CN111366251A - Non-contact infrared thermal imaging temperature measurement system - Google Patents

Abstract

The invention provides a non-contact infrared thermal imaging temperature measurement system which comprises a fixed plate and a thermodetector body, wherein the thermodetector body is connected onto the fixed plate, a cavity is formed in the fixed plate, a first supporting plate is connected onto the inner wall of the cavity, a rib plate is connected onto the inner wall of the first supporting plate, a crank-link mechanism is rotatably connected onto the bottom wall of the rib plate, one end, away from the rib plate, of the crank-link mechanism is connected with a rotating shaft, one end, away from the crank-link mechanism, of the rotating shaft penetrates through the fixed plate and is connected with a clamping jaw, the clamping jaw is connected with the top wall of the fixed plate in a sliding mode, a motor is connected onto the bottom wall in the cavity. The temperature measuring device is simple in structure and convenient to use, the temperature measuring device body can be effectively fixed on the support frame, the safety performance of the device in use is improved, the labor intensity of workers is effectively reduced, and the operation is simple.

Description

Non-contact infrared thermal imaging temperature measurement system

Technical Field

The invention relates to the technical field of infrared thermal imaging temperature measurement, in particular to a non-contact infrared thermal imaging temperature measurement system.

Background

The temperature measurement method can be roughly divided into two methods: contact and non-contact methods; in the contact thermometry, the most thermocouple and thermal resistance temperature is widely applied, and the method has the advantages that the equipment and the operation are simple, and the measured actual temperature of an object is the true temperature of the object; compared with non-contact thermometry, the method has the disadvantages that the temperature distribution of the measured object is influenced because the measured object needs to be contacted, and the method can not be applied to very high temperature measurement.

The invention discloses a non-contact multispectral temperature measuring device and a non-contact multispectral temperature measuring method through retrieval, and the non-contact multispectral temperature measuring device comprises a supporting plate, a sliding groove, a base, a fixing bolt, a threaded rod, a pinion, a gear wheel, a rotating rod, a hand-operated rod, a sliding block, a placing seat, a placing groove, an adjusting bolt, a clamping plate, a spring, a handle, a thermodetector body, a moving plate, a fastening bolt and a connecting block. The non-contact multispectral temperature measuring device and the non-contact multispectral temperature measuring method are simple in structure, novel in design, the clamping plate is convenient to move through the adjusting bolt, the handle of the handheld thermometer body is convenient to stably fix, the fixing effect of the thermometer body is improved, the operation is convenient, under the action of the driving mechanism, the worker can conveniently drive the gear wheel to rotate through the manual driving rotating rod, the gear wheel is convenient to drive the pinion to rotate, the placing position of the mounting seat is convenient to adjust, the worker can conveniently operate, under the action of the limiting fixing mechanism, the placing seat after moving is convenient to fix, and the use is convenient.

Although the device can reduce worker's intensity of labour to a certain extent, improves temperature measuring device's operating performance, the device fixed establishment is comparatively simple, is difficult to stable fix the thermoscope body on placing the seat to the condition that leads to the thermoscope to receive to rock when colliding and lead to the thermoscope body to take place to drop and cause the damage still has certain weak point.

Therefore, there is a need to provide a new non-contact infrared thermal imaging temperature measurement system to solve the above technical problems.

Disclosure of Invention

The invention provides a non-contact infrared thermal imaging temperature measurement system, which solves the technical problem that in the prior art, a fixing mechanism in a placing seat for a temperature measurement instrument is simple, and a temperature measurement instrument body is difficult to be stably fixed on the placing seat, so that the temperature measurement instrument body is damaged due to falling caused by shaking when the temperature measurement instrument is collided.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a non-contact infrared thermal imaging temperature measurement system, includes fixed plate and thermoscope body, this body coupling of thermoscope is on the fixed plate, the cavity has been dug to the inside of fixed plate, be connected with first backup pad on the cavity inner wall, be connected with the floor on the first backup pad inner wall, it is connected with crank link mechanism to rotate on the floor diapire, the one end that crank link mechanism kept away from the floor is connected with the axis of rotation, the one end that crank link mechanism was kept away from to the axis of rotation passes the fixed plate and is connected with the jack catch, just the jack catch slides with the fixed plate roof and links to each other, be connected with the motor on the inside diapire of cavity, the output of motor links to each other with crank link mechanism is fixed, be.

Preferably, the crank link mechanism comprises a rotating disc, the rotating disc is rotatably connected to the bottom wall of the rib plate, and the bottom wall of the rotating disc is fixedly connected with the motor.

Preferably, the outer wall of the rotating disc is connected with a first connecting rod, one end, far away from the rotating disc, of the first connecting rod is connected with a rotating mechanism, and one end, far away from the first connecting rod, of the rotating mechanism is connected with the rotating shaft.

Preferably, the rotating mechanism comprises a sliding block, the sliding block is connected with the first connecting rod in a rotating mode, a second connecting rod is connected to the side wall of the sliding block through a connecting block, one end, far away from the sliding block, of the second connecting rod is connected with a third connecting rod in a rotating mode, and one end, far away from the second connecting rod, of the third connecting rod is connected with the rotating shaft.

Preferably, the first connecting rod is an L-shaped connecting rod.

Preferably, still be connected with the second backup pad on the first backup pad inner wall, be connected with the guide bar on the second backup pad lateral wall, the one end that the second backup pad was kept away from to the guide bar passes the slider and connects on first backup pad inner wall.

Preferably, the crank connecting rod mechanism, the rotating mechanism and the clamping jaws are symmetrically provided with two groups.

Preferably, the top wall of the fixing plate is provided with a positioning groove, the bottom wall of the temperature measuring instrument body is connected with a positioning block, and the positioning groove is matched with the positioning block.

Compared with the related art, the non-contact infrared thermal imaging temperature measurement system provided by the invention has the following beneficial effects:

1. when the non-contact infrared thermal imaging temperature measuring system is used, a thermometer body is placed on a fixed plate, a positioning block connected to the bottom of the thermometer body is inserted into a positioning groove in a matching manner, so that the thermometer body is initially placed on the fixed plate, a motor is started to drive a rotating disc connected to the output end of the motor to rotate, a first connecting rod connected to the outer wall of the rotating disc is further driven to rotate, a second supporting plate and a guide rod are arranged, a sliding block is connected to the outer wall of the guide rod, the sliding block connected with the first connecting rod is driven to slide to the second supporting plate along the guide rod when the first connecting rod rotates, a second connecting rod connected to the side wall of the sliding block is further driven to rotate, a third connecting rod is driven to rotate, a rotating shaft connected with the third connecting rod is further driven to rotate, and a clamping jaw connected with the rotating shaft is driven to rotate, and then make the jack catch act on the locating piece of thermoscope body sub-unit connection, and play certain tight fixed effect of clamp to the locating piece, through crank link mechanism, slewing mechanism and jack catch all symmetry are provided with two sets ofly, and then rotate simultaneously when the rolling disc, then can drive two sets of crank link mechanism, slewing mechanism and jack catch rotate simultaneously, thereby stabilize effectual clamp positioning to the thermoscope body of placing on the fixed plate, thereby effectual fixing the thermoscope body on the fixed plate is stable, thereby effectually avoid leading to the thermoscope body to take place to rock when the support frame bumps, and lead to the condition that the thermoscope body takes place to drop, cause the damage, and then the effectual security performance that improves the device when using.

2. This infrared thermal imaging temperature measurement system of non-contact, through being provided with the telescopic link, and then can be through highly adjusting the telescopic link to highly adjusting the thermoscope body, and then being convenient for measure the not measuring object of co-altitude, thereby improving the device's practicality, and simple structure, convenient to use, this telescopic link can adopt the telescopic link of IP1200 or XINBO089 model.

The invention provides a non-contact infrared thermal imaging temperature measurement system which is simple in structure and convenient to use, can effectively fix a temperature measurement instrument body on a support frame, improves the safety performance of the device in use, further effectively reduces the labor intensity of workers, and is simple to operate.

Drawings

FIG. 1 is a schematic structural diagram of a non-contact infrared thermal imaging temperature measurement system according to a preferred embodiment of the present invention;

FIG. 2 is a top view of a crank link mechanism of the non-contact infrared thermal imaging temperature measurement system provided by the present invention;

FIG. 3 is a first schematic structural diagram of a crank link mechanism of the non-contact infrared thermal imaging temperature measurement system provided by the invention;

FIG. 4 is a second schematic structural diagram of a crank link mechanism of the non-contact infrared thermal imaging temperature measurement system provided by the invention;

FIG. 5 is an enlarged view of portion A of FIG. 4 of the non-contact infrared thermal imaging temperature measurement system provided by the present invention.

Reference numbers in the figures: 1. a fixing plate; 101. a cavity; 2. a thermometer body; 201. positioning blocks; 3. a first support plate; 301. a rib plate; 302. a motor; 303. a first link; 304. a slider; 305. connecting blocks; 306. a second link; 307. a third link; 308. a rotating shaft; 309. a claw; 310. rotating the disc; 4. a telescopic rod; 401. a base; 5. a second support plate; 501. a guide rod.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 in combination, wherein fig. 1 is a schematic structural diagram of a non-contact infrared thermal imaging temperature measurement system according to a preferred embodiment of the present invention; FIG. 2 is a top view of a crank link mechanism of the non-contact infrared thermal imaging temperature measurement system provided by the present invention; FIG. 3 is a first schematic structural diagram of a crank link mechanism of the non-contact infrared thermal imaging temperature measurement system provided by the invention; FIG. 4 is a second schematic structural diagram of a crank link mechanism of the non-contact infrared thermal imaging temperature measurement system provided by the invention; FIG. 5 is an enlarged view of portion A of FIG. 4 of the non-contact infrared thermal imaging temperature measurement system provided by the present invention.

The utility model provides an infrared thermal imaging temperature measurement system of non-contact includes fixed plate 1 and thermoscope body 2, thermoscope body 2 is connected on fixed plate 1, there is cavity 101 in the inside division of fixed plate 1, be connected with first backup pad 3 on the cavity 101 inner wall, be connected with floor 301 on the 3 inner walls of first backup pad, it is connected with crank link mechanism to rotate on the floor 301 diapire, the one end that floor 301 was kept away from to crank link mechanism is connected with axis of rotation 308, the one end that crank link mechanism was kept away from to axis of rotation 308 is passed fixed plate 1 and is connected with jack catch 309, and jack catch 309 slides with 1 roof of fixed plate and links to each other, be connected with motor 302 on the inside diapire of cavity 101, motor 302's output and crank link mechanism are fixed continuous, be connected with telescopic link.

The crank-link mechanism comprises a rotary disc 310, the rotary disc 310 is rotatably connected to the bottom wall of the rib plate 301, and the bottom wall of the rotary disc 310 is fixedly connected with the motor 302.

The outer wall of the rotating disc 310 is connected with a first connecting rod 303, one end of the first connecting rod 303, which is far away from the rotating disc 310, is connected with a rotating mechanism, and one end of the rotating mechanism, which is far away from the first connecting rod 303, is connected with a rotating shaft 308.

The rotating mechanism comprises a sliding block 304, the sliding block 304 is rotatably connected with the first connecting rod 303, a second connecting rod 306 is connected to the side wall of the sliding block 304 through a connecting block 305, a third connecting rod 307 is rotatably connected to one end, far away from the sliding block 304, of the second connecting rod 306, and one end, far away from the second connecting rod 306, of the third connecting rod 307 is connected with a rotating shaft 308.

The first link 303 is specifically an L-shaped link.

The inner wall of the first supporting plate 3 is also connected with a second supporting plate 5, the side wall of the second supporting plate 5 is connected with a guide rod 501, and one end, far away from the second supporting plate 5, of the guide rod 501 penetrates through the sliding block 304 and is connected to the inner wall of the first supporting plate 3.

Two groups of crank link mechanisms, rotating mechanisms and clamping jaws 309 are symmetrically arranged.

The top wall of the fixing plate 1 is provided with a positioning groove, the bottom wall of the thermodetector body 2 is connected with a positioning block 201, and the positioning groove is matched with the positioning block 201. A

When in use, the thermometer body 2 is placed on the fixing plate 1, and the positioning block 201 connected to the bottom of the thermometer body is inserted into the positioning groove, so that the thermometer body 2 is initially placed on the fixing plate 1, then the motor 302 is started to drive the rotating disc 310 connected to the output end of the motor to rotate, and further drive the first connecting rod 303 connected to the outer wall of the rotating disc 310 to rotate, through the arrangement of the second supporting plate 5 and the guide rod 501, and the sliding block 304 is connected to the outer wall of the guide rod 501, so that when the first connecting rod 303 rotates, the sliding block 304 connected to the first connecting rod 303 is driven to slide to the second supporting plate 5 along the guide rod 501, and further the second connecting rod 306 connected to the side wall of the sliding block 304 is driven to rotate, so that the third connecting rod 307 is driven to rotate, and further the rotating shaft 308 connected to the third connecting rod 307 is driven to rotate, and further the clamping jaws 309 connected to the, and then make the jack catch 309 act on the locating piece 201 of thermoscope body 2 sub-unit connection, and play certain effect of pressing from both sides tight fixedly to locating piece 201, through crank link mechanism, slewing mechanism and jack catch 309 are all provided with two sets ofly symmetrically, and then can drive two sets of crank link mechanism when rolling disc 310) rotates, slewing mechanism and jack catch 309 rotate simultaneously, thereby carry out stable effective clamping location to the thermoscope body 2 of placing on fixed plate 1, thereby effectual stable the fixing on fixed plate 1 with thermoscope body 2, thereby effectual avoiding leading to thermoscope body 2 to take place to rock when the support frame bumps, and lead to the condition that thermoscope body 2 takes place to drop, cause the damage, and then the security performance when effectual improvement device uses.

Through being provided with telescopic link 4, and then can be through highly adjusting telescopic link 4 to highly adjusting thermoscope body 2, and then be convenient for measure the measuring object of co-altitude not, thereby improve the device's practicality, and simple structure, convenient to use, this telescopic link 4 can adopt the telescopic link of models such as IP1200 or XINBO 089.

Compared with the prior art, the non-contact infrared thermal imaging temperature measurement system provided by the invention has the beneficial effects of simple structure, convenience in use, capability of effectively fixing the temperature measurement instrument body on the support frame, improvement of the safety performance of the device in use, further effective reduction of the labor intensity of workers, and simplicity in operation.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. The utility model provides a non-contact infrared thermal imaging temperature measurement system, includes fixed plate and thermoscope body, this body coupling of thermoscope is on fixed plate (1), its characterized in that, the cavity has been dug to the fixed plate inside, be connected with first backup pad on the cavity inner wall, be connected with the floor on the first backup pad inner wall, it is connected with crank link mechanism to rotate on the floor diapire, the one end that crank link mechanism kept away from the floor is connected with the axis of rotation, the one end that crank link mechanism was kept away from to the axis of rotation passes the fixed plate and is connected with the jack catch, just the jack catch slides with the fixed plate roof and links to each other, be connected with the motor on the inside diapire of cavity, the output of motor is fixed continuous with crank link mechanism, be connected with the telescopic link.

2. The system of claim 1, wherein the crank mechanism comprises a rotating disc, the rotating disc is rotatably connected to the bottom wall of the rib plate, and the bottom wall of the rotating disc is fixedly connected to the motor.

3. The system of claim 2, wherein a first link is connected to the outer wall of the rotating disk, and a rotating mechanism is connected to an end of the first link remote from the rotating disk, and an end of the rotating mechanism remote from the first link is connected to the rotating shaft.

4. The system according to claim 3, wherein the rotation mechanism comprises a slider, the slider is rotatably connected to the first link, a second link is connected to a side wall of the slider through a connecting block, a third link is rotatably connected to an end of the second link away from the slider, and an end of the third link away from the second link is connected to the rotation shaft.

5. The system according to claim 3 or 4, wherein the first link is an L-shaped link.

6. The system of claim 4, wherein a second supporting plate is further connected to the inner wall of the first supporting plate, a guide rod is connected to the side wall of the second supporting plate, and an end of the guide rod, which is far away from the second supporting plate, passes through the sliding block and is connected to the inner wall of the first supporting plate.

7. The system of claim 6, wherein the crank mechanism, the rotating mechanism and the jaws are symmetrically arranged in two groups.

8. The system of claim 1, wherein a positioning groove is cut on the top wall of the fixing plate, a positioning block is connected to the bottom wall of the thermometer body, and the positioning groove and the positioning block are matched.

Images