TWM584661U - Flexible surface thermoscope - Google Patents

Abstract

A flexible surface temperature detector includes a flexible adsorption unit, a temperature sensing unit, and a heat-retaining elastic silicone rubber. The flexible adsorption unit includes a first temperature-resistant soft plate, a second temperature-resistant soft plate laminated on the first temperature-resistant soft plate, and a plurality of magnetic bodies arranged on the second temperature-resistant soft plate. The first temperature-resistant soft plate The plate and the second temperature-resistant soft board respectively have corresponding accommodating areas; the temperature sensing unit includes a temperature absorbing layer provided in the accommodating area, a temperature measuring body provided in the temperature absorbing layer, and a conductive portion connected to the temperature measuring body ; The thermal insulation elastic silicone is set on the first temperature-resistant soft board and covers the temperature sensing unit. With this, the flexible adsorption unit can be directly adsorbed and covered on the surface of various shapes of the object to be tested, so that the sensing unit directly contacts the object to be measured, in addition to not destroying the body of the object to be measured, it also has accurate measurement. The effect of the temperature of the test object.

Description

Flexible surface thermometer

This creative system provides a flexible surface thermometer, especially a flexible surface thermometer that can accurately measure the temperature of the object to be measured, in addition to not destroying the body of the object to be measured.

The commonly used thermometer is a sleeve that is fixed to a proper position of the object to be measured, and the sleeve extends toward the inside of the object to be measured, and then the sensing element is set in the sleeve; The sensing element in the sleeve senses the temperature of the object to be measured.

However, in terms of the above-mentioned thermometer, although the temperature of the object to be measured can be sensed, since the sleeve needs to be fixed to the object to be measured during the setting, the body of the object to be measured must be destroyed during the setting, and The position of the setting cannot be changed as required; further, because the sensing element needs to sense the temperature of the object to be measured through the sleeve, it is often limited by the material and the barrier of the sleeve, which causes a large error in temperature sensing.

Therefore, how to create a flexible surface thermometer, in order to achieve the purpose of accurately measuring the temperature of the object to be tested, in addition to not destroying the body of the object to be measured, will be the active disclosure of this creation.

In view of the shortcomings of the above-mentioned conventional technology, the creator felt that it was not perfect, and exhausted his mind to study and overcome it, and then developed a flexible surface thermometer, in order to achieve the goal of not destroying the object to be measured. , Has the purpose of accurately measuring the temperature of the object to be measured.

In order to achieve the above and other objectives, the present invention provides a flexible surface thermometer, which includes: a flexible adsorption unit, a temperature sensing unit, and a heat-insulating elastic silicone gel. The flexible adsorption unit includes a first temperature-resistant soft plate, a second temperature-resistant soft plate laminated on the first temperature-resistant soft plate, and a plurality of magnets provided on the second temperature-resistant soft plate. The first temperature-resistant soft board and the second temperature-resistant soft board each have a corresponding accommodating area; the temperature sensing unit includes a temperature absorbing layer provided in the accommodating areas, and a temperature absorbing layer. A temperature-measuring body on one side and a conducting portion connected to the temperature-measuring body; the heat-retaining elastic silicone rubber is disposed on the first temperature-resistant soft board and covers the temperature-sensing unit.

In the above-mentioned flexible surface thermometer, the magnetic bodies are arranged on the second temperature-resistant soft board in a matrix arrangement manner with a distance of 3 mm per 1 cm ² .

In the above-mentioned flexible surface temperature detector, the temperature sensing unit further includes a connector, and the connector is connected to the conductive portion.

In the above-mentioned flexible surface thermometer, the material of the temperature absorption layer is high thermal conductivity rubber.

In the above-mentioned flexible surface thermometer, the temperature measuring body is an iron-chromium alloy, a nickel-chromium alloy, a nickel-copper alloy, or a platinum resistor.

In the above-mentioned flexible surface thermometer, the heat-retaining elastic silicone rubber is covered with a third temperature-resistant soft board laminated with the first temperature-resistant soft board.

The above-mentioned flexible surface thermometer further includes a flexible adhesive unit. The flexible adhesive unit includes a heat-resistant soft rubber layer laminated on one side of the second temperature-resistant soft plate, and the heat-resistant soft A release layer bonded to the other side of the adhesive layer, and a corresponding hole provided in the heat-resistant soft adhesive layer and corresponding to one of the accommodation regions.

In this way, the flexible surface thermometer of this creation can use the flexible adsorption unit to directly adsorb the surface of the object to be tested in various shapes, so that the sensing unit directly contacts the object to be tested. In addition to the object itself, it has the purpose of accurately measuring the temperature of the object.

In order to fully understand the purpose, characteristics and effects of this creation, hereby use the following specific embodiments and the accompanying drawings to make a detailed description of this creation, as described later:

Please refer to FIG. 1 to FIG. 3. As shown in the figure, the present invention provides a flexible surface thermometer, which includes a flexible adsorption unit 1, a temperature sensing unit 2, and a heat-insulating elastic silicone rubber 3.

The flexible adsorption unit 1 includes a first temperature-resistant soft plate 11, a second temperature-resistant soft plate 12 laminated on the first temperature-resistant soft plate 11, and a second temperature-resistant soft plate 12 disposed on the first temperature-resistant soft plate 11. For most magnetic bodies 13, the first temperature-resistant soft plate 11 and the second temperature-resistant soft plate 12 respectively have corresponding accommodation areas 111 and 121, and the magnetic bodies 13 can be respectively buried in the second Most of the temperature-resistant soft plates 12 are received in the holes 122.

The temperature sensing unit 2 includes a temperature absorbing layer 21 provided in the accommodating regions 111 and 121, a temperature measuring body 22 provided on one side of the temperature absorbing layer 21, and a conduction connected to the temperature measuring body 22.部 23。 23.

The heat-retaining elastic silicone rubber 3 is disposed on the first temperature-resistant soft board 11 and covers the temperature-sensing unit 2 for protecting the temperature-sensing unit 2.

When in use, the flexible adsorption unit 1 can be directly adsorbed on the surface of a test object 4 with the cooperation of the magnetic suction bodies 13, and because the first temperature-resistant soft plate of the flexible adsorption unit 1 11 and the second temperature-resistant soft board 12 have the characteristics of softness and flexibility, so they can be directly adsorbed on any irregular surface of the object 4 to be tested, and cooperate with the adsorption of the magnetic bodies 13 without Destroy the body of the test object 4.

After the flexible adsorption unit 1 is adsorbed on the surface of the object 4 to be tested, the temperature-absorbing layer 21 of the sensing unit 2 is simultaneously brought into direct contact with the surface of the object 4 through the accommodation regions 111 and 121. In this way, the temperature of the object to be measured 4 can be absorbed by the temperature absorbing layer 21, and then transmitted to the temperature measuring body 22, and then the temperature signal measured by the temperature measuring body 22 is transmitted to the temperature measuring body 22 through the conducting part 23 to The required external temperature measuring instrument (not shown in the figure) is used to accurately measure the temperature of the object 4 to reduce the error during temperature measurement.

In a preferred embodiment of the present invention, the magnets 13 are arranged on the second temperature-resistant soft board 12 in a matrix arrangement manner with a distance of 3 mm per 1 cm ² . In this way, the flexible adsorption unit 1 can be firmly adsorbed on the surface of the object 4 to be prevented from falling off by the arrangement of the magnetic bodies 13.

In a preferred embodiment of the present invention, the temperature sensing unit 2 is further provided with a connector 24 connected to the conductive portion 23, and the conductive portion 23 can cooperate with a fixing element 231 and the first A temperature-resistant soft board 11 is fixedly connected. In this way, an external temperature measuring instrument can be easily connected to the temperature sensing unit 2 through the connecting base 24, so as to connect a required external temperature measuring instrument (not shown) with the connecting base 24 to connect the measured temperature. The obtained temperature signal is transmitted by the conducting portion 23 in cooperation with the connector 24 to the required external temperature measuring instrument, so that the creation can more meet the requirements of actual use.

In a preferred embodiment of the present invention, the material of the temperature absorption layer 21 may be a high thermal conductivity rubber. In this way, a high thermal conductivity rubber can be selected as the material of the temperature absorbing layer 21, so that the creation can more meet the requirements of actual use.

In a preferred embodiment of the present invention, the temperature measuring body 22 may be an iron-chromium alloy, a nickel-chromium alloy, a nickel-copper alloy, or a platinum resistor. In this way, an iron-chromium alloy, a nickel-chromium alloy, a nickel-copper alloy, or a platinum resistor can be selected as the temperature measuring body 22 according to different usage requirements, so that the creation can more meet the requirements of actual use.

In the preferred embodiment of the present invention, the heat-resilient elastic silicone rubber 3 is covered with a third temperature-resistant soft plate 31 laminated with the first temperature-resistant soft plate 11, and the third temperature-resistant soft plate 31 and the connection base 24 The corresponding portion has a gap 311. In this way, the third temperature-resistant soft plate 31 can be used to increase the structural strength of the flexible adsorption unit 1.

Please refer to FIG. 4 and FIG. 5. As shown in the figure, in the preferred embodiment of the present invention, a flexible adhesive unit 5 is further included. The flexible adhesive unit 5 includes a second temperature-resistant layer. One of the heat-resistant soft rubber layer 51 on one side of the soft board 12, a release layer 52 combined with the other side of the heat-resistant soft rubber layer 51, and one of the accommodating areas 111 and 121 provided on the backing 51 layer The hole 53 is provided, and the temperature absorption layer 21 is provided in the accommodating regions 111 and 121 and the corresponding hole 53.

When the test object 4 is made of a non-metal material, when in use, the release paper 52 can be torn off, and the heat-resistant soft adhesive layer 51 is used to directly attach the flexible adhesive unit 5 to the test object. The surface of the object 4, and because the flexible adhesive unit 5 has the characteristics of softness and flexibility, it can be applied to any irregular shape of the surface of the object 4 without damaging the body of the object 4 to be measured. After the flexible adhesive unit 5 is attached to the surface of the object 4 to be tested, the temperature absorption layer 21 of the sensing unit 2 is passed through the accommodation regions 111 and 121 and the corresponding holes 53 and the object at the same time. The surface of the test object 4 is in direct contact. In this way, the temperature of the object 4 to be measured can be absorbed by the temperature absorption layer 21 and then transmitted to the temperature measurement body 22 to transmit the measured temperature signal from the conducting portion 23 to the connector 24 to The required external temperature measuring instrument (not shown in the figure) is used to accurately measure the temperature of the object 4 to reduce the error during temperature measurement.

If the DUT 4 is made of metal, the release paper 52 can be torn off, and the heat-resistant soft adhesive layer 51 can be used to directly attach the flexible adhesive unit 5 to the surface of the DUT 4. At the same time, the flexible adsorption unit 1 is used to adsorb the test object 4 with the cooperation of the magnetic bodies 13, and since the flexible adhesion unit 5 and the flexible adsorption unit 1 are both flexible and Flexible characteristics, so it can be applied to any irregular surface of the test object 4 without damaging the body of the test object 4, and using the flexible adhesive unit 5 and the flexible adsorption unit 1 With the cooperation, the flexible surface thermometer of this creation can be more stably set on the object 4 to avoid falling off. After the flexible adhesive unit 5 is attached to the surface of the object 4 to be tested, the temperature absorption layer 21 of the sensing unit 2 is passed through the accommodation regions 111 and 121 and the corresponding holes 53 and the object at the same time. The surface of the test object 4 is in direct contact. In this way, the temperature of the object 4 to be measured can be absorbed by the temperature absorption layer 21 and then transmitted to the temperature measurement body 22 to transmit the measured temperature signal from the conducting portion 23 to the connector 24 to The required external temperature measuring instrument (not shown in the figure) is used to accurately measure the temperature of the object 4 to reduce the error during temperature measurement.

This creation has been disclosed above with a preferred embodiment, but those skilled in the art should understand that this embodiment is only used to describe this creation, and should not be interpreted as limiting the scope of this creation. It should be noted that all changes and substitutions equivalent to this embodiment should be included in the scope of this creation. Therefore, the scope of protection of this creation shall be defined by the scope of the patent application.

1‧‧‧ flexible adsorption unit

11‧‧‧The first temperature resistant soft board

111‧‧‧accommodation area

12‧‧‧Second temperature resistant soft board

121‧‧‧accommodation area

122‧‧‧ Receiving hole

13‧‧‧ Magnetic body

2‧‧‧Temperature sensing unit

21‧‧‧Temperature absorption layer

22‧‧‧Temperature measuring body

23‧‧‧ Conducting Department

231‧‧‧Fixed components

24‧‧‧ Connector

3‧‧‧Insulation elastic silicone

31‧‧‧The third temperature resistant soft board

311‧‧‧ gap

4‧‧‧ DUT

5‧‧‧ Flexible Adhesive Unit

51‧‧‧ heat-resistant soft rubber layer

52‧‧‧ Release layer

53‧‧‧ Corresponding hole

[Figure 1] This is a schematic diagram of the appearance of the first preferred embodiment of the present invention.
[Figure 2] An exploded view of the first preferred embodiment of the present invention.
[Fig. 3] It is a schematic diagram of the use state of the first preferred embodiment of the present invention.
[Fig. 4] An exploded view of the second preferred embodiment of the present invention.
[FIG. 5] It is a schematic diagram of the use state of the second preferred embodiment of the present invention.

Claims (7)

A flexible surface thermometer includes:
A flexible adsorption unit includes a first temperature-resistant soft board, a second temperature-resistant soft board laminated on the first temperature-resistant soft board, and a plurality of magnetic suctions provided on the second temperature-resistant soft board Body, the first temperature-resistant soft board and the second temperature-resistant soft board each have a corresponding accommodation area;
A temperature sensing unit including a temperature absorption layer provided in the accommodating areas, a temperature measurement body provided on one side of the temperature absorption layer, and a conducting portion connected to the temperature measurement body; Silicone is disposed on the first temperature-resistant soft board and covers the temperature sensing unit. The flexible surface thermometer according to claim 1, wherein the magnets are arranged on the second temperature-resistant soft board in a matrix arrangement with a distance of 3 mm every 1 cm ² . The flexible surface thermometer according to claim 1, wherein the temperature sensing unit is further provided with a connector, and the connector is connected to the conductive portion. The flexible surface thermometer according to claim 1, wherein the material of the temperature absorption layer is a high thermal conductivity rubber. The flexible surface thermometer according to claim 1, wherein the temperature measuring body is an iron-chromium alloy, a nickel-chromium alloy, a nickel-copper alloy, or a platinum resistor. The flexible surface thermometer according to claim 1, wherein the heat-retaining elastic silicone rubber is covered with a third temperature-resistant soft board laminated with the first temperature-resistant soft board. The flexible surface thermometer according to claim 1, further comprising a flexible adhesive unit, the flexible adhesive unit including a heat-resistant soft rubber layer laminated on one side of the second temperature-resistant soft board A release layer combined with the other side of the heat-resistant soft rubber layer, and a corresponding hole provided in the heat-resistant soft rubber layer and corresponding to one of the accommodation areas.