CN214200379U - Human body temperature measuring device - Google Patents

Human body temperature measuring device Download PDF

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Publication number
CN214200379U
CN214200379U CN202022538251.9U CN202022538251U CN214200379U CN 214200379 U CN214200379 U CN 214200379U CN 202022538251 U CN202022538251 U CN 202022538251U CN 214200379 U CN214200379 U CN 214200379U
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China
Prior art keywords
bearing
temperature measurement
support
cleaning belt
driving
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CN202022538251.9U
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Chinese (zh)
Inventor
李杨
史洪波
林淼
陈志列
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Shenzhen Yanxiang Smart Technology Co ltd
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EVOC Intelligent Technology Co Ltd
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Priority to CN202022538251.9U priority Critical patent/CN214200379U/en
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Abstract

The utility model provides a human temperature measuring device, include: the device comprises an infrared temperature measurement module, a bearing support, a cleaning belt and a driving assembly; the bearing support comprises: the bearing support is used for bearing a part needing temperature measurement through the bearing surface, the infrared temperature measurement module is positioned on one side of the bearing support, and the infrared temperature measurement module is used for measuring the temperature of the part borne on the bearing surface; the driving assembly is connected with two ends of the cleaning belt and used for driving the cleaning belt to move on the bearing surface. The utility model discloses can guarantee infrared thermometer's good sanitary condition.

Description

Human body temperature measuring device
Technical Field
The utility model relates to a temperature measuring device technical field especially relates to a human temperature measuring device.
Background
In a consulting room, when a patient has fever, the body temperature is measured by using a thermometer, but the method needs a long period of measuring time, and the patient can use the method after alcohol disinfection, so that the method is time-consuming and has certain sanitary problems.
Although the existing infrared thermometer can quickly measure the body temperature of a measurer, the existing infrared thermometer is mostly handheld, so that a doctor needs to hold the infrared thermometer to measure the temperature of the patient, after a result is given, the doctor needs to put the infrared thermometer down, then the computer is operated to input the body temperature of the patient into the system, the operation process is complex, meanwhile, the part for measuring the temperature is easy to contact with the temperature measuring part of the patient, and the sanitary problem cannot be guaranteed.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem, the utility model provides a human temperature measuring device through setting up clean area and drive assembly, can continuously update the clean area on the loading end to guaranteed infrared thermometer's good sanitary condition.
The utility model provides a human temperature measuring device, include: the device comprises an infrared temperature measurement module, a bearing support, a cleaning belt and a driving assembly;
the bearing support comprises: the bearing support is used for bearing a part needing temperature measurement through the bearing surface, the infrared temperature measurement module is positioned on one side of the bearing support, and the infrared temperature measurement module is used for measuring the temperature of the part borne on the bearing surface;
the driving assembly is connected with two ends of the cleaning belt and used for driving the cleaning belt to move on the bearing surface.
Optionally, a storage cavity is formed inside the bearing support, and the driving assembly is fixedly disposed in the storage cavity.
Optionally, the drive assembly comprises: the driving device comprises a first rotating shaft, a second rotating shaft, a first driving piece and a second driving piece;
the first driving piece is used for driving the first rotating shaft to rotate, the second driving piece is used for driving the second rotating shaft to rotate, one end of the cleaning belt is fixedly connected with the first rotating shaft, and the other end of the cleaning belt is fixedly connected with the second rotating shaft.
Optionally, the human body temperature measurement device further includes: a switch control module;
the switch control module includes: the device comprises a bearing block, a trigger block, a bearing touch switch, a compression spring and a support plate;
the trigger block, the bearing touch switch, the compression spring and the support plate are all located in the storage cavity, the compression spring is located above the support plate, the bearing block is located above the compression spring, the bearing block penetrates through the bearing surface and is connected with the bearing support in a sliding mode, the bottom end of the bearing block is abutted against the compression spring, the trigger block is fixedly connected with the bearing block, and the bearing touch switch is electrically connected with the first driving piece or/and the second driving piece;
when the bearing support bears the part needing temperature measurement, the trigger block is contacted with the bearing touch switch;
when the part leaves the bearing support, the trigger block is separated from the bearing touch switch;
when the trigger block is contacted with the bearing touch control switch and then separated, the bearing touch control switch controls the first driving piece or/and the second driving piece to be started.
Optionally, the load bearing support further comprises: positioning the surface;
the positioning surface is positioned above the bearing surface and positioned on one side of the bearing surface, which is far away from the infrared temperature measurement module, and an included angle is formed between the positioning surface and the bearing surface in a vertical plane;
the positioning surface is used for limiting the relative distance between the part borne on the bearing surface and the infrared temperature measurement module.
Optionally, the cleaning belt is attached to one side, facing the infrared temperature measurement module, of the positioning surface, and the driving assembly is further used for driving the cleaning belt to be attached to move on the positioning surface.
Optionally, the bearing support is further fixedly provided with at least one guide shaft, and the at least one guide shaft is used for changing the moving direction of the cleaning belt between the first rotating shaft and the second rotating shaft.
Optionally, a liquid storage tank is arranged in the storage cavity, the liquid storage tank is fixedly connected with the bearing support, and the liquid storage tank is used for containing disinfectant;
the driving assembly is further used for driving the cleaning belt to pass through the liquid storage tank so as to sterilize the cleaning belt.
Optionally, a liquid scraping plate is arranged in the storage cavity, one end of the liquid scraping plate is pivoted with the liquid storage tank, and the other end of the liquid scraping plate is abutted to the cleaning belt;
and a compression spring is arranged on one side of the liquid scraping plate, one end of the compression spring is fixedly connected with the bearing support or the liquid storage tank, and the other end of the compression spring is fixedly connected with the liquid scraping plate.
Optionally, be provided with the heater bar in the storage cavity, the heater bar with bear support fixed connection, the cleaning tape with the heater bar is attached mutually, the heater bar is used for carrying out the drying process to the cleaning tape.
The embodiment of the utility model provides a human temperature measuring device is through setting up clean area and drive assembly, and wherein, drive assembly can drive the clean area removes to can continuously update the clean area on the loading end, and then when making to place the position on bearing the support, can both contact with new clean area, guaranteed infrared thermometer's good sanitary condition.
Drawings
FIG. 1 is a block diagram of an infrared temperature measuring device according to an embodiment of the present disclosure, with a cleaning tape omitted;
FIG. 2 is a cross-sectional view of an infrared temperature measuring device of an embodiment of the present application in an unused state and with the cleaning tape omitted;
FIG. 3 is an enlarged view of a portion of FIG. 2 at A;
FIG. 4 is a cross-sectional view of a load bearing pedestal according to an embodiment of the present application;
FIG. 5 is a side view of an infrared temperature measurement device according to an embodiment of the present application in an unused state.
Reference numerals
1. An infrared temperature measurement module; 11. an infrared temperature measurement induction head; 12. a housing; 2. a temperature measuring support; 21. a first positioning groove; 22. a second positioning groove; 23. a guide groove; 24. a second slide hole; 25. chamfering; 26. a storage chamber; 261. a storage opening; 262. storing the main chamber; 27. a housing chamber; 28. a slot; 3. a bearing support; 31. a bearing surface; 32. positioning the surface; 33. a storage cavity; 4. a switch control module; 41. a bearing block; 42. A trigger block; 43. carrying a touch switch; 44. a compression spring; 45. a support plate; 5. a position control assembly; 51. A clamping unit; 511. a clamping spring; 512. a bit block; 52. a release unit; 521. a button; 5211. a pressing part; 5212. a pushing part; 522. a return spring; 53. a pushing unit; 531. a tension spring; 532. pushing the plate; 5321. a first slide hole; 6. a drive assembly; 61. a first rotating shaft; 62. a second rotating shaft; 63. a first driving member; 64. a second driving member; 71. a connecting member; 72. a cleaning belt; 73. elastic clamping of the beans; 74. a temperature measurement touch switch; 75. a coil spring; 76. a guide shaft; 77. a liquid storage tank; 78. a liquid scraping plate; 79. a compression spring; 80. a heating rod; 81. a closing plate; 82. a vent hole; 83. a display screen; 84. a sound playing hole; 85. a cushion pad; 86. a rubber pad; 87. a handle.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying 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.
The utility model provides an infrared temperature measuring device combines fig. 1, fig. 2 and fig. 4, and this infrared temperature measuring device mainly used carries out the temperature measurement to the wrist part of people, and this infrared temperature measuring device includes: the temperature measurement device comprises an infrared temperature measurement module 1, a temperature measurement support 2, a bearing support 3, a switch control module 4, a position control assembly 5, a cleaning belt 72 and a driving assembly 6.
Wherein, accuse position subassembly 5 with infrared temperature measurement module 1 is connected, storage chamber 26 has been seted up to temperature measurement support 2, infrared temperature measurement module 1 includes: the temperature measuring device comprises an infrared temperature measuring induction head 11 and a casing 12, wherein the infrared temperature measuring induction head 11 is fixedly connected with the casing 12, and the casing 12 is connected with the temperature measuring support 2 in a sliding manner along a first direction through the storage chamber 26; the infrared temperature measuring device further comprises: a first station and a second station; when the infrared temperature measurement module 1 is located at the first station, the position control assembly 5 is used for positioning the infrared temperature measurement induction head 11 in the storage chamber 26; when the infrared temperature measurement module 1 is located at the second station, the position control assembly 5 is used for positioning the infrared temperature measurement induction head 11 at the outer side of the temperature measurement support 2. Therefore, by adjusting the relative position relationship between the infrared temperature measurement module 1 and the temperature measurement support 2, the infrared temperature measurement module 1 is switched to move between the first station and the second station, and when the infrared temperature measurement module 1 is not used, the infrared temperature measurement module 1 can be moved to the first station, so that the infrared temperature measurement module 1 is stored in the temperature measurement support 2, and the infrared temperature measurement module 1 is protected; when infrared temperature measurement is needed, the infrared temperature measurement module 1 can be moved to the second station through the position control assembly 5, so that the infrared temperature measurement induction head measures the temperature of the wrist at the designated position.
Specifically, referring to fig. 2, the position control assembly 5 includes: a detent unit 51, a release unit 52, and a push unit 53. Wherein, the blocking unit 51 and the pushing unit 53 are both positioned in the storage chamber 26; the clamping unit 51 is used for fixing the infrared temperature measuring module 1 when the infrared temperature measuring module 1 is located at the first station or the second station; the releasing unit 52 is used for releasing the fixing of the clamping unit 51 on the infrared temperature measuring module 1 in the first station; the pushing unit 53 is configured to push the infrared temperature measurement module 1 to move to the second station when the releasing unit 52 releases the fixing of the clamping unit 51 to the infrared temperature measurement module 1 at the first station.
In the present embodiment, the pushing unit 53 includes: a telescoping spring 531 and a pusher plate 532. The push plate 532 is connected with the temperature measurement support 2 in a sliding mode along a first direction, the infrared temperature measurement module 1 is located above the push plate 532 and fixedly connected with the push plate 532, the extension spring 531 is arranged below the push plate 532, the bottom end of the extension spring 531 is fixedly connected with the temperature measurement support 2, and the top end of the extension spring 531 is fixedly connected with the push plate 532.
The blocking unit 51 can be disposed on the housing 12 or the push plate 532. Referring to fig. 3, in the present embodiment, the detent unit 51 is disposed on the push plate 532. Specifically, the blocking unit 51 includes: the side wall of the push plate 532 is provided with a first sliding hole 5321. The position-locking spring 511 is located in the first sliding hole 5321, and one end of the position-locking block 512 facing the position-locking spring 511 is connected with the push plate 532 in a sliding manner along the second direction through the first sliding hole 5321. Wherein the second direction intersects the first direction. In this embodiment, the first direction is a vertical direction, and the second direction is a horizontal direction. The left end of the blocking spring 511 is abutted to the blocking block 512, and the right end of the blocking spring 511 is abutted to the push plate 532.
The temperature measuring support 2 is provided with a first positioning groove 21 and a second positioning groove 22 along the first direction on the side wall of the storage chamber 26. In this embodiment, the first positioning groove 21 is located below the second positioning groove 22. Therefore, when the infrared temperature measurement module 1 is located at the first station, the left end of the clamping block 512 is inserted into the temperature measurement support 2 through the first positioning groove 21 along the horizontal direction under the action of the clamping spring 511, so that the push plate 532 cannot move upwards under the action of the telescopic spring 531. Similarly, when the infrared temperature measurement module 1 is located at the second station, the left end of the positioning block 512 is inserted into the temperature measurement support 2 through the second positioning groove 22 under the action of the positioning spring 511, so that the push plate 532 cannot move upward under the action of the extension spring 531.
In this embodiment, the outer surface of the temperature measuring support 2 is provided with a second sliding hole 24, and the second sliding hole 24 is communicated with the first positioning groove 21. The releasing unit 52 includes: a button 521 and a return spring 522. One end of the button 521 passes through the second sliding hole 24 and is connected with the temperature measuring support 2 in a sliding manner along the second direction through the first positioning groove 21, and the other end of the button 521 passes through the second sliding hole 24 and is located on the outer side of the temperature measuring support 2.
The button 521 includes: a pressing portion 5211 and a pushing portion 5212. The left end of the pressing portion 5211 is located outside the temperature measuring support 2, the right end of the pressing portion 5211 is fixedly connected to the left end of the pushing portion 5212, the right end of the pushing portion 5212 is connected to the temperature measuring support 2 in a sliding manner along the left-right direction through the second sliding hole 24, the return spring 522 is located on the right side of the pressing portion 5211, and the return spring 522 is used for pushing the pressing portion 5211 to move in a direction away from the pushing portion 5212 until the right end of the pressing portion 5211 abuts against the temperature measuring support 2 in the left-right direction. Therefore, when the infrared temperature measurement module 1 needs to move from the first station to the second station, the button 521 is only needed to be pressed on the outer side of the temperature measurement support 2, and the button 521 can push the clamping block 512 to move rightwards and separate from the first positioning groove 21, so that the push plate 532 pushes the infrared temperature measurement module 1 to move upwards under the action of the telescopic spring 531; when the infrared temperature measurement module 1 moves to the second station, the clamping block 512 is inserted into the temperature measurement support 2 through the second positioning groove 22 under the action of the clamping spring 511, so that the position of the infrared temperature measurement module 1 is fixed.
In this embodiment, the temperature measuring support 2 is provided with a guide groove 23 on the side wall of the storage chamber 26 along the up-down direction, the guide groove 23 is located between the first positioning groove 21 and the second positioning groove 22, two ends of the guide groove 23 are respectively communicated with the first positioning groove 21 and the second positioning groove 22, and the width of the guide groove 23 is adapted to the left end of the clamping block 512. Through setting up the guide way 23 can ensure that the screens piece 512 when breaking away from first constant head tank 21 accurate the sliding in second constant head tank 22.
Further, a chamfer 25 is provided at the junction of the second positioning slot 22 and the guide slot 23. The end surface of the position clamping block 512 facing the guide groove 23 is a curved surface. The chamfer 25 can facilitate the movement of the catch block 512 out of the second detent 22 and towards the first detent 21 by pressing the housing 12 downwards. The curved end surface of the retainer block 512 not only facilitates the separation of the retainer block 512 from the first positioning groove 21 or the second positioning groove 22, but also reduces the friction force applied to the retainer block 512 during the movement in the guide groove 23.
In an alternative embodiment, the position control assembly 5 comprises; an electric push rod. In the process of moving the infrared temperature measurement module 1, the infrared temperature measurement module 1 is driven to lift only by controlling the electric push rod, so that the switching between the first station and the second station can be realized.
In the present embodiment, the storage chamber 26 includes: a storage opening 261 and a storage main chamber 262. Deposit opening 261 with deposit main chamber 262 intercommunication, it sets up to deposit opening 261 the surface of temperature measurement support 2, it sets up to deposit main chamber 262 in temperature measurement support 2, it is less than to deposit opening 261 along the size of the interface of first direction deposit main chamber 262 along the size of the interface of first direction, infrared temperature measurement module 1 passes through deposit opening 261 with temperature measurement support 2 slides and is connected, push pedal 532 passes through deposit main chamber 262 with temperature measurement support 2 slides and is connected. A buffer pad 85 is fixedly disposed at an end of the storage main chamber 262 facing the storage opening 261. By defining the structure of the storage chamber 26, the push plate 532 can be prevented from driving the infrared temperature measurement module 1 to remove the temperature measurement support 2. The impact force between the top of the clamping block 512 and the temperature measuring support 2 when the clamping block 512 is inserted into the second positioning groove 22 can be reduced by arranging the buffer cushion 85, so that the service life of the clamping block 512 is prolonged.
With reference to fig. 4, the load-bearing support 3 comprises: a bearing surface 31 and a locating surface 32. The bearing surface 31 is the upper surface of the bearing support 3 close to the temperature measuring support 2; the bearing support 3 is used for bearing a part needing temperature measurement through the bearing surface 31, the infrared temperature measurement module 1 is positioned on the left side of the bearing support 3, and the infrared temperature measurement module 1 is used for measuring the temperature of the wrist borne on the bearing surface 31; the positioning surface 32 is located on one side, far away from the infrared temperature measurement module 1, of the bearing surface 31, the positioning surface 32 is perpendicular to the bearing surface 31, the positioning surface 32 is used for limiting the relative distance between the position borne on the bearing surface 31 and the infrared temperature measurement module 1, and the position of the wrist on the bearing support 3 can be limited by the positioning surface 32, so that the infrared temperature measurement module 1 and the wrist can keep an effective temperature measurement distance after the position of the bearing support 3 is adjusted.
Furthermore, a connecting piece 71 is arranged between the bearing support 3 and the temperature measuring support 2. One end of the connecting piece 71 is fixedly connected with the temperature measuring support 2, the other end of the connecting piece 71 is fixedly connected with the bearing support 3, and the connecting piece 71 is used for adjusting the relative distance between the bearing support 3 and the infrared temperature measuring module 1. Wherein the connecting member 71 includes: a telescoping rod or a linear drive.
In this embodiment, the connecting member 71 is a telescopic rod, one end of the telescopic rod is fixedly connected to the bearing support 3, and the other end of the telescopic rod is fixedly connected to the temperature measuring support 2; when the telescopic rod extends to the maximum length, the relative distance between the bearing support 3 and the temperature measurement support 2 is the standard distance for accurately measuring the temperature of the wrist placed on the bearing surface 31 by the infrared temperature measurement module 1. Through setting up connecting piece 71 not only can be convenient for bear the weight of the affirmation of support 3 with infrared temperature measurement module 1 relative distance for the operator need not all to adjust the distance between infrared temperature measurement module 1 and the wrist that needs carry out the temperature measurement deliberately when carrying out the temperature measurement to patient at every turn, can directly carry out the temperature measurement to the wrist, has simplified the operation complexity, can also prevent simultaneously when transporting or depositing this infrared temperature measuring device, infrared temperature measurement module 1 or bear support 3 and lose.
With reference to fig. 1, 2 and 5, a containing chamber 27 is formed in a side surface of the temperature measuring support 2 facing the bearing support 3; the receiving chamber 27 is used for storing the bearing support 3 in the temperature measuring support 2 when the bearing support 3 is not needed to bear the part. The surface of the bearing support 3 is fixedly provided with an elastic clamping bean 73, the temperature measuring support 2 is provided with a clamping groove, and the clamping groove is matched with the elastic clamping bean 73; when the bearing support 3 is located in the containing chamber 27, the bearing support 3 is connected with the temperature measuring support 2 in a clamping manner through the elastic clamping beans 73. Through setting up elasticity card beans 73 and draw-in groove, can be when need not using to bear support 3, will bear support 3 stable being deposited in accommodate the room 27 to play certain guard action to bearing support 3, and improve infrared temperature measuring device's space utilization, portable. The surface of the bearing support 3 far away from the telescopic rod is fixedly provided with a handle 87. The arrangement of the handle 87 can enable an operator to overcome the clamping relation between the bearing support 3 and the temperature measuring support 2, and the bearing support 3 can be conveniently taken out from the accommodating chamber 27.
In this embodiment, with reference to fig. 2 and 4, a storage cavity 33 is opened inside the carrier support 3, and the switch control module 4 includes: the bearing block 41, the trigger block 42, the bearing touch switch 43, the compression spring 44 and the support plate 45. The touch-control module comprises a trigger block 42, a bearing touch-control switch 43, a compression spring 44 and a support plate 45, wherein the trigger block 42, the bearing touch-control switch 43, the compression spring 44 and the support plate 45 are both positioned in the storage cavity 33, the compression spring 44 is positioned above the support plate 45, a bearing block 41 is positioned above the compression spring 44, the bearing block 41 penetrates through the bearing surface 31 and is connected with the bearing support 3 in a sliding manner, the bottom end of the bearing block 41 is abutted to the compression spring 44, the trigger block 42 and the bearing block 41 are fixedly connected in an integrated manner, and the bearing touch-control switch 43 is electrically connected with the infrared temperature measurement module 1.
When the bearing support 3 bears the wrist, the wrist presses the bearing block 41 downwards through the cleaning belt 72, so that the bearing block 41 drives the trigger block 42 to move downwards until the trigger block 42 is triggered, the trigger block 42 triggers the bearing touch switch 43 to control the infrared temperature measurement module 1 to be started, and the infrared temperature measurement module 1 measures the temperature of the wrist placed on the bearing surface 31. Therefore, the infrared temperature measuring module 1 can be automatically controlled to be opened and closed according to whether the bearing wrist is arranged on the bearing surface 31, and the consumption of the infrared temperature measuring device on electric energy can be saved.
In this embodiment, a temperature measurement touch switch 74 is fixedly disposed on the inner wall of the top of the main storage chamber 262, and the temperature measurement touch switch 74 is electrically connected to the load-bearing touch switch 43; when the push plate 532 contacts with the temperature measurement touch switch 74, the temperature measurement touch switch 74 is used for controlling the bearing touch switch 43 to be turned on; when the push plate 532 is separated from the temperature measurement touch switch 74, the temperature measurement touch switch 74 is used for controlling the bearing touch switch 43 to be closed. The temperature measurement touch switch 74 can control the on/off of the load-bearing touch switch 43, so that the consumption of the load-bearing touch switch 43 on electric energy can be reduced, especially when the load-bearing touch switch 43 is not required to be started, for example, when the infrared temperature measurement device is carried.
In this embodiment, both ends of the cleaning belt 72 are located within the storage cavity 33. The driving assembly 6 is connected with two ends of the cleaning belt 72, and the driving assembly 6 is used for driving the cleaning belt 72 to be attached to one side, facing the infrared temperature measurement module 1, of the positioning surface 32 and to move above the bearing surface 31. Therefore, the cleaning belt 72 can be driven to move relative to the bearing surface 31 and the positioning surface 32 through the driving assembly 6, and the contact part of the cleaning belt 72 and the wrist can be replaced when the wrist is borne, so that the infrared temperature measuring device is ensured to have good sanitary conditions.
Further, in conjunction with fig. 2 and 4, the driving assembly 6 includes: a first rotating shaft 61, a second rotating shaft 62, a first driving member 63 and a second driving member 64. The first driving member 63 is used for driving the first rotating shaft 61 to rotate, the second driving member 64 is used for driving the second rotating shaft 62 to rotate, the first driving member 63 is fixedly connected with the first rotating shaft 61, the second driving member 64 is fixedly connected with the second rotating shaft 62, one end of the cleaning belt 72 is fixedly connected with the first rotating shaft 61, and the other end of the cleaning belt 72 is fixedly connected with the second rotating shaft 62. In the present embodiment, the first rotating shaft 61 and the second rotating shaft 62 are parallel to each other. The first rotating shaft 61 is located below the bearing surface 31, and the second rotating shaft 62 is located on the right side of the positioning surface 32; the first driving member 63 is a coil spring 75, the outer end of the coil spring 75 is fixedly connected with the bearing support 3, and the inner end of the coil spring 75 is fixedly connected with the first rotating shaft 61; the second driving member 64 is a motor, the housing 12 of the motor is fixedly connected to the inner wall of the bearing support 3, the driving shaft of the motor is fixedly connected to the second rotating shaft 62 coaxially, and meanwhile, when the trigger block 42 is separated from the bearing touch switch 43 after contacting with the bearing touch switch 43, the bearing touch switch 43 controls the second driving member 64 to be opened, so that the first rotating shaft 61 rolls part of the cleaning tape 72 under the driving of the coil spring 75, and the second rotating shaft 62 rolls part of the cleaning tape 72 under the driving of the motor, thereby realizing the replacement of the cleaning tape 72 on the bearing surface 31 and the positioning surface 32.
In an alternative embodiment, the first driving member 63 and the second driving member 64 are both motors, so that when the trigger block 42 is separated after contacting the load-bearing touch switch 43, the load-bearing touch switch 43 controls the first driving member 63 and the second driving member 64 to be simultaneously turned on, so that the first rotating shaft 61 and the second rotating shaft 62 rotate synchronously, and the first rotating shaft 61 and the second rotating shaft 62 are driven by the motors to convey the cleaning belt 72. When the bearing support 3 bears a part needing temperature measurement, the trigger block 42 is in contact with the bearing touch switch 43; when the part is separated from the bearing support 3, the trigger block 42 is separated from the bearing touch switch 43; when the trigger block 42 is separated from the load-bearing touch switch 43 after contacting, the load-bearing touch switch 43 controls the two motors to start at the same time, and the two motors stop rotating after rotating for a specified number of turns.
In this embodiment, the carrier support 3 is further fixedly provided with three guide shafts 76, and each of the three point guide shafts 76 is located in the storage cavity 33, and the guide shafts 76 are used for changing the moving direction of the cleaning belt 72 between the first rotating shaft 61 and the second rotating shaft 62. The three guide shafts 76 are parallel to the first rotating shaft 61, one guide shaft 76 is located at the top end of the positioning surface 32, one guide shaft 76 is located at the intersection of the positioning surface 32 and the bearing surface 31, and one guide shaft 76 is located at one end of the bearing surface 31 far away from the positioning surface 32. The conveying direction of the cleaning belt 72 can be effectively changed by arranging the guide shaft 76, so that the scraping between the cleaning belt 72 and the bearing support 3 can be reduced, the bearing support 3 is prevented from wearing the cleaning belt 72, the service life of the cleaning belt 72 is prolonged, and meanwhile, the cleaning belt 72 can be compactly attached to the corresponding surface on the bearing support 3.
Further, a reservoir 77 is provided in the storage cavity 33. The liquid storage tank 77 is fixedly connected with the bearing support 3, and the liquid storage tank 77 contains disinfectant. The driving assembly 6 is further configured to drive the cleaning belt 72 through the liquid storage tank 77 to sterilize the cleaning belt 72.
Specifically, the conveying path of the cleaning belt 72 in the storage cavity 33 can be changed by additionally arranging the guide shaft 76, so that the cleaning belt 72 is in contact with the disinfectant in the reservoir 77; the first rotating shaft 61 and/or the second rotating shaft 62 may also be fixed in the reservoir 77 so that the cleaning belt 72 is in contact with the sterilizing liquid in the reservoir 77. In this embodiment, the first rotating shaft 61 and the second rotating shaft 62 are respectively located in a reservoir 77. The sanitary condition of the infrared temperature measuring device can be further improved by arranging the liquid storage tank 77, and the cleaning belt 72 can be reused by changing the rotating direction of the first driving part 63 and/or the second driving part 64.
Further, a liquid scraping plate 78 is arranged in the storage cavity 33, one end of the liquid scraping plate 78 is pivoted with the liquid storage tank 77, and the other end of the liquid scraping plate 78 is abutted to the cleaning belt 72 on the corresponding rotating shaft. One side of the liquid scraping plate 78 is provided with a compression spring 79, one end of the compression spring 79 is fixedly connected with the bearing support 3 or the liquid storage tank 77, and the other end of the compression spring 79 is fixedly connected with the liquid scraping plate 78. Can be along with the change of the clean area 72 roll-up thickness in first pivot 61 or the second pivot 62 through setting up compression spring 79 for scrape the other end of liquid board 78 inconsistent with clean area 72 all the time, thereby can scrape unnecessary antiseptic solution on clean area 72 back to in reservoir 77 before conveying out and storing cavity 33, realize good liquid effect of scraping, improve the utilization ratio of antiseptic solution.
Further, two heating rods 80 are arranged in the storage cavity 33, and the heating rods 80 are used for drying the cleaning belt 72. Wherein, the heating rod 80 is fixedly connected with the bearing support 3, and the cleaning belt 72 is attached to the heating rod 80; one heater bar 80 is located between the first axis of rotation 61 and the guide shaft 76 at the end of the bearing surface 31 remote from the locating surface 32, and the other heater bar 80 is located between the second axis of rotation 62 and the guide shaft 76 at the end of the locating surface 32 remote from the bearing surface 31. The disinfectant adhered to the cleaning tape 72 can be removed by the heating rod 80, so that the cleaning tape 72 removed from the storage cavity 33 is kept dry, and the use comfort of the infrared temperature measuring device is improved.
Further, a mounting port is formed in the surface of the bearing support 3, and the mounting port is communicated with the storage cavity 33. Bear support 3 and be provided with closing plate 81, closing plate 81 with the installing port adaptation, closing plate 81's one end with bear the pivot of support 3, closing plate 81's the other end with bear 3 joints of support. Maintenance of the devices inside the storage cavity 33 can be facilitated by the provision of said closing plate 81.
With reference to fig. 1, the support carrier 3 is provided with a vent 82 to facilitate the gas circulation inside the storage cavity 33. The surface of the housing 12 is provided with a display screen 83 and a broadcast hole 84 so as to inform the result of temperature measurement. Rubber pads 86 are fixedly arranged on the bottom surfaces of the bearing support 3 and the temperature measuring support 2 respectively. The bottom of the temperature measuring support 2 is provided with a slot 28 adapted to the rubber pad 86 on the bearing support 3, so that the bearing support 3 can be stored in the accommodating chamber 27.
The infrared temperature measuring device further comprises: a power module and a data processor. The power supply module is respectively and electrically connected with the temperature measurement touch switch 74, the bearing touch switch 43, the infrared temperature measurement module 1, the motor, the heating rod 80, the display screen 83, the broadcasting module and the data processor; the data processor is in communication connection with the display screen 83, the broadcasting module, the temperature measurement touch switch 74, the bearing touch switch 43 and the infrared temperature measurement module 1 respectively. The broadcast module is fixedly arranged in the casing 12, and the power module and the data processor are both fixedly arranged in the temperature measurement support 2.
The volume of the temperature measuring support 2 is not more than 20 cubic decimeters. In this embodiment, the temperature measuring support 2 has a length of 4 decimeters, a width of 1.5 decimeters and a height of 2 decimeters; the length of the bearing support 3 is 3.9 decimeters, the width is 1.45 decimeters, and the height is 1 decimeter; the width of the bearing surface 31 is 1.3 decimeters, and the width of the positioning surface 32 is 0.6 decimeters.
The working principle of the infrared temperature measuring device is as follows:
firstly, the carrier support 3 is removed from the receiving chamber 27 by means of the handle 87 until the telescopic rod reaches the maximum telescopic length; then, the button 521 is pressed, the infrared temperature measurement sensor 11 is driven by the east unit to extend out of the temperature measurement support 2, and the temperature measurement touch switch 74 is triggered to control the bearing touch switch 43 to be turned on, so as to monitor the position state of the trigger block 42. When temperature measurement is needed, the wrist is placed on the bearing surface 31, and the wrist triggers the bearing touch switch 43, so that the bearing touch switch 43 controls the infrared temperature measurement sensing head 11 to start measuring the temperature of the wrist. After the temperature measurement is finished, the display screen 83 and/or the broadcast hole 84 respectively broadcasts the temperature measurement result. After the wrist leaves the bearing surface 31, the compression spring 44 drives the bearing block 41 to reset, the bearing touch switch 43 controls the motor to rotate for a specified number of turns, and controls the infrared temperature measurement induction head 11 to stop working. When the infrared temperature measuring device is not needed, the bearing support 3 is clamped in the accommodating chamber 27.
The infrared temperature measuring device is safe and sanitary, high in automation degree, convenient to operate, simple in structure and low in manufacturing cost.
The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A human body temperature measuring device, comprising: the device comprises an infrared temperature measurement module, a bearing support, a cleaning belt and a driving assembly;
the bearing support comprises: the bearing support is used for bearing a part needing temperature measurement through the bearing surface, the infrared temperature measurement module is positioned on one side of the bearing support, and the infrared temperature measurement module is used for measuring the temperature of the part borne on the bearing surface;
the driving assembly is connected with two ends of the cleaning belt and used for driving the cleaning belt to move on the bearing surface.
2. The human body temperature measuring device of claim 1, wherein a storage cavity is formed inside the bearing support, and the driving assembly is fixedly arranged in the storage cavity.
3. The human body temperature measurement device of claim 2, wherein the drive assembly comprises: the driving device comprises a first rotating shaft, a second rotating shaft, a first driving piece and a second driving piece;
the first driving piece is used for driving the first rotating shaft to rotate, the second driving piece is used for driving the second rotating shaft to rotate, one end of the cleaning belt is fixedly connected with the first rotating shaft, and the other end of the cleaning belt is fixedly connected with the second rotating shaft.
4. The human body temperature measurement device of claim 3, further comprising: a switch control module;
the switch control module includes: the device comprises a bearing block, a trigger block, a bearing touch switch, a compression spring and a support plate;
the trigger block, the bearing touch switch, the compression spring and the support plate are all located in the storage cavity, the compression spring is located above the support plate, the bearing block is located above the compression spring, the bearing block penetrates through the bearing surface and is connected with the bearing support in a sliding mode, the bottom end of the bearing block is abutted against the compression spring, the trigger block is fixedly connected with the bearing block, and the bearing touch switch is electrically connected with the first driving piece or/and the second driving piece;
when the bearing support bears the part needing temperature measurement, the trigger block is contacted with the bearing touch switch;
when the part leaves the bearing support, the trigger block is separated from the bearing touch switch;
when the trigger block is contacted with the bearing touch control switch and then separated, the bearing touch control switch controls the first driving piece or/and the second driving piece to be started.
5. The body temperature measurement device of claim 3, wherein the carrier support further comprises: positioning the surface;
the positioning surface is positioned above the bearing surface and positioned on one side of the bearing surface, which is far away from the infrared temperature measurement module, and an included angle is formed between the positioning surface and the bearing surface in a vertical plane;
the positioning surface is used for limiting the relative distance between the part borne on the bearing surface and the infrared temperature measurement module.
6. The human body temperature measuring device of claim 5, wherein the cleaning belt is attached to one side of the positioning surface facing the infrared temperature measuring module, and the driving assembly is further used for driving the cleaning belt to be attached to the positioning surface to move.
7. The human body temperature measuring device of claim 5, wherein the bearing support is further fixedly provided with at least one guide shaft for changing the moving direction of the cleaning belt between the first rotating shaft and the second rotating shaft.
8. The human body temperature measuring device of claim 5, wherein a liquid storage tank is arranged in the storage cavity, the liquid storage tank is fixedly connected with the bearing support, and the liquid storage tank is used for containing disinfectant;
the driving assembly is further used for driving the cleaning belt to pass through the liquid storage tank so as to sterilize the cleaning belt.
9. The human body temperature measuring device according to claim 8, wherein a liquid scraping plate is arranged in the storage cavity, one end of the liquid scraping plate is pivoted with the liquid storage tank, and the other end of the liquid scraping plate is abutted to the cleaning belt;
and a compression spring is arranged on one side of the liquid scraping plate, one end of the compression spring is fixedly connected with the bearing support or the liquid storage tank, and the other end of the compression spring is fixedly connected with the liquid scraping plate.
10. The human body temperature measuring device according to claim 2, wherein a heating rod is arranged in the storage cavity, the heating rod is fixedly connected with the bearing support, the cleaning belt is attached to the heating rod, and the heating rod is used for drying the cleaning belt.
CN202022538251.9U 2020-11-05 2020-11-05 Human body temperature measuring device Active CN214200379U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022538251.9U CN214200379U (en) 2020-11-05 2020-11-05 Human body temperature measuring device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022538251.9U CN214200379U (en) 2020-11-05 2020-11-05 Human body temperature measuring device

Publications (1)

Publication Number Publication Date
CN214200379U true CN214200379U (en) 2021-09-14

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022538251.9U Active CN214200379U (en) 2020-11-05 2020-11-05 Human body temperature measuring device

Country Status (1)

Country Link
CN (1) CN214200379U (en)

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Address before: No.1, Yanxiang Zhigu chuangxiangdi, No.11, Gaoxin Road, Guangming New District, Shenzhen, Guangdong 518107

Patentee before: EVOC INTELLIGENT TECHNOLOGY Co.,Ltd.