CN104414622A - Temperature measuring equipment - Google Patents

Abstract

The invention discloses temperature measuring equipment, and the temperature measuring equipment comprises a main body and a temperature probe assembly. The main body comprises a measuring part which includes a to-be-measured object contact surface and a groove inwardly sunk from the to-be-measured object contact surface. The temperature probe assembly cannot be movably fixed in the groove of the measuring part. Because the heat contact surface of a heat conduction cover isn't protruded from the to-be-measured object contact surface, the whole temperature probe assembly is surrounded by the annular inner wall and cannot be damaged by external force. Thus the measuring precision of the temperature measuring equipment cannot be affected when the temperature probe assembly is damaged by the external force, and the temperature measuring equipment cannot lose a measuring function. A support pillar, a heat conduction sensor and a heat conduction cover cannot be moveably fixed in the groove and the structural strength between the temperature probe assembly and the measuring part is increased, thus the ability of bearing the external force by the temperature probe assembly is further increased.

Description

Temperature measuring equipment

Technical field

The present invention relates to a kind of temperature measuring equipment, particularly a kind of temperature measuring equipment of thermo-contact formula.

Background technology

At present by widely apply in the temperature measuring equipment of body temperature, the most easily no more than ear temperature measurement device and volume temperature measurement device, compared to traditional mercurial thermometer, these two kinds of temperature measuring equipments can complete temperature survey at short notice.

For volume temperature measurement device, volume temperature measurement device is generally divided into contact and contactless.Wherein, the temperature being measured human body by temperature probe and human body skin thermo-contact of the volume temperature measurement device of contact.But, when temperature probe is subject to the collision of unexpected external force, then easily produces temperature probe opposite shell and to tilt or the accommodation space etc. that is relatively absorbed in shell destroys and affects thermometric precision.More seriously, if destroy the electric connection of temperature probe and internal circuit because temperature probe is subject to external force collision, volume temperature measurement device will be caused to lose thermometric function.Therefore, how protecting temperature probe to avoid being subject to external force collision and affect temperature measurement result will be one of research staff's problem that should solve.

Summary of the invention

The object of the present invention is to provide a kind of temperature measuring equipment, use protection temperature probe and avoid being subject to external force collision and affecting temperature measurement result.

Temperature measuring equipment disclosed by the present invention, comprises a body and a temperature probe assembly.Body comprises a measurement section.The groove that measurement section has a determinand contact surface and caves inward from determinand contact surface.Temperature probe assembly cannot be fixed in the groove of measurement section actively.

Temperature measuring equipment disclosed by the invention described above, the thermal interface due to conductive cover does not protrude from determinand contact surface, therefore whole temperature probe assembly all by annular inner wall face institute around protection to outside destroy.Thus, temperature probe assembly can be avoided to be subject to outside destroy and to affect the measurement precision of temperature measuring equipment, even temperature measuring equipment can be avoided to lose measurement function.

In addition, support column, conduction of heat sensor and conductive cover to be fixed in groove actively, to increase the structural strength between temperature probe assembly and measurement section, thus, further can increase the ability that temperature probe assembly bears outside destroy.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of temperature measuring equipment according to a first embodiment of the present invention;

Fig. 2 is the cross-sectional schematic of Fig. 1;

Fig. 3 A is the enlarged schematic partial view of Fig. 2;

Fig. 3 B is the partial cutaway view schematic that the temperature measuring equipment of Fig. 3 A is resisted against human body;

Fig. 4 A is the partial cutaway view schematic of temperature measuring equipment according to a second embodiment of the present invention;

Fig. 4 B is the partial cutaway view schematic that the temperature measuring equipment of Fig. 4 A is resisted against human body;

Fig. 5 is the partial cutaway view schematic of temperature measuring equipment according to a third embodiment of the present invention.

Wherein, Reference numeral

10 temperature measuring equipments

20 human body skins

100 bodies

110 measurement section

111 annular side walls

112 annular colloids

113 determinand contact surfaces

114 grooves

115 annular inner wall faces

120 grip parts

121 storage tanks

122 openings

200 temperature probe assemblies

210 support columns

220 conduction of heat sensors

230 conductive cover

231 thermal interfaces

240 heat-conducting mediums

300 electronic building bricks

310 circuit boards

320 display modules

330 on and off switch

Detailed description of the invention

Below in conjunction with accompanying drawing, structural principle of the present invention and operation principle are described in detail:

Please refer to Fig. 1 to Fig. 3 A.Fig. 1 is the schematic perspective view of temperature measuring equipment according to a first embodiment of the present invention.Fig. 2 is the cross-sectional schematic of Fig. 1.Fig. 3 A is the enlarged schematic partial view of Fig. 2.

The present invention discloses a kind of temperature measuring equipment, and the present embodiment only illustrates body temperature measuring device.

The temperature measuring equipment 10 of the present embodiment is the temperature measuring equipment of thermo-contact formula, such as, be thermo-contact Shi Ewen rifle, but not as limit.Temperature measuring equipment 10 comprises body 100, temperature probe assembly 200 and an electronic building brick 300.

Body 100 comprises connected measurement section 110 and a grip part 120.Measurement section 110 comprises connected annular side wall 111 and an annular colloid 112.Annular colloid 112 has a determinand contact surface 113.Determinand contact surface 113 is positioned at the side of annular colloid 112 annular side wall 111 dorsad.The material of annular colloid 112 such as, is the equivalent material of the tool such as silica gel or plastic cement elastic deformability.In the present embodiment, determinand contact surface 113 is the surfaces contacted with human body skin.

In addition, measurement section 110 has the groove 114 caved inward from determinand contact surface 113.Annular side wall 111 and annular colloid 112 are around groove 114.Annular side wall 111 and annular colloid 112 have the annular inner wall face 115 forming groove 114, and annular inner wall face 115 is connected to determinand contact surface 113.In the present embodiment, annular inner wall face 115 around shape be a taper, but annular inner wall face 115 around shape not as limit, can according to actual demand, around other shapes.

Grip part 120 is connected in measurement section 110.Grip part 120 has a storage tank 121 and is communicated with an opening 122 of storage tank 121.

In the present embodiment, measurement section 110 cannot be fixed on grip part 120 actively.For example, measurement section 110 can be connected to grip part 120 one-body moldedly.Also can be utilize buckle structure to be fastened on grip part 120.Only when both fasten mutually, measurement section 110 is can not grip part 120 displacement relatively.

Temperature probe assembly 200 cannot be fixed in the groove 114 of measurement section 110 actively.Temperature probe assembly 200 comprises support column 210, conduction of heat sensor 220 and a conductive cover 230.Support column 210 is positioned at groove 114.Conduction of heat sensor 220 is positioned at support column 210.The present embodiment support column 210 is hollow tube or canaliculate support column, makes the wire of conduction of heat sensor 220 can be passed through hollow tube or canaliculate support column, to connect circuit board described later.Conductive cover 230 is located at one end that support column 210 is adjacent to determinand contact surface 113, and thermo-contact is in conduction of heat sensor 220.Conductive cover 230 has a thermal interface 231 away from the side of conduction of heat sensor 220.Thermal interface 231 does not protrude determinand contact surface 113.The present embodiment is for determinand contact surface 113 and thermal interface 231 copline.In addition, support column 210, conduction of heat sensor 220 and conductive cover 230 neither can relative measurement portion 110 and grip part 120 displacements.

The temperature probe assembly 200 of the present embodiment more comprises a heat-conducting medium 240.Heat-conducting medium 240 is arranged between conductive cover 230 and conduction of heat sensor 220, and thermo-contact is in conductive cover 230 and conduction of heat sensor 220, to increase the area of thermo-contact between conductive cover 230 and conduction of heat sensor 220.The present embodiment heat-conducting medium 240 is scolding tin or heat-conducting glue.But heat-conducting medium 240 is also inessential, in other embodiments, conductive cover 230 directly thermo-contact conduction of heat sensor 220 also can be allowed between conductive cover 230 and conduction of heat sensor 220 without heat-conducting medium 240.

In addition, the annular inner wall face 115 of the present embodiment is around support column 210, and annular inner wall face 115 and support column 210 are separated (that is, having a space between annular inner wall face 115 and support column 210) to slow down the influence degree of ambient temperature to conduction of heat sensor 220.

Electronic building brick 300 is positioned at storage tank 121, and electronic building brick 300 comprises circuit board 310, display module 320 and an on and off switch 330.Conduction of heat sensor 220 is electrically connected at circuit board.Display module 320 is arranged at the opening 122 of grip part 120, and is electrically connected at circuit board 310.Display module 320 is in order to demonstrate the temperature information measured by conduction of heat sensor 220.On and off switch 330 is arranged at grip part 120, and is electrically connected at circuit board 310.On and off switch 330 is used to power-on or powered-down.

The occupation mode of temperature measuring equipment 10 is below described.Refer to Fig. 3 B.Fig. 3 B is the partial cutaway view schematic that the temperature measuring equipment of Fig. 3 A is resisted against human body skin.

When wanting measuring tempeature, first, the determinand contact surface 113 of temperature measuring equipment 10 is resisted against human body skin 20.Because of the elasticity of human body skin 20 and the ability of annular colloid 112 tool flexible deformation, therefore when determinand contact surface 113 is resisted against human body skin 20, determinand contact surface 113 can make part human body skin 20 relatively protuberance and with thermal interface 231 close contact of the conductive cover 230 in groove 114.Then, leave standstill about 3 seconds, then can obtain rapidly the core temperature information of human body.The Measuring Time of the temperature measuring equipment 10 of the present embodiment is for 3 seconds, but not as limit.This operator ripe is when knowing, Measuring Time is relevant with the heat-conductive characteristic of contact material or human body temperature estimation program, therefore can need according to actual design and make adjustment.

It should be noted that, the temperature measuring equipment 10 of the present embodiment does not protrude from determinand contact surface 113 (thermal interface 231 and determinand contact surface 113 copline) because of the thermal interface 231 of conductive cover 230, thus whole temperature probe assembly 200 all can by annular inner wall face 115 institute around.Thus, whole temperature probe assembly 200 all can by the protection of measurement section 110 from arriving outside destroy.Thus, temperature probe assembly 200 can be avoided to be subject to outside destroy and to affect the measurement precision of temperature measuring equipment 10, even temperature measuring equipment 10 can be avoided to lose measurement function.

In addition, support column 210, conduction of heat sensor 220 and conductive cover 230 cannot be fixed on actively in groove 114, to increase the structural strength between temperature probe assembly 200 and measurement section 110 or grip part 120, thus, temperature probe assembly 200 can be further avoided to suffer outside destroy.

Refer to Fig. 4 A.Fig. 4 A is the partial cutaway view schematic of temperature measuring equipment according to a second embodiment of the present invention.The element of the present embodiment is similar to the aforementioned embodiment, therefore is only described for deviation at this.

The difference of the present embodiment and above-mentioned the present embodiment is, determinand contact surface 113 and thermal interface 231 copline of above-described embodiment, but the temperature probe assembly 200 of the present embodiment inside contracts towards groove 114, make thermal interface 231 and determinand contact surface 113 keep a distance, namely this determinand contact surface 113 protrudes this thermal interface 231 1 distance.In the present embodiment, this distance is less than 4 millimeters.

Then, the occupation mode of the temperature measuring equipment 10 of the present embodiment is gone on to say.Refer to Fig. 4 B.Fig. 4 B is the partial cutaway view schematic that the temperature measuring equipment of Fig. 4 A is resisted against human body.When human body temperature will be measured, first, the determinand contact surface 113 of temperature measuring equipment 10 is resisted against human body skin 20.Because of the ability of human body skin 20 and annular colloid 112 tool flexible deformation, therefore when determinand contact surface 113 is resisted against human body skin 20, determinand contact surface 113 can make partial skin relatively swell.Because the bump height of human body skin 20 is generally greater than 4 millimeters, thus human body skin 20 still can close contact in the thermal interface 231 of the conductive cover 230 of the present embodiment.Then, leave standstill about 3 seconds, then can obtain rapidly the core temperature information of human body.

The measurement section 110 of above-mentioned temperature measuring equipment 10 has annular colloid 112, but not as limit, in other embodiments, measurement section 110 also can not have annular colloid 112.Refer to Fig. 5.Fig. 5 is the partial cutaway view schematic of temperature measuring equipment according to a third embodiment of the present invention.

The difference of first embodiment of the present embodiment and above-mentioned Fig. 1 is, the measurement section 110 of the present embodiment is without arranging annular colloid 112, that is, measurement section 110 only comprises an annular side wall 111, and determinand contact surface 113 is positioned on annular side wall 111, and groove 114 caves inward from the determinand contact surface 113 of annular side wall 111.

Temperature measuring equipment disclosed by the invention described above, the thermal interface due to conductive cover does not protrude from determinand contact surface, therefore whole temperature probe assembly all by annular inner wall face institute around protection to outside destroy.Thus, temperature probe assembly can be avoided to be subject to outside destroy and to affect the measurement precision of temperature measuring equipment, even temperature measuring equipment can be avoided to lose measurement function.

In addition, support column, conduction of heat sensor and conductive cover to be fixed in groove actively, to increase the structural strength between temperature probe assembly and measurement section, thus, further can increase the ability that temperature probe assembly bears outside destroy.

Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the present invention.

Claims (10)

1. a temperature measuring equipment, is characterized in that, comprises:

One body, comprises a measurement section, the groove that this measurement section has a determinand contact surface and caves inward from this determinand contact surface; And

One temperature probe assembly, is fixedly installed in this groove of this measurement section.

2. temperature measuring equipment according to claim 1, it is characterized in that, this temperature probe assembly comprises a support column, a conduction of heat sensor and a conductive cover, this support column is positioned at this groove, this conduction of heat sensor is positioned at this support column, and this conductive cover is located at one end of this support column, and thermo-contact is in this conduction of heat sensor, this conductive cover has a thermal interface away from the side of this conduction of heat sensor, and this thermal interface does not protrude this determinand contact surface.

3. temperature measuring equipment according to claim 2, is characterized in that, this thermal interface and this determinand contact surface copline.

4. temperature measuring equipment according to claim 2, is characterized in that, this temperature probe assembly more comprises a heat-conducting medium, is arranged between this conductive cover and this conduction of heat sensor, and thermo-contact is in this conductive cover and this conduction of heat sensor.

5. temperature measuring equipment according to claim 1, is characterized in that, this measurement section comprises a connected annular side wall and an annular colloid, and this determinand contact surface is positioned at the side of this annular colloid this annular side wall dorsad.

6. temperature measuring equipment according to claim 2, is characterized in that, this determinand contact surface protrudes this thermal interface one distance, and this distance is less than 4 millimeters.

7. temperature measuring equipment according to claim 2, it is characterized in that, this measurement section has the annular inner wall face forming this groove, is connected to this determinand contact surface, this annular inner wall face around this support column, and has a space between this annular inner wall face and this support column.

8. temperature measuring equipment according to claim 2, it is characterized in that, more comprise an electronic building brick, this body comprises a grip part, be connected in this measurement section, this grip part has a storage tank, and this electronic building brick is arranged in this storage tank, and this conduction of heat sensor is electrically connected at this electronic building brick.

9. temperature measuring equipment according to claim 8, it is characterized in that, this electronic building brick comprises a circuit board and a display module, this conduction of heat sensor is electrically connected at this circuit board, this grip part has an opening, this display module is arranged at this opening, and this display module is electrically connected at this circuit board.

10. temperature measuring equipment according to claim 9, is characterized in that, this electronic building brick more comprises an on and off switch, is arranged at this grip part, and is electrically connected at this circuit board.