JPH0789967B2 - Steam generator - Google Patents

Description

Detailed Description of the Invention 【Technical field】

The present invention relates to a steam generator used for a steam-type hair curl device or the like, and more particularly to a steam generator capable of switching generation and stop of steam.

BACKGROUND ART An example of a steam generator for a steam type hair curl device disclosed in Japanese Utility Model Publication No. 55-2886 is shown in FIGS. 7 and 8. In this, a heating member 1 having a heating element 10 made of nichrome wire is housed in a pipe 3 around which hair can be wound around the outer circumference, and a water absorbing body 20 such as felt is stored as a heat storage portion 11 at the tip of the heating member 1. By arranging the liquid supply member 2 provided on one surface facing each other slidably in the pipe 3 and pushing the liquid supply member 2 against the spring 30 to bring the water absorber 20 into contact with the heat storage unit 11, the water absorber The water contained in 20 is heated to form steam. In this device, the heat switch 5 is installed in the vicinity of the heating element 10 to control the operation of the heating element 10 to prevent the heating element 10 from overheating. The temperature of the heating element 10 is detected by, for example, 11
Since it operates so as to maintain the temperature within the range of 0 ° C to 150 ° C, it is located away from the heat storage part 11 which is a contact part of the heating member 1 with the water absorbing body 20, and therefore generates heat. Thermo switch 5 when the temperature of body 10 is in equilibrium
When the switch is off, even if the water absorber 20 is brought into contact with the heat storage unit 11 to generate steam, that is, even if the temperature of the heat storage unit 11 is lowered, the thermoswitch 5 can immediately detect this. could not. Due to the temperature change of the heat storage unit 11, especially the rapid temperature decrease of the heat storage unit 11 when steam is generated, the energization control to the heating element 10 has been delayed considerably as shown in FIG. For this reason, when a small amount of steam is intermittently generated, it does not cause a problem so much, but when it is tried to generate steam constantly and continuously, it has a drawback that no steam is generated. As shown in Japanese Utility Model Publication No. 55-24962, a heating element such as a positive temperature coefficient thermistor that controls its own temperature is used.
There is also one used as 10, but in this case, when the size is limited, it is not possible to use the heating element 10 having a large calorific value, and a large amount of steam cannot be obtained.

[Object of the Invention]

The present invention has been made in view of such a point, and its object is to generate a large amount of steam continuously without causing overheating of the heating element, and to provide a large-capacity heating element. Even if there is, the control of the heating element is easy, and it is to provide a steam generator that can more reliably keep the temperature of the steam constant.

DISCLOSURE OF THE INVENTION

Therefore, the present invention is a steam generator comprising a heating member provided with a heating element and a liquid supply member, and the liquid supply member is provided on the tip side of a pipe having bristle protruding on the outer peripheral surface. , A heating member is housed in the pipe, and the heating member includes a water absorbing body to which the liquid is supplied from the liquid supplying member, a heat storage unit in contact with the water absorbing unit, and a heat generating body for heating the heat storage unit. In addition to arranging in this order from the base end to the base end, a temperature sensor for controlling the heating element is arranged near the contact portion between the water absorber and the heat storage section and at a position away from the heating element. It is characterized in that the heating element is not controlled by detecting the temperature of the heating element, but is controlled based on the temperature at the contact portion with the liquid. The present invention will be described in detail below with reference to an embodiment of a hair curl device as shown in FIG. A grip B provided with a blower (not shown) for sending hot air or cold air and a power switch 9, and a power cord 90 is pulled out, and a tubular shape detachably attached to the tip of the grip B. The hair-rolling cylinder A in this hair curling device composed of the hair-rolling cylinder A of FIG. 1 has a cylindrical pipe 3 having a large number of small holes 31 for jetting steam, as shown in FIGS. 1 and 2.
The bristles 32 mounted on the outer surface of the pipe 3, the heating member 1 housed in the pipe 3, and the liquid supply member 2 detachably attached to the tip of the pipe 3. As shown in FIGS. 1 and 2, the heating member 1 here has a heater pipe 12 in which a plurality of ribs 16 contacting the inner surface of the pipe 3 are projected from the outer peripheral surface, and the heater pipe 12.
A heat storage portion 11 mounted at the tip of the heating pipe, and a heating element 10 made of a ceramic heater disposed in the central portion of the heater pipe 12 via heat transfer materials 14 and 14. The heat transfer materials 14 and 14 are pressed into the heater pipe 12 in a sandwiched form. Inside the heat storage portion 11 protruding from the tip of the heater pipe 12, as shown in FIG. 4, a temperature consisting of a positive temperature coefficient thermistor for controlling the operation of the heating element 10 by phase control using a switching element S is provided. A sensor 13 is attached. This attachment has an electrically insulating property, and an elastic body 15 that is a good conductor of heat makes the temperature sensor 13
It is carried out by press-fitting it inside the heat storage unit 11 in a state in which it is wrapped. A gap serving as a heat insulating space is provided between the temperature sensor 13 and the heating element 10. The liquid supply member 2 is formed as a tank and is slidably and detachably arranged at the tip of the pipe 3, and the water absorber 20 is provided on one surface of the heating member 1 facing the tip of the heat storage section 11. And a spring 30 between it and the heating element 1.
Is provided. However, in this steam generating device, as shown in FIG. 1, the heating element 10 is provided at a position near the contact portion of the heating member 1 with the liquid supplied from the liquid supply member 2 and away from the heating element 10. By arranging the temperature sensor 13 for control, the temperature sensor 13 does not control the heating element 10 based on the temperature of the heating element 10 in the heating member 1, but adjusts the temperature of the contact portion with the liquid in the heating member 1. Based on this, the heating element 10 is controlled based on this, so that the temperature sensor 13 can immediately detect the temperature change of the generated steam,
Since the temperature control of 10 is performed quickly, overheating of the heating element 10 can be reliably prevented, and steam at a constant temperature can be constantly and continuously generated. Moreover, the temperature sensor 13
Is located away from the heating element 10, the temperature sensor 13
Is not disturbed by the temperature of the heating element 10, and even if the heating element 10 has a large capacity, the heating element 10 can be easily controlled, and the constant steam temperature can be made more reliable. . That is, immediately after the power is turned on, as shown in FIG. 5, if the output of the heating element 10 is, for example, 50 W, and the temperature of the heat storage unit 11 rises to a predetermined value such as 140 ° C. Phase control of energization to the heating element 10 is performed so that the heating element 10 operates at an output necessary to maintain the temperature, for example, 5 W. If steam is generated by pushing the liquid supply member 2 and bringing the water absorber 20 into contact with the heat storage unit 11, a rapid temperature decrease of the heat storage unit 11 accompanying this will cause the heat storage unit to reach 105 ° C., for example. If the temperature of 11 drops, the temperature sensor 13 will detect this quickly and
The 10 is operated again at 50 W, and the temperature decrease due to steam generation is compensated by the heat from the heating element 10. If the pushing operation of the liquid supply member 2 is stopped and the water absorber 20 is separated from the heat storage unit 11 by the urging of the spring 30, the generation of steam is stopped.
The temperature sensor 13 controls the heating element 10 to have a low output. Particularly in the example shown in this embodiment, the temperature sensor 13 and the heating element
Since there is a gap as an adiabatic space between the temperature sensor 13 and 10, the temperature sensor 13 operates without fail to be detected by the temperature of the heating element 10 and reliably detects the temperature of the heat storage unit 11. The temperature of the heat storage unit 11 is made more stable. Of course, since the heat storage unit 11 is overheated by the heating element 10, the temperature sensor 13 and the heating element 10 are thermally connected, and therefore the temperature sensor 13 is an element that prevents overheating of the heating element 10. There is no difference.

As described above, according to the present invention, in the steam generating device including the heating member provided with the heating element and the liquid supply member, the liquid is provided on the tip side of the pipe having the bristle protruding from the outer peripheral surface. A supply member is provided and a heating member is housed in the pipe. The heating member heats the water absorber to which the liquid is supplied from the liquid supply member, the heat storage unit in contact with the water absorber, and the heat storage unit. The heat generating element is arranged in this order from the tip to the base end of the pipe, and the temperature for controlling the heat generating element is provided at a position near the contact portion between the water absorbing body and the heat storage section and away from the heat generating element. Since the sensor is arranged, the temperature sensor arranged near the contact portion between the water absorbing body and the heat generating body does not control the heat generating body based on the temperature of the heat generating body, but contacts the water absorbing body and the heat storage section. Controlling the heating element based on the temperature of the part Therefore, for example, even if the temperature of the contact portion between the water absorber and the heat storage portion suddenly drops, the temperature sensor detects this rapidly and activates the heating element rapidly, so there is no concern that steam will not come out, and When the heating element is overheated, the temperature sensor can detect it and control it so that the heating element has a low output, while at the time of proper heating of the heating element, the temperature sensor stores heat without being disturbed by the temperature of the heating element. It can be operated as a device that accurately detects the temperature of the part, and can sufficiently cope with the generation of continuous steam.

[Brief description of drawings]

1 is a longitudinal sectional view of an embodiment of the present invention, FIG. 2 is an exploded perspective view of the same, FIG. 3 is a perspective view of the same, FIG. 4 is a circuit diagram of the same, and FIG. FIG. 6 is a time chart showing the operation of the conventional example, FIG. 7 is a vertical sectional view of the same as above, and FIG. 8 is a perspective view of the same as above, where 1 is a heating member, 2 is a liquid supply member, 10 is a heating element, 11 is a heat storage unit, and 13 is a temperature sensor.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-54-34958 (JP, A) JP-A-60-75006 (JP, A) Actual development Sho-59-31303 (JP, U) JP-B-53- 24855 (JP, B2) Actual public 55-24962 (JP, Y2) Actual public 55-2886 (JP, Y2)

Claims (5)

[Claims] 1. A steam generator comprising a heating member provided with a heating element and a liquid supply member, wherein the liquid supply member is disposed on the tip side of a pipe having bristle protruding on the outer peripheral surface thereof. A heating member is housed in the pipe, and the heating member includes a water absorbing body to which the liquid is supplied from the liquid supplying member, a heat storage unit in contact with the water absorbing unit, and a heat generating body for heating the heat storage unit from the tip of the pipe. The temperature sensor for controlling the heating element is arranged in this order toward the base end, and in the vicinity of the contact portion between the water absorbing body and the heat storage section and at a position away from the heating element. Steam generator. 2. The steam generator according to claim 1, wherein the temperature sensor is a positive temperature coefficient thermistor. 3. The steam generator according to claim 1, wherein a gap is provided between the heating element of the heating member and the temperature sensor. 4. The steam generator according to claim 1, wherein the temperature sensor is attached to the heating member by an elastic body which is a good conductor of heat and has electrical insulation. 5. The steam generator according to claim 1, wherein the control of the heating element based on the output of the temperature sensor is phase control.