CN204924483U - Temperature probe and temperature measuring device - Google Patents

Abstract

The utility model discloses a temperature probe and temperature measuring device relates to the temperature measurement field, need not the battery, the size is small and exquisite, longe -lived, convenience safe in utilization to support temperature data transmission and management. The utility model provides a temperature probe, include: antenna, coupling element, radio frequency identification chip and temperature detection circuit, capacitance connection among antenna and the coupling element constitutes resonance circuit for the electromagnetic wave of ware transmission is read in the response, and with the energy storage that gathers in electric capacity, for the power supply of radio frequency identification chip, the radio frequency identification chip is connected with antenna, coupling element for send the electronic tag information of storage for reading the ware through the antenna, temperature detection circuit is connected with the radio frequency identification chip for detecting object's temperature information, and send for reading the ware through the antenna.

Description

Temperature probe and temperature measuring equipment

Technical field

The utility model relates to field of temperature measurement, particularly relates to a kind of temperature probe and temperature measuring equipment.

Background technology

Temperature is the physical quantity representing the cold and hot degree of object, and produce, life in can often use and needs measurement a kind of parameter.Current use more temperature measuring tool mainly contains traditional mercury thermometer, infrared thermometer and the electronic thermometer based on temperature sensor.Mercury thermometer uses inconvenience, and security is also poor; Infrared thermometer volume is comparatively large, and does not possess data management function; Existing electronic thermometer volume is also comparatively large, and needs powered battery, and serviceable life is also shorter, is badly in need of a kind of volume at present little, the temperature measuring equipment of use safety, the conveniently also transmission of support temperature data and management.

Utility model content

The utility model provides a kind of temperature probe and temperature measuring equipment, long, safe and convenient to use without the need to battery, compact size, life-span, and the transmission of support temperature data and management.

For achieving the above object, embodiment of the present utility model adopts following technical scheme:

First aspect, embodiment of the present utility model provides a kind of temperature probe, comprising: antenna, coupling element, radio-frequency (RF) identification chip and temperature measurement circuit; Described antenna is connected with the electric capacity in coupling element, composition resonant tank, for responding to the electromagnetic wave that reader is launched, and by the stored energy of collection in electric capacity, for described radio-frequency (RF) identification chip is powered; Described radio-frequency (RF) identification chip is connected with antenna, coupling element, for the electronic labeling information of storage is sent to reader by antenna; Described temperature measurement circuit is connected with radio-frequency (RF) identification chip, for the temperature information of inspected object, and sends to reader by antenna.

Preferably, described temperature probe is an obturator, built-in described antenna, coupling element, radio-frequency (RF) identification chip and temperature measurement circuit.

Alternatively, the wherein one side of described obturator is for visiting side, and described temperature measurement circuit comprises temperature sensor, and described temperature sensor leaks outside in surface from described spy side, or described temperature sensor does not leak outside, but described temperature sensor is by the temperature of Neng Tan side, described spy side to testee.

Alternatively, described temperature sensor is arranged at the middle position of described spy side, and described temperature sensor is provided with a circle insulating layer, and the periphery of described insulating layer is formed with sucker, described sucker, for providing stable absorption affinity, makes described temperature probe be adsorbed on testee.

Alternatively, the profile of described obturator is rounded or oval bluff body.

Alternatively, described radio-frequency (RF) identification chip comprises storer and processor.

Alternatively, described temperature sensor is thermistor (temperature) sensor.

Alternatively, described thermistor (temperature) sensor is negative tempperature coefficient thermistor.

Second aspect, the utility model provides a kind of temperature measuring equipment, comprises the temperature probe described in one or more any one.

Further, described temperature measuring equipment, also comprises: reader, for providing energy by antenna for each described temperature probe, and the reading of trip temperature information of going forward side by side.

Alternatively, described reader comprises multiple running period, comprises working hour and rest period each running period; When described reader is in working hour, it is the reading that described temperature probe provides energy to go forward side by side trip temperature information.

Particularly, described reader comprises: radio frequency module for reading and writing, for being read the temperature information in described temperature probe by antenna; Radio frequency control module, provides energy to described temperature probe for controlling described antenna and coupled apparatus according to instruction and controls the reading that described radio frequency module for reading and writing carries out temperature information; Antenna and coupled apparatus, for launching and receiving electromagnetic wave; Power module, for providing power supply to each module of described reader.

Alternatively, described reader also comprises: communication module, for the described temperature information read is sent to smart mobile phone or computer.

Alternatively, described communication module is also for receiving the instruction from described smart mobile phone or computer.

Alternatively, described communication module is bluetooth module.

The temperature probe that the utility model embodiment provides and temperature measuring equipment, described temperature probe comprises: antenna, coupling element, radio-frequency (RF) identification chip and temperature measurement circuit, wherein, antenna is connected with the electric capacity in coupling element, composition resonant tank, by the stored energy of collection in electric capacity, for radio-frequency (RF) identification chip is powered; Radio-frequency (RF) identification chip is connected with antenna, coupling element, and the electronic labeling information of storage is sent to reader by antenna; Temperature measurement circuit is connected with radio-frequency (RF) identification chip, for the temperature information of inspected object, and sends to reader by antenna, described temperature probe, without the need to battery, can make full-closed structure, and compact size, life-span are long, safe and convenient to use, and the transmission of support temperature data and management.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The structured flowchart of the temperature probe that Fig. 1 provides for the utility model embodiment;

The appearance schematic diagram of the temperature probe that Fig. 2 provides for the utility model embodiment;

Fig. 3 is the schematic diagram of temperature sensor in the utility model embodiment;

The structural representation of the temperature measuring equipment that Fig. 4 provides for the utility model embodiment;

The operating diagram of the temperature measuring equipment that Fig. 5 provides for the utility model embodiment.

Reference numeral

10-temperature probe, 11-antenna, 12-coupling element, 13-radio-frequency (RF) identification chip, 14-temperature measurement circuit, 141-temperature sensor, 15-insulating layer, 16-sucker, 20-reader, 21-antenna II, 22-coupling element II, 23-radio frequency module for reading and writing, 24-control module, 25-communication module, 26-power module.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment

The utility model embodiment provides a kind of temperature probe, and as shown in Figure 1, this temperature probe 10 comprises: antenna 11, coupling element 12, radio-frequency (RF) identification chip 13 and temperature measurement circuit 14; Antenna 11 is connected with the electric capacity in coupling element 12, composition resonant tank, for responding to the electromagnetic wave that reader is launched, and by the stored energy of collection in electric capacity, for radio-frequency (RF) identification chip 13 is powered; Radio-frequency (RF) identification chip 13 is connected with antenna 11, coupling element 12, for the electronic labeling information of storage is sent to reader by antenna 11; Temperature measurement circuit 14 is connected with radio-frequency (RF) identification chip 13, for the temperature information of inspected object, and sends to reader by antenna 11.

Radio-frequency technique is a kind of maturation, effective close range communication techniques, radio-frequency recognition system is made up of electronic tag and reader usually, electronic tag is divided into again active and passive two kinds, passive electronic label (passive label) have volume little, without the need to the advantage of power supply, passive electronic label does not have internal battery, time outside the read range of reader, electronic tag is in passive states, time within the read range of reader, electronic tag extracts the power supply needed for its work from the radio-frequency (RF) energy that reader sends.Passive electronic label generally all adopts reflection modulation mode to complete the transmission of electronic labeling information to reader.Generally speaking, when passive electronic label receives the signal of sufficient intensity, data can be sent to reader.These data not only comprise sign number (whole world uniquely indicates ID), can also comprise the data preexisted in tag memory reservoir (EEPROM).

The present embodiment forms temperature probe by being integrated on passive label by temperature measurement circuit 14, there is provided power supply for it by reader and temperature information is derived, the two cooperatively interacts and realizes temperature survey and temperature data transmission, and reader can transfer data in smart mobile phone or computer further, thus realize intelligent measure and the management function of temperature.

The temperature probe of the present embodiment, is the integrated of passive electronic label and temperature sensor, is mainly used in the accurate measurement realizing temperature.Temperature probe mainly comprises antenna 11, coupling element 12, radio-frequency (RF) identification chip 13 and temperature measurement circuit 14, wherein, antenna 11 and coupling element 12 cooperatively interact, and realize two functions: one is the power supply extracted from the radio-frequency (RF) energy that reader sends needed for temperature probe work; But transmission and the reception of information is realized at temperature probe end; Radio-frequency (RF) identification chip 13 comprises storer and processor, for information processing and the modules such as control antenna 11, coupling element 12 and temperature measurement circuit 14 carry out work, such as carry out temperature survey for controlling temperature measurement circuit 14 and store data in storer, then by antenna, temperature information being sent.

The present embodiment forms temperature probe by being integrated on passive label by temperature measurement circuit 14, the electromagnetic wave launched by induction reader is provided power supply for passive electronic label and carries out data transmission, without the need to battery, full-closed structure can be made, compact size, life-span are long, safe and convenient to use, and the transmission of support temperature data and management.

As shown in Figure 2, for meeting a kind of temperature probe 10 of the present embodiment, temperature probe 10 is an obturator, built-in aerial 11, coupling element 12, radio-frequency (RF) identification chip 13 and temperature measurement circuit 14.Temperature probe 10 entirety is an obturator, waterproof, insulation, can play a protective role to internal components and circuit, safe and convenient to use and extend serviceable life of temperature probe 10.

The profile of above-mentioned obturator can be rounded or oval bluff body, wherein one side is for visiting side 100, temperature sensor 141 in temperature measurement circuit 14 is arranged at the middle position visiting side, temperature sensor 141 is provided with a circle insulating layer 15, the periphery of insulating layer 15 is formed with sucker 16, and insulating layer 15 is for reducing the impact of temperature sensor 141 by own temperature, and sucker 16 is for providing stable absorption affinity, make temperature probe 10 be adsorbed on testee, be convenient to measure.Wherein, temperature sensor 141 can leak outside in surface from spy side and be convenient to accurate sense temperature, also can not leak outside by temperature sensor 141, but by visiting the temperature of Neng Tan side, side to testee, now the spy side at temperature sensor 141 place is the protective materials that skim can transmit temperature.

Alternatively, temperature sensor 141 is thermistor (temperature) sensor.The resistance variation with temperature of thermistor (temperature) sensor changes, as negative tempperature coefficient thermistor (NTC, the rising of electrical resistance temperature NegativeTemperatureCoefficient) exponentially reduces, resistance changes, electric current also changes accordingly, can be reflected the change of temperature by the change detecting electric current.Thermistor (temperature) sensor adopts ceramic process to make usually, compact, soft line type NTC thermistor selected by the contact thermistor (temperature) sensor being applied to clinical thermometer, the main body temperature-sensitive section diameter of temperature sensor 141 is about 1mm, soft wire length 25 ~ 50mm, precision General Requirements at least 0.1 DEG C, as shown in Figure 3.The main body temperature-sensitive part of temperature sensor 141 is arranged at test surface, and soft lead-in wire is introduced inside and is connected with radio-frequency (RF) identification chip 13.

The present embodiment temperature probe and reader are used in conjunction with each other, its principle of work is launch the radio wave energy of a characteristic frequency to temperature probe by reader, in order to drive temperature probe circuit, the information of inside is sent with code form, now reader just receives this code information, and this code information comprises temperature information.Temperature probe special is to exempt from battery, read temperature information contact-free, full-closed structure, use safety, convenience, be not afraid of dirty.

The utility model embodiment also provides a kind of temperature measuring equipment, comprises the temperature probe described in one or more above-mentioned any one.When temperature measuring equipment comprises at least two temperature probes, can be different user's detected temperatures, each temperature probe correspondence detects the body temperature of a user, and like this, when adopting a temperature measuring equipment to be different user detection body temperature, body temperature information is convenient to management.

The temperature measuring equipment that the present embodiment provides comprises above-mentioned temperature probe, can realize intelligent temp-measuring device (as clinical thermometer) small-sized, easy to use, be widely used in family, hospital etc., specifically see following:

Further, as shown in Figure 4, the temperature measuring equipment described in the present embodiment, also comprises: reader 20, for providing energy by antenna 21 for each temperature probe 10, and the reading of trip temperature information of going forward side by side.Particularly, this reader 20 comprises: radio frequency module for reading and writing 23, for being read the temperature information in temperature probe 10 by antenna II21; Radio frequency control module 24, for providing energy according to instruction control antenna II21 and coupled apparatus II22 to temperature probe 10 and controlling the reading that radio frequency module for reading and writing 23 carries out temperature information; Antenna 11 and coupled apparatus, for launching and receiving electromagnetic wave; Power module 26, for providing power supply to each module of reader 20 (21 ~ 25).

The temperature measuring equipment that the present embodiment provides, comprises temperature probe and reader 20, and cooperatively interact the measurement and digital independent that realize temperature, can realize intelligent temp-measuring device (as clinical thermometer) small-sized, easy to use, be widely used in family, hospital etc.

Above-mentioned reader 20 also can comprise: communication module 25, and the temperature information for certain user detected by each temperature probe 10 read is sent to smart mobile phone or computer.Smart mobile phone or computer can connect different temperature probes 10, and all temperature datas that this temperature probe 10 records are stored on request and shown.Communication module 25 can also be used for the instruction received from described smart mobile phone or computer.Above-mentioned communication module 25 can be wireless or wire communication module, and wireless communication module is as bluetooth module, near-field communication module etc.

In use procedure, reader and passive temperature probe can hold period sex work states, and the temperature sensor namely on reader 20 pairs of temperature probes 10 carries out periodicity and detects, to reduce power consumption.Specifically, reader 20 can comprise multiple running period, comprises working hour and rest period each running period, when reader 20 is in working hour, is the reading that temperature probe 10 provides energy to go forward side by side trip temperature information; When reader 20 is in the rest period, reader 20 not emitting electromagnetic wave, temperature probe 10 is also in halted state owing to cannot obtain power supply, until next time is activated by reader 20.

Shown in Fig. 5, operating diagram for a kind of temperature measuring equipment based on radio-frequency (RF) identification (radio frequency clinical thermometer) that the utility model embodiment provides: temperature measuring equipment comprises temperature probe 10 and reader 20, temperature probe 10 is formed with temperature sensor is integrated by radio-frequency (RF) tag (REID label), effective connection distance of reader 20 and temperature probe 10 is not less than 5 meters, under duty, reader 20 activates temperature probe 10, temperature sensor in temperature probe 10 obtains the body temperature information of tested person/thing, is sent to reader 20 in the mode of electronic labeling information; The bluetooth module of reader 20 initiatively sends body temperature data message to smart mobile phone (or computer or other intelligent parts), and smart mobile phone carries out the management of user data and user profile after receiving data.The identification code of this label is comprised in the packet header of the temperature data that each temperature probe 10 sends, when data send, temperature datas all in one day can be sent at every turn, smart mobile phone can connect different temperature probes 10 (also simultaneously can connect different temperature probes 10) in different time, and all temperature datas that this temperature probe 10 in a day records are stored and show, intelligent measuring and the management function of body temperature can be realized at smart mobile phone end by Software for Design.

The utility model carries out measurement of bldy temperature by being integrated on passive electronic label by temperature sensor 141, and by radio frequency and bluetooth, data are finally transferred to the management of smart mobile phone or the enterprising trip temperature data of computer, thermometric end is passive totally-enclosed temperature probe, compact size, life-span are long, safe and convenient to use, and the transmission of support temperature data and management.

It will be appreciated by persons skilled in the art that the reader 20 in the present embodiment can also directly be arranged on (or being integrated in) smart mobile phone or computer.

Each embodiment in this instructions all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually see, what each embodiment stressed is the difference with other embodiments.Especially, for apparatus embodiments, because it is substantially similar to embodiment of the method, so describe fairly simple, relevant part illustrates see the part of embodiment of the method.

The above; be only embodiment of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims (15)

1. a temperature probe, is characterized in that, comprising: antenna, coupling element, radio-frequency (RF) identification chip and temperature measurement circuit;

Described antenna is connected with the electric capacity in coupling element, composition resonant tank, for responding to the electromagnetic wave that reader is launched, and by the stored energy of collection in electric capacity, for described radio-frequency (RF) identification chip is powered;

Described radio-frequency (RF) identification chip is connected with antenna, coupling element, for the electronic labeling information of storage is sent to reader by antenna;

Described temperature measurement circuit is connected with radio-frequency (RF) identification chip, for the temperature information of inspected object, and sends to reader by antenna.

2. temperature probe according to claim 1, is characterized in that, described temperature probe is an obturator, built-in described antenna, coupling element, radio-frequency (RF) identification chip and temperature measurement circuit.

3. temperature probe according to claim 2, it is characterized in that, the wherein one side of described obturator is for visiting side, described temperature measurement circuit comprises temperature sensor, described temperature sensor leaks outside in surface from described spy side, or described temperature sensor does not leak outside, but described temperature sensor is by the temperature of Neng Tan side, described spy side to testee.

4. temperature probe according to claim 3, it is characterized in that, described temperature sensor is arranged at the middle position of described spy side, described temperature sensor is provided with a circle insulating layer, the periphery of described insulating layer is formed with sucker, described sucker, for providing stable absorption affinity, makes described temperature probe be adsorbed on testee.

5. the temperature probe according to any one of claim 2-4, is characterized in that,

The profile of described obturator is rounded or oval bluff body.

6. temperature probe according to claim 1, is characterized in that, described radio-frequency (RF) identification chip comprises storer and processor.

7. temperature probe according to claim 3, is characterized in that, described temperature sensor is thermistor (temperature) sensor.

8. temperature probe according to claim 7, is characterized in that, described thermistor (temperature) sensor is negative tempperature coefficient thermistor.

9. a temperature measuring equipment, is characterized in that, comprises the temperature probe described in one or more any one of claim 1-8.

10. temperature measuring equipment according to claim 9, is characterized in that, also comprises:

Reader, for providing energy by antenna for each described temperature probe, the reading of trip temperature information of going forward side by side.

11. temperature measuring equipments according to claim 10, is characterized in that, described reader comprises multiple running period, comprise working hour and rest period each running period;

When described reader is in working hour, it is the reading that described temperature probe provides energy to go forward side by side trip temperature information.

12. temperature measuring equipments according to claim 10 or 11, it is characterized in that, described reader comprises:

Radio frequency module for reading and writing, for reading the temperature information in described temperature probe by antenna;

Radio frequency control module, provides energy to described temperature probe for controlling described antenna and coupled apparatus according to instruction and controls the reading that described radio frequency module for reading and writing carries out temperature information;

Antenna and coupled apparatus, for launching and receiving electromagnetic wave;

Power module, for providing power supply to each module of described reader.

13. temperature measuring equipments according to claim 12, is characterized in that, described reader also comprises: communication module, for the described temperature information read is sent to smart mobile phone or computer.

14. temperature measuring equipments according to claim 13, is characterized in that, described communication module is also for receiving the instruction from described smart mobile phone or computer.

15. temperature measuring equipments according to claim 14, is characterized in that, described communication module is bluetooth module.