Temperature sensor for body temperature measurement

US 8,716,629 B2
Filed: 04/01/2010
Issued: 05/06/2014
Est. Priority Date: 04/06/2009
Status: Active Grant

First Claim

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1. A temperature sensor for body temperature measurements comprising:

a first fabric layer having a central heater embedded therein;

a second fabric layer attached to the first layer having at least one first thermistor embedded therein for measuring a first temperature value;

at least one third fabric layer having at least one second thermistor embedded therein separated from the first thermistor for measuring at least one second temperature value, the at least one third layer being configured to contact skin of a body for conducting a heat flux escaping from the body through the layers, a difference between the first and the second temperature values indicating the heat flux from the body;

a processing unit which (1) controls heat emitted from a central heater to tune the emitted heat oppositely to the heat flux until a zero heat flux is reached and (2) reads out the temperature at the at least one second thermistor at zero heat flux which indicates the body temperature; and

a transmitter for transmitting the temperature measured at the at least one second thermistor at zero heat flux to an external monitoring device comprising a receiver.

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Abstract

This invention relates to a temperature sensor for body temperature measurements. The temperature sensor is made of several layers, where a first layer has a central heater embedded therein, a second layer which is attached to the first layer has at least one first thermistor embedded therein for measuring a first temperature value, a third layer has at one ore second thermistor embedded therein separated from the first thermistor for measuring at least one second temperature value, but this third layer is adapted to be in contact to the skin of the surface of the body for conducting the heat escaping from the body through the layers. The difference between the first and the second temperature values indicates the heat flux from the body. The heat emitted from central heater is tuned oppositely to the heat flux until a zero heat flux is reached, where the temperature at the at least one second thermistor at zero heat flux indicates the body temperature. These layers are fabric layers.

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19 Claims

1. A temperature sensor for body temperature measurements comprising:
- a first fabric layer having a central heater embedded therein;
  
  a second fabric layer attached to the first layer having at least one first thermistor embedded therein for measuring a first temperature value;
  
  at least one third fabric layer having at least one second thermistor embedded therein separated from the first thermistor for measuring at least one second temperature value, the at least one third layer being configured to contact skin of a body for conducting a heat flux escaping from the body through the layers, a difference between the first and the second temperature values indicating the heat flux from the body;
  
  a processing unit which (1) controls heat emitted from a central heater to tune the emitted heat oppositely to the heat flux until a zero heat flux is reached and (2) reads out the temperature at the at least one second thermistor at zero heat flux which indicates the body temperature; and
  
  a transmitter for transmitting the temperature measured at the at least one second thermistor at zero heat flux to an external monitoring device comprising a receiver.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The temperature sensor according to claim 1, wherein the first and the second layers are made of the same fabric and form a single functional layer having the heater and the first thermistor embedded therein such that the heater and the first thermistor are separated from each other.
  - 3. The temperature sensor according to claim 1, wherein the fabric layers are made of woven or non-woven fabrics.
  - 4. A garment including:
    - a baby cap; and
      
      the temperature sensor according to claim 1, in the baby cap and positioned such that the third layer contacts the skin of a baby to monitor the body temperature of the baby.
  - 5. The temperature sensor according to claim 1, further including:
    - a side thermistor arranged at the periphery of the third layer to measure a third temperature value at the periphery of the third layer.

6. A flexible temperature sensing patch configured to be affixed to skin of a patient to measure body temperature, the patch comprising:
- a first flexible layer including a flexible heater;
  
  a second flexible layer attached to the first layer and carrying a first thermistor for measuring a first temperature;
  
  a third flexible layer including a second thermistor separated from the first thermistor for measuring a second temperature, the third flexible layer being configured to contact the skin of the patient such that heat escaping from the patient is conducted as a heat flux through the layers, a difference between the first and the second temperature indicating the heat flux from the patient such that heat from the heater is conducted oppositely to the heat flux from the patient such that when a zero heat flux is reached, the temperature at the second thermistor indicates the body temperature of the patient;
  
  a processing unit for converting the output from the at least one second thermistor at zero heat flux into a measured body temperature value;
  
  a battery; and
  
  an indicator display for displaying the measured body temperature value.
- View Dependent Claims (7, 8, 9, 10, 11, 12)
- - 7. A garment including:
    - a baby cap; and
      
      the temperature sensor according to claim 6, in the baby cap and positioned such that the third layer contacts the skin of a baby to monitor the body temperature of the baby.
  - 8. The temperature sensor according to claim 6, wherein the layers are stitched or laminated together, interwoven, or a combination thereof.
  - 9. The temperature sensor according to claim 8, wherein the flexible heater is stitched, or embroidered, or woven, or laminated into the first layer using conductive yarn.
  - 10. The temperature sensor according to claim 8, wherein the flexible heater is printed onto the first layer using conductive ink or conductive paste.
  - 11. The temperature sensor according to claim 10, wherein the heater is made of a conductive material with a resistance between 5-150 ohm/meter.
  - 12. The temperature sensor according to claim 6, wherein the second and third layers are separated by a flexible heat insulating layer.

13. A temperature sensor for body temperature measurements comprising:
- a first flexible layer including a central heater;
  
  a second flexible layer attached to the first layer having a first thermistor embedded therein for measuring a first temperature value,a third flexible layer having a second thermistor embedded therein separated from the first thermistor for measuring a second temperature value, the third layer being configured to contact skin of the body for conducting the heat escaping from the body through the layers, such that a difference between the first and the second temperature values indicates the heat flux from the body, and when heat flux from central heater zeroes the heat flux from the body, the temperature at the second thermistor indicates the body temperature;
  
  a side thermistor arranged at the periphery of the third layer and which measures a third temperature value at the periphery of the third layer, such that a difference between the second and the third temperature values indicates a horizontal heat flux within the third layer.
- View Dependent Claims (14, 15, 16, 17, 18, 19)
- - 14. The temperature sensor according to claim 13, wherein the thermistors are attached to a woven, stitched or knitted conductive circuit.
  - 15. The temperature sensor according to claim 14, wherein the conductive circuit is made of conductive material having a resistance lower 20 ohm/meter.
  - 16. The temperature sensor according to claim 13, further comprising an insulating layer on top of the first layer.
  - 17. The temperature sensor according to claim 13, wherein the temperature sensor is integrated into patch.
  - 18. The temperature sensor according to claim 13, further comprising:
    - a side heater is arranged at the periphery of the third layer and configured to cause a heat flux opposite to the horizontal heat flux from the body.
  - 19. A garment comprising the temperature sensor as claimed in claim 13 integrated therein such that when the garment is placed onto the body or is being worn by the body the third layer contacts the skin of the body.

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Current Assignee
Koninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
Original Assignee
Koninklijke Philips N.V.
Inventors
Klewer, Jasper, Cheung, Amy, Van Pieterson, Liesbeth, Bakkers, Erik
Primary Examiner(s)
Caputo, Lisa
Assistant Examiner(s)
AHMED, NASIR UDDIN

Application Number

US13/262,241
Publication Number

US 20120024833A1
Time in Patent Office

1,496 Days
Field of Search

219/209, 219/202, 219/211, 219/217, 219/494, 219/529, 374/151
US Class Current

219/211
CPC Class Codes

A41D 13/1281   with incorporated means for...

A61B 5/0008   Temperature signals

A61B 5/01   Measuring temperature of bo...

A61B 5/6804   Garments; Clothes

G01K 1/14   Supports; Fastening devices...

G01K 1/16   Special arrangements for co...

G01K 1/165   for application in zero hea...

G01K 13/20   Clinical contact thermomete...

G01K 2217/00   Temperature measurement usi...

Temperature sensor for body temperature measurement

First Claim

1 Assignment

0 Petitions

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Abstract

47 Citations

19 Claims

Specification

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Temperature sensor for body temperature measurement

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

47 Citations

19 Claims

Specification

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Solutions

Use Cases

Quick Links