CN216746502U

CN216746502U - Adsorption type temperature monitor

Info

Publication number: CN216746502U
Application number: CN202220188854.7U
Authority: CN
Inventors: 宋争放
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-24
Filing date: 2022-01-24
Publication date: 2022-06-14
Anticipated expiration: 2032-01-24

Abstract

The utility model discloses an adsorption type temperature monitor, which comprises an outer shell and a monitoring system, wherein the monitoring system comprises: the shell body is including enclosing epitheca and the inferior valve that forms the cavity together, and the inferior valve includes induction part, connecting portion and the supporting part that from inside to outside annular distributes in proper order: the sensing part is used for attaching to a measured object and measuring the temperature of the measured object; the connecting part is arranged around the sensing part, and the supporting part is arranged around the connecting part; when the supporting part is closely attached to the measured object, a vacuum cavity is formed inside the supporting part and used for enabling the lower shell to have an adsorption effect on the measured object. Through making the shell body produce the adsorption affinity to the measured object, adhere to on the measured object, measure the temperature of measured object through induction part and measured object laminating, can closely laminate at device and measured object and carry out temperature measurement, guarantee measuring temperature's validity, can carry out accurate measurement to the measured object temperature, guarantee simultaneously that the monitor can fix and measure on the measured object, reduce measuring error.

Description

Adsorption type temperature monitor

Technical Field

The utility model relates to the technical field of temperature measurement, in particular to an adsorption type temperature monitor.

Background

Modern people's standard of life quality improves, pay attention to the health problem very much, come real-time supervision health status through all kinds of medical appliances in the middle of daily life, especially the clinical thermometer, it is very general and to its easy breakage and the mercury poisoning problem of traditional mercury clinical thermometer to use, gradually being eliminated on the market, the rapid development of present electronic technology, electronic intelligent clinical thermometer has also obtained fine development, it is convenient in the use, safety, the clinical thermometer of wrist-watch formula, because of wearing, there is certain error in reasons such as environment and contact, can not be perfect, accurately provide human body temperature numerical value, and the test site is limited.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that the wearable body temperature tester in the prior art has large measurement error and inaccurate measurement value, and aims to provide an adsorption type temperature monitor which is attached to a human body through an adsorption structure, ensures that a measurement device is closely attached to the human body for measurement, can accurately measure the temperature of the human body, and reduces the measurement error.

The utility model is realized by the following technical scheme:

an adsorption temperature monitor comprising an outer housing and a monitoring system:

the shell body is including enclosing epitheca and the inferior valve that forms the cavity together, the inferior valve includes induction part, connecting portion and the supporting part that from inside to outside annular distributes in proper order:

the sensing part is used for attaching to a measured object and measuring the temperature of the measured object;

the connecting part is arranged around the sensing part, and the supporting part is arranged around the connecting part;

the vacuum cavity is formed inside the supporting part when the supporting part is closely attached to the measured object, and the vacuum cavity is used for enabling the lower shell to have an adsorption effect on the measured object.

According to the utility model, the upper shell and the lower shell which are enclosed together to form the cavity are arranged, the lower shell is provided with the sensing part, the connecting part and the supporting part, the shell is pressed to enable the whole lower shell to be tightly attached to a measured object, air in the lower shell is discharged, the vacuum cavity is formed in the supporting part when the supporting part is tightly attached to the measured object, the whole shell generates adsorption force on the measured object and is attached to the measured object, the temperature of the measured object is measured by attaching the sensing part to the measured object, the temperature can be measured by tightly attaching the device to the measured object, the effectiveness of temperature measurement is ensured, the temperature of the measured object can be accurately measured, meanwhile, a monitor can be fixed on the measured object for measurement, and the measurement error is reduced.

Further, the connecting part is arranged in a groove structure. The recess seals the vacuum cavity that forms when laminating for supporting part and testee, through setting up the recess, forms adsorption structure, guarantees to form the vacuum cavity between inferior valve and the testee when pressing whole shell body.

Further, the height of the sensing part is greater than that of the supporting part. Set up the response portion and be protruding, can be when whole shell adsorbs on the measured object, the response portion can contact the measured object, carries out temperature measurement to the measured object.

Furthermore, the supporting part and the connecting part are both made of elastic deformation materials. Guarantee the adsorption efficiency of inferior valve, through adopting the elastic deformation material, can keep its inseparable laminating when the supporting part laminating is on the measured object, take off the shell body after, can guarantee its reconversion, improve life, and when the supporting part laminated with the human body, can carry out good subsides with human body curve, guarantee laminating compactness, guarantee its stability.

Further, the hardness of the material of the supporting part is greater than that of the material of the connecting part. Because need guarantee the stability of its laminating when laminating shell body and measured object, the material hardness of supporting part is big, can reduce the deformation ability when supporting part and measured object laminate, and the material hardness of connecting portion is little, can produce certain cushioning effect under the condition of externally exerting force to the monitor.

Furthermore, the sensing part adopts a metal sheet. Adopt foil to guarantee the stability of response portion, prevent that response portion from shifting when connecting portion and supporting part take place deformation, guarantee temperature measurement's the degree of accuracy.

Furthermore, one side of the supporting part, which is far away from the connecting part, is connected with the upper shell and wraps the edge of the upper shell. One side of keeping away from connecting portion through the supporting part is connected with the epitheca and wraps up the epitheca edge and strengthens the stability that epitheca and inferior valve are connected.

Further, monitoring system sets up in the cavity of shell body, monitoring system includes electric connection's temperature sensor paster, timer and warning device:

the temperature sensor paster is used for measuring the temperature of the measured object, the timer is used for controlling the time interval of the temperature sensor paster for measuring the temperature, and the warning device is used for warning the abnormal value measured by the temperature sensor paster. Carry out temperature monitoring to the testee through monitoring system, reduce the volume through setting up the temperature sensor paster, carry out multi-functional setting through timer and warning device assurance monitor when measuring abdominal place or children.

Further, the temperature sensor patch is connected with the sensing part. The temperature sensor patch is contacted with the measured object through the sensing part to measure the temperature of the measured object.

Furthermore, the display screen and the control button are arranged on the outer side of the upper shell, and the display screen and the control button are electrically connected with the monitoring system. The temperature monitoring device is characterized in that a switch button is arranged to be closed when not in use, a timing button is arranged to adjust the time of a temperature monitoring interval, temperature measurement can be carried out at regular time, and abnormal temperature is reported through an alarm.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

the stability of monitor has been improved through adsorbable structure, measures through adsorbing at the human body, has guaranteed that temperature sensor paster and human inseparable laminating have guaranteed temperature measurement's accuracy.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the utility model and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the utility model and together with the description serve to explain the principles of the utility model. In the drawings:

FIG. 1 is a schematic diagram of an embodiment of an adsorption temperature monitor;

FIG. 2 is a schematic diagram of a lower case structure of the adsorption temperature monitor according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an upper case of the adsorption temperature monitor according to an embodiment of the present invention;

FIG. 4 is a side view of an adsorption temperature monitor in an embodiment of the present invention.

Reference numbers and corresponding part names in the drawings:

100-outer shell, 110-lower shell, 111-sensing part, 112-connecting part, 113-supporting part, 120-upper shell, 121-display screen, 122-switch setting key, 123-timing setting key, 124-alarm, 130-PCB, 131-temperature sensor patch, 132-timer, 133-alarm device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must be in a particular orientation, constructed or operated in a particular orientation, and is not to be construed as limiting the utility model.

Example 1

The present embodiment provides an adsorption temperature monitor, as shown in figure 1,

a sorption temperature monitor comprising an outer housing 100 and a monitoring system:

the outer casing 100 includes an upper casing 120 and a lower casing 110 enclosing together to form a cavity, and the lower casing 110 includes a sensing part 111, a connecting part 112 and a supporting part 113 which are annularly distributed from inside to outside:

the sensing part 111 is used for attaching to a measured object and measuring the temperature of the measured object;

the connecting part 112 is arranged around the sensing part 111, and the supporting part 113 is arranged around the connecting part 112;

when the supporting portion 113 is closely attached to the object to be tested, a vacuum cavity is formed inside the supporting portion 113, and the vacuum cavity is used for enabling the lower shell 110 to have an adsorption effect on the object to be tested.

Go up shell 120 and inferior valve 110 through setting up the enclosure and form the cavity together, inferior valve 110 sets up sensing portion 111, connecting portion 112 and supporting part 113, press the shell, make whole inferior valve 110 hug closely the measured object, the air in the inferior valve 110 of discharge, supporting part 113 seals the inside vacuum cavity that forms of supporting part 113 when laminating with the measured object, whole shell body 100 produces the adsorption affinity to the measured object, adhere to on the measured object, laminate the temperature to the measured object through sensing portion 111 and measured object and measure, can closely laminate with the measured object at the device and carry out temperature measurement, guarantee the validity of measuring temperature, can carry out accurate measurement to the measured object temperature, guarantee simultaneously that the monitor can fix and measure on the measured object, reduce measuring error.

As shown in fig. 2, the connecting portion 112 is configured as a groove structure, the groove is formed when the supporting portion 113 is closely attached to the object to be measured, the vacuum cavity is formed by setting the groove to form an adsorption structure, the vacuum cavity can be formed between the lower shell 110 and the object to be measured when the whole outer shell 100 is pressed, an adsorption effect is generated, the sensing portion 111 is arranged at the middle position of the lower shell 110, the height of the sensing portion 111 is larger than that of the supporting portion 113, the sensing portion 111 can contact the object to be measured when the whole outer shell is adsorbed on the object to be measured, and temperature measurement is performed on the object to be measured. But supporting part 113 and connecting portion 112 all adopt elastic deformation material, guarantee the adsorption efficiency of inferior valve 110, through adopting elastic deformation material, can keep its inseparable laminating when supporting part 113 laminating is on the measured object, take off the shell body 100 after, can guarantee its reconversion, improve life, and when supporting part 113 laminated with the human body, can carry out good subsides with the human body curve, guarantee laminating compactness, guarantee its stability. The supporting portion 113 is made of a material having a hardness greater than that of the connecting portion 112. Because the stability of laminating of the casing 100 and the measured object needs to be guaranteed when laminating, the material hardness of the supporting portion 113 is big, can reduce the deformability when the supporting portion 113 and the measured object are laminated, and the material hardness of the connecting portion 112 is little, can produce certain cushioning effect under the condition of exerting force to the monitor externally.

In some possible embodiments, the height of the sensing part 111 is greater than the height of the supporting part 113, and the protruding height of the sensing part 111 is 1 mm.

In some possible embodiments, the side of the supporting portion 113 away from the connecting portion 112 is connected to the upper case 120 and wraps the edge of the upper case 120, and the upper case 120 is fixedly connected to the lower case 110. The side of the supporting part 113 far away from the connecting part 112 is connected with the upper case 120 and wraps the edge of the upper case 120 to reinforce the stability of the connection of the upper case 120 and the lower case 110.

As shown in fig. 3, a monitoring system is disposed in the cavity of the housing 100, the monitoring system includes a temperature sensor patch 131, a timer 132 and an alarm device 133 which are electrically connected:

the temperature sensor patch 131 is used for measuring the temperature of the measured object, the timer 132 is used for controlling the time interval of the temperature measurement of the temperature sensor patch 131, and the warning device 133 is used for warning the abnormal value measured by the temperature sensor patch 131. Carry out temperature monitoring to the testee through monitoring system, reduce the volume through setting up temperature sensor paster 131, carry out multi-functional setting when guaranteeing the monitor to belly place or children measurement through timer 132 and warning device 133, timer 132 and warning device 133 all set up on PCB board 130 to keep the stability of components and parts, prevent to receive the extrusion and damage internal element when monitoring devices adsorbs the human body.

In some possible embodiments, the temperature sensor patch 131 is disposed on the sensing portion 111, and the sensing portion 111 is made of a metal sheet. Adopt the foil can guarantee the accuracy of temperature sensor paster when carrying out temperature measurement, guarantee the stability of response portion 111, prevent that response portion 111 from shifting when connecting portion 112 and supporting part 113 take place to deform, guarantee temperature measurement's the degree of accuracy. The display screen 121 and the control button are arranged on the outer side of the upper shell 120, and the display screen and the control button are electrically connected with the monitoring system. The control buttons include a switch setting key 122, a timing setting key 123, and an alarm 124. The switch setting key 122 is turned off when the temperature monitoring device is not used, the timing setting key 123 is set to adjust the temperature monitoring interval duration, temperature measurement can be carried out at regular time, and abnormal temperature reporting is carried out through the alarm 124. The display screen 121 is used for displaying the measurement time and the measurement temperature. By displaying the measurement time and the temperature, the temperature at the time can be intuitively known.

In some possible embodiments, the outer casing 100 is circular, or may be rectangular, and the outer casing 100 is irregular, and the circular shape can provide better adsorption effect, and can better fit with the skin through the circular shape.

In some possible embodiments, the monitoring system is provided with a wireless communication device, and the detection information is transmitted to the mobile terminal through the wireless communication device, so that the real-time performance and convenience of monitoring by the monitor are improved. When the temperature monitoring device is used, the temperature monitoring device is started through the switch setting key 122, the monitoring mode is set through the timing setting key 123, the monitoring interval time is selected, whether the alarm mode is started or not is judged, measurement is carried out, measurement data are transmitted to the mobile terminal after measurement, and an alarm is given if the monitoring temperature is abnormal.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A sorption temperature monitor, comprising an outer housing (100) and a monitoring system:

the outer casing (100) is including enclosing epitheca (120) and inferior valve (110) that form the cavity together, inferior valve (110) is including induction part (111), connecting portion (112) and supporting part (113) that from inside to outside annular distribution in proper order:

the sensing part (111) is used for attaching a measured object and measuring the temperature of the measured object;

the connecting part (112) is arranged around the sensing part (111), and the supporting part (113) is arranged around the connecting part (112);

when the supporting part (113) is closely attached to the object to be measured, a vacuum cavity is formed inside the supporting part (113), and the vacuum cavity is used for enabling the lower shell (110) to absorb the object to be measured.

2. An adsorption temperature monitor according to claim 1, wherein the connection portion (112) is provided as a groove structure.

3. An adsorption temperature monitor according to claim 2, wherein the height of the sensing portion (111) is greater than the height of the supporting portion (113).

4. An adsorption temperature monitor according to claim 1, wherein the support portion (113) and the connecting portion (112) are both made of an elastically deformable material.

5. An adsorption temperature monitor according to claim 4, wherein the support portion (113) has a material hardness greater than the connecting portion (112).

6. An adsorption temperature monitor according to claim 1, wherein the sensing part (111) is made of a metal foil.

7. An adsorption temperature monitor according to claim 1, wherein the side of the support part (113) away from the connection part (112) is connected to the upper shell (120) and wraps the edge of the upper shell (120).

8. The sorption temperature monitor of claim 1, wherein the monitoring system is disposed within a cavity of the housing (100), the monitoring system comprising an electrically connected temperature sensor patch (131), a timer (132), and a warning device (133):

the temperature sensor patch (131) is used for measuring the temperature of a measured object, the timer (132) is used for controlling the time interval of the temperature sensor patch (131) for measuring the temperature, and the warning device (133) is used for warning abnormal values measured by the temperature sensor patch (131).

9. The suction temperature monitor according to claim 8, wherein the temperature sensor patch (131) is connected to the sensing portion (111).

10. The absorption temperature monitor as claimed in claim 9, wherein a display screen (121) and a control button are disposed outside the upper housing (120), and the display screen and the control button are electrically connected to the monitoring system.