CN113804307A - Forehead temperature gun with remote detection function - Google Patents

Abstract

The invention discloses a forehead temperature gun with a remote detection function, which comprises a replacing device for automatically replacing temperature measuring ranges, wherein a plurality of thermal inductance receivers with temperature ranges are arranged on the replacing device, the thermal inductance receivers are automatically adjusted, a dust cleaning device for dissipating heat and cleaning dust in the forehead temperature gun is arranged on the side edge of the replacing device, an elastic belt is arranged on the dust cleaning device, the elastic belt drives fan blades to rotate to dissipate heat when rotating, a temperature measuring device for monitoring temperature is arranged in the replacing device, a screw rod is arranged on the temperature measuring device, and a first focusing plate and a second focusing plate are adjusted through the screw rod to automatically adjust the temperature measuring distance of the temperature measuring device.

Description

Forehead temperature gun with remote detection function

Technical Field

The invention relates to the technical field of forehead temperature guns, in particular to a forehead temperature gun with a remote detection function.

Background

The forehead temperature gun (infrared thermometer) is designed aiming at the forehead temperature measuring reference of human body, and is very simple and convenient to use. The temperature can be accurately measured in 1 second without laser points, potential damage to eyes is avoided, the human skin is not required to be contacted, cross infection is avoided, one-key temperature measurement is performed, and influenza is checked. The system is suitable for family users, hotels, libraries and large enterprises and public institutions, can be used in hospitals, schools, customs, airports and other comprehensive places, and can be provided for medical staff to use in clinics.

The invention with the application number of CN202010652303.7 discloses a forehead thermometer, which comprises a shell; a cavity is arranged in the shell; an induction channel for the measured object to pass through is arranged in the shell, and the induction channel is respectively communicated with the cavity and the external cavity; the cavity is internally provided with an induction module for acquiring the heat radiation of a measured object, a display module for displaying the temperature of the measured object, a power supply module and a control module for controlling the working state of the power supply module; the induction module is in communication connection with the display module; the induction module, the display module and the control module are all electrically connected with the power module. The temperature measuring device has the advantages of simple structure and light weight, but cannot carry out remote temperature detection, and the problems of inaccurate detection result and the like can occur when the temperature is detected remotely.

Disclosure of Invention

The invention aims to solve the technical problem that the function of freely changing the distance and the distance for temperature measurement is provided aiming at the defects in the prior art, and the technical problem that the temperature can only be measured nearby in the prior art is solved.

The technical scheme adopted by the invention for solving the technical problems is as follows: a forehead temperature gun with a remote detection function comprises a replacing device, wherein a dust cleaning device is arranged on the side edge of the replacing device, a temperature measuring device is arranged in the replacing device, the replacing device comprises a shell, a balancing weight is arranged on the side edge of the shell, a mounting frame is arranged at the lower end of the shell, and a switching mechanism is arranged in the shell; the dust cleaning device comprises a barrel shell, an air dispersing frame is arranged in the barrel shell, a motor III is arranged in the air dispersing frame, and a ventilation mechanism is arranged at the front end of the motor III; the temperature measuring device comprises a fixed support, a test shell is arranged in the fixed support, a focusing mechanism is arranged in the test shell, a bidirectional moving mechanism is arranged on the side edge of the focusing mechanism, the distance range of the test is changed through the focusing mechanism, and the thermal inductance receivers with different temperature ranges are exchanged through an exchanging device, so that the temperature measuring device can be suitable for various scenes.

Further, the switching mechanism comprises a support installed on the shell, a first rotating wheel and a first motor are arranged on the side edge of the support, the first motor is connected with the first rotating wheel through a belt, a thermal inductance receiver is arranged on the support in a sliding mode, the thermal inductance receiver is fixedly installed on the belt, a laser lamp is arranged on the side edge of the support, a reflecting plate is arranged at the upper end of the laser lamp, the reflecting plate is installed on the support in a rotating mode, a second motor is arranged on the side edge of the reflecting plate, and the position of the thermal inductance receiver is automatically changed.

Furthermore, the number of the thermal receivers is at least one, and when a plurality of thermal receivers are arranged, the temperature ranges detected by the thermal receivers are different, so that the diversity of the detection function is increased.

Furthermore, the ventilation mechanism comprises an elastic belt arranged on the motor III, one end of the elastic belt is arranged on the motor III, the other end of the elastic belt is provided with a fan blade, a rotating frame is arranged on the fan blade, and the fan blade is used for dissipating heat of the device.

Furthermore, the upper end of the elastic belt is provided with a pasting layer, dust in the air is adsorbed when the fan blades radiate, and the service life of the device is prolonged.

Furthermore, the focusing mechanism comprises a lead screw installed inside the test shell, a first focusing plate and a second focusing plate are arranged on the lead screw in a sliding mode, a side support is arranged on the fixed support, an adjusting ring is arranged on the outer side of the test shell in a sliding mode, an adjusting disc is arranged on the side edge of the adjusting ring, the adjusting disc is installed on the shell in a rotating mode, and the adjusting ring is rotated through the adjusting disc.

Further, the bidirectional moving mechanism comprises a fourth motor arranged on the side of the test shell, a first gear is arranged at the front end of the fourth motor, a rotating column is arranged at the front end of the first gear, the rotating column is connected with the lead screw, a second gear is arranged on the side of the rotating column, the second gear is meshed with the rotating column, a rotating shell is arranged on the two sides of the gear, and an adjusting knob is fixedly arranged at the rear end of the rotating shell.

Furthermore, the rotating shell is internally provided with a rotating inner disc, the rotating inner disc is provided with a first spring and a second spring, the first spring is provided with a first ejection moving column, the second spring is provided with a second ejection moving column, the front end of the second gear is fixedly provided with a rotating buckle, the rotating buckle is inserted into the first ejection moving column and the second ejection moving column, and when the motor rotates for adjustment, the adjusting knob does not rotate.

Furthermore, the first jacking column and the second jacking column are in contact with the inside of the rotating shell and are subjected to friction force, and the adjusting ring is attached to the adjusting knob.

Compared with the prior art, the invention has the beneficial effects that: (1) according to the forehead temperature gun with the remote detection function, the arranged exchange device can automatically replace thermal receivers in different ranges when the external temperature is detected, so that the working application range of the forehead temperature gun is enlarged; (2) according to the forehead temperature gun with the remote detection function, the dust cleaning device is arranged, so that heat is dissipated inside the forehead temperature gun during the working process of the forehead temperature gun, dust in the air is adsorbed by the adhesive layer on the elastic belt, and the service life of the forehead temperature gun is prolonged; (3) according to the forehead temperature gun with the remote detection function, the temperature measuring device is arranged, so that the focal length can be changed when the remote temperature is measured, the temperature detection range is narrowed, and the temperature detection accuracy is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic structural diagram of a transposing device of the present invention.

Fig. 3 is a schematic view of a partial structure of the turning device of the present invention.

FIG. 4 is a schematic view of the dust cleaning device of the present invention.

FIG. 5 is a schematic view of a partial structure of the dust removing device of the present invention.

FIG. 6 is a schematic structural diagram of a temperature measuring device according to the present invention.

FIG. 7 is a schematic view of a partial structure of a temperature measuring device according to the present invention.

FIG. 8 is a schematic view of a partial structure of a temperature measuring device according to the present invention.

FIG. 9 is a third schematic view of a partial structure of the temperature measuring device of the present invention.

Detailed Description

In the following description of the present invention, it is to be noted that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; the term "connecting" may be directly or indirectly connected through an intermediate, and those skilled in the art can understand the specific meaning of the above terms in the present invention in a specific case.

The invention will be further described with reference to the drawings and illustrative embodiments, which are provided herein to illustrate and not to limit the invention. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

Example (b): referring to fig. 1, the forehead temperature gun with remote detection function comprises an exchanging device 1 capable of automatically changing temperature measuring range, a dust cleaning device 2 for heat dissipation and dust cleaning in the forehead temperature gun with remote temperature detection function is arranged on the side edge of the exchanging device 1, and a temperature measuring device 3 for temperature detection is arranged in the exchanging device 1.

Referring to fig. 2 and 3, the exchanging device 1 includes a housing 101, a counterweight 102 for counterweight is disposed on a side of the housing 101, a mounting frame 103 is disposed at a lower end of the housing 101, the device of the present invention is fixed on a support through the mounting frame 103, a support 104 is disposed inside the housing 101, a thermal receiver 106 is slidably mounted on the support 104, a first motor 105 and a first rotating wheel 110 are disposed on a side of the support 104, the first motor 105 and the first rotating wheel 110 are connected through a belt 111, the thermal receiver 106 is mounted on the belt 111, when the first motor 105 drives the belt 111 to rotate, the thermal receiver 106 and the belt 111 slide on the support 104 together, a laser lamp 107 is fixedly mounted at an upper end of the support 104, a reflective plate 108 is disposed at an upper end of the laser lamp 107, the reflective plate 108 is rotatably mounted on the support 104, a second motor 109 is disposed on a side of the reflective plate 108, the second motor 109 drives the reflective plate 108 to rotate, so that the reflective plate 108 reflects rays emitted by the laser lamp 107, the detection position can be conveniently determined, the bracket 104 is provided with a plurality of heat sensing receivers 106, and the heat sensing receivers 106 can be automatically replaced due to different detection ranges.

Referring to fig. 5 and 6, the dust cleaning device 2 includes a barrel casing 201, an air dispersing frame 203 is fixedly disposed inside the barrel casing 201, a motor iii 202 is disposed inside the air dispersing frame 203, the motor iii 202 drives an elastic belt 204 to rotate, one end of the elastic belt 204 is mounted on the motor iii 202, the other end of the elastic belt 204 is provided with a fan blade 206, when the motor iii 202 drives the elastic belt 204 to rotate, the elastic belt 204 drives the fan blade 206 to rotate, the elastic belt 204 adheres dust in air, and the fan blade 206 dissipates heat when rotating.

Referring to fig. 7, 8 and 9, the temperature measuring device 3 includes a fixing bracket 304, the fixing bracket 304 is fixedly installed on the exchanging device 1, a testing housing 301 is installed inside the fixing bracket 304, an adjusting ring 319 is rotatably installed outside the testing housing 301, an adjusting disc 320 is installed outside the adjusting ring 319, the adjusting ring 319 is driven to rotate when the adjusting disc 320 rotates, a screw 305 is rotatably installed inside the testing housing 301, a first focusing plate 302 and a second focusing plate 303 are installed on the screw 305, when the screw 305 rotates, the screw 305 drives the first focusing plate 302 and the second focusing plate 303 to slide on the testing housing 301, a rotating column 309 is installed at the rear end of the screw 305, a first gear 308 is installed at the rear end of the rotating column 309, a fourth motor 307 is installed at the rear end of the first gear 308, the fourth motor 307 drives the first gear 308 to rotate with the rotating column 309, the rotating column 309 drives the screw to rotate, and the first gear 308 drives the second gear 310 installed at the side edge of the first gear 308 to rotate, the first gear 308 is meshed with the second gear 310, the front end of the second gear 310 is provided with a rotating buckle 313, the front end of the second gear 310 is provided with a rotating shell 311, the rear end of the rotating shell 311 is provided with an adjusting knob 312, the adjusting knob 312 is fixedly connected with the rotating shell 311, a rotating inner disc 314 is arranged in the rotating shell 311, a first spring 316 and a second spring 318 are arranged on the rotating inner disc 314, the upper end of the second spring 318 is provided with a first ejection column 315, the upper end of the second spring 318 is provided with a second ejection column 317, when the first gear 308 drives the second gear 310 to rotate, the second gear 310 drives the rotating buckle 313 to rotate, the rotating buckle 313 pushes the first ejection column 315 to move, the first ejection column 315 drives the first spring 316 to press down, the first spring 316 pushes the rotating inner disc 314 to rotate, and the second ejection column 317 and the rotating shell 311 have friction force, the second ejection column 317 is pressed, and the second ejection column 317 rotates in the rotating shell 311 without driving the rotating shell 311 to rotate, when manual adjustment is performed, the adjusting disc 320 is rotated, the adjusting disc 320 drives the adjusting ring 319 to rotate, the adjusting ring 319 drives the adjusting knob 312 to rotate, the adjusting knob 312 drives the rotating shell 311 to rotate, when the rotating shell 311 is rotated counterclockwise, the rotating shell 311 drives the second ejection column 317 to rotate, the second ejection column 317 cannot press the second spring 318, after the rotating inner disc 314 starts to rotate, the first ejection column 315 ejects the rotating buckle 313 to rotate, the rotating buckle 313 drives the second gear 310 to rotate, the second gear 310 drives the first gear 308 to rotate, and the first gear 308 drives the rotating column 309 and the lead screw 305 to rotate, so that manual adjustment is achieved.

The working principle is as follows: when the device works, the mounting frame 103 is fixed on the bracket, a counterweight is added into the counterweight block 102 to keep the device in balance, the belt 111 is driven to move by the motor I105 and the rotating wheel I110, the belt 111 drives the thermal receiver 106 to move, when the exchange device 1 reaches a proper temperature measurement range, the belt 111 stops driving the thermal receiver 106 to move, when the long-distance temperature measurement cannot be carried out, the laser lamp 107 is turned on to enable the laser lamp 107 to radiate rays to the reflecting plate 108, the reflecting plate 108 reflects the temperature measurement points, the angle of the reflecting plate 108 can be adjusted by the motor II 109 to enable the measurement position to be more accurate, when the device starts to work, the motor III 202 drives the elastic belt 204 to rotate, the elastic belt 204 drives the fan blades 206 to rotate, the elastic belt 204 absorbs dust in the air, and the fan blades 206 are driven by the elastic belt 204 to rotate, the fan blades 206 radiate heat inside the device, when the device of the invention needs to change the detection range, the motor four 307 drives the gear one 308 to rotate, the gear one 308 drives the rotating column 309 to rotate, the rotating column 309 drives the screw rod 305 to rotate, the screw rod 305 drives the focusing plate two 303 and the focusing plate two 303 to slide on the test shell 301, simultaneously the gear one 308 drives the gear two 310 to rotate, the gear two 310 drives the rotating buckle 313 to rotate, the rotating buckle 313 pushes the top moving column one 315 to move, the top moving column one 315 drives the spring one 316 to press down, the spring one 316 pushes the rotating inner disk 314 to rotate, because the top moving column two 317 and the rotating shell 311 have friction force, the top moving column two 317 is pressed, the top moving column two 317 rotates in the rotating shell 311 without driving the rotating shell 311 to rotate, when manually adjusting, the adjusting disk 320 is rotated, the adjusting disk 320 drives the adjusting ring 319 to rotate on the test shell 301, and the adjusting knob 312 is driven to rotate when the test shell 301 rotates, the adjusting knob 312 drives the rotating shell 311 to rotate, when the rotating shell 311 rotates clockwise, the rotating shell 311 drives the first ejection column 315 to rotate, the first ejection column 315 cannot press the first spring 316 at the moment, when the rotating shell 311 drives the first ejection column 315 to rotate, the second ejection column 317 drives the rotary buckle 313 to rotate, the rotary buckle 313 drives the second gear 310 to rotate, the second gear 310 drives the first gear 308 to rotate, the first gear 308 drives the rotating column 309 to rotate, the rotating column 309 drives the screw rod 305 to rotate, the screw rod 305 drives the first focusing plate 302 and the second focusing plate 303 to slide on the test shell 301, and the function of manual adjustment can be performed while automatic adjustment is achieved.

Claims (9)

1. The utility model provides a forehead temperature rifle with remote detection function, includes the exchange device, the exchange device side is provided with the dust cleaning device, the inside temperature measuring device that is provided with of exchange device, its characterized in that: the exchange device comprises a shell, wherein a balancing weight is arranged on the side edge of the shell, a mounting frame is arranged at the lower end of the shell, and a switching mechanism is arranged in the shell; the dust cleaning device comprises a barrel shell, an air dispersing frame is arranged in the barrel shell, a motor III is arranged in the air dispersing frame, and a ventilation mechanism is arranged at the front end of the motor III; the temperature measuring device comprises a fixed support, a test shell is arranged in the fixed support, a focusing mechanism is arranged in the test shell, and a bidirectional moving mechanism is arranged on the side edge of the focusing mechanism.

2. The forehead temperature gun with remote detection function according to claim 1, wherein: the switching mechanism comprises a support installed on a shell, a first rotating wheel and a first motor are arranged on the side edge of the support, the first motor and the first rotating wheel are connected through a belt, a thermal inductance receiver is arranged on the support in a sliding mode, the thermal inductance receiver is fixedly installed on the belt, a laser lamp is arranged on the side edge of the support, a reflecting plate is arranged at the upper end of the laser lamp, the reflecting plate is installed on the support in a rotating mode, and a second motor is arranged on the side edge of the reflecting plate.

3. The forehead temperature gun with remote detection function according to claim 2, wherein: the number of the thermal receivers is at least one.

4. The forehead temperature gun with remote detection function according to claim 1, wherein: the ventilation mechanism comprises an elastic belt arranged on the motor III, one end of the elastic belt is arranged on the motor III, the other end of the elastic belt is provided with a fan blade, and a rotating frame is arranged on the fan blade.

5. The forehead temperature gun with remote detection function according to claim 4, wherein: the upper end of the elastic belt is provided with an adhesive layer.

6. The forehead temperature gun with remote detection function according to claim 1, wherein: the focusing mechanism comprises a lead screw installed inside a test shell, a first focusing plate and a second focusing plate are arranged on the lead screw in a sliding mode, a side support is arranged on a fixed support, an adjusting ring is arranged on the outer side of the test shell in a sliding mode, an adjusting disc is arranged on the side edge of the adjusting ring, and the adjusting disc is installed on the shell in a rotating mode.

7. The forehead temperature gun with remote detecting function according to claim 6, wherein: the bidirectional moving mechanism comprises a motor IV arranged on the side edge of the test shell, a gear I is arranged at the front end of the motor IV, a rotating column is arranged at the front end of the gear I and connected with a screw rod, a gear II is arranged on the side edge of the rotating column and meshed with the rotating column, a rotating shell is arranged on the two sides of the gear, and an adjusting knob is fixedly arranged at the rear end of the rotating shell.

8. The forehead temperature gun with remote detection function according to claim 7, wherein: the rotating shell is internally provided with a rotating inner disc, the rotating inner disc is provided with a first spring and a second spring, the first spring is provided with a first ejection column, the second spring is provided with a second ejection column, the front end of the second gear is fixedly provided with a rotating buckle, and the rotating buckle is inserted into the first ejection column and the second ejection column.

9. The forehead temperature gun with remote detection function according to claim 8, wherein: the first jacking column and the second jacking column are in contact with the inside of the rotating shell and are subjected to friction force, and the adjusting ring is attached to the adjusting knob.

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