CN105105722A - Temperature sensing device and temperature sensing underwear - Google Patents

Abstract

The invention provides a temperature sensing device and temperature sensing underwear, and belongs to the field of temperature sensing. The temperature sensing device and the temperature sensing underwear can be used for measuring the temperature of the skin of the chest. The temperature sensing device comprises a first temperature sensor array set and a bearing mechanism, the first temperature sensor array set is distributed in a first fan ring shape, the radial width of the first fan ring shape is 7 cm, and the argument of the first fan ring shape is 122 degrees. The bearing mechanism is constructed to bear the first temperature sensor array set. The temperature sensing device is used on the chest of a woman, the high-probability attacking area, related to temperature, of the chest can be fully covered, and therefore corresponding body temperature change information is collected.

Description

A kind of temperature sensing device and temperature sensing underwear

Technical field

The present invention relates to temperature sensing device, particularly relate to a kind of sensing device and the temperature sensing underwear that sense human body temperature.

Background technology

Mastopathy is a kind of common disease of harm women's health, the inspection method of its routine mainly contains X-ray and ultrasonic examination, mainly carry out image analysing computer according to the constructive variations occurred during mammary gland tissue pathological changes, pathologic finding is the current generally accepted standard making a definite diagnosis mastopathy.Along with the enhancing of growth in the living standard and people's health care consciousness, infrared thermal imaging, as a kind of emerging image technology, due to the feature such as easy to operate of its non-invasi, is familiar with by people gradually and is applied to assessment and the health care of mastopathy.It is mainly assessed according to the skin temperature distribution of mammary gland tissue or indicates relevant pathological information and lesion degree thereof.Research about infrared thermal imaging starts from 20 century 70s, and Europe and the U.S. take the lead in infrared thermal imaging technique to be applied to medical domain, mainly concentrate on the diagnosis of breast cancer disease.Nineteen eighty-three, (FDA) official approval of united states drug Surveillance Authority also approves that infrared thermal imaging technique can as the auxiliary diagnosis means of breast cancer disease, and from then on, infrared thermal imaging technique starts the every field being applied to medical science.

But, due to the restriction of infrared sensor and computer technology level, and lack the reasons such as heat picture deciphering experience, once there is the phenomenons such as false positive is higher in infrared thermal imaging technique in the diagnosis of disease, thus cause people to the query of this technology, so infrared thermal imaging technique in medical domain to be applied in the later stage in 1980 once once at low ebb.Until after nineteen ninety, along with the fast development of infrared sensor technology, the raising of special computer image processing technology, infrared thermal imaging technique causes the concern of medical circle and community of physicists scholar again.Current, infrared thermal imaging technique because it is easy to operate, low cost, not damaged, be convenient to advantages such as repeating, be subject to the welcome of numerous medical personnels and excessive risk individuality.In addition, utilize infrared imagery technique, doctor can also check that such as tumor, inflammation and infection etc. cause the asymmetric relevant disease of human body left and right mammary gland heat distribution easily, contributes to the early discovery of mastopathy, reduces unnecessary tissue slice pathologic finding simultaneously.But, although many researcheres are utilizing infrared thermal imaging technique to carry out a lot of work has been done in mastopathy detection and diagnosis for many years, but so far about the diagnosis of female mammary gland disease heat picture and evaluation criteria are not yet set up, the research utilizing thermal symmetry, TTM (ThermalTextureMaps) etc. to analyze thermal-induced imagery, does not obtain good development so far yet.And, there is warming accuracy, testing process need excessive risk individuality carry out in hospital and cannot self-servicely complete, be difficult to catch diameter and be less than the mammary gland canceration of 0.5cm in this technology utilizing thermal imaging, thermal-induced imagery.

Summary of the invention

Inventor is through research; find above-mentioned background technology; also there is the defect that other time domains are relevant; such as, detection in background technology is one-time imaging; gather and be that human body is at a certain instantaneous temperature data as judgement basis; and cannot reflect the individual Temperature changing rhythm and pace of moving things (rhythm) at a continuous time of excessive risk, and excessive risk is individual, and what usually obtain at examination in hospital is the body temperature information on daytime.And human body is at night, the body temperature information especially in deep sleep, often has more medical value.

Human body is in clear-headed and very quiet, state when not affecting by factors such as musculation, psychentonia, food and ambient temperatures is called " base state ", body temperature under base state, just be called " basal body temperature ", measure before usually getting up in the morning or in the deep sleep at night.

Research proves, the basal body temperature of women changes with menstrual cycle, and within follicular phase, body temperature is lower, and ovulation day is minimum, raises 0.3 ~ 0.6 DEG C after ovulation.

Moreover, inventor is by research, also find, the substantially symmetrical distribution of shell temperature for healthy women mammary gland, the mean temperature of the left breast of healthy women is 35.2 ± 1.0 DEG C, a little more than the mean temperature (35.1 ± 1.0 DEG C) of right breast, temperature contrast within 0.30 DEG C, and has the statistical significance (P < 0.01) of height.Wherein, the temperature of left breast is a little more than the temperature of right breast, but the mean temperature in left newborn region is than right newborn region slightly height about 0.40 DEG C, and the mean temperature difference of the corresponding each several part of left and right sides mammary gland is within 0.6 DEG C; Generally speaking, when the temperature contrast of those who are investigated left and right sides mammary gland tissue is more than 0.5 DEG C, point out its mammary gland potential certain danger, should note keeping healthy and do further inspection.Compared with around mammary gland tissue, the temperature of nipple area is obviously lower; The shell temperature of mammary gland is downward trend with the growth at age.Whether finally, by mammary gland tissue left and right sides body surface mean temperature difference more than 0.40 DEG C, or whether mammary gland left and right sides all quadrants body surface mean temperature difference organizes a reference standard of whether potential disease as female mammary gland more than 0.60 DEG C.

The Temperature Distribution of normal galactophore tissue is symmetrical centered by nipple, and nipple temperature is minimum; When there is a lesion present, mammary gland shell temperature is apparently higher than the temperature of normal breast body surface; When tumor departs from the center of mammary model, the center of body surface also will be departed from the high-temperature hot region of tumor region body surface, and the opposite side mammary gland body surface in this high-temperature hot region is by appearance 1 low temperature cold region.

Tumor is larger, and the temperature of body surface is also higher, and the impact of tumor on its positive upper zone Temperature Distribution is the most obvious.

In addition, inventor, by research, also finds, due to the distinctive physiological reason of human body, causes the thoracopathy of women, such as breast carcinoma, usually in the some places ad-hoc locations morbidity of breast, namely its site of pathological change be not completely random be evenly distributed in breast.

In conjunction with the above-mentioned research of inventor, and for the above-mentioned defect in background technology, the present invention proposes a kind of temperature sensing device and temperature sensing underwear, be convenient to the examination for breast cancer disease, collect the breast surface temperature information above by the multiple position of the breast carcinoma of examination person.

According to one embodiment of present invention, provide a kind of temperature sensing device, comprising: the first array of temperature sensor group, be distributed in the first fan ring-type, this first fan ring-type radially width is 7cm, and argument is 122 °; Load carrier, is configured to carrying first array of temperature sensor group.

According to another embodiment of the invention, provide a kind of temperature sensing device, comprising: load carrier; First array of temperature sensor, the second array of temperature sensor, is arranged on load carrier respectively; Wherein, the spacing between the first array of temperature sensor and the second array of temperature sensor is 2.7cm-11.2cm.

According to another embodiment of the invention, provide a kind of temperature sensing device, for detecting breast temperature, temperature sensing device comprises: load carrier; First array of temperature sensor, is arranged on load carrier, and with the upper exterior domain making the first array of temperature sensor in the use of temperature sensing device be positioned at breast, the first array of temperature sensor and teat spacing are 2.0cm-7.2cm.

According to another embodiment of the invention, provide a kind of temperature sensing underwear, comprising: cover body, for covering the breast of user; First array of temperature sensor, be arranged at cover body to make when worn by a user, the first array of temperature sensor is positioned at the upper exterior domain of breast, and is 2.0cm-7.2cm with teat spacing.

By the use at female chest of the temperature sensing device in above-described embodiment and temperature sensing underwear, the large probability region of disease of supramammary breast carcinoma can be covered more imperfectly, thus collecting the Temperature changing information of corresponding large probability region of disease, this information can as temperature reference information for identification breast temperature anomaly and relevant disease.

Due to the vibrational power flow of the temperature sensor that the temperature sensing device in embodiment and temperature sensing underwear have, make it can cover the skin at the disease position occurred frequently of corresponding breast surface more all sidedly, and correct its surface temperature of collection.Simultaneously, the vibrational power flow of the temperature sensor in those embodiments, it also avoid and indiscriminate intensive temperature sensor setting and temperature detection are carried out to breast entirety, this considerably reduce magnitude setting and the cost of temperature sensor, reduce this type of temperature sensing device and temperature sensing underwear simultaneously and wear the bad experience such as the foreign body sensation brought to skin in process user.

Accompanying drawing explanation

By reading the detailed description done non-limiting example referring to accompanying drawing, other features, objects and advantages of the present invention will become more obvious, and wherein, same or analogous Reference numeral represents same or analogous feature.

Fig. 1 a is the schematic diagram of temperature sensing device according to an embodiment of the invention, its not shown load carrier.

Fig. 1 b is the schematic diagram of temperature sensing device according to an embodiment of the invention, its not shown load carrier.

Fig. 2 is the schematic diagram of temperature sensing device according to an embodiment of the invention, its not shown load carrier.

Fig. 3 a to Fig. 3 f illustrates the schematic diagram of the multiple embodiment of temperature sensing device respectively.

Fig. 4 a to Fig. 4 d illustrates the schematic diagram of the multiple embodiment of temperature sensing device respectively.

Fig. 5 is the sectional view of temperature sensing device one embodiment of the present invention.

Fig. 6 a is the schematic diagram of the another embodiment of temperature sensing device of the present invention, its not shown load carrier.

Fig. 6 b is the schematic diagram of the another embodiment of temperature sensing device of the present invention, its not shown load carrier.

Fig. 6 c is the schematic diagram of the another embodiment of temperature sensing device of the present invention, its not shown load carrier.

Fig. 7 is that temperature sensing device of the present invention is worn on human body to detect the schematic diagram of breast temperature.

Fig. 8 is that temperature sensing underwear of the present invention is worn on human body to detect the schematic diagram of breast temperature.

Detailed description of the invention

More fully example embodiment is described referring now to accompanying drawing.But example embodiment can be implemented in a variety of forms, and should not be understood to be limited to embodiment set forth herein; On the contrary, provide these embodiments to make the present invention more comprehensively with complete, and the design of example embodiment is conveyed to those skilled in the art all sidedly.In the drawings, in order to clear, may be exaggerated the thickness of region and layer.Reference numeral identical in the drawings represents same or similar structure, thus will omit their detailed description.

In addition, described feature, structure or characteristic can be combined in one or more embodiment in any suitable manner.In the following description, provide many details thus provide fully understanding embodiments of the invention.But, one of skill in the art will appreciate that and can put into practice technical scheme of the present invention and not have in described specific detail one or more, or other method, constituent element, material etc. can be adopted.In other cases, known features, material or operation is not shown specifically or describes to avoid fuzzy major technique intention of the present invention.

Object of study can reflect the Temperature changing rhythm and pace of moving things (rhythm) at the body temperature information of a continuous time more compared to single-point body temperature comprehensively, and the medical condition of its behind.And, in deep sleep's process at object of study night, be an ideal period gathering basal body temperature information.

Therefore, the temperature sensing device of a part of embodiment of the present invention or temperature sensing underwear, will for object of study night deep sleep's process carry out temperature acquisition.

Shown in Fig. 1 a, according to one embodiment of present invention, provide a kind of temperature sensing device, comprise the first array of temperature sensor group 100 and load carrier, first array of temperature sensor group 100 is distributed in the first fan ring-type A1, first fan ring-type A1 radially width is 7cm, and argument is 122 °.Wherein, above-mentioned and after this in some embodiments, fan ring-type be an annulus by the fan-shaped part intercepted, fan ring-type radially width refers to the exradius of this annulus and the difference of inner circle radius, and the argument of fanning ring-type is fan-shaped central angle.Load carrier is configured to carry described first array of temperature sensor group.Not shown load carrier in Fig. 1 a, hereinafter will schematically show the structure of load carrier, should be appreciated that the structure that can carry arbitrarily the first array of temperature sensor group all belongs in protection scope of the present invention.

The temperature sensing device of the present embodiment can be worn on breast, and to gather breast temperature, when wearing, the center of circle of above-mentioned fan ring-type corresponds essentially to teat placement.

Through the experiment to the excessive risk individuality of 557 routine breast cancer disease, use the temperature sensing device in the present embodiment, for above-mentioned female chest region, carry out first group of experiment of temperature monitoring.Temperature sensing device in the above embodiments has ad hoc structure, so the skin temperature of the specific part of breast surface in use can be corresponded to, and compare with the standard body temp of normal object of study according to the skin temperature sampled value of obtained specific part, carry out the identification of mastopathy, it is doubtful breast cancer case that examination goes out 523 examples individual.Second group of experiment is being carried out to group 557 routine excessive risk individualities, for breast other random position and not above-mentioned specific part, carry out temperature monitoring, and the abnormality degree of the chest shell temperature of studied object is judged according to the temperature sensor of correspondence, and carry out the identification of mastopathy, it is doubtful breast cancer case that examination goes out 213 examples individual.And to when using traditional breast carcinoma examination means to carry out the 3rd group of test with the routine excessive risk individuality of group 557, use X-ray and ultrasonic pathologic finding, the mastopathy patient populations made a definite diagnosis to be 541 examples.

Found by a large amount of comparative study, because the standard body temp of the corresponding position of the skin temperature and normal object of study that pass through the specific part of gathered studied object contrasts, namely can maximum probability determination excessive risk individuality pathogenesis of breast carcinoma whether, such as, compared to the chest temperature of normal object of study, the body temperature of the corresponding position of the chest of excessive risk individuality is higher exceedes certain threshold value, such as 0.6 DEG C, the morbidity that can cause chest abnormal body temperature class disease can be determined, such as breast carcinoma.Therefore, in the application scenarios of the breast carcinoma state of an illness being judged excessive risk individuality by abnormal body temperature, the judgement of the state of an illness can depend on the temperature sampling accuracy in the region occurred frequently of the chest to studied object completely.To this, under do not repeat.

The 523 routine doubtful breast cancer case that go out of examination in aforementioned first group of experiment, the common factor of the 541 routine cases made a definite diagnosis in testing with the 3rd group is 521, and namely it is made a definite diagnosis registration and is: 96.30%; That is the temperature sensing device in the above embodiments, arranges structure because of its specific temperature sensor had, in use, the disease position occurred frequently of its corresponding breast surface skin and the correct probability gathering its surface temperature is about 96.30%.

Above-mentioned experimental data explanation, in the present embodiment, temperature sensing device in use, can the chest abnormal body temperature region of the excessive risk individuality of corresponding breast cancer disease more exactly, each array of temperature sensor in the above-described embodiments distributed areas is that radially width is 7cm, argument is in the fan ring-type of 122 °, and array of temperature sensor arrangement in this region, arrangement pattern, mode (pattern) are not construed as limiting the invention.

For ease of illustrating and understanding, in some following embodiments, by exemplarily only from temperature sensor distribution radially and/or several along the amplitude and the relative position of each array of temperature sensor in space etc. of initial point in, the structure of involved temperature sensing device is described.

Alternatively, as shown in Figure 1 b, the first array of temperature sensor group 100 can comprise: the first array of temperature sensor 110, and being arranged at initial point O spacing 2.0cm-7.2cm place relative to the argument degree of initial point O along the first radial R1 is 0 ° to 35 °; Second array of temperature sensor 120, is arranged at and initial point O spacing 2.2cm-8.2cm place along the second radial R2, is 0 ° to 35 ° relative to the argument degree of initial point O; Between described first radial R1 and described second radial R2, angle is 43 °-122 °.Wherein, initial point O is the center of circle of above-mentioned annulus.Each array of temperature sensor can comprise one or more sensor, and preferably, the distance between any two sensors is not less than 1cm.It should be noted that, " radial direction " mentioned in this article extends from initial point, it is only in order to represent the arrangement trend of array of temperature sensor, each array of temperature sensor is not limited to only be arranged on the straight line at corresponding radial place, but the periphery that may be arranged in this radial direction, as shown in Figure 1 b, multiple temperature sensors in first array of temperature sensor 110 are roughly discrete along the first radial R1 distribution, multiple temperature sensors in second array of temperature sensor 120 are roughly discrete along the second radial R2 distribution, between the first radial R1 and the second radial R2, angle can be regarded as: the minimum angle of contour line SS2 on spoke angle direction that a sensor in contour line (outline) SS1 that a sensor in the first array of temperature sensor 110 or multiple sensor are formed and the second array of temperature sensor 120 or multiple sensor are formed, included angle A 1 as shown in Figure 1 b, or be interpreted as: above-mentioned two contour line SS1, SS2 hold the scope of formation centrage between angle, included angle A 2 as shown in Figure 1 b.

Alternatively, the first array of temperature sensor 110 can be arranged at and initial point O spacing 3.2cm-5.8cm place, and the second array of temperature sensor 120 can be arranged at and initial point O spacing 3.3cm-6.7cm place.Between described first radial R1 and described second radial R2, angle is 66 °-101 °.

Alternatively, as shown in Figure 1 b, first array of temperature sensor group 100 also can comprise three-temperature sensor array 130, the three-temperature sensor array 130 and be arranged at and initial point O spacing 2.1cm-6.3cm place along the 3rd radial R3, and between the 3rd radial R3 and the second radial R2, angle is 18 °-57 °.

Alternatively, three-temperature sensor array 130 is arranged at and initial point O spacing 3.1cm-5.3cm place, and between the 3rd radial R3 and the second radial R2, angle is 30 °-49 °.

Alternatively, in the temperature sensing device of above-described embodiment, as shown in Figure 2, temperature sensing device also can comprise the second array of temperature sensor group 200, and it is arranged relative to described initial point O and described first array of temperature sensor group 100 almost symmetry.

Alternatively, the second array of temperature sensor group 200 can be distributed in the second fan ring-type A2 and to be carried by load carrier, and the second fan ring-type radially width is 7cm, and argument is 122 °.In the present embodiment, the center of circle that the first fan ring-type A1 and second fans ring-type A2 is identical, and the two is relative to center of circle almost symmetry.Fig. 2 is not shown load carrier also, should be appreciated that the structure that can carry arbitrarily the first array of temperature sensor group and the second array of temperature sensor group all belongs in protection scope of the present invention.

Alternatively, as shown in Figure 2, second array of temperature sensor group 200 can comprise the 4th array of temperature sensor the 140, four array of temperature sensor 140 and be arranged at and initial point O spacing 2.3cm-7.7cm place along the 4th radial R4, and the 4th radial R4 is substantially contrary with the second radial direction R2.

Alternatively, the 4th array of temperature sensor 140 is arranged at and initial point O spacing 3.1cm-6.9cm place.

Alternatively, as shown in Figure 2, second array of temperature sensor group 200 also can comprise the 5th array of temperature sensor the 150, five array of temperature sensor 150 and be distributed in and initial point O spacing 2.1cm-8.3cm place along the 5th radial R5, and the 5th radial R5 is substantially contrary with the first radial R1 direction.

Alternatively, the 5th array of temperature sensor 150 is arranged at and initial point O spacing 2.8cm-7.7cm place.

The distribution of array of temperature sensor is not limited thereto, above-mentioned multiple array of temperature sensor can combination in any, such as, the first array of temperature sensor group 100 can comprise: the first array of temperature sensor 110, is arranged at and initial point O spacing 2.0cm-7.2cm place along the first radial R1; And three-temperature sensor array 130, be arranged at and initial point O spacing 2.1cm-6.3cm place along the 3rd radial R3, between the first radial R1 and the 3rd radial R3, angle is 25 °-65 °.

Alternatively, the first array of temperature sensor 110 is 3.2cm-5.8cm with the distance of initial point O, and three-temperature sensor array 130 is 3.1cm-5.3cm with the distance of initial point O.Between the first radial R1 and the 3rd radial R3, angle is 36 °-52 °.

The distribution of each array of temperature sensor is not limited thereto, in certain embodiments, such as shown in Fig. 1 b, each array of temperature sensor is dispersed in whole first fan ring-type, and the temperature sensor that the first array of temperature sensor comprises is more, in actual applications, temperature sensing device is attached to human body, for detecting breast Temperature Distribution, accordingly, to be distributed between nipple and oxter and the temperature sensor of side, closer oxter is more.

It should be noted that fan ring-type that the present invention mentions is in order to represent the shape of the distributed areas of array of temperature sensor group, not entity structure.And, the distribution shape of the array of temperature sensor that each array of temperature sensor group comprises itself is not limited to fan ring-type, just the border of distributed areas is fan ring-type substantially, namely, substantially distribute in the fan ring-type involved by some embodiments of the present invention, such as in the application scenarios of the mammary gland abnormity relevant with Temperature changing for examination of some embodiment, the fan ring-type that this sensor array group distributes, can correspond to the Duan Shanhuan district being positioned at breast surface being the center of circle with women's nipple.

In addition, above are only exemplary illustration, the quantity of array of temperature sensor does not limit, and the quantity, position, arrangement etc. of the temperature sensor that each array of temperature sensor comprises can be arranged as required.The present invention should contain the combination of above-mentioned various variant embodiment, and such as, the first array of temperature sensor group comprises the first array of temperature sensor and three-temperature sensor array, and the second array of temperature sensor group comprises the schemes such as the 4th array of temperature sensor.

The structure of load carrier of the present invention has multiple.Below exemplary illustration is carried out to the structure of load carrier.

Load carrier can comprise at least one branch, is constructed to carrying first array of temperature sensor group.As shown in Fig. 3 a to Fig. 3 e, load carrier 300 can comprise the branch of one or more connection, is set to carry multiple array of temperature sensor respectively, and load carrier 300 can be the various shapes being suitable for carrying array of temperature sensor such as banded.

As shown in Figure 3 a, the first array of temperature sensor group 100 comprises the first array of temperature sensor 110, and load carrier 300 comprises the first branch 310, and it is for carrying the first array of temperature sensor 110.

Alternatively, as shown in Fig. 3 b to Fig. 3 e, first array of temperature sensor group 100 also optionally comprises the second array of temperature sensor 120, three-temperature sensor array 130, the 4th array of temperature sensor 140, the 5th array of temperature sensor 150, load carrier 300 also optionally comprises the second branch 320, the 3rd branch 330, the 4th branch 340, quintafurcation 350, and it is respectively used to carrying second array of temperature sensor 120, three-temperature sensor array 130, the 4th array of temperature sensor 140, the 5th array of temperature sensor 150.

Branch also can be annular, the arc shown in Fig. 4 a to Fig. 4 c.Branch also can be other shapes, and such as circular, polygon, or shaped form etc. as shown in figure 4d, any shape that can carry array of temperature sensor all belongs in protection scope of the present invention.The quantity of branch is also not limited thereto, and such as, branch can be shim form, and be such as circular, oval etc., each pad carries one or more array of temperature sensor, and each pad can independently use.

Before this and in more following embodiments, load carrier 300 also can be provided with fixed part 360, and fixed part 360 is connected with at least one branch above-mentioned.Fixed part 360 can be the through hole running through load carrier 300 surface as shown in Fig. 3 a to Fig. 3 e.

In embodiment as shown in Figure 3 a, the first array of temperature sensor group 100 can comprise the first array of temperature sensor 110, is arranged on described load carrier; Load carrier is also provided with fixed part 360, and fixed part 360 can be positioned at initial point place, that is, the first array of temperature sensor 110 and the distance of fixed part 360 equal the distance of the first array of temperature sensor 110 and initial point substantially.First array of temperature sensor 110 is 2.0cm-7.2cm with the distance of fixed part 360.Alternatively, the first array of temperature sensor 110 is 3.2cm-6.0cm with the distance of fixed part 360.

For the temperature sensing device of some above-mentioned or following embodiments, during use, fix by fixed part and user health, with the position to be detected making temperature sensing device be attached to user health, such as, on breast, be convenient to sensing temperature.Fixed part can be the through hole running through described load carrier, or fixed part can be some the convenient mounted medical adhesive tape being included in sensor side, helps the branch of whole load carrier to be fixed on breast.

Temperature sensing device shown in Fig. 3 a can be worn on breast, and to detect breast temperature, when wearing, above-mentioned initial point corresponds essentially to teat placement.Through the experiment to the excessive risk individuality of 557 routine breast cancer disease, use the temperature sensing device in the present embodiment, for above-mentioned female chest region, carry out first group of experiment of temperature monitoring.Temperature sensing device in the above embodiments has ad hoc structure, so the skin temperature of the specific part of breast surface in use can be corresponded to, and compare with the standard body temp of normal object of study according to the skin temperature sampled value of obtained specific part, carry out the identification of mastopathy, it is doubtful breast cancer case that examination goes out 519 examples individual.Second group of experiment is being carried out to group 557 routine excessive risk individualities, for breast other random position and not above-mentioned specific part, carry out temperature monitoring, and the abnormality degree of the chest shell temperature of studied object is judged according to the temperature sensor of correspondence, and carry out the identification of mastopathy, it is doubtful breast cancer case that examination goes out 217 examples individual.And to when using traditional breast carcinoma examination means to carry out the 3rd group of test with the routine excessive risk individuality of group 557, use X-ray and ultrasonic pathologic finding, the mastopathy patient populations made a definite diagnosis to be 541 examples.

The 519 routine doubtful breast cancer case that go out of examination in aforementioned first group of experiment, the common factor of the 541 routine cases made a definite diagnosis in testing with the 3rd group is 518, and namely it is made a definite diagnosis registration and is: 95.74%; That is the temperature sensing device in the above embodiments, arranges structure because of its specific temperature sensor had, in use, the disease position occurred frequently of its corresponding breast surface skin and the correct probability gathering its surface temperature is about 95.74%.

Above-mentioned experimental data explanation, in the present embodiment, temperature sensing device in use, can the chest abnormal body temperature region of the excessive risk individuality of corresponding breast cancer disease more exactly, each array of temperature sensor in the above-described embodiments distributed areas is the upper exterior domain being positioned at breast, first array of temperature sensor and teat spacing are 2.0cm-7.2cm, and array of temperature sensor arrangement in this region, arrangement pattern, mode (pattern) are not construed as limiting the invention.

In more above-mentioned embodiments, temperature sensing device also can comprise at least one gathering line, is laid in described load carrier, and is connected the induced signal transmitting described first array of temperature sensor group with the first array of temperature sensor group.As illustrated in figure 3f, load carrier 300 comprises the first branch 320 of branch 310, second, the 4th branch 340, quintafurcation 350, for carrying the first array of temperature sensor 110, second array of temperature sensor 120, three-temperature sensor array 130, the 5th array of temperature sensor 150 respectively, array of temperature sensor in each branch comprises one or more temperature sensor, gathering line 400 is laid in above-mentioned branch, and is connected with each temperature sensor.

Alternatively, as illustrated in figure 3f, load carrier comprises four branches, roughly in X-shaped.First array of temperature sensor 110 is provided with first sensor S1, the second sensor S2, second array of temperature sensor 120 is provided with the 3rd sensor S3, four-sensor S4,4th array of temperature sensor 140 is provided with the 5th sensor S5, the 6th sensor S6, and the 5th array of temperature sensor 150 is provided with the 7th sensor S7.Wherein, first sensor S1 and initial point distance are 5.5cm-7.7cm, second sensor S2 and initial point distance are 2.2cm-3.8cm, 3rd sensor S3 and initial point distance are 5.1cm-6.9cm, four-sensor S4 and initial point distance are 2.3cm-3.9cm, 5th sensor S5 and initial point distance are 3.0cm-4.0cm, and the 6th sensor S6 and initial point distance are 6.0cm-7.5cm, and the 7th sensor S7 and initial point distance are 5.4cm-7.6cm.

Temperature sensing device shown in Fig. 3 f can be worn on breast, and to detect breast temperature, when wearing, above-mentioned initial point corresponds essentially to teat placement.

Through the experiment to the excessive risk individuality of 557 routine breast cancer disease, use the temperature sensing device in the present embodiment, for above-mentioned female chest region, carry out first group of experiment of temperature monitoring.Temperature sensing device in the above embodiments has ad hoc structure, so the skin temperature of the specific part of breast surface in use can be corresponded to, and compare with the standard body temp of normal object of study according to the skin temperature sampled value of obtained specific part, carry out the identification of mastopathy, it is doubtful breast cancer case that examination goes out 530 examples individual.Second group of experiment is being carried out to group 557 routine excessive risk individualities, for breast other random position and not above-mentioned specific part, carry out temperature monitoring, and the abnormality degree of the chest shell temperature of studied object is judged according to the temperature sensor of correspondence, and carry out the identification of mastopathy, it is doubtful breast cancer case that examination goes out 173 examples individual.And to using traditional breast carcinoma examination means to carry out in the 3rd group of test with the routine excessive risk individuality of group 557, use X-ray and ultrasonic pathologic finding, the mastopathy patient populations made a definite diagnosis to be 541 examples.

The 530 routine doubtful breast cancer case that go out of examination in aforementioned first group of experiment, the common factor of the 541 routine cases made a definite diagnosis in testing with the 3rd group is 526, and namely it is made a definite diagnosis registration and is: 97.22%; That is the temperature sensing device in the above embodiments, arranges structure because of its specific temperature sensor had, in use, the disease position occurred frequently of its corresponding breast surface skin and the correct probability gathering its surface temperature is about 97.22%.

Above-mentioned experimental data explanation, in the present embodiment, temperature sensing device in use, can the chest abnormal body temperature region of the excessive risk individuality of corresponding breast cancer disease more exactly, each array of temperature sensor in the above-described embodiments distributed areas is the first array of temperature sensor, be arranged at apart from initial point 2.0cm-7.2cm along the first radial direction, second array of temperature sensor, be arranged at apart from initial point 2.2cm-8.2cm along the second radial direction, between described first radial direction and described second radial direction, angle is 43 °-122 °, three-temperature sensor array is arranged at apart from initial point 2.1cm-6.3cm along the 3rd radial direction, between described 3rd radial direction and described second radial direction, angle is 18 °-57 °, 4th array of temperature sensor is arranged at apart from initial point 2.3cm-7.7cm along the 4th radial direction, described 4th is radial substantially contrary with described second radial direction, each array place branch is roughly in X-shaped, and array of temperature sensor arrangement in this region, arrangement pattern, mode (pattern) is not construed as limiting the invention.

In more above-mentioned embodiments, temperature sensing device also can comprise processor 500, is connected with at least one gathering line 400, to receive and to process described induced signal.Temperature sensing device also can comprise multiplexer 600, and processor 500 is connected with at least one gathering line 400 by multiplexer 600.The setting of multiplexer can avoid processor 500 to be directly connected respectively with multiple temperature sensor, reduces Acquisition Circuit way.

In more above-mentioned embodiments, each array of temperature sensor comprises at least one temperature sensor respectively, and temperature sensor can be NTC thermistor 700; This at least one NTC thermistor 700 is provided with conducting-heat elements 800.

Fig. 5 shows the sectional view of an embodiment of temperature sensing device, and in this embodiment, at least one NTC thermistor 700 described and conducting-heat elements 800 expose from the surface of load carrier 300.Contacted with detection site by conducting-heat elements, can detected temperatures more accurately, improve detection accuracy.Alternatively, load carrier 300 surface can also arrange skin-friendly layer 370, and at least one NTC thermistor 700 described and conducting-heat elements 800 expose from the surface of skin-friendly layer 370, by skin-friendly layer 370 and direct skin contact.Skin-friendly layer can adopt cotton wool silk fiber crops to wait the fabrics such as natural fiber to make, and has hygroscopicity, breathability, improves the comfortableness used.Alternatively, the surface of skin-friendly layer 370 can be provided with fixed part 360, and it can be the adhesion fixed forms such as adhesive tape layer, so that adhere to the health of user; Thus strengthen the contact effect of conducting-heat elements 800 or critesistor 700 and skin.

Structure and the distortion thereof such as above-mentioned array of temperature sensor, load carrier, and gathering line, processor, multiplexer etc., also can be applicable in some other embodiment of the present invention, therefore will omit the description similar to it below in an example.

According to still another embodiment of the invention, as shown in Figure 6 a, provide a kind of temperature sensing device, it comprises: load carrier; First array of temperature sensor 110, second array of temperature sensor 120, is arranged on load carrier respectively; Wherein, the spacing between the first array of temperature sensor 110 and the second array of temperature sensor 120 is 2.7cm-11.2cm.

Wherein, as shown in Figure 6 a, spacing between first array of temperature sensor 110 and the second array of temperature sensor 120, can be regarded as the beeline D1 between contour line SS2 that the one or more sensors in contour line (outline) SS1 and the second array of temperature sensor 120 that the one or more sensors in the first array of temperature sensor 110 are formed are formed, or above-mentioned two contour line SS1, SS2 hold the geometric geometric center of gravity of formation or the line distance D2 of geometric center.

In above-mentioned and some embodiments after this, the distance between sensor array, and the spacing of sensor array and certain a bit (such as: initial point), all can refer to above-described embodiment.

Alternatively, the spacing between the first array of temperature sensor 110 and the second array of temperature sensor 120 is 3.9cm-8.3cm.

In one embodiment of the invention, as shown in Figure 6 b, temperature sensing device also can comprise three-temperature sensor array 130, it to be arranged on load carrier and between the first array of temperature sensor 110 and the second array of temperature sensor 120, and the distance of three-temperature sensor array 130 and the first array of temperature sensor 110 is 1.6cm-6.2cm, the distance of three-temperature sensor array 130 and the second array of temperature sensor 120 is 1.7cm-7.2cm.

Alternatively, the distance of three-temperature sensor array and the first array of temperature sensor is 2.0cm-4.7cm, and the distance of three-temperature sensor array and the second array of temperature sensor is 2.3cm-5.1cm.

In one embodiment of the invention, as shown in Figure 6 b, temperature sensing device also can comprise the 4th array of temperature sensor 140, it to be arranged on load carrier and between the first array of temperature sensor 110 and the second array of temperature sensor 120, and the distance of the 4th array of temperature sensor and the first array of temperature sensor is 3.0cm-9.9cm, the distance of the 4th array of temperature sensor 140 and the second array of temperature sensor 120 is 4.9cm-14.1cm, and the distance of the 4th array of temperature sensor 140 and the first array of temperature sensor 110 is less than the distance of the 4th array of temperature sensor 140 and three-temperature sensor array 130.

Alternatively, the distance of the 4th array of temperature sensor 140 and the first array of temperature sensor 110 is 4.1cm-8.4cm, and the distance of the 4th array of temperature sensor 140 and the second array of temperature sensor 120 is 5.9cm-12cm.

In one embodiment of the invention, as shown in Figure 6 b, temperature sensing device also can comprise the 5th array of temperature sensor 150, it to be arranged on load carrier and between the first array of temperature sensor 110 and the second array of temperature sensor 120, and the distance of the 5th array of temperature sensor 150 and the first array of temperature sensor 110 is 4.0cm-14.5cm, the distance of the 5th array of temperature sensor 150 and the second array of temperature sensor 120 is 3.0cm-10.5cm, and the distance of the 5th array of temperature sensor 150 and the second array of temperature sensor 120 is less than the distance of the 5th array of temperature sensor 150 and three-temperature sensor array 130.

Alternatively, the distance of the 5th array of temperature sensor 150 and the first array of temperature sensor 110 is 4.5cm-12.2cm, and the distance of the 5th array of temperature sensor 150 and the second array of temperature sensor 120 is 3.7cm-9.7cm.

Alternatively, as fig. 6 c, load carrier 300 also can be provided with fixed part 360, and the first array of temperature sensor 110 is 2.0cm-7.2cm with the distance of fixed part 360.

Alternatively, the first array of temperature sensor 110 is 3.2cm-6.0cm with the distance of fixed part 360.

Alternatively, fixed part 360 can comprise fixing hole, and it runs through load carrier 300.

The distribution of temperature sensing device is not limited to shown in Fig. 6 a, Fig. 6 b and Fig. 6 c, and above-mentioned multiple array of temperature sensor can combination in any.Such as, as fig. 6 c, the combination of above-mentioned first array of temperature sensor 110, second array of temperature sensor 120, three-temperature sensor array 130 and fixed part 360 forms temperature sensing device.

Fig. 6 a, Fig. 6 b and Fig. 6 c only schematically show load carrier, should be appreciated that the various structures of the load carrier of above-described embodiment all can be applicable in the present embodiment.

According to one embodiment of present invention, as shown in Figure 7, provide a kind of temperature sensing device, for detecting breast temperature, temperature sensing device comprises: load carrier 300; First array of temperature sensor 110, be arranged on load carrier 300, with the upper exterior domain A making the first array of temperature sensor 110 in the use of temperature sensing device be positioned at described breast, the first array of temperature sensor 110 is 2.0cm-7.2cm with teat spacing.

As shown in Figure 7, alternatively, in the above-described embodiments, temperature sensing device also can comprise the second array of temperature sensor 120, it is arranged on load carrier 300, the upper inner region B of described breast is positioned to make the second array of temperature sensor 120 in the use of described temperature sensing device, second array of temperature sensor 120 is 2.2cm-8.2cm with teat spacing, and the line of the first array of temperature sensor 110 and this nipple and the angle between the second array of temperature sensor 120 and the line of this nipple are 43 °-122 °.

Alternatively, the first array of temperature sensor 110 is 3.2cm-6.0cm with the distance of nipple, and the second array of temperature sensor 120 is 3.3cm-6.7cm with the distance of nipple.

Alternatively, the line of the first array of temperature sensor 110 and this nipple and the angle between the second array of temperature sensor 120 and the line of this nipple are 66 °-101 °.

As shown in Figure 7, alternatively, in the above-described embodiments, temperature sensing device also can comprise three-temperature sensor array (not shown), it is arranged on load carrier 300, with make three-temperature sensor array in the use of temperature sensing device be positioned at inner region B or on exterior domain A, three-temperature sensor array and teat spacing are 2.1cm-6.3cm, and the line of three-temperature sensor array and this nipple and the angle between the first array of temperature sensor 110 and the line of this nipple are 43 °-122 °.

Alternatively, the distance of three-temperature sensor array and nipple is 3.1cm-5.3cm, and the line of three-temperature sensor array and this nipple and the angle between the first array of temperature sensor 110 and the line of this nipple are 66 °-101 °.

As shown in Figure 7, alternatively, in the above-described embodiments, temperature sensing device also can comprise the 4th array of temperature sensor 140, it is arranged on load carrier 300, with the lower exterior domain C making the 4th array of temperature sensor 140 in the use of temperature sensing device be positioned at breast, the 4th array of temperature sensor 140 is 2.3cm-7.7cm with teat spacing, and the 4th array of temperature sensor 140 and the first array of temperature sensor 110 are arranged relative to nipple almost symmetry.

Alternatively, the 4th array of temperature sensor 140 is 3.1cm-6.9cm with the distance of nipple.

As shown in Figure 7, alternatively, in the above-described embodiments, temperature sensing device also can comprise the 5th array of temperature sensor 150, it is arranged on load carrier 300, to make the 5th array of temperature sensor 150 described in the use of temperature sensing device be positioned at the lower inner region D of breast, the 5th array of temperature sensor 150 is 2.1cm-8.3cm with teat spacing, and the 5th array of temperature sensor 150 and three-temperature sensor array 130 are arranged relative to nipple almost symmetry.

Alternatively, the distance of the 5th array of temperature sensor and nipple is 2.8cm-7.7cm.

Alternatively, in the above-described embodiments, first array of temperature sensor 110 is arranged on load carrier 300, to make in the transverse area at the first array of temperature sensor 110 line mid point place between clavicle mid point and nipple in the use of temperature sensing device.

Alternatively, in the above-described embodiments, first array of temperature sensor 110 is arranged on load carrier 300, to make in the use of temperature sensing device the first array of temperature sensor 110 between nipple and oxter, apart from the region of 1/3 to 4/5 spacing of nipple.

Alternatively, in the above-described embodiments, first array of temperature sensor 110 is arranged on load carrier 300, to make in the use of temperature sensing device the first array of temperature sensor 110 between nipple and oxter, apart from the region of 1/2 to 2/3 spacing of nipple.

According to one embodiment of present invention, as shown in Figure 8, provide a kind of temperature sensing underwear, comprising: cover body 900, for covering the breast of user; First array of temperature sensor 110, is arranged at cover body 900 to make when worn by a user, and the first array of temperature sensor 110 is positioned at the upper exterior domain A of breast, and is 2.0cm-7.2cm with teat spacing.

As shown in Figure 8, alternatively, in the above-described embodiments, temperature sensing underwear also can comprise the second array of temperature sensor 120, it is arranged on cover body 900, and when worn by a user, the second array of temperature sensor 120 is positioned at the upper inner region B of breast, and be 2.2cm-8.2cm with teat spacing, and the line of the first array of temperature sensor 110 and this nipple and the angle between the second array of temperature sensor 120 and the line of this nipple are 43 °-122 °.

Alternatively, the first array of temperature sensor 110 is 3.2cm-6.0cm with the distance of nipple, and the second array of temperature sensor 120 is 3.3cm-6.7cm with the distance of nipple.

Alternatively, the line of the first array of temperature sensor 110 and this nipple and the angle between the second array of temperature sensor 120 and the line of this nipple are 66 °-101 °.

As shown in Figure 8, alternatively, in the above-described embodiments, temperature sensing underwear also can comprise three-temperature sensor array (not shown), it is arranged on cover body 300, and when worn by a user, three-temperature sensor array is positioned at the lower exterior domain of breast, and be 2.1cm-6.3cm with teat spacing, the line of three-temperature sensor array and this nipple and the angle between the second array of temperature sensor 120 and the line of this nipple are 18 °-57 °.

Alternatively, the distance of three-temperature sensor array and nipple is 3.1cm-5.3cm, and the line of three-temperature sensor array and this nipple and the angle between the second array of temperature sensor 120 and the line of this nipple are 30 °-49 °.

As shown in Figure 8, alternatively, in the above-described embodiments, temperature sensing underwear also can comprise the 4th array of temperature sensor 140, it is arranged on cover body 900, and when worn by a user, the 4th array of temperature sensor 140 is positioned at the lower exterior domain C of described breast, and be 2.3cm-7.7cm with teat spacing, the 4th array of temperature sensor 140 and the first array of temperature sensor 110 are arranged relative to nipple almost symmetry.

Alternatively, the 4th array of temperature sensor 140 is 3.1cm-6.9cm with the distance of nipple.

As shown in Figure 8, alternatively, in the above-described embodiments, temperature sensing underwear also can comprise the 5th array of temperature sensor 150, it is arranged on cover body 900, and when worn by a user, the 5th array of temperature sensor 150 is positioned at the lower inner region of described breast, and be 2.1cm-8.3cm with teat spacing, the 5th array of temperature sensor 150 and three-temperature sensor array 130 are arranged relative to nipple almost symmetry.

Alternatively, the 5th array of temperature sensor 150 is 2.8cm-7.7cm with the distance of nipple.

Alternatively, when worn by a user, in the transverse area of the first array of temperature sensor 110 generally within line mid point place between clavicle mid point and nipple.

Alternatively, when worn by a user, the first array of temperature sensor 110 between nipple and oxter, apart from nipple 1/3 to 4/5 spacing region in.

Alternatively, when worn by a user, the first array of temperature sensor 110 between nipple and oxter, apart from nipple 1/2 to 2/3 spacing region in.

By using temperature sensing device in more above-mentioned embodiments or temperature sensing underwear, through the experiment to the excessive risk individuality of 557 routine breast cancer disease, for female chest region, carry out first group of experiment of temperature monitoring, temperature sensing device in those embodiments has different structure, to ensure that it in use can with probability large as far as possible from different dimensions, corresponding to the specific part of the temperature anomaly district occurred frequently of breast surface, and compare with the standard body temp of normal object of study according to the skin temperature sampled value of obtained specific part, carry out the identification of mastopathy, can examination to go out 512 ~ 547 examples individual be doubtful breast cancer case.Second group of experiment is being carried out to group 557 routine excessive risk individualities, for breast other random position and specific breast surface region that the temperature sensing device that is not limited in corresponding embodiment or temperature sensing underwear cover, carry out temperature monitoring, and the abnormality degree of the chest shell temperature of studied object is judged according to the temperature sensor of correspondence, and carry out the identification of mastopathy, it is doubtful breast cancer case that examination goes out 213 examples individual.And to when using traditional breast carcinoma examination means to carry out the 3rd group of test with the routine excessive risk individuality of group 557, use X-ray and ultrasonic pathologic finding, the mastopathy patient populations made a definite diagnosis to be 541 examples.

512 ~ 547 routine doubtful breast cancer case that in aforementioned first group of experiment, examination goes out, the common factor of the 541 routine cases made a definite diagnosis in testing with the 3rd group, be 511 ~ 540, namely, temperature sensing device in those embodiments or temperature sensing underwear, compared with traditional breast cancer diagnosis apparatus, making a definite diagnosis registration is: 94.45% ~ 99.82%; That is, the temperature sensing device of these above-mentioned embodiments or temperature sensing underwear, because of its specific temperature sensor had, structure is set, in use, cover the skin at the disease position occurred frequently of corresponding breast surface more all sidedly, and the correct probability gathering its surface temperature is about 94.45% ~ 99.82%.

Those skilled in the art will be understood that above-described embodiment is all exemplary and nonrestrictive.The different technologies feature occurred in different embodiments can combine, to obtain beneficial effect.Those skilled in the art research accompanying drawing, description and claims basis on, will be understood that and realizes disclosed embodiment other change embodiments.In detail in the claims, term " comprises " and does not get rid of other devices or step; Indefinite article " one " is not got rid of multiple; Term " first ", " second " are for indicating title but not for representing any specific order.Any Reference numeral in claim all should not be understood to the restriction to protection domain.The function of the multiple parts occurred in claim can be realized by an independent hardware or software module.Some technical characteristic to appear in different dependent claims and not to mean that and these technical characteristics can not be carried out combining to obtain beneficial effect.

Claims (76)

1. a temperature sensing device, comprising:

First array of temperature sensor group, is distributed in the first fan ring-type, and described first fan ring-type radially width is 7cm, and argument is 122 °;

Load carrier, is configured to carry described first array of temperature sensor group.

2. temperature sensing device as claimed in claim 1, wherein,

Described first array of temperature sensor group comprises:

First array of temperature sensor, is arranged at apart from initial point 2.0cm-7.2cm along the first radial direction;

Second array of temperature sensor, is arranged at apart from described initial point 2.2cm-8.2cm along the second radial direction, and between described first radial direction and described second radial direction, angle is 43 °-122 °.

3. temperature sensing device as claimed in claim 2, wherein, described first array of temperature sensor is arranged at apart from described initial point 3.2cm-6.0cm, and described second array of temperature sensor is arranged at apart from described initial point 3.3cm-6.7cm.

4. temperature sensing device as claimed in claim 2, wherein, between described first radial direction and described second radial direction, angle is 66 °-101 °.

5. temperature sensing device as claimed in claim 2, wherein, described first array of temperature sensor group also comprises three-temperature sensor array, described three-temperature sensor array is arranged at apart from described initial point 2.1cm-6.3cm along the 3rd radial direction, and between described 3rd radial direction and described second radial direction, angle is 18 °-57 °.

6. temperature sensing device as claimed in claim 5, wherein, described three-temperature sensor array is arranged at apart from described initial point 3.1cm-5.3cm, and between described 3rd radial direction and described second radial direction, angle is 30 °-49 °.

7. temperature sensing device as claimed in claim 2, wherein, described temperature sensing device also comprises the second array of temperature sensor group, arranges relative to described initial point and described first array of temperature sensor group almost symmetry.

8. temperature sensing device as claimed in claim 7, wherein, described second array of temperature sensor component to be distributed in the second fan ring-type and to be carried by described load carrier, and described second fan ring-type radially width is 7cm, and argument is 122 °.

9. temperature sensing device as claimed in claim 8, wherein, described second array of temperature sensor group comprises the 4th array of temperature sensor, described 4th array of temperature sensor is arranged at apart from described initial point 2.3cm-7.7cm along the 4th radial direction, and the described 4th is radial substantially contrary with described second radial direction.

10. temperature sensing device as claimed in claim 9, wherein, described 4th array of temperature sensor is arranged at apart from described initial point 3.1cm-6.9cm.

11. temperature sensing devices as claimed in claim 8, wherein, described second array of temperature sensor group also comprises the 5th array of temperature sensor, described 5th array of temperature sensor is along the 5th radial distribution in apart from described initial point 2.1cm-8.3cm, and the described 5th is radial substantially contrary with described first radial direction.

12. temperature sensing devices as claimed in claim 11, wherein, described 5th array of temperature sensor is arranged at apart from described initial point 2.8cm-7.7cm.

13. temperature sensing devices as claimed in claim 10, wherein, described first array of temperature sensor is provided with first sensor, second sensor, described second array of temperature sensor is provided with the 3rd sensor, four-sensor, described 4th array of temperature sensor is provided with the 5th sensor, 6th sensor, described 5th array of temperature sensor is provided with the 7th sensor, wherein, described first sensor and described initial point distance are 5.5cm-7.7cm, described second sensor and described initial point distance are 2.2cm-3.8cm, described 3rd sensor and described initial point distance are 5.1cm-6.9cm, described four-sensor and described initial point distance are 2.3cm-3.9cm, described 5th sensor and described initial point distance are 3.0cm-4.0cm, described 6th sensor and described initial point distance are 6.0cm-7.5cm, described 7th sensor and described initial point distance are 5.4cm-7.6cm.

14. temperature sensing devices as claimed in claim 1, wherein,

Described first array of temperature sensor group comprises:

First array of temperature sensor, is arranged at apart from initial point 2.0cm-7.2cm along the first radial direction; And

Three-temperature sensor array, is arranged at apart from initial point 2.1cm-6.3cm along the 3rd radial direction, and between described first radial direction and described 3rd radial direction, angle is 25 °-65 °.

15. temperature sensing devices as claimed in claim 14, wherein, the distance of described first array of temperature sensor and described initial point is 3.2cm-6.0cm, and the distance of described three-temperature sensor array and described initial point is 3.1cm-5.3cm.

16. temperature sensing devices as claimed in claim 14, wherein, between described first radial direction and described 3rd radial direction, angle is 36 °-52 °.

17. temperature sensing devices as claimed in claim 2, wherein, described first array of temperature sensor and described second array of temperature sensor comprise at least one NTC thermistor respectively; And at least one NTC thermistor described is provided with conducting-heat elements.

18. temperature sensing devices as claimed in claim 17, wherein, described load carrier surface is provided with skin-friendly layer, and at least one NTC thermistor described and described conducting-heat elements expose from the surface of described skin-friendly layer.

19. temperature sensing devices as claimed in claim 2, wherein,

Described load carrier comprises at least one branch, is constructed to carry described first array of temperature sensor group.

20. temperature sensing devices as claimed in claim 19, wherein, at least one branch described is constructed to band shape, circle or arc, and described load carrier is also provided with fixed part, and described fixed part is connected with at least one branch described.

21. temperature sensing devices as claimed in claim 20, wherein, described fixed part comprises fixing hole, runs through described load carrier and generally within described initial point.

22. temperature sensing devices as claimed in claim 1, wherein, described temperature sensing device also comprises at least one gathering line, is laid in described load carrier, and is connected with described first array of temperature sensor group the induced signal transmitting described first array of temperature sensor group.

23. temperature sensing devices as claimed in claim 22, wherein, described temperature sensing device comprises processor, is connected with described at least one gathering line, to receive and to process described induced signal.

24. temperature sensing devices as claimed in claim 23, wherein, described temperature sensing device comprises multiplexer, and described processor is connected with described at least one gathering line by described multiplexer.

25. temperature sensing devices as claimed in claim 1, wherein, described first array of temperature sensor group comprises the first array of temperature sensor, is arranged on described load carrier; Described load carrier is also provided with fixed part, and the distance of described first array of temperature sensor and described fixed part is 2.0cm-7.2cm.

26. temperature sensing devices as claimed in claim 25, wherein, described fixed part runs through described load carrier.

27. temperature sensing devices as claimed in claim 25, wherein, the distance of described first array of temperature sensor and described fixed part is 3.2cm-6.0cm.

28. 1 kinds of temperature sensing devices, comprising:

Load carrier;

First array of temperature sensor, the second array of temperature sensor, is arranged on described load carrier respectively;

Wherein, the spacing between described first array of temperature sensor and described second array of temperature sensor is 2.7cm-11.2cm.

29. temperature sensing devices as claimed in claim 28, wherein, the spacing between described first array of temperature sensor and described second array of temperature sensor is 3.9cm-8.3cm.

30. temperature sensing devices as claimed in claim 28, wherein, described temperature sensing device also comprises three-temperature sensor array, it to be arranged on described load carrier and between described first array of temperature sensor and described second array of temperature sensor, and the distance of described three-temperature sensor array and described first array of temperature sensor is 1.6cm-6.2cm, the distance of described three-temperature sensor array and described second array of temperature sensor is 1.7cm-7.2cm.

31. temperature sensing devices as claimed in claim 30, wherein, the distance of described three-temperature sensor array and described first array of temperature sensor is 2.0cm-4.7cm, and the distance of described three-temperature sensor array and described second array of temperature sensor is 2.3cm-5.1cm.

32. temperature sensing devices as claimed in claim 30, wherein, described temperature sensing device also comprises the 4th array of temperature sensor, it to be arranged on described load carrier and between described first array of temperature sensor and described second array of temperature sensor, and the distance of described 4th array of temperature sensor and described first array of temperature sensor is 3.0cm-9.9cm, the distance of described 4th array of temperature sensor and described second array of temperature sensor is 4.9cm-14.1cm, and the distance of described 4th array of temperature sensor and described first array of temperature sensor is less than the distance of described 4th array of temperature sensor and described three-temperature sensor array.

33. temperature sensing devices as claimed in claim 32, wherein, the distance of described 4th array of temperature sensor and described first array of temperature sensor is 4.1cm-8.4cm, and the distance of described 4th array of temperature sensor and described second array of temperature sensor is 5.9cm-12cm.

34. temperature sensing devices as claimed in claim 30, wherein, described temperature sensing device also comprises the 5th array of temperature sensor, it to be arranged on described load carrier and between described first array of temperature sensor and described second array of temperature sensor, and the distance of described 5th array of temperature sensor and described first array of temperature sensor is 4.0cm-14.5cm, the distance of described 5th array of temperature sensor and described second array of temperature sensor is 3.0cm-10.5cm, and the distance of described 5th array of temperature sensor and described second array of temperature sensor is less than the distance of described 5th array of temperature sensor and described three-temperature sensor array.

35. temperature sensing devices as claimed in claim 34, wherein, the distance of described 5th array of temperature sensor and described first array of temperature sensor is 4.5cm-12.2cm, and the distance of described 5th array of temperature sensor and described second array of temperature sensor is 3.7cm-9.7cm.

36. temperature sensing devices as claimed in claim 28, wherein, described first array of temperature sensor and described second array of temperature sensor comprise at least one NTC thermistor respectively; And at least one NTC thermistor described is provided with conducting-heat elements.

37. temperature sensing devices as claimed in claim 36, wherein, described load carrier surface is provided with skin-friendly layer, and at least one NTC thermistor described and described conducting-heat elements expose from the surface of described skin-friendly layer.

38. temperature sensing devices as claimed in claim 28, wherein, described load carrier is also provided with fixed part, and the distance of described first array of temperature sensor and described fixed part is 2.0cm-7.2cm.

39. temperature sensing devices as claimed in claim 38, wherein, the distance of described first array of temperature sensor and described fixed part is 3.2cm-6.0cm.

40. temperature sensing devices as claimed in claim 39, wherein, described fixed part comprises fixing hole, runs through described load carrier.

41. temperature sensing devices as claimed in claim 40, wherein,

Described load carrier comprises at least one branch, carries described first array of temperature sensor and described second array of temperature sensor respectively.

42. temperature sensing devices as claimed in claim 41, wherein, described at least one branch into band shape, circle or arc, and described fixed part is connected with at least one branch described.

43. temperature sensing devices as claimed in claim 28, wherein, described temperature sensing device also comprises at least one gathering line, is laid in described load carrier, and is connected to transmit its temperature sensor signal with described first array of temperature sensor and described second array of temperature sensor respectively.

44. temperature sensing devices as claimed in claim 43, wherein, described temperature sensing device also comprises processor, is connected with described at least one gathering line, to receive and to process described temperature sensor signal.

45. temperature sensing devices as claimed in claim 44, wherein, described temperature sensing device also comprises multiplexer, and described processor is connected with described at least one gathering line by described multiplexer.

46. 1 kinds of temperature sensing devices, for detecting breast temperature, described temperature sensing device comprises:

Load carrier;

First array of temperature sensor, be arranged on described load carrier, to make the first array of temperature sensor described in the use of described temperature sensing device be positioned at the upper exterior domain of described breast, described first array of temperature sensor and teat spacing are 2.0cm-7.2cm.

47. temperature sensing devices as claimed in claim 46, wherein, described temperature sensing device also comprises the second array of temperature sensor, it is arranged on described load carrier, the upper inner region of described breast is positioned to make the second array of temperature sensor described in the use of described temperature sensing device, described second array of temperature sensor and described teat spacing are 2.2cm-8.2cm, and the line of described first array of temperature sensor and described nipple and the angle between described second array of temperature sensor and the line of described nipple are 43 °-122 °.

48. temperature sensing devices as claimed in claim 47, wherein, the distance of described first array of temperature sensor and described nipple is 3.2cm-6.0cm, and the distance of described second array of temperature sensor and described nipple is 3.3cm-6.7cm.

49. temperature sensing devices as claimed in claim 47, wherein, the line of described first array of temperature sensor and described nipple and the angle between described second array of temperature sensor and the line of described nipple are 66 °-101.

50. temperature sensing devices as described in claim 46 or 47, wherein, described temperature sensing device also comprises three-temperature sensor array, it is arranged on described load carrier, with make at three-temperature sensor array described in the use of described temperature sensing device and be positioned at described on inner region or described on exterior domain, described three-temperature sensor array and described teat spacing are 2.1cm-6.3cm, the line of described three-temperature sensor array and described nipple and the angle between described first array of temperature sensor and the line of described nipple are 43 °-122 °.

51. temperature sensing devices as claimed in claim 50, wherein, the distance of described three-temperature sensor array and described nipple is 3.1cm-5.3cm, and the line of described three-temperature sensor array and described nipple and the angle between described first array of temperature sensor and the line of described nipple are 66 °-101 °.

52. temperature sensing devices as claimed in claim 47, wherein, described temperature sensing device also comprises the 4th array of temperature sensor, it is arranged on described load carrier, the lower exterior domain of described breast is positioned to make the 4th array of temperature sensor described in the use of described temperature sensing device, described 4th array of temperature sensor and described teat spacing are 2.3cm-7.7cm, and described 4th array of temperature sensor and described first array of temperature sensor are arranged relative to described nipple almost symmetry.

53. temperature sensing devices as claimed in claim 52, wherein, the distance of described 4th array of temperature sensor and described nipple is 3.1cm-6.9cm.

54. temperature sensing devices as claimed in claim 50, wherein, described temperature sensing device also comprises the 5th array of temperature sensor, it is arranged on described load carrier, the lower inner region of described breast is positioned to make the 5th array of temperature sensor described in the use of described temperature sensing device, described 5th array of temperature sensor and described teat spacing are 2.1cm-8.3cm, and described 5th array of temperature sensor and described three-temperature sensor array are arranged relative to described nipple almost symmetry.

55. temperature sensing devices as claimed in claim 54, wherein, the distance of described 5th array of temperature sensor and described nipple is 2.8cm-7.7cm.

56. temperature sensing devices as claimed in claim 46, wherein, described first array of temperature sensor is arranged on described load carrier, to make in the transverse area at the line mid point place between clavicle mid point and described nipple of the first array of temperature sensor described in the use of described temperature sensing device.

57. temperature sensing devices as claimed in claim 46, wherein, described first array of temperature sensor is arranged on load carrier, to make described in the use of described temperature sensing device the first array of temperature sensor between described nipple and oxter, apart from the region of 1/3 to 4/5 spacing of described nipple.

58. temperature sensing devices as claimed in claim 57, wherein, described first array of temperature sensor is arranged on described load carrier, to make described in the use of described temperature sensing device the first array of temperature sensor between described nipple and oxter, apart from the region of 1/2 to 2/3 spacing of described nipple.

59. 1 kinds of temperature sensing underwears, comprising:

Cover body, for covering the breast of user;

First array of temperature sensor, be arranged at described cover body to make when worn by a user, described first array of temperature sensor is positioned at the upper exterior domain of described breast, and is 2.0cm-7.2cm with teat spacing.

60. temperature sensing underwears as claimed in claim 59, wherein, described temperature sensing underwear also comprises the second array of temperature sensor, it is arranged on described cover body, when worn by a user, described second array of temperature sensor is positioned at the upper inner region of described breast, and is 2.2cm-8.2cm with described teat spacing, and the line of described first array of temperature sensor and described nipple and the angle between described second array of temperature sensor and the line of described nipple are 43 °-122 °.

61. temperature sensing underwears as claimed in claim 60, wherein, the distance of described first array of temperature sensor and described nipple is 3.2cm-6.0cm, and the distance of described second array of temperature sensor and described nipple is 3.3cm-6.7cm.

62. temperature sensing underwears as claimed in claim 60, wherein, the line of described first array of temperature sensor and described nipple and the angle between described second array of temperature sensor and the line of described nipple are 66 °-101 °.

63. temperature sensing underwears as described in claim 59 or 60, wherein, described temperature sensing underwear also comprises three-temperature sensor array, it is arranged on described cover body, when worn by a user, described three-temperature sensor array is positioned at the lower exterior domain of described breast, and is 2.1cm-6.3cm with described teat spacing, and the line of described three-temperature sensor array and described nipple and the angle between described second array of temperature sensor and the line of described nipple are 18 °-57 °.

64. temperature sensing underwears as described in claim 63, wherein, the distance of described three-temperature sensor array and described nipple is 3.1cm-5.3cm, and the line of described three-temperature sensor array and described nipple and the angle between described second array of temperature sensor and the line of described nipple are 30 °-49 °.

65. temperature sensing underwears as claimed in claim 60, wherein, described temperature sensing underwear also comprises the 4th array of temperature sensor, it is arranged on described cover body, when worn by a user, described 4th array of temperature sensor is positioned at the lower exterior domain of described breast, and is 2.3cm-7.7cm with described teat spacing, and described 4th array of temperature sensor and described first array of temperature sensor are arranged relative to described nipple almost symmetry.

66. temperature sensing underwears as described in claim 65, wherein, the distance of the 4th array of temperature sensor and nipple is 3.1cm-6.9cm.

67. temperature sensing devices as described in claim 63, wherein, described temperature sensing underwear also comprises the 5th array of temperature sensor, it is arranged on described cover body, when worn by a user, described 5th array of temperature sensor is positioned at the lower inner region of described breast, and is 2.1cm-8.3cm with described teat spacing, and described 5th array of temperature sensor and described three-temperature sensor array are arranged relative to described nipple almost symmetry.

68. temperature sensing devices as described in claim 67, wherein, the distance of described 5th array of temperature sensor and described nipple is 2.8cm-7.7cm.

69. temperature sensing underwears as claimed in claim 59, wherein, when worn by a user, in the transverse area of described first array of temperature sensor generally within line mid point place between clavicle mid point and described nipple.

70. temperature sensing underwears as claimed in claim 59, wherein, when worn by a user, described first array of temperature sensor between described nipple and oxter, apart from the region of 1/3 to 4/5 spacing of described nipple.

71. temperature sensing underwears as described in claim 70, wherein, when worn by a user, described first array of temperature sensor between described nipple and oxter, apart from the region of 1/2 to 2/3 spacing of described nipple.

72. temperature sensing underwears as claimed in claim 59, wherein, described first array of temperature sensor comprises at least one NTC thermistor, can contact described breast by the inner surface of described cover body.

73. temperature sensing underwears as described in claim 72, wherein, at least one NTC thermistor described is provided with conducting-heat elements, and the inner surface of described cover body is provided with skin-friendly layer, and described conducting-heat elements exposes from the surface of described skin-friendly layer.

74. temperature sensing underwears as claimed in claim 59, wherein, described temperature sensing underwear also comprises at least one gathering line, is laid in described cover body, and is connected to transmit its temperature sensor signal with described first array of temperature sensor.

75. temperature sensing underwears as described in claim 74, wherein, described temperature sensing underwear also comprises processor, is connected with described at least one gathering line, to receive and to process described temperature sensor signal.

76. temperature sensing underwears as described in claim 75, wherein, described temperature sensing underwear also comprises multiplexer, and described processor is connected with described at least one gathering line by described multiplexer.