JPH081590Y2 - Heating sheet - Google Patents

Description

[Detailed description of the device]

[0001]

[Industrial application] The present invention is mainly applied to electric carpets,
The present invention relates to a heating sheet body such as an electric blanket.

[0002]

2. Description of the Related Art Conventionally, a heat-sensitive sensor used to control the temperature of a cord heater provided in an electric carpet, an electric blanket or the like by controlling a current value flowing in the cord heater is There is a structure in which the heating wire is covered with an organic heat sensitive material such as nylon whose electric insulation resistance value changes sequentially depending on the temperature, and the outer peripheral surface of the organic heat sensitive material is wound with a bare copper wire or the like. It is used appropriately.

That is, the heat-sensitive sensor having the above structure is
As the temperature of the heating wire in the cord heater rises, the electrical insulation resistance value of the organic heat-sensitive material covering the heating wire decreases, and the electrical insulation resistance value of the organic heat-sensitive material decreases, whereby the bare copper The temperature of the code heater can be detected by utilizing the characteristic that a signal current constantly flowing through a wire or the like flows into the organic heat sensitive material as a leakage current.

[0004]

However, the above-mentioned conventional heat-sensitive sensor has the following problems.

That is, the organic heat-sensitive material used for the heat-sensitive sensor used in the above-mentioned conventional electric carpets, electric blankets, etc. must be excellent in heat resistance characteristics from the use of the product to be used . it's, that nylon is present is mainly used as the organic heat-sensitive material to be had through regular
Of, the nylon is extremely high water absorption and water absorption, therefore if the organic heat-sensitive material made of the nylon used in AC circuits such as the electric carpet and an electric blanket, the impedance of the organic sensitive material not stable.

Therefore , even when the temperature of the cord heater is controlled through the heat sensitive sensor in which the impedance of the organic heat sensitive material is not stable, an error always occurs between the set temperature and the actual temperature of the cord heater, and thus the above that it do and a problem that can not be accurate temperature control of in electric carpet and heating products, such as electric blankets provided with the thermal sensor having the structure occurs.

Therefore, a technique for solving the above problems and
JP-A-59-165393 and JP-A-58-217022
Some are in the press .

That is, the one described in the former publication is a heating wire.
The first temperature sensing electrode is wound around the first temperature sensor.
And a temperature sensitive heater covered with insulating vinyl, and a second
The third temperature sensor in which the temperature detection wire of
The temperature detection electrode and the second temperature detection line.
Connect each of the temperature detection wires covered with insulating vinyl with an electric cable.
-Fixed on the sheet body of heating products such as pets and electric blankets
And the above-mentioned latter component.
The ones listed in the report are the first and second temperature detectors for the heater thermosensitive material.
The output electrodes are arranged separately from each other.
Of .

Therefore, in both the former and latter cases,
However, the impedance characteristic of the organic heat sensitive material is
It changes depending on the moisture absorption phenomenon of the heat material, and as a result
It is possible to prevent the temperature from becoming uncontrollable,
No, usually heating lines are electric carpets and blankets
For example, at regular intervals in the body of the sheet used for
Since they are densely arranged in a fixed arrangement pattern,
In the former case, be sure to arrange in the specified arrangement pattern.
Temperature detection line with the same arrangement pattern along the temperature sensitive heater
Must be installed, and each wire must be
Since it is covered with a sheet,
Not only does it add weight and is extremely difficult to carry.
And the production efficiency is extremely poor, and the product cost is soaring.
In the latter case above, the temperature
Do not arrange the detection electrodes alternately according to the specified wiring pattern.
Since it must be done, sheet body book like the former
Increased body weight, inefficient production, and thus product cost
And so many very serious problems
Was there .

Therefore, the present invention solves all of the above-mentioned various problems. Even when the impedance of the organic heat-sensitive material used for the code heater is not stable due to the moisture absorption phenomenon, it is extremely accurate and Not only can the temperature of the cord heaters arranged in a predetermined pattern on the seat body be reliably controlled to a predetermined temperature, but also the seat body
The case where the code heater is simply attached to the weight of itself
It is extremely easy to carry by keeping it at about the same level, and
Extremely high production efficiency and significantly reduced product cost
It is an object of the present invention to provide an extremely excellent heating sheet body that can be heated.

[0011]

The present invention takes the following means in order to solve the above problems.

Namely, the present invention includes a code heater 4 disposed on the seat body 2, and changeable temperature controller 3 a current value of the code heater 4, respectively different voltages through the front Symbol Code heater 4 In the code heater 4 to generate
An organic heat-sensitive material 7 covering the heating wire 6, and the organic heat-sensitive material 7
A pair of heat-sensitive wires wound around the outer peripheral surface at regular intervals
When the voltage detection circuit 10,10a and the impedance characteristics of the thermosensitive wire which is changed by the potential difference detected respective thermal line through the voltage detection circuit 10,10a to respectively detect the voltage generated by the pair of heat sensitive line and thereby calculating the rate of change of the resistance-temperature characteristic, the impedance characteristic and the resistance-temperature characteristic of the pre Me set respective thermosensitive wire, the change value of each and absolute impedance characteristics and resistance temperature characteristic of the thermal line after said change And a control circuit 3 for controlling the value of the current flowing through the code heater 4 by comparing the rate of change with the value.
In the sheet body for tufts, one is formed on the outer peripheral surface of the organic heat-sensitive material 7.
One of the heat-sensitive wires wound with a fixed interval is an organic heat-sensitive material
7 has an uncoated conductor that contacts 7
The hot wire is at the point covered by the insulator .

[0013]

In the heating sheet body having the above structure ,
Of the organic heat-sensitive material 7 that covers the heating wire 6 in the cord heater 4.
Of a pair of heat-sensitive wires wound around the outer peripheral surface at a constant interval
One has an uncoated conductor part that contacts the organic heat-sensitive material 7.
At the same time, the other is covered with an insulator, and
Each of the voltages generated by the hot wire is detected by the voltage detection circuit 10, 10
with searching individually by a, then calculates a rate of change of the impedance characteristics and the resistance-temperature characteristic of the photosensitive heat rays changed by the potential difference the respective heat sensitive line detected via the voltage detection circuit 10, 10a, pre Me Impedance characteristics and resistance temperature characteristics of each set heat sensitive wire , and the heat sensitivity after the change
The impedance value of the organic heat-sensitive material 7 is changed because the control circuit 3 sequentially controls the current value flowing through the code heater 4 by comparing the respective change values of the impedance characteristic and the resistance temperature characteristic of the wire and the change rate by the absolute value. Changed place
Even if it is the case, the temperature of the cord heater 4 can be controlled while sequentially correcting the preset temperature .
Only Not code heater the weight of the sheet body Body itself
By holding at about the same level as when just installing
It is extremely easy to carry and has extremely high production efficiency.
Product cost can also be significantly reduced .

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

In FIG. 1, reference numeral 1 is an internal circuit diagram of the heating sheet body.

Reference numeral 2 denotes a sheet body having a code heater 4 arranged therein.

In the cord heater 4, as shown in FIG. 2, a heating wire 6 is wound around a core material 5 made of Teflon to form a heating portion 4a, and an outer peripheral surface of the heating portion 4a is formed. Is an organic heat sensitive material 7 made of a nylon thermistor so as to cover the heat generating portion 4a, and the outer peripheral surface of the organic heat sensitive material 7 is a bare copper wire for detecting a leak current to the organic heat sensitive material 7. The heat-sensitive wire 8 composed of the above and the heat-sensitive wire 9 composed of the nickel wire having an insulating coating such as polyester are alternately wound to form two heat-sensitive parts 4b and 4c.

Reference numeral 3 denotes a control circuit in a temperature controller for adjusting the temperature of the cord heater 4 by controlling the current flowing through the cord heater 4, and the control circuit 3 includes the two heat-sensitive parts 4b and 4c. There are provided two detection circuits 10 and 10a for respectively detecting the voltage generated through the temperature setting circuit 11, a temperature setting circuit 11, and a microcomputer 12.

Various basic data such as impedance characteristics of the organic heat sensitive material 7 and resistance temperature characteristics of the heat sensitive wires 8 and 9 are stored in the microcomputer 12 as table data in advance. The change rate and the change rate of the impedance characteristic and the resistance temperature characteristic based on the absolute value are calculated and compared, and a predetermined analysis signal is issued.

Reference numeral 13 denotes a power supply circuit, which is provided in the vicinity of the microcomputer 12 so as to control the current flowing through the code heater 4 via a predetermined analysis signal issued from the microcomputer 12.

Reference numeral 14 denotes a relay for cutting off the current flowing through the cord heater 4, which is provided between the microcomputer 12 and the power supply circuit 13.

Reference numeral 15 denotes a power switch of the control circuit 3, and 16 denotes an outlet portion of the control circuit 3.

The heating sheet body according to this embodiment has the above-mentioned structure. The case of using the heating sheet body described below will be described.

First, as shown in FIG. 1, an organic heat sensitive material 7 made of a nylon thermistor is provided in the cord heater 4 arranged in the heating sheet body, and further, the organic heat sensitive material 7 is provided on the outer peripheral surface thereof. Is a heat-sensitive wire 8 made of a bare copper wire for detecting a leak current to the organic heat-sensitive material 7 and a heat-sensitive wire 9 made of a nickel wire having an insulating coating such as polyester, which are alternately wound to form two heat-sensitive materials. The parts 4b and 4c are formed.

Therefore, when the organic heat-sensitive material 7 made of the nylon thermistor absorbs moisture and the impedance of the organic heat-sensitive material 7 decreases, the voltage detected through the heat-sensitive wire 8 made of the bare copper wire also changes rapidly. Will be done.

Therefore, the rate of change in the difference between the voltage changing via the heat-sensitive wire 8 made of the bare copper wire and the voltage generated via the heat-sensitive wire 9 made of the nickel wire covered with the insulation is determined by the above-mentioned micro computer 12. Since the current value flowing through the code heater is controlled in accordance with the change in the impedance of the organic heat-sensitive material 7 by performing the analysis via the, the temperature of the code heater can be reliably controlled.

Further, one of the heat sensitive wires 8 is provided for insulation.
Is not coated, and a pair of heat sensitive wires are integrated
Alternately wound around the outer peripheral surface of the organic heat-sensitive material 7 that houses the heating wire 6
The structure of the seat body itself
The weight of the sheet body is simply provided with a cord heater
It is possible to keep it at about the same level as in the case of
Extremely easy, and the production efficiency of the sheet body is extremely high.
The cost can be maintained high and the product cost can be significantly increased.
It can be reduced .

In the above embodiment, the cord heater arranged in the seat body is made of Teflon as the core material, but the point is that the heating wire provided in the cord heater can be wound. The core material is not limited to Teflon and may be nylon or the like as long as it has predetermined heat resistance and insulation properties.

Further, in the above-mentioned embodiment, the pair of heat-sensitive wires which generate different voltages via the cord heater are connected to the organic heat-sensitive material 7 made of nylon thermistor which covers the heat-generating wires in the cord heater. It consists of two heat sensitive parts 4b and 4c in which a heat sensitive wire 8 made of a bare copper wire for detecting a leak current and a heat sensitive wire 9 made of a nickel wire having an insulating coating such as polyester are alternately wound. One heat sensitive line is organic
While having an uncoated conductor portion that contacts the heat material 7, the other
If the heat-sensitive wire is covered with an insulator, the organic heat-sensitive material
Material, impedance characteristics, type of heat-sensitive wire and winding
Specific configurations such as direction, winding interval, etc. are also not limited.
Not .

Further, in the above embodiment, the temperature controller includes a voltage detection circuit for detecting respective voltages through the pair of heat-sensitive wires, and impedance characteristics of the organic heat-sensitive material and resistance-temperature characteristics of the heat-sensitive wires in advance. The control circuit is provided with a microcomputer in which various basic data of (1) are stored as table data. The point is that the voltage is changed by the potential difference between the voltage detection circuit and the respective heat-sensitive means detected through the voltage detection circuit. A control circuit for calculating the rate of change of the impedance characteristic and the resistance temperature characteristic of the heat sensitive means is provided, and the impedance characteristic and the resistance temperature characteristic of each heat sensitive means having the control circuit set in advance and the heat sensitive means after the change are provided. The impedance values and the resistance-temperature characteristics of each of the code values are compared and the rate of change by the absolute value is compared. The basic circuit configuration of the control circuit and the specific types, characteristics, operating order, etc. of the devices used are not limited as long as the configuration controls the current value flowing through All the specific configurations of the sheet forming the body and the respective parts forming the temperature controller can be arbitrarily modified within the scope intended by the present invention.

[0031]

As described above, according to the present invention, the inside of the cord heater is arranged in the heating sheet body in a predetermined arrangement pattern .
The outer surface of the organic heat-sensitive material that covers the heating wires of
One of a pair of heat-sensitive wires wound with a
Having an uncoated conductor that contacts, the other is an insulator
Generated by each heat-sensitive wire
Search individually by the voltage detection circuit, respectively voltage, then the <br/> change in impedance characteristics and resistance-temperature characteristic of the photosensitive heat rays changed by the potential difference detected respective thermal line via a voltage detection circuit The value is calculated via the control circuit and
Impedance of each heat-sensitive wire preset by the control circuit
The code heater compares the dance characteristic and the resistance temperature characteristic with the respective change values and the absolute value of the impedance characteristic and the resistance temperature characteristic of the heat-sensitive wire after the change.
Since the flowing current value is controlled sequentially, it can be used in locations with high humidity.
The heating sheet by using the heating sheet body
Impeder of organic heat sensitive material of cord heater arranged on body
Even if the temperature changes
Ensure temperature control of the code heater while adding successive corrections
Not only can it be done instantly, but the sheet body
If the weight of the main unit itself is only provided with a cord heater,
Extremely easy to carry by keeping the same level as
Moreover, the product cost can be significantly reduced .

Therefore, it is limited to use in places with high humidity.
Not, if example embodiment, even when the local of the sheet member becomes abnormally high temperature by the placed load body to the local areas of heating the sheet member, automatically only the placed local to the load body to a set temperature It is also possible to control the value of the current flowing through the code heater in order to control it.

Further, since the pair of heat-sensitive wires used for the heating sheet body of the present invention can be provided in one cord heater, the cost is extremely low and the production efficiency is very excellent. It has come to have a special effect that a heating sheet body can be provided.

[Brief description of drawings]

FIG. 1 is an internal circuit diagram of a heating sheet body according to the present invention.

FIG. 2 is an enlarged side view of an essential part of a cord heater arranged in the heating sheet body of the present invention.

[Explanation of symbols]

 1 ... Internal circuit diagram of the heating sheet body. 2 ... Sheet body 3 ... Control circuit in temperature controller 4 ... Code heater 5 ... Core material 6 ... Heating wire 7 ... Organic heat sensitive material 8 ... Heat sensitive wire (copper wire) 9 ... Heat sensitive wire (coated nickel wire)

Claims (1)

[Scope of utility model registration request] 1. A cord heater disposed on a sheet body (2)
And (4), and changeable temperature controller the current value of the code heater (4) (3), before Symbol the code heater so as to generate different respective voltages via a cord heater (4) (4) of the Departure
An organic heat-sensitive material (7) enclosing the heat ray (6) and the organic heat-sensitive material
(7) A pair of sensations wound on the outer peripheral surface with a certain interval.
A heat ray and voltage detection circuits (10) and (10a) for detecting the voltages generated by the pair of heat sensitive wires , respectively, and the voltage detection circuit (1
0), (as well as calculating the rate of change of the impedance characteristics and the resistance-temperature characteristic of the photosensitive heat rays changed by the potential difference the respective heat sensitive line detected through 10a), and the impedance characteristic of a predetermined respective heat sensitive line A control circuit for controlling the current value flowing in the code heater (4) by comparing the resistance temperature characteristic with the respective change values and absolute values of the impedance characteristic and the resistance temperature characteristic of the heat sensitive wire after the change.
(3) and at the heating sheet body wherein the organic thermosensitive
One of the materials (7) wound on the outer peripheral surface with a constant interval
It has an uncoated conductor part where the heat-sensitive wire contacts the organic heat-sensitive material (7).
And the other heat-sensitive wire must not be covered with an insulator.
A heating sheet body characterized by the following .