CN205359443U - A temperature probe for intelligent clothing - Google Patents

Abstract

The utility model discloses a temperature probe for intelligent clothing, including shell, support, thermistor and connecting wire, the shell adopts the material of high heat conductance to make, and the support adopts low thermal conductivity's material to make, and outer shell is established on the support, and the shell is equipped with a cavity, and thermistor sets up in the cavity of shell, and this cavity intussuseption is filled with the heat -conducting glue, and connecting wire's one end and thermistor are connected, and other end follow shell stretches out. The utility model discloses a shell of high heat conductance and low thermal conductivity's support to the temperature information of measuring more is close the skin effective temperature, and measuring result is more accurate, when actual measurement the probe fractional absorption the heat still less, the time that reaches hot balanced state required is shorter, temperature measurement speed is faster, but the wide application is in the intelligent clothing trade of taking the temperature measurement function.

Description

A kind of temperature probe for intelligent clothing

Technical field

This utility model relates to technical field of temperature measurement, particularly a kind of temperature probe for intelligent clothing.

Background technology

In recent years, wearable smart machine gets more and more, and is combined with traditional dress by wearable smart machine and also becomes a kind of trend.Body temperature is the basic parameter weighing human body information data, major part Intelligent worn device is all embedded with temperature measuring equipment, what generally adopt is the critesistor sensor as temperature measuring equipment, when critesistor is heated, resistance reduces, by measuring the resistance of critesistor just it is known that temperature information.

On intelligent clothing, critesistor generally will not direct exposed contact human body, and it is disposed in probe, human heat, is then transferred on critesistor to probe face by skin-communication, and distributes from probe side and the back side, when reaching thermal equilibrium state, measuring the resistance of critesistor, and thus calculate temperature information, measurement result will be caused very big impact by the structure therefore popped one's head in and performance.Meanwhile, probe is gone back directly and contact human skin, and its sense of touch also can directly influence the experience of equipment.

Adopting simple metal to make existing probe, in actual use, the heat on skin can quickly be delivered on probe more, is delivered on its internal critesistor again through probe.Problem both ways is deposited in this design: the area of dissipation at the back side of 1. popping one's head in is very big, and under thermal equilibrium state, the temperature of critesistor is more much lower than skin temperature, measures the temperature information arrived not accurate enough；2. because being that all-metal material makes, the thermal capacitance of probe itself is very big, when measuring, heat on contact local skin has to be popped one's head in greatly and itself sponges, want to measure human body temperature information accurately, it is necessary for waiting that near health, the heat of part is delivered to probe contacts part so that reaching the thermally equilibrated time elongated, thermometric required time is elongated.Generally speaking, there is required measurement time length and the low problem of accuracy of measurement in current temperature probe.

Utility model content

In order to solve above-mentioned technical problem, the purpose of this utility model is to provide a kind of temperature probe for intelligent clothing.

This utility model solves its technical problem and be the technical scheme is that

A kind of temperature probe for intelligent clothing, including shell, support, critesistor and connection wire, described shell adopts the material of high heat conductance to make, described support adopts the material of lower thermal conductivity to make, and described casing is located on support, and described shell is provided with a cavity, described critesistor is arranged in the cavity of shell, and in this cavity, it being filled with heat-conducting glue, one end of described connection wire is connected with critesistor, and the other end stretches out from shell.

Further, described shell includes the black box that the housing and of a cylindrical shape seamlessly transits, and described housing and black box form the cavity of shell after connecting.

Further, described support includes the erecting bed of a flat annular and the installing rack of a cylindrical shape, and described installing rack is arranged on erecting bed, and the housing of described shell is set on installing rack.

Further, the thickness of described shell is 0.1 ~ 0.25mm, is highly 2 ~ 8mm, and diameter is 3 ~ 10mm.

Further, described critesistor and black box are contact condition.

Further, described shell is provided with the attachment structure of inside bending at the opening of cavity, and described support is provided with the mounting groove position corresponding with attachment structure.

Further, described shell adopts stainless steel material to make, and described support adopts the nonmetallic materials of lower thermal conductivity to make.

The beneficial effects of the utility model are: a kind of temperature probe for intelligent clothing of the present utility model, including shell, support, critesistor and connection wire, shell adopts the material of high heat conductance to make, support adopts the material of lower thermal conductivity to make, and casing is located on support, and shell is provided with a cavity, critesistor is arranged in the cavity of shell, and in this cavity, it being filled with heat-conducting glue, the one end connecting wire is connected with critesistor, and the other end stretches out from shell.This temperature probe adopts the shell of high heat conductance and the support of lower thermal conductivity, thus measuring the temperature information arrived closer to skin actual temperature, measurement result is more accurate, and the heat that probe segment absorbs when reality is measured is less, time needed for reaching thermal equilibrium state is shorter, and thermometric speed is faster.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Fig. 1 is the fractionation structural representation of a kind of temperature probe for intelligent clothing of the present utility model；

Fig. 2 is the sectional structure chart of a kind of temperature probe for intelligent clothing of the present utility model.

Detailed description of the invention

See figures.1.and.2, this utility model provides a kind of temperature probe for intelligent clothing, including shell 1, support 2, critesistor 5 and connection wire 7, described shell 1 adopts the material of high heat conductance to make, described support 2 adopts the material of lower thermal conductivity to make, described shell 1 is set on support 2, described shell 1 is provided with a cavity, described critesistor 5 is arranged in the cavity of shell 1, and in this cavity, it is filled with heat-conducting glue 6, one end of described connection wire 7 is connected with critesistor 5, and the other end stretches out from shell 1.

Being further used as preferred embodiment, described shell 1 includes the cavity forming shell 1 after housing 12 and the black box 11 seamlessly transitted of a cylindrical shape, described housing 12 and black box 11 connect.

Being further used as preferred embodiment, described support 2 includes the erecting bed 22 of a flat annular and the installing rack 21 of a cylindrical shape, and described installing rack 21 is arranged on erecting bed 22, and the housing 12 of described shell 1 is set on installing rack 21.

Being further used as preferred embodiment, the thickness of described shell 1 is 0.1 ~ 0.25mm, is highly 2 ~ 8mm, and diameter is 3 ~ 10mm.

Being further used as preferred embodiment, described critesistor 5 and black box 11 are in contact condition.

Being further used as preferred embodiment, described shell 1 is provided with the attachment structure 13 of inside bending at the opening of cavity, and described support 2 is provided with the mounting groove position 23 corresponding with attachment structure 13.

Being further used as preferred embodiment, described shell 1 adopts stainless steel material to make, and described support 2 adopts the nonmetallic materials of lower thermal conductivity to make.

Being further used as preferred embodiment, described temperature probe also includes for coordinating with support 2 and temperature probe being arranged on the pad 4 on clothing 3, and this pad is middle opening structure.

Below in conjunction with specific embodiment, this utility model is elaborated.

See figures.1.and.2, this utility model provides a kind of temperature probe for intelligent clothing, for being arranged on the body temperature gathering human body on clothing 3, including shell 1, support 2, critesistor 5 and connection wire 7, shell 1 adopts the material of high heat conductance to make, support 2 adopts the material of lower thermal conductivity to make, shell 1 is set on support 2, shell 1 is provided with a cavity, critesistor 5 is arranged in the cavity of shell 1, and fill out in this cavity and be filled with heat-conducting glue 6, the one end connecting wire 7 is connected with critesistor 5, and the other end stretches out from shell 1.

In the present embodiment, shell 1 includes housing 12 and the black box 11 seamlessly transitted of a cylindrical shape, housing 12 and black box 11 form the cavity of shell 1 after connecting, support 2 includes the erecting bed 22 of a flat annular and the installing rack 21 of a cylindrical shape, installing rack 21 is arranged on erecting bed 22, and the housing 12 of shell 1 is set on installing rack 21.When housing 12 is set in installing rack 21, being fastenedly connected between the two, connected mode has gluing, flanging riveted joint or in-mould injection molding.Critesistor 5 and black box 11 are made directly conduction of heat in contact condition, or in not contact condition, carry out conduction of heat by heat-conducting glue 6.In the present embodiment, it is preferred to use critesistor 5 and black box 11 form in contact condition.Support 2 is connected with the cloth of clothing 3 by erecting bed 22, connected mode has the connected modes such as gluing, hot pressing, ultrasonic welding or riveted joint, when adopting the connected mode of ultrasonic welding or riveted joint, temperature probe also includes pad 4, this pad 4 is middle opening structure, it is achieved be arranged on clothing 3 by temperature probe after coordinating with support 2.

Preferably, shell 1 is provided with the attachment structure 13 of inside bending at the opening of cavity, and support 2 is provided with the mounting groove position 23 corresponding with attachment structure 13.It is connected by the clamping of attachment structure 13 with mounting groove position 23, it is possible to improve the bonding strength of shell 1 and support 2, specific to the present embodiment, it is possible to improving the bonding strength between housing 12 and black box 11, the structure making this temperature probe is firmer.

Detailed, shell 1 adopts stainless steel material to make, and support 2 adopts the nonmetallic materials of lower thermal conductivity to make.When temperature probe and human contact, the heat major part of contact site skin is directly delivered to critesistor 5 or by heat-conducting glue 6 indirect transfer within temperature probe to critesistor 5 by black box 11, and the erecting bed 22 of the installing rack 21 of critesistor 5 side and rear end is owing to adopting the nonmetallic materials of lower thermal conductivity, its heat dissipation capacity is far smaller than the shell 1 adopting metal material, thus heat-insulating property is better, then when reaching thermal equilibrium state, the temperature of critesistor 5 is closer to human skin's temperature, the temperature information that this temperature probe is measured is closer to skin actual temperature, measurement result is more accurate.It addition, compare traditional all-metal probe, the metal ingredient of this temperature probe is less, and the thermal capacitance of whole probe is lower, and the heat that probe segment absorbs when reality is measured is less, and the time needed for reaching thermal equilibrium state is shorter, and thermometric speed is faster.

Embodiment two

The present embodiment is the further optimization of embodiment one, and the thickness of shell 1 is more thin, and heat conduction is more fast, and volume is more little simultaneously, and specific heat is more low, makes thermometric faster more accurate.In the present embodiment, the thickness of shell 1 is 0.1 ~ 0.25mm.The too low meeting of the height of shell 1 makes probe and the skin can not be fully in contact with, skin heat can not quickly be delivered on probe, highly too high meeting makes human body sensory uncomfortable, also can increase the thermal capacitance of probe simultaneously, it is 2 ~ 8mm that the height of shell 1 is preferably set as by the present embodiment, measuring speed and the accuracy of optimum can be reached, meet the comfort level requirement of user simultaneously.Finally, the present embodiment limits the diameter of shell 1 as 3 ~ 10mm, can obtain the thermal conduction effect of optimum, ensures the accuracy measured simultaneously.

It is above of the present utility model preferably enforcement has been illustrated, but the invention is not limited to embodiment, those of ordinary skill in the art it may also be made that all equivalent variations or replacement under the premise without prejudice to this utility model spirit, and these equivalent modification or replacement are all contained in the application claim limited range.

Claims (7)

1. the temperature probe for intelligent clothing, it is characterized in that, including shell, support, critesistor and connection wire, described shell adopts the material of high heat conductance to make, and described support adopts the material of lower thermal conductivity to make, described casing is located on support, described shell is provided with a cavity, and described critesistor is arranged in the cavity of shell, and is filled with heat-conducting glue in this cavity, one end of described connection wire is connected with critesistor, and the other end stretches out from shell.

2. a kind of temperature probe for intelligent clothing according to claim 1, it is characterised in that described shell includes the cavity forming shell after the black box that the housing and of a cylindrical shape seamlessly transits, described housing and black box connect.

3. a kind of temperature probe for intelligent clothing according to claim 2, it is characterized in that, described support includes the erecting bed of a flat annular and the installing rack of a cylindrical shape, and described installing rack is arranged on erecting bed, and the housing of described shell is set on installing rack.

4. a kind of temperature probe for intelligent clothing according to claim 2, it is characterised in that the thickness of described shell is 0.1 ~ 0.25mm, is highly 2 ~ 8mm, and diameter is 3 ~ 10mm.

5. a kind of temperature probe for intelligent clothing according to claim 2, it is characterised in that described critesistor and black box are contact condition.

6. a kind of temperature probe for intelligent clothing according to claim 1, it is characterised in that described shell is provided with the attachment structure of inside bending at the opening of cavity, and described support is provided with the mounting groove position corresponding with attachment structure.

7. a kind of temperature probe for intelligent clothing according to claim 1, it is characterised in that described shell adopts stainless steel material to make, described support adopts the nonmetallic materials of lower thermal conductivity to make.