CN204683571U - A kind of infrared ear temperature continuous detection apparatus - Google Patents
A kind of infrared ear temperature continuous detection apparatus Download PDFInfo
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- CN204683571U CN204683571U CN201520095812.9U CN201520095812U CN204683571U CN 204683571 U CN204683571 U CN 204683571U CN 201520095812 U CN201520095812 U CN 201520095812U CN 204683571 U CN204683571 U CN 204683571U
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Abstract
The utility model discloses a kind of infrared ear temperature continuous detection apparatus, it comprises the probe unit, main control unit and the transmission unit that connect successively; Probe unit, it is for detecting infrared signal, and after processing and amplifying, exports the infrared signal detected to main control unit; Infrared sensor is provided with in probe unit; Main control unit, its for receive and process probe unit export signal, the infrared signal detected by infrared sensor is effectively amplified and digital translation process complete after be sent to transmission unit; Main MCU and the circuit board supporting with main MCU is provided with in main control unit; Transmission unit, it is transferred to external equipment for ear temperature data main control unit process completed by preset mode.This utility model can direct continuous measurement ear temperature, have produce simple and efficient, environmental protection, date processing very fast, measure more accurately, compact is portable, wear the advantages such as convenient and novel functions.
Description
Technical field
This utility model relates to a kind of infrared ear temperature continuous detection apparatus.
Background technology
Body temperature control measurement is one of means of clinical and that family health care is the most basic understanding physiology and pathological state.The product of achieved measurement of bldy temperature or monitoring mainly contains mercury clinical thermometer, electronic clinical thermometer, Infra-red ear thermometer, NTC probe for detecting temperature etc. at present.
Domestic hospitals and family mostly adopt mercury clinical thermometer to carry out measurement of bldy temperature.Although mercury clinical thermometer low price, accuracy of reading, but the shortcomings such as response speed is slow, inconvenience is monitored continuously owing to having, easy broken generation mercury pollution, forbid already selling and using in developed country, the substitute is the on-line monitor probe for detecting temperature that electric body-temperature takes into account adaptive all kinds of medical monitor.
At present for just before giving birth body temperature monitor continuously be mostly utilize contact NTC thermistor and human contact after heat balance principle to obtain body temperature information, common body temperature continuity way mainly contains contact axil temperature and pops one's head in or intracavity probe for detecting temperature.
All conventional thermistor formula monitor thermometric accessories are mostly be placed on human body oxter, make underarm conditions temperature and temperature measuring head reach hygral equilibrium and just can measure human body actual temperature, and error is at ± 0.5 ° of C through long measurement; But if environment converts fast, this temperature measurer may fast, effectively along with the variations in temperature of detector, thus cause the problems such as measuring speed is slow, precision is low.If such as thermometer is moved on to cold room (10 degree) from greenhouse (30 degree), survey equal temperature state and be destroyed, must spend within 5 minutes, even within 10 minutes, reach new equal temperature state simultaneously.Moreover thermistor-type monitor is placed on human body oxter and is also unfavorable for continuous print measuring tempeature, patient's conventional thermistor formula monitor in long-time measuring process also easily occurs coming off or loose contact and cause measuring tempeature on the low side.
Intracavity probe for detecting temperature is also widely used in temperature in human body body, can by the nasal cavity of people, and oral cavity and rectum detect people's body core temperature.Such probe front end is all provided with the temperature sensor of NTC resistance-type, and this temperature sensor can coordinate detection main frame convert temperature information to the signal of telecommunication thus realize the detection of temperature.Current monitor is provided with such probe for detecting temperature.In actual use, intracavity probe for detecting temperature needs to insert in body cavity, but current probe for detecting temperature cannot control effectively to the degree of depth inserted, thus causes measurement there are differences, and often causes the inaccurate of measurement because the degree of depth inserting intracavity is too low.And the probe for detecting temperature used on the market at present cannot judge the degree of depth of insertion in actual use, thus easily generation is measured inaccurate, when probe inserts more shallow simultaneously, probe is easily caused to come off, and probe inserts comparatively dark, then may cause certain damage to patient.
Infrared thermometer is mainly used in the mensuration of tympanic temperature, and because its response speed is fast, have good dependency with the central temperature of the hypothalamus in human brain deep, draw attention clinically, main weak point can only be interrupted mensuration, can not Continuous Observation.
Therefore, existing mercury clinical thermometer not environmentally, electronic clinical thermometer can not body temp monitoring, NTC probe for detecting temperature certainty of measurement be high and to measure position not convenient continuously, easily cause the problems such as damage to patient.And if the on-line monitor of the accuracy of infrared ear temperature measurement and NTC probe for detecting temperature is effectively combined, use and be convenient to ear and cosily wear for a long time, tympanum temperature can be monitored effectively simultaneously and gather and the infrared ear temperature continuous detection apparatus of the miscellaneous equipments such as monitor can be exported to, effectively can solve above-mentioned many body temperature and adopt produced problem in centralized procedure.
Utility model content
The technical problems to be solved in the utility model is the defect overcoming prior art, a kind of high-precision human body temperature monitoring device is provided, adopt environment friendly and pollution-free infrared technique principle of induction, detect during high-precision real and export, adopt brand-new cosily supra-aural structure, diversely output interface simultaneously, can direct continuous measurement ear temperature, and all kinds of medical monitor in the adaptive market of energy, for clinical fever measurement and body temp monitoring provide basis for estimation; Have produce simple and efficient, environmental protection, date processing very fast, measure more accurately, compact is portable, wear the advantages such as convenient and novel functions.
In order to solve the problems of the technologies described above, this utility model provides following technical scheme:
A kind of infrared ear temperature of this utility model continuous detection apparatus, it comprises the probe unit, main control unit and the transmission unit that connect successively;
Described probe unit, it is for detecting infrared signal, and after processing and amplifying, exports the infrared signal detected to described main control unit; Infrared sensor is provided with in described probe unit;
Described main control unit, its for receive and process described probe unit export signal, the infrared signal detected by described infrared sensor is effectively amplified and digital translation process complete after be sent to described transmission unit; Main MCU and the circuit board supporting with described main MCU is provided with in described main control unit; Described main MCU plays signal receipts and connects process and calculation function, and supporting circuit board plays the electrical combination linkage function of whole device;
Described transmission unit, it uses for extraneous power supply being supplied whole device, and the ear temperature data described main control unit process completed are transferred to medical monitoring instrument or portable intelligent electronic equipment by preset mode.
Further, for meeting the infrared temperature signal more in depth measuring human body tympanum, described probe unit is set to the structure consistent with external auditory meatus structure.
Further, described transmission unit is provided with general wire jack plug, as 3.5mm earphone heads, 6.5mm guard head, 6 pin 9 needle serial ports, USB/URAT/RS232 etc., can the supporting the use of various brands monitor, smart mobile phone, portable electric appts etc. of adaptive market.
Further, in order to meet the specific user demand worked alone, also be provided with expanding element, described expanding element is for replacing described transmission unit, described expanding element comprises independent operation button and can be used for replacing the wireless data transfer module of transmission unit, facilitates user and independently uses, meets the use of intelligent mobile terminal wireless data management.
Further, in order to adaption section is without the intelligent electronic device of general-purpose interface, described expanding element can also adopt wireless communication protocol (as wireless WIFI or bluetooth etc.) to carry out Wireless data transmission.
Further, for the normal appts meeting Wireless data transmission mode normally works, described expanding element is provided with independent current source.
Further, can independently show without under external equipment state in order to satisfied, described expanding element can also increase and arranges display screen, conveniently independently uses and checks measurement data.
Further, for meeting stable fastness when people's ear is worn, hygienic requirements and being suitable for the fixing instructions for use in external auditory meatus position, also comprise head shell and afterbody cap, described head shell and described afterbody cap coordinate formation cavity, and described infrared detecting unit, main control unit and described expanding element are encapsulated in cavity inside; Described head shell is provided with outside hangers parts; The cylinder that described head shell arranged outside has center porose, described infrared sensor stretches out from cylinder.
Further, described head shell outer setting is the cylinder type meeting human antrum auris structure.
Further, described cylinder is provided with dismountable ear muff, described ear muff adopts soft material design.
Further, described circuit board can also be flexible PCB.
The principle of infrared technique is based on the object of all temperature of occurring in nature higher than absolute zero, all the time all infrared ray is given off, simultaneously, this infrared radiation is all loaded with the characteristic information of object, and this is just for utilizing infrared technique to detect and differentiating that the temperature height of various measured target provides objective basis with heat distribution field.
According to open Si Difen-Boltzmann's law:
As can be seen from Si Difen-Boltzmann law: the infrared energy (power) of object is directly proportional to the biquadratic of body surface absolute temperature, is directly proportional to the emissivity of body surface.Object temperature is higher, and the infrared energy of transmitting is more.Even if therefore variations in temperature is quite little, all the change that radiant exitance is very large can be caused.
Si Difen-Boltzmann law indicates the relation between blackbody emissive power and absolute temperature, and it wants theoretical foundation by object radiation power measurement object temperature.The infrared sensing device that this utility model adopts is just to calculate based on the optimization that the basis of this principle is carried out.
The beneficial effect that this utility model reaches is:
Compared with prior art, the new infrared human body ear measurement of bldy temperature supervising device that this utility model provides, adopt measurement structure, tympanum temperature can be accurately measured, and adopt general standard interface the ear temperature data signal processed directly to be exported to the use of the electronic equipment such as medical monitor and intelligent mobile terminal; Possess the easy environmental protection of production technology, date processing very fast, measure more accurately, the advantage such as portable, the easy to use and novel functions of compact; Realize human body temperature high-precision rapid survey and monitor in real time; Facilitate user to have a fever Quick Measurement, continuously the body temperature mutation analysis demand of body temperature especially tympanum temperature; The trueness error of its resolution of 0.02 degree Celsius and positive and negative 0.2 degree Celsius enough makes this survey utility model measurement result have higher power clinical reference value, for clinical monitoring and fever measurement provide basis for estimation.
Accompanying drawing explanation
Accompanying drawing is used to provide further understanding of the present utility model, and forms a part for description, is used from explanation this utility model, does not form restriction of the present utility model with embodiment one of the present utility model.In the accompanying drawings:
Fig. 1 is System Working Principle figure of the present utility model;
Fig. 2 is the decomposition texture schematic diagram of this utility model band transmission unit;
Fig. 3 is the decomposition texture schematic diagram of this utility model with expanding element.
Detailed description of the invention
Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described, should be appreciated that preferred embodiment described herein is only for instruction and explanation of this utility model, and be not used in restriction this utility model.
As shown in Figure 1 to Figure 3, a kind of infrared ear temperature of this utility model continuous detection apparatus, it comprises the probe unit 1, main control unit 2 and the transmission unit 3 that connect successively; And according to the expanding element 4 that particular demands is arranged;
Described probe unit 1, it is for detecting infrared signal, and after processing and amplifying, exports the infrared signal detected to described main control unit 2; Infrared sensor 111 is provided with in described probe unit 1; The infrared signal that induction detects, in one, is carried out effective processing and amplifying and exports by the detection of described probe unit 1 integrated infrared signal and signal processing and signal output function;
Described main control unit 2, it exports described transmission unit 3 or described expanding element 4 for the treatment of after the process infrared signal that gathers of computing and date processing to according to preset mode; Be provided with the main MCU 112 of control algorithm and the circuit board 113 of peripheral cell composition in described main control unit 2, described circuit board 113 can also be flexible PCB further, is integrated in one by the work electroplax of single unit system;
Described transmission unit 3, it is for intelligent electronic device products such as wired connection external medical monitor, mobile terminals, the adaptive joint 114 online with external equipment is provided with in described transmission unit, the power supply that described adaptive joint is used for external equipment to provide inputs device described in the utility model, simultaneously for ear temperature data are exported use in real time.
Described expanding element 4, it replaces the expansion module that described transmission unit 3 uses for meeting application-specific demand, as this device works alone, wireless data output is shared, moved requirements such as wearing; Power supply 115, control key 116, wireless module 117 and display screen 118 is provided with in described expanding element 4; Described power supply 115 provides the required power supply that works alone for this device, and described wireless module 117 adopts standard wireless protocol (as GSM/4G/2.4G/WIFI/LIFI etc.), for data wireless management and share output; Described button 116 is for the switching on and shutting down of this device and programmed instruction control operation; Described display screen 118 for mode of operation display and operational order check wait display use.
In the present embodiment, described adaptive joint 114 can require according to the difference connecting brand to adopt adaptive joint geometry (as 3.5mm earphone heads, 6.5mm guard head, 6 pin 9 needle serial ports, USB/URAT/RS232 etc.), and the common monitor in adaptive market: Philip, GE, step the famous brand name such as auspicious, and the intelligent electronic device such as all kinds of mobile terminals.
In the present embodiment, described wireless module 117 adopts standard wireless protocol (as GSM/4G/2.4G/WIFI/LIFI etc.), manages and share output for data wireless;
The present embodiment also comprises head shell 103, outside hangers parts 104 and afterbody cap 105, described head shell 103 and described afterbody cap 105 coordinate formation cavity, and described probe unit 1, described main control unit 2 and described expanding element 4 are encapsulated in inside;
Be provided with the porose cylinder in center 102 outside described head shell 103, described infrared sensor 111 exposes from cylinder 102;
Described head shell 103 outside adopts the cylinder type meeting human antrum auris structure, is conducive to the Measurement accuracy of tympanum temperature.
The outer cylinder 102 of the head shell 103 described in this example, is also provided with the disposable ear muff 101 of an available dismounting outside, and described ear muff adopts soft material design, ear is worn more comfortable, meets the hygienic requirements that disposable replacing uses simultaneously;
Afterbody cap 105 described in this example adopts light transmissive material to make, and described display screen numerical value can be shown to user through it and check;
Further, described control key 116 is connected with described cap 105 inside, directly can carry out control key operation by cap extruding; Further, described control key 116 can also adopt touch-control or light control operations pattern;
This utility model is (as a arrow guiding in Fig. 1) in use, joint 114 in described transmission unit 3 is connected on the matching interface of medical monitor or mobile intelligent terminal equipment by user, device power-up can be powered and be started working, after the main MCU 112 be provided with in described main control unit 2 receives the running voltage that transmission unit 114 passes back, activate the infrared sensor 111 be provided with in probe unit 1 and carry out extraneous infrared signal timely collection, effective infrared signal of the complete output of infrared sensor becomes real-time tympanum temperature data through main MCU112 calculation process, carry out data by transmission unit again and flow to other medical monitoring instrument, the portable intelligent electronic coordinative composition of equipments such as mobile terminal use,
When this utility model adopts expanding element 4 to use omitting transmission unit 3 (in as Fig. 1 b arrow guiding), user by device described in the utility model by correctly wearing in ear, extrude control key 116 by cap 105 to open and can power and start working, main MCU112 in main control unit 2 sends instruction to probe unit 2 according to preset mode, activate infrared sensor 111 and carry out extraneous infrared signal Real-time Collection, the useful signal of acquisition is fed back to main control unit 2 by infrared sensor 111, by MCU112, real-time operation being gone out tympanum temperature data sends to the display screen 118 in expanding element 4 to show in real time in real time, the wireless data that wireless module 117 simultaneously in expanding element 4 carries out external reception equipment is synchronously retrieved, and data wireless is flowed to other medical monitoring instrument, the portable wireless intelligent electronic devices such as mobile terminal support the use.
A kind of new infrared human body ear measurement of bldy temperature supervising device that this utility model provides, adopt measurement structure, tympanum temperature can be accurately measured, and adopt general standard interface the ear temperature data signal processed directly to be exported to the use of the electronic equipment such as medical monitor and intelligent mobile terminal; Possess the easy environmental protection of production technology, date processing very fast, measure more accurately, the advantage such as portable, the easy to use and novel functions of compact; Realize human body temperature high-precision rapid survey and monitor in real time; Facilitate user to have a fever Quick Measurement, continuously the body temperature mutation analysis demand of body temperature especially tympanum temperature; The trueness error of its resolution of 0.02 degree Celsius and positive and negative 0.2 degree Celsius enough makes this survey utility model measurement result have higher power clinical reference value, for clinical monitoring and fever measurement provide basis for estimation.
Last it is noted that the foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, although be described in detail this utility model with reference to previous embodiment, for a person skilled in the art, it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (10)
1. an infrared ear temperature continuous detection apparatus, is characterized in that, comprises the probe unit, main control unit and the transmission unit that connect successively;
Described probe unit, it is for detecting infrared signal, and after processing and amplifying, exports the infrared signal detected to described main control unit; Infrared sensor is provided with in described probe unit;
Described main control unit, its for receive and process described probe unit export signal, the infrared signal detected by described infrared sensor is effectively amplified and digital translation process complete after be sent to described transmission unit; Main MCU and the circuit board supporting with described main MCU is provided with in described main control unit;
Described transmission unit, it uses for extraneous power supply being supplied whole device, and the ear temperature data described main control unit process completed are transferred to medical monitoring instrument or portable intelligent electronic equipment by preset mode.
2. a kind of infrared ear temperature continuous detection apparatus according to claim 1, it is characterized in that, described transmission unit is provided with general wire jack plug.
3. a kind of infrared ear temperature continuous detection apparatus according to claim 1, it is characterized in that, also comprise expanding element, described expanding element is for replacing described transmission unit, and described expanding element comprises independent operation button and can be used for replacing the wireless data transfer module of transmission unit.
4. a kind of infrared ear temperature continuous detection apparatus according to claim 3, is characterized in that, described expanding element adopts wireless communication protocol to carry out Wireless data transmission.
5. a kind of infrared ear temperature continuous detection apparatus according to claim 3, it is characterized in that, described expanding element is provided with independent current source.
6. a kind of infrared ear temperature continuous detection apparatus according to claim 3, it is characterized in that, described expanding element is provided with display screen.
7. a kind of infrared ear temperature continuous detection apparatus according to claim 3, it is characterized in that, also comprise head shell and afterbody cap, described head shell and described afterbody cap coordinate formation cavity, and described infrared detecting unit, main control unit and described expanding element are encapsulated in cavity inside; Described head shell is provided with outside hangers parts; The cylinder that described head shell arranged outside has center porose, described infrared sensor stretches out from cylinder.
8. a kind of infrared ear temperature continuous detection apparatus according to claim 7, it is characterized in that, described head shell outer setting is the cylinder type meeting human antrum auris structure.
9. a kind of infrared ear temperature continuous detection apparatus according to claim 8, is characterized in that, described cylinder is provided with dismountable ear muff, and described ear muff adopts soft material design.
10. a kind of infrared ear temperature continuous detection apparatus according to claim 1, it is characterized in that, described circuit board can also be flexible PCB.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105266768A (en) * | 2015-02-11 | 2016-01-27 | 深圳市滴滴测科技有限公司 | Infrared ear-temperature continuous measuring device and method for measuring ear temperature |
CN105708423A (en) * | 2016-01-20 | 2016-06-29 | 京东方科技集团股份有限公司 | Body temperature measurement device and method |
CN109211436A (en) * | 2018-11-15 | 2019-01-15 | 吴子奇 | A kind of wireless ear temperature meter |
-
2015
- 2015-02-11 CN CN201520095812.9U patent/CN204683571U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105266768A (en) * | 2015-02-11 | 2016-01-27 | 深圳市滴滴测科技有限公司 | Infrared ear-temperature continuous measuring device and method for measuring ear temperature |
CN105708423A (en) * | 2016-01-20 | 2016-06-29 | 京东方科技集团股份有限公司 | Body temperature measurement device and method |
CN109211436A (en) * | 2018-11-15 | 2019-01-15 | 吴子奇 | A kind of wireless ear temperature meter |
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Effective date of registration: 20180213 Address after: Room 1716, room 1, ERON Road, Shi Feng street, Tiantai County, Taizhou, Zhejiang Patentee after: Qi Chao Address before: Room 705, 11 Eagle mansion, No. 11, Xinzhou two street, Futian District, Futian District, Guangdong Patentee before: Di Dice Science and Technology Ltd. of Shenzhen |
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Granted publication date: 20151007 Termination date: 20210211 |