CN105249934A - Dynamic information of living body acquiring method and dynamic information of living body acquiring and converting device - Google Patents

Abstract

The invention provides a dynamic information of a living body acquiring method and a dynamic information of the living body acquiring and converting device. The method comprises coding each single temperature measuring point after laying temperature measuring points on a plane; respectively decoding and determining the position of each temperature measuring point relative to the plane at fixed time intervals, to obtain the sensing temperature of each temperature measuring point; acquiring the ambient temperature at present at the same time; comparing the sensing temperature of each temperature measuring point with the ambient temperature, to determine a relative temperature of the position of each temperature measuring point relative to the plane; and at the same time, respectively comparing the relative temperature of each temperature measuring point with the relative temperature of the same temperature measuring point in the last time interval, to determine temperature changes of the position of each temperature measuring point relative to the plane within each fixed time interval. The dynamic information of the living body on the plane can be acquired. The dynamic information of the living body acquiring and converting device is simpler and more accurate, and can accord with market demands.

Description

The method that live body multidate information obtains and live body multidate information obtain and conversion equipment

Technical field

The present invention relates to method and the application thereof of a kind of electronics sensing, the method for particularly a kind of real-time monitoring and device thereof.

Background technology

The method and apparatus of real-time monitoring, prior art contains the medical aid of electrocardiogram register, heart rate monitor, blood pressure monitor meter, electroencephalograph, pulse monitor, oximeter, carbon dioxide meter, thermostat, platform scale and other various non-intrusion type.But, there is exigence for the real time monitoring apparatus can monitoring man at an advanced age or sufferer posture in bed and action at present.When sufferer be at any time may epilepsy or fall the risk outside bed time, it is this that can to send the real time monitoring apparatus of early warning to caregiver particularly important; If moreover can the change of monitoring analysis sufferer body gesture and action for a long time, also contribute to observing out the health status of monitored person and the reaction to medicine; Such as: the monitoring analysis information of sleep form, body movement amount etc., really caregiver can be assisted to look after quality in real time for man at an advanced age or sufferer, especially, for the confined to bed for a long time and man at an advanced age lacking autonomic activities ability or sufferer, the problem that decubital ulcer (pressure ulcer) occurs can therefore and greatly be reduced.

But, the prior art of real time monitoring apparatus, the air fluidized bed greatly mainly with pressure-sensing formula is main, but air fluidized bed is all same structure be mostly supplied to different weight patient use.Such as, the patient that body weight is heavier, the air pressure of air fluidized bed inside and air demand just must be relatively large, otherwise air fluidized bed has the situation generation be crushed; As for the patient that body weight is lighter, the air pressure of air fluidized bed inside and air demand just must be relatively little, otherwise air fluidized bed has the generation of really up to the mark, uncomfortable situation.In any case the force value of air fluidized bed inside, suitably need increase and decrease depending on body weight, just can have support effect and can take into account comfortableness.As can be seen here, body weight is for the air feed of air fluidized bed, quite important.Only, due to illness many patients cannot leave the bed or stand on weighing machine at all and measure body weight, cause air fluidized bed to want reference patient body weight to have difficulty when carrying out supply gas pressure setting; Be not inconsistent the market demand in fact.

Summary of the invention

A kind of method that main purpose of the present invention is to provide live body multidate information to obtain and live body multidate information obtain and conversion equipment, make it simpler and easy and more accurate, to accord with the demands of the market.

For achieving the above object, the present invention proposes a kind of method that live body multidate information obtains, and comprising: provide multiple and touch the temperature module receiving live body surface temperature, and scatters respectively with a plane and arrange this temperature module and form a live body temperature-sensitive unit; Respectively this temperature module interspersing among diverse location on this live body temperature-sensitive unit is first encoded; The ring temperature sensor of one reception environment temperature is provided; One intervalometer is provided; And decoding can obtain the controller of respectively this temperature module information and this ring temperature sensor information respectively after this timer signal of a reception is provided; Obtain respectively behind this temperature module position and temperature information by this controller respectively in Different periods, compare with this ring temperature sensor temperature information respectively again, and judge the variations in temperature of this live body of Different periods on this live body temperature-sensitive unit plane diverse location, to obtain the multidate information of this live body in this live body temperature-sensitive unit plane.

Further, described method also comprises: provide a decoding processor first will resummoned after each this temperature module decoding to this controller respectively.

Further, the coded system of described the temperature module, will after respectively this temperature module carrys out alignment with multiple axis of ordinates and multiple axis of abscissas, and first each coordinate axes is carried out first time coding, then carry out two-pass encoding after being encoded in conjunction with this first time by this axis of ordinates respectively this temperature module on this abscissa coordinate axes intersection point; And learn that respectively this temperature module is in the position of this live body temperature-sensitive unit plane according to this two-pass encoding.

Further, the coded system of described the temperature module, after first this live body temperature-sensitive dividing elements being become multiple block, carry out first time coding, carry out two-pass encoding after being encoded in conjunction with this first time by respectively this temperature module being positioned at respectively this block again, and learn that respectively this temperature module is in the position of this live body temperature-sensitive unit plane according to this two-pass encoding.

Further, the coded system of described the temperature module, be according to this temperature module total quantity and from top to bottom, sequentially encode from left to right or from right to left, and learn that respectively this temperature module is in the position of this live body temperature-sensitive unit plane according to this coding relative to this temperature module total quantity.

For achieving the above object, the present invention also proposes a kind of method that live body multidate information obtains, comprise: after laying measuring temp point with a plane, respectively single-point coding is carried out to each this Temperature Quantity measuring point, or after first this plane being marked off different blocks code after laying measuring temp point with a plane, more respectively each this Temperature Quantity measuring point is encoded according to each this block code; The difference decoding of each fixed interval period judges that respectively this Temperature Quantity measuring point is relative to the position of this plane, and obtains the sensing temperature of respectively this Temperature Quantity measuring point; Obtain an ambient temperature instantly simultaneously; Simultaneously by this sensing temperature of each this Temperature Quantity measuring point respectively compared to this ambient temperature, and judge the relative temperature of each this Temperature Quantity measuring point this plane position relatively; And simultaneously by this relative temperature of each this Temperature Quantity measuring point respectively compared to the relative temperature of this section for the moment with it, and judge respectively this Temperature Quantity measuring point relatively this plane position in the variations in temperature of each fixed interval period; To obtain the multidate information of a live body in this plane.

For achieving the above object, the present invention separately proposes a kind of live body multidate information and obtains and conversion equipment, comprising: multiple reception live body surface temperature and encoded the temperature module; One plane lays the live body temperature-sensitive unit that this temperature module is formed; The ring temperature sensor of one reception environment temperature; And one connects and obtains respectively this temperature module and this ring temperature sensor information and processed information processing and the converting unit of conversion respectively; This information processing and converting unit comprise: an intervalometer; One receive after this timer signal can respectively by the in addition computing and be converted to the controller of live body multidate information of each this temperature module information and this ring temperature sensor information; And one receives this controller live body multidate information and turns and sends or the attention device of its combinative movement with sounding, luminescence, concussion, wireless signal.

Further, described the temperature module is that sequentially layout is laid in this live body temperature-sensitive unit plane.

Further, described live body temperature-sensitive unit also comprises a decoding processor first will resummoned after each this temperature module decoding to this controller respectively; And described attention device is any one or its combination being selected from buzzer, screen display, oscillator or radio signal senders.

Further, described live body temperature-sensitive unit is a mattress; This live body temperature-sensitive unit also comprises the ventilative top layer of this temperature module of a set on its surface, and one is located at cushion interlayer in this ventilative top layer; And this temperature module is between this ventilative top layer and this cushion interlayer.

Pass through technique scheme, the beneficial effect that the present invention reaches compared to prior art essence is: the present invention lays the simple and easy method of measuring temp point by a plane, can judge that respectively this Temperature Quantity measuring point this plane position relative is in the variations in temperature of each fixed interval period accurately and effectively, and accurately obtain the multidate information of a live body in this plane, and effectively can reduce production cost to accord with the demands of the market.

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

Accompanying drawing explanation

Fig. 1 is the block schematic diagram of first preferred embodiment of the invention.

Fig. 2 is that first of live body temperature-sensitive unit in Fig. 1 of the present invention implements pattern figure.

Fig. 3 is that second of live body temperature-sensitive unit in Fig. 1 of the present invention implements pattern figure.

Fig. 4 is that the 3rd of live body temperature-sensitive unit in Fig. 1 of the present invention implements pattern figure.

Fig. 5 is that the 4th of live body temperature-sensitive unit in Fig. 1 of the present invention implements pattern figure.

Fig. 6 is that the 5th of live body temperature-sensitive unit in Fig. 1 of the present invention implements pattern figure.

Fig. 7 is the application pattern schematic diagram of Fig. 1 of the present invention.

Fig. 8 is another pattern schematic diagram of application of Fig. 1 of the present invention.

Fig. 9 is the block schematic diagram of the present invention compared with the second preferred embodiment.

Wherein, Reference numeral:

10 live body multidate informations obtain and conversion equipment

20 live body temperature-sensitive unit

21 the temperature modules

22 ventilative top layers

23 cushion interlayers

24 decoding processors

30 ring temperature sensors

40 information processings and converting unit

41 controllers

42 intervalometers

43 attention devices

Detailed description of the invention

Preferred embodiment for the present invention and detailed technology content, hereby coordinate graphic explanation as after.First, referring to shown in Fig. 1, is the block schematic diagram of first preferred embodiment of the invention.Can know as shown in the figure and find out, the present invention discloses a kind of method that live body multidate information obtains, comprise: provide multiple and receive live body (such as there are the mankind of body temperature or house pet etc. in order to touch, the best of the present invention take the mankind as objective for implementation) the temperature module 21 of surface temperature, and scatter respectively with a plane and arrange this temperature module 21 and form a live body temperature-sensitive unit 20, and described the temperature module 21 is preferably to be uniformly distributed sequentially arranged mode is arranged at this live body temperature-sensitive unit 20 plane; First encode interspersing among respectively this temperature module 21 of diverse location on this live body temperature-sensitive unit 20 again; Separately provide one in order to the ring temperature sensor 30 of reception environment temperature; Reoffer an intervalometer 42; And decoding can obtain the controller 41 of respectively this temperature module 21 information and this ring temperature sensor 30 information respectively after this intervalometer 42 signal of a reception is provided; Certainly also can as shown in Figure 9, a decoding processor 24 first will resummoned after each this temperature module 21 decoding to this controller 41 respectively is first provided; Obtain respectively behind this temperature module 21 position and temperature information by this controller 41 respectively in Different periods, compare with this ring temperature sensor 30 temperature information respectively again, and judge the variations in temperature of this live body of Different periods on this live body temperature-sensitive unit 20 plane diverse location, to obtain the multidate information of this live body in this live body temperature-sensitive unit 20 plane.It should be noted that method of the present invention is not limited with above-mentioned listed device and assembly; In this way, the present invention also proposes a kind of method that live body multidate information obtains, comprise: after laying measuring temp point with a plane, respectively single-point coding is carried out to each this Temperature Quantity measuring point, or after first this plane being marked off different blocks code after laying measuring temp point with a plane, more respectively each this Temperature Quantity measuring point is encoded according to each this block code; The difference decoding of each fixed interval period judges that respectively this Temperature Quantity measuring point is relative to the position of this plane, and obtains the sensing temperature of respectively this Temperature Quantity measuring point; Obtain an ambient temperature instantly simultaneously; Simultaneously by this sensing temperature of each this Temperature Quantity measuring point respectively compared to this ambient temperature, and judge the relative temperature of each this Temperature Quantity measuring point this plane position relatively; And simultaneously by this relative temperature of each this Temperature Quantity measuring point respectively compared to the relative temperature of this section for the moment with it, and judge respectively this Temperature Quantity measuring point relatively this plane position in the variations in temperature of each fixed interval period; Obtain the multidate information of a live body in this plane in this way.

In order to the coded system of this temperature module 21 above-mentioned more can be clearly demonstrated, below act five example is illustrated that this live body temperature-sensitive unit 20 preferably implements pattern.Refer to shown in Fig. 2, for first of this live body temperature-sensitive unit 20 in Fig. 1 of the present invention implements pattern schematic diagram.The coded system of this temperature module 21 as shown in the figure, will after respectively this temperature module 21 carrys out alignment with multiple axis of ordinates and multiple axis of abscissas, sequentially with 01, 02, 03 ... each axis of ordinates, and sequentially with 01, 02, 03, 04, 05, 06, 07, 08, 09, 10, 11 ... each axis of abscissas first carries out first time coding, again each this axis of ordinates is carried out two-pass encoding with respectively this temperature module 21 on each this abscissa coordinate axes intersection point after encoding in conjunction with this first time, such as: first time is encoded to 02, the axis of ordinates of 03 and 04 is encoded to 02 with first time respectively, respectively this temperature module 21 on the axis of ordinates intersection point of 01 and 04, its two-pass encoding code number is then respectively 0202, 0103 and 0404, according to aforesaid two-pass encoding, this controller 41 (as shown in Figure 1) can learn that respectively this temperature module 21 is in the position of this live body temperature-sensitive unit 20 plane in this way.

Refer to again shown in Fig. 3, for second of this live body temperature-sensitive unit 20 in Fig. 1 of the present invention implements pattern schematic diagram.Though the distribution of this temperature module 21 is uneven and intersperse among this live body temperature-sensitive unit 20 brokenly as shown in the figure, but respectively still all can keep suitable distance between this temperature module 21, but we also can according to the total quantity of this temperature module 21 from top to bottom, from left to right (or from right to left) sequentially encode, as T001, T002, T003 ... Deng, and the relevant position of each coding code number can be loaded in advance in this controller 41, such as, when code number of encoding is T013, the 2/10th can be loaded in advance and arrange the 3/10th, wherein the 2/10th row then represent one have 10 rows and its be positioned at the 2nd row, 3/10th then represents that same row one has 10 and it is positioned at the 3rd, when being T005 for another coding code number, then can be loaded into the 1/10th in advance and arrange the 5/10th, wherein the 1/10th row also represent one have 10 rows and its be positioned at the 1st row, 5/10th then represents that same row one has 10 and it is positioned at the 5th, namely known respectively this temperature module 21 is roughly positioned at the position in this live body temperature-sensitive unit 20 plane in this way, that is, according to this coding relative to this temperature module 21 total quantity, this controller 41 (as shown in Figure 1) can learn that respectively this temperature module 21 is in the position of this live body temperature-sensitive unit 20 plane.

Separately please refer to again shown in Fig. 4, for the 3rd of this live body temperature-sensitive unit 20 in Fig. 1 of the present invention implements pattern schematic diagram.It is close that the shown coded system of this temperature module 21 and first of this live body temperature-sensitive unit 20 implement pattern, and the 3rd enforcement pattern is sequentially with y01 by respectively this temperature module 21 regularly arranged for matrix-style, y02 ... each axis of ordinates, and sequentially with x01, x02, x03, x04, x05, x06 ... each axis of abscissas first carries out first time coding, again each this axis of ordinates is carried out two-pass encoding with respectively this temperature module 21 on each this abscissa coordinate axes intersection point after encoding in conjunction with this first time, such as: the axis of ordinates that first time is encoded to y01 and 02 is encoded to x02 with first time respectively, respectively this temperature module 21 on the axis of ordinates intersection point of x01 and x03, its two-pass encoding code number is then respectively x02y01, x01y02 and x03y02, according to aforesaid two-pass encoding, this controller 41 (as shown in Figure 1) can learn that respectively this temperature module 21 is in the position of this live body temperature-sensitive unit 20 plane in this way.

Refer to shown in Fig. 5, for the 4th of this live body temperature-sensitive unit 20 in Fig. 1 of the present invention implements pattern schematic diagram.The coded system of this temperature module 21 as shown in the figure, after first this live body temperature-sensitive unit 20 being divided into multiple block, sequentially with AA ~ AZ, BA ~ BZ ... carry out first time coding, two-pass encoding is carried out after being encoded in conjunction with this first time by respectively this temperature module 21 being positioned at respectively this block again, such as: first time is encoded in AA and has 4 these the temperature modules 21, and sequentially encode with first time that to combine afterwards its two-pass encoding be respectively AA1, AA2, AA3 and AA4, first time is encoded in AB and has 3 these the temperature modules 21, and sequentially encode with first time that to combine afterwards its two-pass encoding be respectively AB1, AB2 and AB3, according to aforesaid two-pass encoding, this controller 41 (as shown in Figure 1) can learn that respectively this temperature module 21 is in the position of this live body temperature-sensitive unit 20 plane in this way.

Refer to shown in Fig. 6, for the 5th of this live body temperature-sensitive unit 20 in Fig. 1 of the present invention implements pattern schematic diagram.To implement pattern identical for the coded system and the 4th of this temperature module 21 as shown in the figure, after first this live body temperature-sensitive unit 20 being divided into multiple block, carry out first time coding, only the 5th implement being distributed as uneven and interspersing among this live body temperature-sensitive unit 20 brokenly of this temperature module 21 in pattern, but respectively still all can keep suitable distance between this temperature module 21; Another from this figure, all only respectively have 2 these the temperature modules 21 in encoding AA, AB, AC, BA and BB in first time, and sequentially with encode that to combine its two-pass encoding be afterwards respectively AA1, AA2, AB1, AB2, AC1, AC2, BA1, BA2, BB1 and BB2 for the first time; According to aforesaid two-pass encoding, this controller 41 (as shown in Figure 1) can learn that respectively this temperature module 21 is in the position of this live body temperature-sensitive unit 20 plane in this way.

Again please refer to shown in Fig. 1 and Fig. 7, be block schematic diagram and the application pattern schematic diagram of the preferred embodiment of the present invention.The present invention separately discloses a kind of live body multidate information and obtains and conversion equipment 10, comprising: multiple in order to receive live body surface temperature and encoded the temperature module 21; One plane lays the live body temperature-sensitive unit 20 that this temperature module 21 is formed, and this temperature module 21 can be and is uniformly distributed sequentially layout and is located at this live body temperature-sensitive unit 20 plane; One in order to the ring temperature sensor 30 of reception environment temperature; And one connects and obtains respectively this temperature module 21 and this ring temperature sensor 30 information and processed information processing and the converting unit 40 of conversion respectively; This information processing and converting unit 40 comprise: an intervalometer 42; One receive after this intervalometer 42 signal can respectively by the in addition computing and be converted to the controller 41 of live body multidate information of each this temperature module 21 information and this ring temperature sensor 30 information; And one receives this controller 41 live body multidate information and sends or the attention device 43 of aforementioned combinatorial action with sounding, luminescence, concussion, wireless signal; And this attention device 43 is any one or its combinations being selected from buzzer, screen display, oscillator or radio signal senders; In addition, as shown in Figure 9, this live body temperature-sensitive unit 20 also can comprise a decoding processor 24 first will resummoned after each this temperature module 21 decoding to this controller 41 respectively.For example, if live body of the present invention is for human body (especially for man at an advanced age), this live body multidate information obtains and this live body temperature-sensitive unit 20 in conversion equipment 10 can be designed to as mattress, sheet, medicated cushion or medicated pillow etc., this live body temperature-sensitive unit 20 is for mattress below, then this live body temperature-sensitive unit 20 also comprises the ventilative top layer 22 of this temperature module 21 of a set on its surface, and one is located at cushion interlayer 23 in this ventilative top layer 22; Wherein this temperature module 21 is between this ventilative top layer 22 and this cushion interlayer 23; But this ring temperature sensor 30 can distinguish sewing in this mattress (live body temperature-sensitive unit 20) periphery with this information processing and converting unit 40, certainly also can as shown in Figure 8, implement with the two-sided application pattern arranging this temperature module 21; so, will inevitably be pressed on this temperature module 21 of part when human body couches in the upper health of this mattress (live body temperature-sensitive unit 20), now body surface temperature is then received by health pressure this temperature module 21 thereon by this ventilative top layer 22, now this ring temperature sensor 30 is also receiving ambient temperature instantly simultaneously, when this intervalometer 42 timing signals to this controller 41, this all the temperature module 21 decoding can go out relative to the position in this mattress (live body temperature-sensitive unit 20) plane and temperature information by this controller 41 immediately as shown in Figure 1, or this controller 41 can first transfer to this decoding processor 24 to go out relative to the position in this mattress (live body temperature-sensitive unit 20) plane and temperature information by this all the temperature module 21 decoding as shown in Figure 9, this the temperature module 21 temperature informations all and this ring temperature sensor 30 ambient temperature information can be produced other temperature differential information each by this controller 41 mutually more afterwards simultaneously, and compare out the change information of respectively this temperature differential information of this temperature module 21 oneself and last temperature differential information, can judge in this way and obtain the multidate information of human body.That is, when after the ambient temperature that the temperature received by a certain the temperature module 21 timing receives compared to this ring temperature sensor 30 simultaneously, then can obtain the temperature differential information of this temperature module 21, if this temperature differential information occur that the temperature difference is comparatively large and temperature is higher time, then represent that now human body is just being pressed on above this temperature module 21, we can by institute's decoding go out this temperature module 21 relative position and learn human body press the position of putting, after now this temperature differential information can go with the temperature differential information of last time or temperature differential information next time mutually to compare again, obtain the change information of this temperature module 21 in Different periods temperature, if this change information occur larger change and temperature lower time, then can judge that its human body has removed the relative position of this temperature module 21 by this change information, otherwise, if when there is less change in this change information, by this change information then can judge its human body press the position of putting at least to maintain one known period and do not moved, if when judging that human body pressure is put the overlong time of same the temperature module 21 and exceeds this controller 41 default time span, (as: buzzer gives a warning then can to apply an attention device 43, the text prompt of screen display or luminous prompting, the vibration prompting of oscillator, radio signal senders citation is to modes such as cell-phones) whether this attention will be stood up for man at an advanced age or move to point out caregiver to note, in order to avoid cause the problem of its muscular death or generation decubital ulcer, in addition, when occurring that the temperature difference is little after the ambient temperature that the temperature that a certain the temperature module 21 timing receives receives compared to this ring temperature sensor 30 simultaneously, this temperature differential information then represents that now human body is not pressed on above this temperature module 21, but, if when all close with this ambient temperature after the ambient temperature that the temperature that this temperature module 21 timings all receive receives compared to this ring temperature sensor 30 simultaneously, then judge that its human body has left this mattress (live body temperature-sensitive unit 20), now can apply this attention device 43 equally and leave the bed to point out this attention of caregiver man at an advanced age whether to fall under bed or voluntarily, in this way, can reach and effectively promote looking after in real time and nursing quality man at an advanced age or sufferer.

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

Claims (10)

1. the method that obtains of live body multidate information, is characterized in that, comprising:

There is provided multiple and touch the temperature module receiving live body surface temperature, and scatter respectively with a plane and this temperature module is set and forms a live body temperature-sensitive unit;

Respectively this temperature module interspersing among diverse location on this live body temperature-sensitive unit is first encoded;

The ring temperature sensor of one reception environment temperature is provided;

One intervalometer is provided; And

Decoding the controller of respectively this temperature module information and this ring temperature sensor information can be obtained respectively after this timer signal of one reception is provided;

Obtain respectively behind this temperature module position and temperature information by this controller respectively in Different periods, compare with this ring temperature sensor temperature information respectively again, and judge the variations in temperature of this live body of Different periods on this live body temperature-sensitive unit plane diverse location, to obtain the multidate information of this live body in this live body temperature-sensitive unit plane.

2. the method that obtains of live body multidate information according to claim 1, it is characterized in that, described method also comprises: provide a decoding processor first will resummoned after each this temperature module decoding to this controller respectively.

3. the method that live body multidate information obtains according to claim 1 or 2, it is characterized in that, the coded system of described the temperature module, will after respectively this temperature module carrys out alignment with multiple axis of ordinates and multiple axis of abscissas, and first each coordinate axes is carried out first time coding, then carry out two-pass encoding after being encoded in conjunction with this first time by this axis of ordinates respectively this temperature module on this abscissa coordinate axes intersection point; And learn that respectively this temperature module is in the position of this live body temperature-sensitive unit plane according to this two-pass encoding.

4. the method that live body multidate information obtains according to claim 1 or 2, it is characterized in that, the coded system of described the temperature module, after first this live body temperature-sensitive dividing elements being become multiple block, carry out first time coding, carry out two-pass encoding after being encoded in conjunction with this first time by respectively this temperature module being positioned at respectively this block again, and learn that respectively this temperature module is in the position of this live body temperature-sensitive unit plane according to this two-pass encoding.

5. the method that live body multidate information obtains according to claim 1 or 2, it is characterized in that, the coded system of described the temperature module, be according to this temperature module total quantity and from top to bottom, sequentially encode from left to right or from right to left, and learn that respectively this temperature module is in the position of this live body temperature-sensitive unit plane according to this coding relative to this temperature module total quantity.

6. the method that obtains of live body multidate information, is characterized in that, comprising:

Respectively single-point coding is carried out to each this Temperature Quantity measuring point after laying measuring temp point with a plane, or after first this plane being marked off different blocks code after laying measuring temp point with a plane, more respectively each this Temperature Quantity measuring point is encoded according to each this block code;

The difference decoding of each fixed interval period judges that respectively this Temperature Quantity measuring point is relative to the position of this plane, and obtains the sensing temperature of respectively this Temperature Quantity measuring point;

Obtain an ambient temperature instantly simultaneously;

Simultaneously by this sensing temperature of each this Temperature Quantity measuring point respectively compared to this ambient temperature, and judge the relative temperature of each this Temperature Quantity measuring point this plane position relatively; And

Simultaneously by this relative temperature of each this Temperature Quantity measuring point respectively compared to the relative temperature of this section for the moment with it, and judge respectively this Temperature Quantity measuring point relatively this plane position in the variations in temperature of each fixed interval period; To obtain the multidate information of a live body in this plane.

7. live body multidate information obtains and a conversion equipment, it is characterized in that, comprising:

Multiple reception live body surface temperature and encoded the temperature module (21);

One plane lays the live body temperature-sensitive unit (20) that this temperature module (21) is formed;

The ring temperature sensor (30) of one reception environment temperature; And

One connects and obtains respectively this temperature module (21) and this ring temperature sensor (30) information and processed information processing and the converting unit (40) of conversion respectively; This information processing and converting unit (40) comprising:

One intervalometer (42);

One receive after this intervalometer (42) signal can respectively will respectively this temperature module (21) information and this ring temperature sensor (30) information in addition computing and be converted to the controller (41) of live body multidate information; And

One receives this controller (41) live body multidate information and turns and sends or the attention device (43) of its combinative movement with sounding, luminescence, concussion, wireless signal.

8. live body multidate information obtains and conversion equipment according to claim 7, it is characterized in that, described the temperature module (21) is that sequentially layout is laid in this live body temperature-sensitive unit (20) plane.

9. according to claim 7 or 8, live body multidate information obtains and conversion equipment, it is characterized in that, described live body temperature-sensitive unit (20) also comprises one first respectively will resummon respectively decoding processor (24) to this controller (41) after this temperature module (21) decoding; And described attention device (43) is any one or its combination being selected from buzzer, screen display, oscillator or radio signal senders.

10. live body multidate information obtains and conversion equipment according to claim 9, it is characterized in that, described live body temperature-sensitive unit (20) is a mattress; This live body temperature-sensitive unit (20) also comprises the ventilative top layer (22) of this temperature module of a set (21) on its surface, and one is located at cushion interlayer (23) in this ventilative top layer (22); And this temperature module (21) is between this ventilative top layer (22) and this cushion interlayer (23).