CN104146690B - A kind of temperature probe contacts good detection method, Apparatus and system with life entity - Google Patents

Abstract

The invention provides a kind of temperature probe and contact good detection method, Apparatus and system with life entity, the present invention detects the temperature of two temperature probes simultaneously, wherein the first temperature probe measures the temperature of life entity, second temperature probe measures the temperature of external environment, when the first temperature probe contacts well with life entity, measuring the temperature obtained should be inconsistent with ambient temperature, or the variations in temperature of adjacent moment is inconsistent. So whether the temperature that the present invention detects two temperature probes of synchronization is inconsistent, or whether the variations in temperature that detects adjacent two moment is inconsistent, when two conditions meet one of them, then represent that the first temperature probe contacts with life entity well, can continue to detect whether Wearable clinical thermometer contacts well with life entity by the present invention, the present invention sends out simple and convenient, has actual operability.

Description

A kind of temperature probe contacts good detection method, Apparatus and system with life entity

Technical field

The present invention relates to communication technical field, particularly relate to a kind of temperature probe and contact good detection method, Apparatus and system with life entity.

Background technology

Clinical thermometer is primarily present two kinds, one is Rapid body temperature, one is hydrargyrum thermometric, progress along with the epoch, having been developed for Wearable clinical thermometer, life entity dresses above-mentioned clinical thermometer, for the life entity of patient with severe symptoms or some special requirements, just can the temperature of continuous detecting life entity for a long time, life entity includes human body and animal.

Owing to life entity can constantly move, therefore it cannot be guaranteed that Wearable clinical thermometer contacts with life entity well all the time, when Wearable clinical thermometer well can not contact life entity, the temperature of measurement just inaccurate, without directive significance.

Therefore a kind of mode is needed now can to detect whether Wearable clinical thermometer contacts well with life entity.

Summary of the invention

The invention provides a kind of temperature probe and contact good detection method, Apparatus and system with life entity, the present invention can detect whether Wearable clinical thermometer contacts well with life entity.

To achieve these goals, the present invention can adopt following technological means:

A kind of temperature probe contacts good detection method with life entity, including:

Obtain the first temperature and the 3rd temperature that the first temperature probe is measured in current time and previous moment;

Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment;

Using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference;

When described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.

Preferably, also include:

When described first temperature is consistent with described second temperature, and described first difference is consistent with described second difference, it is determined that described first temperature probe and described life entity loose contact.

Preferably, also include:

When described first temperature probe and described life entity loose contact, alert.

Preferably, also include:

Described first temperature probe and the second temperature probe are carried out temperature correction.

Preferably, described first temperature probe is consistent with the specification of described second temperature probe.

Preferably, also include:

Store described first temperature and described 3rd temperature that described first temperature probe measurement obtains.

Preferably, described current time includes with the interval of described previous moment: 1S, 3S or 5S.

A kind of temperature probe contacts good detecting device with life entity, including:

Acquiring unit, for obtaining the first temperature and the 3rd temperature that the first temperature probe is measured in current time and previous moment; Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment;

Difference unit, for using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference;

First determines unit, is used for when described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.

Preferably, also include:

Second determines unit, is used for when described first temperature is consistent with described second temperature, and described first difference is consistent with described second difference, it is determined that described first temperature probe and described life entity loose contact.

A kind of temperature probe contacts good detection system with life entity, including:

It is arranged on the first temperature probe within Wearable clinical thermometer, is arranged on the second temperature probe outside Wearable clinical thermometer, the processor being connected with described first temperature probe and described second temperature probe;

The first temperature that described processor is measured in current time and previous moment for obtaining the first temperature probe and the 3rd temperature; Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment; Using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference; When described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.

The invention provides a kind of temperature probe and contact good detection method with life entity, the present invention detects the temperature of two temperature probes simultaneously, wherein the first temperature probe measures the temperature of life entity, second temperature probe measures the temperature of external environment, when the first temperature probe and life entity loose contact, measuring the temperature obtained should be consistent with ambient temperature, and the variations in temperature of adjacent moment also should be consistent, when the first temperature probe contacts well with life entity, measuring the temperature obtained should be inconsistent with ambient temperature, or the variations in temperature of adjacent moment also should be inconsistent.

So whether the temperature that the present invention detects two temperature probes of synchronization is inconsistent, or whether the variations in temperature that detects adjacent two moment is inconsistent, when two conditions meet one of them, then represent that the first temperature probe contacts with life entity well, can continue to detect whether Wearable clinical thermometer contacts well with life entity by the present invention, the present invention sends out simple and convenient, has actual operability.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the flow chart that a kind of temperature probe disclosed in the embodiment of the present invention contacts good detection method with life entity;

Fig. 2 is the structural representation that a kind of temperature probe disclosed in the embodiment of the present invention contacts good detecting device with life entity;

Fig. 3 is the structural representation that the embodiment of the present invention another temperature probe disclosed contacts good detecting device with life entity;

Fig. 4 is the structural representation that a kind of temperature probe disclosed in the embodiment of the present invention contacts good detection system with life entity.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments. Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

As it is shown in figure 1, the invention provides a kind of temperature probe to contact good detection method with life entity, including:

Step S101: obtain the first temperature and the 3rd temperature that the first temperature probe is measured in current time and previous moment;

Step S102: obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment;

Step S103: using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference;

Step S104: when described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that and described first temperature probe contacts well with life entity.

Preferably, when described first temperature is consistent with described second temperature, and described first difference is consistent with described second difference, it is determined that described first temperature probe and described life entity loose contact.

This method is applied to processor, first temperature probe and the second temperature probe are carried out temperature acquisition by certain frequency by processor, the moment of the current collecting temperature of processor is called current time, and the collecting temperature moment adjacent before current time is called previous moment. The interval of described current time and described previous moment can be 1S, 3S, 4S or 5S, namely the sample frequency of the first temperature probe and the second temperature probe can be 1HZ, 1/3HZ, 0.25HZ or 0.2HZ by processor, above-mentioned sample frequency is only several embodiment, it is understood that sample frequency can be configured by engineer according to reality.

Can directly obtain the first temperature probe and the second temperature probe in theory in the first temperature of synchronization and the second temperature, when the first temperature is consistent with the second temperature, then represent the first temperature probe loose contact, when the first temperature and the second temperature are inconsistent, then it represents that the first temperature probe contact is good.

But, the present invention utilize the first temperature probe measure the temperature of life entity, life entity includes human body and animal, the temperature of human body is about 36.2 ��-37.3 ��, homoiothermous temperature is approximately 37 ��-40 ��, and the temperature of cold blooded animal can change along with the change of environment, and the second temperature probe gathers ambient temperature, the temperature of external environment range of about-20 ��-40 ��, so the temperature of life entity is probably consistent with the temperature of external environment.

When the temperature of life entity is consistent with ambient temperature, only with the second temperature, whether the first temperature unanimously judges whether the first temperature probe contacts good, there will be misjudgment phenomenon, so in the first temperature of contrast synchronization and the basis of the second temperature, whether the variations in temperature in adjacent moment also needing to contrast the first temperature probe and the second temperature probe is consistent, judge that whether the first difference of the first temperature probe is consistent with the second difference of the second temperature probe, when the first difference of the first temperature probe and the second difference of the second temperature probe are inconsistent, represent that the first temperature probe contacts well with life entity.

When described first temperature is consistent with described second temperature, or described first difference consistent with described second difference time, owing to not can determine that now whether ambient temperature is consistent with human body temperature, so can not accurately determine whether the first temperature probe contacts well with life entity.

The invention provides a kind of temperature probe and contact good detection method with life entity, the present invention detects the temperature of two temperature probes simultaneously, wherein the first temperature probe measures the temperature of life entity, second temperature probe measures the temperature of external environment, when the first temperature probe and life entity loose contact, measuring the temperature obtained should be consistent with ambient temperature, and the variations in temperature of adjacent moment also should be consistent, when the first temperature probe contacts well with life entity, measuring the temperature obtained should be inconsistent with ambient temperature, or the variations in temperature of adjacent moment also should be inconsistent.

In the above-described embodiments in order to make the measurement result of the first temperature probe and the second temperature probe have comparability, it is preferred that described first temperature probe is consistent with the specification of described second temperature probe. Namely the temperature probe measuring temperature is consistent, so makes measurement result will not be subject to the impact of temperature probe itself.

It addition, before carrying out the present invention, it is necessary to two temperature probes are carried out temperature correction, in order to both can accurately measure temperature.

The temperature that in the present invention, the first temperature probe is measured is to have the temperature data of actual directive significance, so for the convenient temperature data watching life entity later, preferably, the temperature data that first temperature probe measurement obtains can be stored, namely store described first temperature and described 3rd temperature that described first temperature probe measurement obtains.

As in figure 2 it is shown, the invention provides a kind of temperature probe to contact good detecting device with life entity, including:

Acquiring unit 101, for obtaining the first temperature and the 3rd temperature that the first temperature probe is measured in current time and previous moment; Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment;

Difference unit 102, for using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference;

Judging unit 103, is used for judging that whether described first temperature is consistent with described second temperature, or whether described first difference is consistent with described second difference;

First determines unit 104, is used for when described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.

Preferably, as it is shown on figure 3, the detecting device of temperature probe also includes:

Second determines unit 105, is used for when described first temperature is consistent with described second temperature, and described first difference is consistent with described second difference, it is determined that described first temperature probe and described life entity loose contact.

The invention provides a kind of temperature probe and contact good detecting device with life entity, the present invention detects the temperature of two temperature probes simultaneously, wherein the first temperature probe measures the temperature of life entity, second temperature probe measures the temperature of external environment, when the first temperature probe and life entity loose contact, measuring the temperature obtained should be consistent with ambient temperature, and the variations in temperature of adjacent moment also should be consistent, when the first temperature probe contacts well with life entity, measuring the temperature obtained should be inconsistent with ambient temperature, or the variations in temperature of adjacent moment is inconsistent.

As shown in Figure 4, present invention also offers the detection system of a kind of temperature probe exposure level, including:

It is arranged on the first temperature probe 100 within Wearable clinical thermometer, is arranged on the second temperature probe 200 outside Wearable clinical thermometer, the processor 300 being connected with described first temperature probe 100 and described second temperature probe 200;

Described processor 300, for obtaining the first temperature and the 3rd temperature that the first temperature probe is measured in current time and previous moment; Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment; Using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference; When described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.

If the function described in the present embodiment method is using the form realization of SFU software functional unit and as independent production marketing or use, it is possible to be stored in a computing equipment read/write memory medium. Based on such understanding, part or the part of this technical scheme that prior art is contributed by the embodiment of the present invention can embody with the form of software product, this software product is stored in a storage medium, including some instructions with so that a computing equipment (can be personal computer, server, mobile computing device or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention. And aforesaid storage medium includes: USB flash disk, portable hard drive, read only memory (ROM, Read-OnlyMemory), the various media that can store program code such as random access memory (RAM, RandomAccessMemory), magnetic disc or CD.

In this specification, each embodiment adopts the mode gone forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment same or similar part mutually referring to.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses the present invention. The multiple amendment of these embodiments be will be apparent from for those skilled in the art, and generic principles defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments. Therefore, the present invention is not intended to be limited to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (10)

1. a temperature probe contacts good detection method with life entity, it is characterised in that including:

Obtain the first temperature and the 3rd temperature that the first temperature probe is measured in current time and previous moment; Wherein, described first temperature probe measures the temperature of life entity;

Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment;Wherein, described second temperature probe measures the temperature of external environment;

Using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference;

When described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.

2. the method for claim 1, it is characterised in that also include:

When described first temperature is consistent with described second temperature, and described first difference is consistent with described second difference, it is determined that described first temperature probe and described life entity loose contact.

3. method as claimed in claim 2, it is characterised in that also include:

When described first temperature probe and described life entity loose contact, alert.

4. the method for claim 1, it is characterised in that also include:

Described first temperature probe and the second temperature probe are carried out temperature correction.

5. the method for claim 1, it is characterised in that described first temperature probe is consistent with the specification of described second temperature probe.

6. the method for claim 1, it is characterised in that also include:

Store described first temperature and described 3rd temperature that described first temperature probe measurement obtains.

7. the method for claim 1, it is characterised in that the interval of described current time and described previous moment includes: 1S, 3S or 5S.

8. a temperature probe contacts good detecting device with life entity, it is characterised in that including:

Acquiring unit, for obtaining the first temperature and the 3rd temperature that the first temperature probe is measured in current time and previous moment; Wherein, described first temperature probe measures the temperature of life entity; Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment; Wherein, described second temperature probe measures the temperature of external environment;

Difference unit, for using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference;

First determines unit, is used for when described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.

9. device as claimed in claim 8, it is characterised in that also include:

Second determines unit, is used for when described first temperature is consistent with described second temperature, and described first difference is consistent with described second difference, it is determined that described first temperature probe and described life entity loose contact.

10. a temperature probe contacts good detection system with life entity, it is characterised in that including:

It is arranged on the first temperature probe within Wearable clinical thermometer, is arranged on the second temperature probe outside Wearable clinical thermometer, the processor being connected with described first temperature probe and described second temperature probe;

The first temperature that described processor is measured in current time and previous moment for obtaining the first temperature probe and the 3rd temperature; Wherein, described first temperature probe measures the temperature of life entity; Obtain the second temperature and the 4th temperature that the second temperature probe is measured in described current time and previous moment; Wherein, described second temperature probe measures the temperature of external environment; Using the difference of described first temperature and described 3rd temperature as the first difference, using the difference of described second temperature and described 4th temperature as the second difference; When described first temperature and described second temperature are inconsistent, or described first difference is inconsistent with described second difference, it is determined that described first temperature probe contacts well with life entity.