JPH02253893A - Vapor generator for cleaning machine - Google Patents

Abstract

PURPOSE:To allow the efficient supply of vapor without having the need for heating a solvent in a large quantity in vain and without deteriorating the solvent by connecting a liquid tank to a supply port positioned to face a heating element and generating vapor while supplying the solvent to the heating element. CONSTITUTION:An object 4 to be cleaned is housed in a vapor cleaning chamber 5 and a top cap 17 is closed to hermetically seal the chamber 5. A heating mechanism 2 is operated to heat the heating element 1 and an introducing valve 11 is opened to supply a small volume of the solvent 7 to the element 1 from a liquid tank 8 via the supply port 6. The solvent 7 is instantaneously evaporated and the vapor thereof is usable for vapor cleaning. There is, therefore, no need for housing a large volume of the solvent 7 in a vapor generating section 3 and the supply of the solvent 7 of the volume necessary for the vapor generation to the element 1 is merely necessitated; therefore, the excess resting of the solvent 7 in the chamber 5 is obviated and the safety use is possible. The generation of a hydrolysis and pyrolysis in the solvent 7 to deteriorate the same is obviated and the heating mechanism 2 is reduced in size. The economical evaporation with less energy is executed.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a steam generator for a cleaning machine that supplies steam for steam cleaning mechanical parts, medical instruments, and other objects, and which The purpose is to use the system efficiently.

Conventional technology Conventionally, the supply of cleaning steam when steam cleaning objects to be cleaned such as mechanical parts, medical instruments, etc. has been described in Japanese Patent Laid-Open No. 56-073.
587 and JP-A-56-73540, a solvent is introduced into a sealable cleaning tank or a steam generating tank, and the entire solvent is directly or indirectly heated by a heater. The method used is to boil it and generate steam.

However, this method requires an extremely large amount of heat compared to the amount of steam generated in order to heat the entire filled solvent at once, making it extremely uneconomical and also generating steam even when steam is not used. This caused the solvent to evaporate and diffuse, causing air pollution. In addition, the amount of steam generated cannot be adjusted, and more solvent than is required to generate steam is always stored in the cleaning tank, so if the solvent undergoes hydrolysis or thermal decomposition. In addition, if deposits attached to the target object were mixed into the solvent, the deterioration of the solvent would be accelerated, making a large amount of the solvent unusable.

In addition, this solvent that supplies cleaning vapor includes Freon 113,
Trichlorethylene, isopropyl alcohol, etc. are also used in large quantities, but these solvents are highly flammable and contain pollutants that destroy the environment, so they should not be stored directly in cleaning tanks and left for long periods of time. In the event that the cleaning tank is damaged, a large amount of solvent will be leaked outside, which is very dangerous.3 Also, a large amount of dirty solvent is generated after use, which is difficult to dispose of, resulting in high costs. However, it had the disadvantage of being expensive.

Problems to be Solved by the Invention The present invention attempts to solve the above-mentioned problems, and when supplying steam for steam cleaning mechanical parts, medical instruments, and other objects, it is necessary to use a solvent that is heated by the steam. Efficient steam supply that eliminates the need for a large amount of unnecessary heating, is economical, can safely heat the solvent without any danger, and does not cause deterioration of the vaporized solvent. In addition, the purpose is to prevent the solvent from being contaminated by the dirt removed from the object to be cleaned by steam cleaning, and to facilitate the disposal of this dirt.

Means for Solving the Problems In order to solve the above-mentioned problems, the present invention provides a supply port in a steam generation section facing a heating element heated by a heating mechanism. A liquid tank filled with a solvent for steam generation is connected to the heating element, and steam is generated while supplying the solvent necessary for steam generation to the heating element.

Further, the steam generating section provided with the heating body may be a steam cleaning tank for cleaning objects to be cleaned.

In addition, the steam generation section provided with the heating element may be a steam generation tank for supplying cleaning steam to the steam cleaning tank.Also, a cooling phase is formed in the upper part of the steam cleaning tank and/or the steam generation tank, and the generated cleaning It may also be one that condenses and liquefies the vapor and collects it in a liquid tank.

In addition, the steam cleaning tank is equipped with a liquid cleaning section that stores a cleaning solution for immersion cleaning at the lower part of the inner circumference, and also has a liquid cleaning section.
A heating element may be formed on a portion of the inner periphery, or the heating element may be provided flatly at the bottom of the steam cleaning tank.

Further, the heating element may be a mogular plate sunk in a plane at the bottom of the steam generating tank.

Further, the heating body may be formed to protrude in an annular shape from the upper inner periphery of the liquid cleaning section of the steam cleaning tank.

Since the present invention is configured as described above, when steam cleaning mechanical parts, medical instruments, and other objects to be cleaned,
First, the heating element housed in the steam generation section is heated by operating the heating mechanism, and a small amount of solvent necessary for steam generation is supplied from the liquid tank to the heating element through the supply port. This supplied solvent is instantly vaporized and can be used for steam cleaning.
If this supply is carried out continuously or intermittently, it is possible to generate steam continuously or intermittently. Therefore, in the second method of supplying the solvent, there is no need to store a large amount of solvent in the steam generation part, and only a small amount of solvent necessary for steam generation is supplied to the heating element, so it is possible to prevent highly flammable or contaminated solvents. A dangerous solvent containing substances is not left unused in the steam cleaning tank, allowing safe use. In addition, the solvent does not deteriorate due to hydrolysis, thermal decomposition, etc., and there is no need to heat a large amount of solvent, so the heating mechanism such as a heater can be miniaturized, and the solvent can be converted into economical steam ( I can get a hiatus.

In addition, if a cooling phase is formed in the upper direction of the steam cleaning tank and/or the steam generation tank, the generated cleaning steam can be liquefied.
The solvent used for cleaning is distilled and becomes like a new solution with no deposits mixed in, and can be collected in a liquid tank, making it possible to reuse the solvent.This reuse allows you to use the solvent at a low cost with less consumption. It can be used.

Further, the steam generation section provided with the heating element may be a steam cleaning tank that stores the objects to be cleaned and performs cleaning work, or a steam generation tank that supplies cleaning steam to the steam cleaning tank. good.

Embodiment Below, one embodiment of the present invention will be described with reference to the drawings.
) is a heating body that is heated by a heating mechanism (2) such as steam heating, oil heating, electric heater, etc., and is also heated by a steam generating part (3).
) is formed at the bottom of the In the first embodiment, this steam generation part 3) is formed by a steam cleaning tank (5) for steam cleaning mechanical parts, medical instruments, and other objects to be cleaned (4), as shown in FIG. are doing. In addition, the heating element (1) is installed flatly at the bottom of the steam cleaning tank (5) so that a large amount of cleaning steam can be generated with high thermal efficiency, and the supply port (6) is located so as to face the top. A liquid tank (8) filled with a solvent (7) such as Freon 113, trichlorethylene, isopropyl alcohol, etc. to be vaporized is connected to this supply port (6), and this liquid tank (8) and the supply port (6) are connected to each other. Between,
? A regulating valve (10) is provided to adjust the flow rate of the 8-drug 7). Furthermore, an introduction valve 11) that can be opened and closed is provided at the top of the liquid tank (8), and the solvent (
7) The funnel part (12) for introducing the liquid into the tank (8)
is connected to. In addition, the upper part of the liquid tank (8) and the steam cleaning tank (5) are connected with a recovery pipe (14) via a recovery valve (13) for recovering the solvent, and the recovery pipe (14) is also connected to the steam cleaning tank (5). It is connected to a recovery groove (15) formed inside the tank (5). A cooling phase (16) such as a cooling coil is formed facing the upper part of this recovery groove (15), and the cleaning vapor is condensed and liquefied in this cooling phase (16).
It is said that it can be recovered.

Additionally, a sealing top cover (17) is attached to the top end of the steam cleaning tank (5).
) is provided so as to be openable and closable, and a hot air inlet (18) is provided at the upper side of the steam cleaning tank 5), and a warm air outlet (20) for the hot air is provided at the lower side of the side to allow hot air to flow. It circulates and enables hot air drying of the object to be cleaned (4).

When steam cleaning mechanical parts, medical tools, and other objects to be cleaned (4) in a device configured as
First, store the object to be cleaned (4) in the steam cleaning tank (5), and place it on top of the steam cleaning tank (5)! Close (17) and steam wash ('p tank [
5) Seal. Then, the heating mechanism (2) is activated to heat the flat heating element (1) housed in the steam generation section (3), and the introduction valve (11) in the closing position is opened to supply D.
A small amount of solvent (7) is supplied to the heating element (1) from the liquid tank (8) via (6). This supplied solvent (7) is instantaneously vaporized and can be used for steam cleaning, and if this supply is performed continuously or intermittently, steam can be generated continuously or intermittently. do. Therefore, a large amount of solvent (7) is supplied to the steam generating section (3).
) without the need to store the amount of solvent (
7) to the heating element (1), so do not use highly flammable substances or dangerous solvents containing pollutants
) is not left unused in the steam cleaning tank (5) and can be used safely. In addition, the solvent (7) does not deteriorate due to hydrolysis, thermal decomposition, etc.
Since it is not necessary to heat a large amount of the solvent (7), the heating mechanism (2) such as a heater can be downsized, and the solvent (7) can be economically vaporized with less energy.

Further, the dirt removed from the object to be cleaned (4) by steam cleaning does not mix with the solvent (7), and the heating element (1) does not mix with the solvent (7).
) or a tray (24) located on the surface of the heating element (1)
Since the waste is stored on the surface of the container, only the waste can be disposed of when a certain amount has accumulated, making it extremely easy to collect the waste.

Furthermore, if a cooling phase (16) is formed in the upper direction of the steam cleaning tank (5), the cleaning vapor raised by the heating of the heating element (1) can be condensed and liquefied, and the solvent (7) used for cleaning can be distilled and liquefied. The solvent (7) can be collected into the liquid tank (8), and can be reused.

After recovering the cleaning steam, by opening the hot air introduction valve (11) provided at the hot air inlet (18), hot air is introduced into the steam cleaning tank (5) and at the hot air outlet. (20
) If the hot air discharge valve (21) provided in ) is opened, the cleaning steam in the steam cleaning tank (5) will be discharged from the hot air discharge port (20), and if this is circulated to the solvent recovery device, This facilitates prevention of solvent diffusion and drying of the object to be cleaned (4).

Further, in the above embodiment, the steam generating section (3) provided with the heating body (1) is a steam cleaning M for cleaning the object to be cleaned (4).
(5) However, in a different embodiment of the pond, as shown in FIG. The cleaning steam generated in the steam generation tank (22) is applied to the object to be cleaned (
11) Steam cleaning 'I'p+t' containing ! <5) may be supplied. In this case as well, if it is provided flatly at the bottom of the steam cleaning tank 5), a large amount of cleaning steam can be generated with good thermal efficiency.

Further, in the above two embodiments, a steam cleaning tank (5) that performs only steam cleaning is shown, but in other different embodiments, the steam cleaning tank (5) has a cleaning liquid 25 for immersion cleaning in the lower part of the inner periphery. )
A liquid cleaning section (26) is provided by housing the liquid cleaning section (26), and a gutter-shaped heating element (1) is formed in an annular manner protruding from the upper inner periphery of the liquid cleaning section (26). ) A heating mechanism (2) is installed around the outer periphery of the steam cleaning tank (5) corresponding to the heating element (1) to enable heating. With this configuration, it becomes possible to perform cleaning and steam cleaning with one device.

Effects of the Invention Although the present invention is constructed as described above, (11) when steam cleaning mechanical parts, medical instruments, and other objects to be cleaned, there is no need to store a large amount of solvent in the steam generation section; Because it is only necessary to supply the small amount of solvent necessary for generation to the heating element, there is no need to leave any highly flammable or potentially dangerous solvents containing contaminants in the steam cleaning tank. Enables safe use. In addition, the solvent does not deteriorate due to hydrolysis, thermal decomposition, etc., and there is no need to heat a large amount of solvent, so heating mechanisms such as heaters can be miniaturized and the solvent can be vaporized economically with less energy. I can do it.

In addition, if a cooling phase is formed in the upper part of the steam cleaning tank or steam generation tank, the generated cleaning vapor can be condensed and liquefied, and the solvent used for cleaning will be distilled and become like a new liquid without any deposits. Since the solvent can be collected in a liquid tank, it is possible to reuse the solvent, and by this reuse, the solvent can be used at low cost with less consumption.

[Brief explanation of drawings]

The drawing is a sectional view showing one embodiment of the present invention.
The figure is a cross-sectional view, Figure 2 is a cross-sectional view showing an embodiment in which the steam generation tank and the steam cleaning tank are separated, and Figure 3 is an embodiment in which liquid cleaning and steam cleaning can be performed in the cleaning tank of 1-). FIG. 3 is an example cross-sectional view. (1... Heating body 2) (3... Steam generating section <4) 5... Steam cleaning tank (6) (7... Solvent (8) (16...Cooling phase (22)) (25...Cleaning liquid (26)... Heating mechanism, object to be cleaned, 1 supply port, liquid tank, steam generation tank Liquid cleaning section diagram

Claims (8)

[Claims] (1) A solvent supply port is provided in the steam generation section, facing the heating element heated by the heating mechanism,
A steam generator for a cleaning machine, which is connected to a liquid tank filled with a solvent for vaporization and generates steam while supplying a solvent necessary for vapor generation to a heating element. (2) The steam generating device for a cleaning machine according to claim 1, wherein the steam generating section provided with the heating body is a steam cleaning tank for cleaning objects to be cleaned. (3) The steam generating device for a cleaning machine according to claim 1, wherein the steam generating section provided with the heating body is a steam generating tank for supplying cleaning steam to a steam cleaning tank. (4) The steam for cleaning machines according to claim 1, characterized in that a cooling phase is formed in the upper part of the steam cleaning tank and/or the steam generating tank, and the generated cleaning steam is condensed and liquefied and collected in the liquid tank. Generator. (5) The steam cleaning tank is characterized in that a cleaning liquid for immersion cleaning is stored in the lower part of the inner periphery, a liquid cleaning part is provided, and a heating body is formed on the upper inner periphery of this liquid cleaning part. Section 2
The steam generator for the cleaning machine described above. (6) The steam generator for a cleaning machine according to claim 2, wherein the heating body is provided flatly at the bottom of the steam cleaning tank. (7) The steam generating device for a washing machine according to claim 3, wherein the heating body is provided flatly at the bottom of the steam generating tank. (8) The steam generator for a cleaning machine according to claim 5, wherein the heating body is formed in an annular manner to protrude from the upper inner periphery of the liquid cleaning section of the steam cleaning tank.