JPH0438819Y2 - - Google Patents

Description

[Detailed explanation of the invention] (a) Purpose of the invention [Field of industrial application] This invention utilizes the latent heat during melting and solidification of a heat storage material made of wax to maintain a constant temperature range for a long time. This invention relates to a safe and convenient heat storage type heater that can retain heat.

[Prior Art] Conventionally, commonly used simple air conditioners include hot water bottles, hot water baths, hot pots, kotatsu, etc.

These heating devices include: (1) Those that generate heat while keeping warm and use that heat (a) Those that generate heat by gradually burning fuel (e.g., Anka, Kairo, Kotatsu) (b) Items that generate heat using electricity (e.g., anka, kotatsu) (2) There are heat storage type heaters (e.g., hot water bottles) that use the heat released from preheated heat storage materials.

[Problems to be solved by the invention] (1) (a) is that it is difficult to control the temperature to an appropriate temperature that can be used in direct contact with the human body, and there is a risk of burns and fires. Replenishment is troublesome,
There are also problems such as the need for oxygen supply and exhaust for combustion, which means that it cannot be used in a closed space.
It's not convenient. There are also disposable body warmers that do not require refueling, but these are not desirable from the standpoint of resource conservation and garbage disposal.

Type (b) is easy to control temperature, does not require the trouble of replenishing fuel, and does not require supply or exhaust, but it is always connected to the power cord during use, which limits the location and purpose of use, and it is susceptible to electric shock.・There is a risk of fire and a lack of convenience.

In this way, (1) has various problems.

Among (2), conventionally used hot water bottles use water as a heat storage material; high-temperature water heated to around 100°C is stored and sealed in a hollow metal or plastic container, and this high-temperature water is exposed. Because it uses heat, there is a risk of burns due to contact with the heat source, high-temperature water, or exposed hot water bottles during handling, or leakage of high-temperature water during use. The temperature ranges from 100℃ to the ambient temperature, which means that the proportion of time at the appropriate temperature is small. Furthermore, if the hollow container is made of metal, corrosion due to water will shorten the life of the hollow container and increase the risk of leakage, and if the hollow container is made of plastic, it cannot be exposed to direct fire. , other tools such as a kettle are required, and high-temperature water must be injected from the kettle etc. into a hollow container, and this injection operation is troublesome and may cause the high-temperature water to spill or cause burns, etc. There is a problem.

This idea was created in view of the above circumstances, and it does not require any operations that could cause burns due to contact with a high-temperature heat source or high-temperature water, and there is a risk of burns even if the human body comes into direct contact with the body. It can be controlled to a temperature range with little temperature, and the proportion of heat retention time in the suitable temperature range is large. There is no need for troublesome operations such as replenishing fuel or injecting high-temperature water. There is no need for air supply or exhaust, and it can be used in a closed space. There is no need to connect the power cord during use, so there is no need to worry about electric shock or fire.
The purpose of this project is to provide a heat storage type heating device that can be used easily and safely without any restrictions on the location or application, the hollow container is not corroded by the heat storage material, is lightweight, and does not waste resources. There is.

(b) Structure of the invention [Means for solving the problem] In response to this purpose, the heat storage type heater of this invention forms a fluid-tight internal space and has a skeleton that protrudes into the internal space. a hollow container having rigidity and rigidity; a heat storage material housed in the hollow container; a heater capable of heating; a seal portion formed between the lead portion and the wall of the hollow container;
a socket fixed to the hollow container and electrically connected to the lead part, the heat storage material mainly containing wax, and the maximum temperature T ₁ set for the heater is equal to the melting point of the heat storage material. It is characterized by being higher than T ₀ .

The details of this invention will be explained below with reference to the drawings showing one embodiment.

In FIGS. 1 and 2, reference numeral 1 denotes a heat storage type air conditioner. The heat storage type heater 1 includes a hollow container 2.

The hollow container 2 is a flat hollow container that is made of metal or plastic and has a container shell 10 that is approximately elliptical in plan view, and has a front wall 7 and a rear wall 8 at both ends on its long axis. It has a hole 3 penetrating the inner and outer surfaces of 8. A seal portion 9 is provided within the hole 3.

A skeleton 4 protrudes from the inner surface of the hollow container 2,
Even if a load is applied to the hollow container 2 during use, the hollow container 2 is prevented from being damaged. In addition, the rear wall 8
A skeleton 5 also protrudes from behind.

A heater 11 is housed and attached to the interior 20 of the container shell 10.

The heater 11 includes a flat heat generating part 12 that can be stored inside 20 and a rear wall 8 connected to one end of the heat generating part 12.
The lead part 13 penetrates through the seal part 9 which can be fluid-tightly sealed, and the tip reaches the rear of the rear wall 8. A socket 14 is provided at the tip of the lead part 13. The socket 14 is held at the tip of the skeleton 5. By connecting the plug 21 of the power cord 17 to this socket 14, the heat generating part 1
2 is configured to generate heat. Although it is possible to use a normal plug 21, a magnetic type plug is preferred because it is easy to remove. The heat generating part 12 is supported at both ends in the longitudinal direction by a plurality of support plates 15 and 16, respectively, and is held apart from the container shell 10 of the hollow container 2.
5 and 16 are vertical plate-like bodies formed integrally with the walls 7 and 8, respectively, which project inwardly from the interior 20 and parallel to the long axis, and are formed at the center in the height direction. Both ends 12a and 12b of the heat generating part 12 are held in a state where they are engaged with the U-shaped notches 15a and 16a, respectively.

The heater 11 is heated to a preset temperature T ₁
It is possible to control the temperature so as not to exceed the limit.

Although a normal heater can be used as such a heater 11, PTC (positive
heater with temperature coefficient) characteristics,
In other words, a heater (hereinafter referred to as a PTC heater) is constructed so that the temperature does not rise above a certain temperature and is maintained at a constant temperature _T1 using a heating element that has the characteristic that the electrical resistance increases significantly when the temperature exceeds a certain temperature. , which is preferable from a safety point of view. As an indicator of PTC characteristics,
There is a valence-controlled semiconductor ceramic made of barium titanate (BaTiO ₃ ). This is above the Curie temperature at which crystals migrate from the ferroelectric phase to the paraelectric phase,
This indicates a phenomenon that significantly increases electrical resistance.
It can be obtained by adding a small amount of valence compensating ions such as Mn, slowing the cooling rate after ceramic sintering sufficiently, and making the cooling atmosphere oxidizing. Other materials exhibiting PTC characteristics include those in which graphite is uniformly dispersed in an organic polymer compound. The PTC heater is a heater that takes advantage of this characteristic.It increases the electrical resistance significantly above a certain temperature, controls the current, does not allow the temperature to rise above a certain temperature, does not require a special temperature controller, and is easy to configure. It is an extremely safe heater. As the heater 11, an ordinary electric heater equipped with a bimetallic constant temperature regulator can also be used.

T ₁ is approximately 30℃ to 150℃ for normal use,
In particular, it is preferable to set the temperature to about 40° C. to 70° C., but it may be set to a temperature range other than that, and a temperature lower than the body temperature of an ordinary person may be required for special rescue and rescue purposes.

A heat storage material 18 is sealed in the remaining space of the heater 11 inside the interior 20. The main component of the heat storage material 18 is wax having a melting point T ₀ lower than T ₁ .

However, in the present invention, "waxes" are preferably organic substances that are solid or semi-solid at room temperature and melt in a temperature range from room temperature to around 150°C.

Such waxes include petroleum waxes such as paraffin wax, esters of monohydric or polyhydric alcohols and fatty acids (for example, monohydric alcohol fatty acid esters such as octadecyl stearate, glycerin-monoester Glycerin fatty acid esters such as Alert, sorbitan fatty acid esters such as sorbitan monostearate, propylene glycol fatty acid esters such as propylene glycol monopalmitate, ethylene glycol fatty acid esters such as ethylene glycol monostearate, polyoxy Polyoxyethylene fatty acid esters such as ethylene-monostearate), molecular weight approx.
Polyolefin waxes such as polyethylene oxide and polypropylene oxide having a molecular weight of 1,000 or more, preferably 3,000 or more, polyethylene polymers with a low degree of polymerization, etc. can be used, and natural waxes of animal/vegetable or mineral origin can also be used.

A heat insulating material 22 made of fiber and having a good texture is attached to the outer surface of the hollow container 2.

[Function] In the heat storage type heating unit 1 configured as described above, when the power cord 17 is connected to the socket 14 with the plug 21, the heat generating part 1 of the heater 11
2 generates heat. When the temperature of the heat generating portion 12 rises to T ₀ , the heat storage material 18 melts and becomes liquid. At this time, the heat storage material 18 absorbs latent heat, and a state occurs in which the temperature does not increase even when heated, and the added heat is used to change the heat storage material 18 from a solid phase to a liquid phase.

When all of the heat storage material 18 changes to a liquid phase, the heat storage material 18
When the temperature rises again and reaches the set temperature _T1 of the heater 11, the heater 11 no longer heats up.
The temperature is kept at T ₁ .

If the power cord 17 is disconnected in this state, it can be used as a portable air conditioner.

In other words, the heat storage type air conditioner 1 that has been heated to temperature T ₁ can be heated relatively quickly by sensible heat until the temperature drops from T ₁ to around T ₀ , and then the temperature rises to T ₀ .
In the vicinity, latent heat continues to be released while changing from a liquid phase to a solid phase, and during this period, the temperature of the heat storage material 18 does not decrease and is maintained at around T ₀ , allowing an appropriate heating for a long time.

When all of the heat storage material 18 changes to the solid phase, the temperature of the heat storage material 18 decreases from T ₀ again.

By connecting the power cord 17, the heat storage material 18 is heated again and can be used repeatedly.

(c) Effects of the invention The heat storage type heating device 1 of this invention does not require refueling, and the heat storage material 18 is stored inside the hollow container 2.
0, so there is no need for injection, and when heating, just connect the power cord 17 and there is no direct contact with the heat storage material 18, so handling is easy and safe. Since it can be removed, there are no restrictions on where it can be used, and there is no need to worry about electric shock or fire, and there is no need for supply or exhaust, making it easy to use.

The most important point is that when heating the heat storage material 18, the upper limit temperature T ₁ can be set to a temperature with little risk of burns (for example, 60°C) depending on the application, so it is extremely safe and safe for infants.・Can be used safely for the elderly, sick people, distress relief, etc. without worrying about burns.
In addition, the melting point of the waxes that make up the heat storage material can be set to the temperature range T ₀ that is suitable for heating (for example, 50℃ to 52℃, using paraffin wax), so by using the latent heat, it can be used for long periods of time. A suitable temperature room is possible.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing a heat storage type heater according to an embodiment of the invention, and is an explanatory plan view showing a hollow container, a heat insulating material, and a power connection part partially cut away, and FIG. FIG. 1 is a cross-sectional explanatory diagram of the − part in FIG. 1; 1... Heat storage type warmer, 2... Hollow container, 3
...hole, 4...skeleton, 5...skeleton, 7,8...
Wall, 9... Seal part, 10... Container shell, 11...
Heater, 12... Heat generating part, 13... Lead part,
14...Socket, 15, 16...Support plate, 15
a, 16a...notch, 17...power cord, 1
8...Heat storage material, 22...Heat insulation material.

Claims (1)

[Claims for Utility Model Registration] (1) A rigid hollow container that forms a fluid-tight internal space and has a skeleton that projects into the internal space, and a heat storage housed within the hollow container. a heater that is disposed within the hollow container with a lead portion penetrating the wall of the hollow container and capable of heating the heat storage material; and a heater formed between the lead portion and the wall of the hollow container. a seal portion fixed to the hollow container and electrically connected to the lead portion, the heat storage material is mainly composed of wax, and the maximum temperature T ₁ of the heater is set to the A heat storage type heating device characterized by a heat storage material having a melting point T ₀ higher than that of the heat storage material. (2) The heat storage type heater according to claim 1, wherein the heater is a PTC heater.