FR2992139A1 - Heating device for use as accessory for heating human body in e.g. electric blanket, has flexible surface including electric heaters i.e. flexible resistor cords, and control unit to vary electrical power supplied to each resistor cord - Google Patents

Abstract

The device has a flexible surface including flexible electric heaters i.e. flexible resistor cords (21-23) intended to heat a part of the flexible surface. A control unit (3) is provided to automatically vary the electrical power supplied to each flexible resistor cord. The control unit is programmable to process information provided by a temperature sensor, where the flexible surface has a shape of a mattress, or a blanket, or a sleeping bag. The control unit is powered by a mains connection (5).

Description

TECHNICAL FIELD OF THE INVENTION The invention relates to an ohmic resistance heater for heating a human body, the heater having a flexible surface. The heating device may for example be a bed accessory such as a blanket or a heating mattress, or for example a sleeping bag, or for example an apparatus for medical or therapeutic treatment or for beauty care. STATE OF THE PRIOR ART Heating devices usually used for the treatment of the human body provide heat to one or more areas of the human body. The purpose of these heaters is to achieve a rise in temperature on one or more areas of the body, for a suitable duration, the duration of treatment being often shorter as the temperature rise is higher. It is unpleasant to use strong heating over an extended area of the body. Using low heating often leads to a much longer treatment time because of the laws governing the speed of the expected reactions. To remedy this problem, there are two solutions. One solution is to use a small area device, covering a small area, so that strong heating is done locally. The small surface device is moved manually by an operator. This forces an operator to intervene often during the treatment period. The alternative is to use a lower temperature over a wide area, but this significantly increases the duration of the treatment compared to the previous solution. Both solutions therefore have each of the disadvantages. DISCLOSURE OF THE INVENTION The object of the invention is a heating device for heating a human body, which overcomes the limitations mentioned above known techniques. According to the invention, a heating device for the treatment of a human body, the heating device having a flexible surface, comprises: a plurality of flexible electric heating elements numbered from 1 to n, where n is a higher integer or equal to two, P (i, t) being an electric power supplied to the electric heating element number i, averaged over a duration extending from a time t less than 1 second to a time t plus 1 second, 1 being an integer greater than or equal to 1 and less than or equal to n, and t being an instant; a control unit automatically varying P (1, t) and P (2, t) as a function of time t, two times Ti and T2 being such that T2 is greater than Ti, that P (1, Ti) is greater than or equal to 1 Watt, that P (1, Ti) is greater than P (2, Ti), that P (2, T2) is greater than or equal to 1 Watt and that P (2, T2) is greater than P (1, T2); The specialist knows how to design a control unit that can vary, as a function of time, the power supplied to electric heating elements. In the preceding statement, superior means strictly superior, according to the usage. The electrical power supplied to each electric heating element may for example result from a current at the mains frequency (for example 50 Hz or 60 Hz) or from a high frequency current (for example 100 kHz) produced by a power supply. cutting. The electric powers P (i, t) supplied are averaged over a period of 2 seconds, which eliminates the rapid variations in the instantaneous power produced by a current at the mains frequency or at high frequency.

The heating device for the treatment of a human body may be such that P (1, T1) is greater than or equal to twice P (2, Ti), denoted 2 P (2, Tl), and that P (2) , T2) is greater than or equal to twice P (1, T2), denoted 2 P (1, T2). The heating device for the treatment of a human body may be such that there is a moment T3 such that T3 is greater than T2, that P (1, T3) is greater than or equal to 1 Watt and that P (1, T3) is greater than P (2, T3). The heating device for the treatment of a human body may be such that P (1, T3) is greater than or equal to twice P (2, T3), denoted 2 P (2, T3). The heating device for the treatment of a human body may be such that the sum of the P (i, Tl) for i varying from 1 to n is substantially equal to the sum of the P (i, T2) for 25 i ranging from 1 year. Thus, the total heat supplied per unit time can be constant and moderate, the temperature rise in each zone reaching a value sufficient for the treatment during a given time interval, this interval not being the same for all the zones. . The person being treated may perceive the displacement of the maximum temperature zone, which produces a pleasant sensation and improves well-being and comfort during treatment. The heating device for the treatment of a human body may be such that, for any integer j greater than or equal to 1 and less than or equal to n, P (j, t) is a periodic function of the instant t. In this way, the temperature variation on each heating zone is anticipated by the person treated, which improves the comfort of the treatment. The heating device for the treatment of a human body may be such that the control unit is programmable. The specialist is well aware of how to design a programmable electronic device controlling the power supplied to electric heating elements. For example, a program executed by the control unit may specify the power supplied to each of the electric heaters over time. The heating device for the treatment of a human body may be such that the control unit processes the information provided by at least one temperature sensor. For example, a program executed by the control unit may in this case specify the temperature of the flexible surface near each of the electric heaters over time. The specialist knows how to design a control unit processing the information provided by at least one temperature sensor, which automatically adjusts the power delivered to a heating device according to the temperature measured by a temperature sensor.

The heater for treating a human body may be such that the flexible surface is adapted for use as a blanket and / or as a mattress, and has the shape and size of a blanket or mattress . The heating device for the treatment of a human body may be such that the flexible surface is adapted for use as a sleeping bag, and has the shape and size of a sleeping bag. The specialist understands that a heating device according to the invention makes it possible to achieve the desired goal, that is to say a reduced processing time without frequent intervention by an operator. BRIEF DESCRIPTION OF THE DIFFERENT FIGURES Other advantages and characteristics of the invention will emerge more clearly from the following description of particular embodiments of the invention, given by way of nonlimiting examples, and represented in the accompanying drawings. in which: Figure 1 is a drawing of a heating blanket having 3 electric heating elements forming part of the device according to a first and a second embodiment; FIG. 2 represents a block diagram of the electrical circuits of a device according to the invention, according to the first and the second embodiment; FIG. 3 represents oscillograms showing the electric powers supplied to the electric heating elements, averaged over a period of 2 seconds, for the first embodiment; FIG. 4 represents oscillograms showing the electric powers supplied to the electric heating elements, averaged over a period of 2 seconds, for the second embodiment.

DETAILED DESCRIPTION OF CERTAIN EMBODIMENTS First embodiment. According to a first embodiment of a heating device for a human body according to the invention, given in a non-limiting manner, with reference to FIG. 1 and FIG. 2, the heating device comprises a heating blanket (1 ) having 3 electric heating elements (21) (22) (23) numbered from 1 to 3. The cover has a flexible surface. Each of the 3 electric heaters (21) (22) (23) is a flexible, strong bead, which is intended to heat a portion of the flexible surface of the cover, the area of each portion being at least one quarter square meter. The heating of the body is mainly by conduction, and for a small part, by the long infra-red radiation produced by the electric heating elements. Let's note the time. We denote by P (1, t) the electric power supplied to the electric heating element (21) number 1, averaged over a duration extending from a time t less than 1 second to a time t plus 1 second. We note P (2, t) the electric power supplied to the electric heating element (22) number 2, averaged as P (1, t). We denote P (3, t) the electric power supplied to the electric heating element (23) number 3, averaged as P (1, t). A control unit (3) is connected to the electric heating elements (21) (22) (23) by an electric connecting cable (4) having four conductors. The control unit (3) is powered by a mains connection (5). The control unit (3) automatically varies P (1, t), P (2, t) and P (3, t) as a function of time t. FIG. 3 represents oscillograms showing the electric powers P (1, t), P (2, t) and P (3, t) as a function of time t. In Figure 3, we find that the power delivered to each electric heating element over time can take only two distinct values: the power zero or the power rating of the electric heating element. In FIG. 3 are represented two instants T1 and T2 such that T2 is greater than T1, that P (1, T1) is greater than or equal to 1 Watt, that P (1, T1) is greater than 2 P (2, Tl ), that P (2, T2) is greater than or equal to 1 Watt and that P (2, T2) is greater than 2 P (1, T2). FIG. 3 also shows an instant T3 such that T3 is greater than T2, that P (1, T3) is greater than or equal to 1 Watt and that P (1, T3) is greater than 2 P (2, T3) . Second embodiment.

A second embodiment of a heating device for heating a human body according to the invention, given in a non-limiting manner, also corresponds to the drawing of FIG. 1 and to the block diagram of the electrical circuits of FIG. has been said above for the first embodiment is applicable to this second embodiment, except that in this second embodiment, Figure 3 is not applicable and that Figure 4 shows oscillograms showing the electric power P (1, t), P (2, t) and P (3, t) as a function of time t. In Figure 4, we find that the power delivered to each electric heating element over time can take more than two distinct values, and it can vary continuously from one value to another. FIG. 4 shows two instants T1 and T2 such that T2 is greater than T1, that P (1, T1) is greater than or equal to 1 Watt, that P (1, Ti) is greater than 2 P (2, Tl). ), that P (2, T2) is greater than or equal to 1 Watt and that P (2, T2) is greater than 2 P (1, T2). FIG. 4 also shows an instant T3 such that T3 is greater than T2, that P (1, T3) is greater than or equal to 1 Watt and that P (1, T3) is greater than 2 P (2, T3) . INDICATIONS ON INDUSTRIAL APPLICATIONS The invention may in particular be used as a bed accessory, for example a heating blanket, a heating mattress, or as a sleeping bag. The invention is particularly suitable for use as apparatus for medical or therapeutic treatment or for beauty care, for example in combination with the application of cosmetics.

Claims (10)

REVENDICATIONS1. A heater for heating a human body, the heater having a flexible surface, comprising: a plurality of flexible electric heaters numbered from 1 to n, where n is an integer greater than or equal to two, P (i, t ) being an electric power supplied to the electric heating element number i, averaged over a period extending from a time t minus 1 second to a time t plus 1 second, i being an integer greater than or equal to 1 and less or equal to n, and t being an instant; a control unit automatically varying P (1, t) and P (2, t) as a function of time t, two times Ti and T2 being such that T2 is greater than Ti, that P (1, Ti) is greater than or equal to 1 Watt, that P (1, Ti) is greater than P (2, Ti), that P (2, T2) is greater than or equal to 1 Watt and that P (2, T2) is greater than P (1, T2). 2. Device according to claim 1, wherein P (1, Ti) is greater than or equal to 2 P (2, Ti) and P (2, T2) is greater than or equal to 2 P (1, T2). 3. Device according to any one of the preceding claims, wherein there is a time T3 such that T3 is greater than T2, P (1, T3) is greater than or equal to 1 Watt and P (1, T3) is greater than P (2, T3). 4. Device according to claim 3, wherein P (1, T3) is greater than or equal to 2 P (2, T3). 20 5. Device according to any one of the preceding claims, wherein the sum of P (i, Ti) for i ranging from 1 to n is substantially equal to the sum of P (i, T2) for i ranging from 1 to n . 6. Device according to any one of the preceding claims, wherein for any integer j greater than or equal to 1 and less than or equal to n, P (j, t) is a periodic function of the instant t. 25 7. Device according to any one of the preceding claims, wherein the control unit is programmable. 8. Device according to any one of the preceding claims, wherein the control unit processes the information provided by at least one temperature sensor. Apparatus according to any one of the preceding claims, wherein the flexible surface is in the form of a blanket or mattress. Apparatus according to any one of the preceding claims, wherein the flexible surface is in the form of a sleeping bag.