fixed shaft 4 as the axis, the isolation window 10 on the vacuum isolation tube 6 is aligned with the infrared detection window 2, the heating plate 3 is started, the heating plate 3 is heated, the infrared detector body 1 is restarted, the infrared induction of the infrared detection window 2 penetrates through the isolation window 10 and penetrates through the vacuum isolation tube 6, the infrared temperature detection is carried out on the heating plate 3 under the vacuum environment, the value at the moment is recorded, the connecting block 11 is rotated again, the isolation window 10 on the non-isolation support 7 is aligned with the infrared detection window 2, the infrared induction of the infrared detection window 2 penetrates through the isolation window 10, the non-isolation support 7, the infrared temperature detection is carried out on the heating plate 3 under the current air environment, the value difference detected twice, the value difference detected is compared, the infrared temperature difference is obtained, the infrared temperature difference is determined, the current distance is calculated, the infrared temperature is not influenced by the current distance between the infrared detection window and the equipment to be detected, and the value is calculated, the value is not influenced by the current distance between the infrared temperature of the equipment to be detected, and the infrared temperature is calculated, and the value is not influenced by the distance between the infrared detection window and the equipment to be detected, and the value.

The present utility model is not limited to the preferred embodiments, but is not limited to the preferred embodiments described above, and any person skilled in the art will appreciate that the present utility model is not limited to the embodiments described above.

Claims (5)

1. The utility model provides an infrared electrified detection device based on humiture automatic compensation, includes infrared detector appearance body (1), be equipped with infrared detection window (2), its characterized in that on the infrared detector appearance body (1): the infrared detector body (1) is fixedly provided with a fixed shaft (4), the fixed shaft (4) is rotationally provided with a connecting block (11), the connecting block (11) is provided with two notches matched with the infrared detection window (2), the front end of one notch is fixedly provided with a vacuum isolation tube (6) and communicated with the vacuum isolation tube, the front end of the other notch is fixedly provided with a non-isolation support (7), the front end of the non-isolation support (7) is fixedly provided with a heating plate (3), and the heating plate (3) is fixedly connected with the vacuum isolation tube (6).

2. The infrared charged detection device based on automatic temperature and humidity compensation according to claim 1, wherein: the infrared detector body (1) is internally provided with a storage groove (101) matched with the connecting block (11), the fixed shaft (4) is positioned in the storage groove (101), and the fixed shaft (4) is in sliding connection with the heating plate (3).

3. The infrared charged detection device based on automatic temperature and humidity compensation according to claim 2, wherein: the storage groove (101) is internally provided with a magnet, the bottom surface of the connecting block (11) is provided with a metal sheet matched with the magnet, and the front end of the heating plate (3) is fixedly provided with a handle (5).

4. The infrared charged detection device based on automatic temperature and humidity compensation according to claim 1, wherein: the infrared detector body (1) is provided with a sliding clamping block (8) in a sliding mode, and the connecting block (11) is provided with two limiting clamping grooves (9) matched with the sliding clamping block (8).

5. The infrared charged detection device based on automatic temperature and humidity compensation according to claim 1, wherein: the rear ends of the vacuum isolation tube (6) and the non-isolation support (7) are fixedly provided with isolation windows (10).