JPH037520A - Thermal evaporator - Google Patents

Abstract

PURPOSE:To homogenize heating conditions for a liquid sucking wick and improve evaporation of a liquid by setting a dimension of a heating mechanism for heating the liquid sucking wick for evaporating a chemical in a bottle using a specific construction. CONSTITUTION:A thermal evaporator (body 1), provided with a heating mechanism 8 having a trail cut part and bottle mounting part 4 and capable of evaporating a liquid in a bottle 3 by heating a wick 14 of the bottle 3 mounted on the bottle mounting part 4 with the heating mechanism 8. The aforementioned evaporator is constructed so as to provide substantially a large dimension (m) of the heating mechanism 8 in the wick direction of the bottle 3 on the side (8a) of the above-mentioned trail cut part. Since the heating mechanism is constructed in the large dimension on the side of the trail cut part, the evaporator is provided as if heating of the part deficient in the heating mechanism on the side of the trail cut part is supplemented.

Description

[Detailed description of the invention] [Industrial application field]

TECHNICAL FIELD The present invention relates to a heating evaporation device that heats and evaporates chemical liquids such as fragrances and insecticides.

['Background of the invention]

As a heating evaporation device for heating and evaporating chemical solutions such as fragrances and insecticides, a bottle is placed on the bottom lid, and the main body is a cylindrical body with a lid and no bottom, as described in Utility Model Application Publication No. 58-456 FuO, for example. Or, as described in Japanese Utility Model Publication No. 44-8361, a bottle is inserted from the bottomless side of a cylindrical body with a lid and a bottom, and the mouth of the bottle is inserted into the body from the bottomless side. There are some that are screwed into the main body. However, in the heating evaporation device described in Japanese Utility Model Application Publication No. 58-45670, the liquid absorbent wick cannot be accurately fixed to the heating element. However, there are problems such as poor evaporation of the chemical solution. In addition, in the heating evaporation device described in Japanese Utility Model Publication No. 44-8361, when the upper part of the core enters the interior, the insertion part becomes difficult to see, and the upper part of the core often hits the inner wall, making it easy to break.
There are problems in that good transpiration cannot be obtained and furthermore, it is difficult to attach the bottle. Therefore, in order to solve these problems, in a heating evaporation device that evaporates the absorbed chemical liquid by heating a liquid absorbing wick that is partially immersed in the chemical liquid in the bottle, the bottle is attached to the main body of the device. A bottle insertion section that can be inserted and removed from the horizontal direction is provided, a heating element is provided on the upper side of the bottle insertion section, and the liquid absorption core of the bottle is inserted into and removed from the heating element from the approximately horizontal direction. A device comprising a wick insertion part has been proposed (Japanese Utility Model Publication No. 63-84240), and this allows a bottle equipped with a liquid-absorbing wick to be inserted into and removed from the main body of the device from a substantially horizontal direction. It is easy to use, and when setting the bottle, the liquid absorbent wick does not interfere with the heating element or the main body of the device, which prevents damage to the liquid absorbent wick.Furthermore, the bottle can be easily protected against heating elements, etc. It is said that it can be kept in the set state. And, although this item is excellent in its own way, it has a 1,000-sided U-shaped liquid absorbent wick insertion part formed on the heating element that allows the liquid absorbent wick of the bottle to be inserted and removed from the horizontal direction. There is a problem that the temperature is relatively low at the tip of the thousand-sided U-shaped tip (U-shaped opening), making it difficult for the liquid-absorbing core to be heated evenly from the surroundings, making it difficult to obtain good transpiration. It has come to light.

[Disclosure of the invention]

An object of the present invention is to provide a heating evaporation device that can heat a liquid absorbent core well and evaporate liquid well. The object of the present invention is to provide a heating mechanism having a cutout portion and a bottle mounting portion, and to heat the core of the bottle mounted on the bottle mounting portion with the heating mechanism to cool the liquid in the bottle. This is achieved by a heating evaporation device for transpiration, characterized in that one dimension of the heating mechanism in the direction of the core of the bottle is configured to be substantially larger on the crossing portion side. In addition, the heating evaporation device of the present invention is particularly provided with a bottle mounting section that allows the bowl to be taken in and out in a direction crossing the core provided on the bottle, and a bottle mounting section that is mounted on the bottle mounting section. Heating 81 that can heat the core of the bottle
A barrel is provided, and the heating mechanism is provided with an opening in the direction of bottle mounting movement so that the core can be located within the heating 81 when the bottle is mounted on the bottle mounting section, and the heating mechanism is provided with an opening in the direction of bottle mounting movement, so that the core provided on the bottle can be positioned within the heating 81. The heating evaporation device evaporates the liquid in the bottle by heating with a heating mechanism, and the heating evaporation device is of a type in which the size of the heating mechanism in the direction of the core of the bottle is substantially larger on the opening side. Bottles equipped with this can be taken in and out of the device body, for example, from the horizontal direction, which has excellent workability, and the core is less likely to be damaged when setting the bottle.Furthermore, the heating mechanism does not have a core. There is an opening for the entrance of the gas, and although the heating rate is lower in that area, it is as if it compensates for the lack of a heating mechanism on the opening side, and the difference in temperature distribution is reduced accordingly. , the core is heated almost uniformly from its periphery, and the heating to the core is excellent, resulting in good evaporation of the liquid.

【Example】

Figures 1 to 4 show one embodiment of the heating evaporation device according to the present invention, in which Figure 1 is a plan view, Figure 2 is a side view, and Figure 3 is a side view.
The figure is a front view with the lid open, and FIG. 4 is a schematic perspective view of the main parts. In each figure, reference numeral 1 denotes a main body of the heating evaporation device, and a bottle insertion portion 4 consisting of a recessed portion conforming to the shape of a bottle 3 is formed in the front face portion 2 of the device main body 1. Ceiling part 5 of the device main body 1 above this bottle insertion part 4
protrudes forward and forms a semicircular eaves portion 6. A transpiration hole 7 located directly above the bottle insertion part 4 is formed in the ceiling part 5. A heating body 8 made of a material with excellent thermal conductivity is provided on the upper side of the bottle insertion part 4 so as to protrude forward. In a plan view viewed from above, the heating body 8 has a substantially U-shape having, for example, an opening 8a, and this U-shaped groove portion constitutes a liquid-absorbing wick insertion portion 9. still,
Heating of the heating element 8 is carried out, for example, by energizing a positive temperature coefficient thermistor element connected to the heating element 8 via a power cord 10. In particular, the heating body 8 is formed so that its thickness on the opening 8a side gradually increases. On the upper side of the front face 2 of the device main body 1, there is a front field 11 whose left side edge is attached to the device main body 1 by a hinge member.
is provided to prevent the bottle 3 from coming off from the bottle insertion part 4 when the front field 11 is closed. A latch part 12 is provided on the right side edge of the front field 11, and when the front field 11 is closed, the latch part 12 is inserted into the latch hole 13 of the front face part 2 of the main body 1 of the device. It is now stopped and locked. The bottle 3 contains, for example, an insecticidal liquid for the purpose of killing insects,
A transpiration chemical solution such as an aromatic liquid for aroma purposes is placed in the bottle, and a liquid absorbing wick 14 for evaporating the medicinal solution projects upward from the mouth portion 3a of the bottle. Next, the operation of the heating evaporation device configured as described above will be explained. Insert the bottle 3 into the bottle insertion part 4 of the device main body 1. In this case, first, open the front field 11 and open the liquid absorbent core 1 of the bottle 3.
The bottle 3 is inserted horizontally so that the liquid absorbent wick insertion portion 9 of the heating element 8 is located at the liquid absorbing wick insertion portion 9 of the heating element 8. Therefore, since the bottle 3 equipped with the liquid absorbent wick 14 can be taken in and out of the device main body 1 in a substantially horizontal direction, it is easy to attach (and remove) the bottle 3, and when the bottle is set, the liquid absorbent wick 14 is 8 and the device main body 1,
Damage to the liquid absorbent core 14 is prevented. Further, when inserting the bottle 3 into the bottle insertion part 4 of the device main body 1, there is no need to tilt or rotate the bottle 3.
Therefore, the medicinal solution in the bottle 3 will not be spilled. Next, the front field 11 is closed. In this state, when the positive temperature coefficient thermistor element is energized to heat the heating body 8, the liquid absorption core 14 is thereby heated, and the evaporated liquid is evaporated and released into the atmosphere from the evaporation hole 7. During this heating and evaporation, the liquid absorbent core 14 is heated almost uniformly from its surroundings. That is, since the heating body 8 is provided with an opening 8a through which the liquid absorbent wick 14 enters, there is no heating body on this side of the opening 8a, so although the heating rate is small accordingly, the opening 8a Since the thickness of the heating element 8 on the side is made thicker than that on the inner part (non-opening part) 8b side, it is as if it compensates for the absence of the heating element on the opening part 8a side, and the temperature distribution changes accordingly. As a result, the liquid absorbent core 14 is heated almost uniformly from its surroundings. It should be noted that, rather than relying on the thickness of the heating element 8, increasing the width on the opening 8a side can compensate for the absence of the heating element on the opening 8a side. In this case, the opening size of the opening 8a becomes narrower, and the bottle 3
This not only makes the insertion work difficult, but also increases the risk of liquid absorption and damage to the core 14 during insertion. Moreover, if it is expanded outward, the heating effect is that much worse, and therefore the opening 8
Regardless of whether the width dimension on the a side is increased inward or outward, such a technique is inferior to the present invention.

【effect】

The heating evaporation device according to the present invention is provided with a heating mechanism having a crossing section and a bottle mounting section, and the heating mechanism heats the core of the bottle mounted on the bottle mounting section to cool the liquid in the bottle. A heating evaporation device for transpiration,
Since the size of the heating mechanism in the direction of the core of the bottle on the railroad crossing side is configured to be substantially large, the bottle equipped with the core can be taken in and out of the main body of the device from, for example, the horizontal direction, resulting in excellent workability. , and although the heating rate at the level crossing part where the heating mechanism is provided is smaller, the heating mechanism on the level crossing side is made larger, so it seems as if it compensates for the lack of a heating mechanism on the level crossing side. This reduces the difference in temperature distribution, allowing the core to be heated almost uniformly from its surroundings, providing excellent heating to the core and good evaporation of the liquid.

[Brief explanation of drawings]

Figures 1 to 4 show one embodiment of the heating evaporation device according to the present invention, in which Figure 1 is a plan view, Figure 2 is a side view, and Figure 3 is a side view.
The figure is a front view with the lid open, and FIG. 4 is a schematic perspective view of the main parts. DESCRIPTION OF SYMBOLS 1... Apparatus body, 3... Bottle, 4... Bottle insertion part, 8... Heating body, 8a... Opening part, 9... Liquid absorption wick insertion part, 11... Front Part world, 14...Liquid absorption core.

Claims (2)

[Claims] (1) A heating transpiration device that is provided with a heating mechanism having a cutout part and a bottle mounting part, and evaporates the liquid in the bottle by heating the core of the bottle mounted on the bottle mounting part with the heating mechanism. A heating evaporation device characterized in that the size of the heating mechanism in the direction of the core of the bottle is substantially larger on the side of the cut portion. (2) In the heating evaporation device according to claim 1, a bottle mounting part is provided that allows the bottle to be taken in and taken out in a direction crossing a core provided on the bottle, and the bottle mounting part is mounted on the bottle mounting part. A heating mechanism is provided that can heat the core of the bottle, and the heating mechanism is further provided with an opening in the bottle mounting movement direction so that the core can be positioned within the heating mechanism when the bottle is mounted on the bottle mounting section. , a heating evaporation device that evaporates the liquid in the bottle by heating a core provided in the bottle with a heating mechanism, the heating mechanism having a substantially larger dimension in the direction of the core of the bottle on the opening side. .