FI57508C - APPARATUS FOER AVFETTNING AV FOEREMAOL MED HJAELP AV ETT ORGANISKT LOESNINGSMEDEL - Google Patents

Description

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Patent and registration authorities Ansakin utltgd och utUkrifttn pubiicerad 30.0k. 80 (32) (33) (31) Privilege requested — Begird prlorltst 0U. 09.70

Sweden-Sweden (SE) 12066/70 (71) Uddeholms Aktiebolag, Uddeholm, Sweden-Bverige (SE) (72-) Kurt Anders Holm, Skoghall, Bengt Gunnar Berglund, Hammarö,

Sweden-Sweden (SE) (7M Oy Jalo Ant-Wuorinen Ab (5M Device for removing grease from objects with an organic solvent -

This invention relates to an apparatus for removing grease from articles by means of an organic solvent, the apparatus comprising a solvent-containing container having a substantially flat, horizontal base and into which the articles from which the grease is to be removed are immersed. , a heating device located below the bottom of the tank and a temperature sensing member acting on the heating device.

In particular, the invention relates to a device in which the heating device is of the type in which dangerous overheating may occur when the solvent boils dry, for example a device using radiant heat, hot flue gases, flame in a pipe, or heat transfer media with a temperature of more than 30 ° higher than the boiling point of the solvent.

In particular, the invention relates to an apparatus in which overheating may occur and in which the organic solvent decomposes on heating to form toxic and / or corrosive gases. This is the case for chlorinated hydrocarbons commonly used in degreasing, e.g. trichloroethane ("tri") and perchloroethane ("per") and methyl chloroform, which decompose to form e.g. hydrogen chloride (hydrochloric acid), but also other very toxic, chlorine-containing gaseous substances.

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However, the problem which is the object of the present invention is not limited to the above-mentioned solvents, but also applies to solvents which do not form any toxic or corrosive gases, but which may instead ignite due to overheating. In addition, there is always a risk of material damage, eg in the case of overheating in an electric radiation element.

The invention relates to an apparatus in which degreasing takes place by immersing articles in a solvent, and to an apparatus in which the articles are brought into contact with boiling solvent vapors, whereby the vapor condenses on the surface of relatively cold articles, whereby the oil and fat dissolve.

A degreasing device of the type described above uses a control member which prevents the vaporous solvent from leaving the device. In a device using a liquid solvent, the control element may be a thermostat which switches off the heating when the solvent has reached the desired temperature. In a boiling solvent steam device, the control means may be a thermostat which switches off the heating when the steam has reached the desired height, or a cooling device in which the solvent vapors are allowed to condense when they have reached the desired height. If, for some reason, the control element does not work for a longer period of time, eg overnight when the device is running but not under monitoring, the solvent boils off. As grease, dirt, and centrifuges accumulate on the bottom of the solvent tank to form a heat insulating layer, the temperature begins to rise as the solvent surface approaches the bottom of the tank, resulting in overheating and solvent decomposition and associated corrosion damage and poisoning and possibly fire. For example, during one night when the device is not under supervision, very large property damage can occur, not to mention the significant accidents to which staff may be exposed when they return to the state in which the device is located.

In order to eliminate or reduce the above-mentioned risk of overheating, a temperature sensing means, e.g. a thermistor, has previously been placed on the bottom of the tank, which controls the heating device via a control relay. This temperature sensing member is adjusted so that at a certain temperature it acts on the heating device so that it switches off immediately. In the early stages of boiling dry, the heating is thus switched off before the dangerous temperature is reached. However, it has been found that this device works less satisfactorily if the device is positioned so that the bottom of the tank 3 57508 is not completely horizontal. Namely, if another part of the base has boiled dry before the part in which the temperature sensing element is placed, harmful overheating may occur in the part of the base which has first boiled dry.

With the device according to the invention, these drawbacks can be eliminated. Namely, the device is designed in such a way that the temperature sensing member is always located at the point which first boils dry, and that the dried surface where decomposition can therefore take place is very small compared to surfaces which have boiled dry in previously known types of device.

According to the present invention, the problem is solved in that the substantially flat, horizontal bottom of the container is provided with a portion rising above each other part of the bottom, in which the temperature sensing member is placed. The raised part should thus be in good heat transfer contact with the heat transfer base. Its height from the bottom surface is adjusted so that when the tank is possibly tilted, the raised part with its temperature-sensing elements always first boils dry, whereby the heating element is automatically switched off before the dangerous temperature is reached. The embossment may be, for example, a parallelepiped-shaped body, preferably of the same material as the rest of the bottom surface, this body being either placed in a recess in the bottom and welded thereto or placed directly on the bottom plate of the tank and joined by strong welds to provide good heat transfer. The temperature sensing member is preferably placed in a borehole in the body and preferably as close to its upper surface as possible. However, the borehole can be located in any part of the body because the temperature difference between the upper and lower surfaces of the body is relatively small at the temperatures in question when using ordinary chlorinated hydrocarbons. For example, when using a "tri", the temperature sensing member is preferably adjusted to 120 ° C and when using a rtper, to about 140 ° C, regardless of where part of the body the member is placed.

The raised piece can be placed anywhere on the bottom of the tank. However, it is preferably placed close to some wall of the container in order to make it easier to route the wires to a temperature sensing member, e.g. a thermistor. If the heating element consists of electric heating cartridges, the piece is preferably placed on top of two heating cartridges. Namely, if the body is placed on only one heat cartridge, the heat transfer to the temperature sensor will be insufficient if said heat cartridge ceases to function and the heating device would not switch off when the body has become dry. The probability that two thermal cartridges, and in particular two adjacent cartridges, would cease to operate simultaneously is, of course, much lower.

In the case where the thermal cartridges are connected to a three-phase system, with one cartridge connected to the first phase line, the next cartridge to the second phase line, etc., the body is preferably elongate in shape to cover three heat cartridges, preferably using at least two series-connected temperature sensing members. Otherwise, the risk of overheating is high because the heat transfer to a single temperature sensing member may be insufficient if one or two heat cartridges fail.

Alternatively, the raised portion may be elongate in shape and positioned along one edge of the container so as to cover all the heat cartridges, and may be provided with a plurality of temperature sensing means connected to the same control relay.

It is advantageous to place one temperature sensing member at each heating cartridge. In this way, the heating is switched off regardless of which part of the raised body first becomes dry, and in addition one or more arbitrary heating cartridges can stop working without the risk that the heating element will not switch off if overheating occurs at another heating cartridge.

The invention will be explained in more detail with reference to the accompanying drawing.

Figure 1 shows a device using a raised body containing a single temperature sensing member. Figure 2 shows a similar device in which the raised part is elongate and provided with a plurality of temperature sensing members. Figure 3 shows a section along the line III-III in Figure 2. Figure k shows a variant of the body according to Figure 1.

The device according to Figure 1 comprises a tank 1, the lower part 2 of which contains liquid trichlorethylene. The trichlorethylene is heated to boiling by means of heat mains 3 placed under the bottom 4 of the tank. The steam thus formed fills the degreasing zone 5, into which the objects from which it is desired to degrease are immersed. The steam condenses on the surfaces of the articles, and the solvent and the oil dissolved in it drain down to the boiling zone 2, where the oil becomes enriched over time. The upper edge of the wall determines the rise height of the steam. Heavy solvent vapors 5 57508 flow over said edge and condense on the surfaces of the cooling tubes 6. The solvent thus condensed flows through the pipe 7 to the device β for separating water and removing acidic components and then flows back to the boiling zone 2. The suction chamber 9 with the opening 10 extends around the open part of the device and communicates via the pipe 11 with a suction fan not shown. This prevents solvent vapors from flowing into the ambient air.

Figure 1 shows an opening in the bottom 4 of the container, in which a metal piece 12 is placed and welded so that the bottom surface of the piece is at the same level as the lower surface of the base 4. The body 12 is further placed above the two heat cartridges 3 and provided with a bore with a thermistor 13 · The thermistor communicates with a control relay 12+ which controls the heat head 3 through a contactor 15 so that the current is switched off when the thermistor has reached a certain temperature.

If a fault occurs in the cooling device 6, the solvent vapors flow out of the device, either through the upper opening or the suction chamber 9. The surface area of the liquid solvent 2 decreases, and the concentration of oil and solid impurities in the solvent increases correspondingly. When the surface of the liquid has dropped sufficiently, the upper surface of the body 12 dries which occurs before any other part of the base 2+ has dried if the inclination of the base 2+ is reasonable. As the upper surface of the body 12 dries, the temperature in the body rises, and when it reaches a predetermined value, the thermistor 13 acts on a relay 12+ which shuts off current through the contactors 15 · Before the power is turned off, the body 12 may overheat small and overheating does not have time to continue for a long time and thus does not cause any damage.

Figures 2 and 3 use the same markings for the respective parts as in Figure 1. The raised part here is a metal rib 16 placed along the other side of the base 4 so as to cover all the heating cartridges 3 · There is a thermistor 17 above each coil of the heating cartridges. connected to the same control relay 1Ö, which controls the power supply to the heat cartridges 3 via the contactor 19. · Regardless of which part of the raised rib 16 first boils dry, one of the thermistors 17 detects a temperature rise and the power supply to the heat

Figure 4 shows a preferred embodiment of the metal body of Figure 1. The body 12 is in this case surrounded by a bottom

Claims (11)

6 57508 k welded metal collar 20, and the space between the body 12 and the metal collar 20 is filled with a chlorine-insoluble, heat-insulating material 21, e.g., a plastic such as polytetrafluoroethylene or a phenol-formaldehyde condensation product, or an inorganic material such as gypsum , with a glass of water or the like. It has been found that a body of the type described above provides a uniform heat transfer over the entire bottom surface area of the container. As for the height of the raised part from the base, it can be mentioned that when the surface area of the base is lm, a height of 10-15 mm is generally sufficient. Of course, the invention is not limited to the embodiments shown in the drawing, which are intended to illustrate the invention only. Thus, for example, the shape of the raised part may be completely different from that shown in the drawing, and the temperature sensing member may also control a heating device or a similar device without abandoning the basic idea of the invention. For example, if hot gases are used for heating, the thermostat can act on the motor-driven damper or burner, etc. In addition, it can be mentioned that the invention does not only provide for Normally, the solvent is always consumed, and the device according to the invention also reduces the risk of overheating in this case as well. The claims; An apparatus for degreasing articles by means of an organic solvent, the apparatus comprising a solvent-containing container (1) having a substantially flat, horizontal bottom (4) and immersing the articles from which the grease is to be removed, a heating device located below the base (4) ( 3) and at least one temperature sensing member (13, 17) acting on the heating device (3), characterized in that the tank bottom (4) is provided with a part (12, 16) rising above each other part of the bottom, which is in good heat transfer communication with heat with the donor base and in which part the base temperature sensing member or members (13, 17) are in good heat transfer communication with the base. Device according to Claim 1, characterized in that the raised part (12, 16) and the base (4) in other respects form a homogeneous body of homogeneous material. Device according to Claim 1, characterized in that the raised part is a body (12) which is arranged in an opening in the base (4) so that the lower surface of the body is flush with the lower surface of the base. Device according to Claim 1, characterized in that the raised part is a piece placed on top of the base (4) and welded to it, which is preferably of the same material as the base, and that the welds are so strong that good heat transfer is achieved. Device according to one of Claims 3 and 4, characterized in that the body has, in the immediate vicinity of its upper edge, one or more boreholes in which the temperature-sensing element (13) is arranged. Device according to one of the preceding claims, characterized in that the heating device consists of a plurality of electric heating cartridges (3) and that the raised part (12) is located on top of two such cartridges. Device according to one of Claims 1 to 5, characterized in that the heating device consists of a plurality of electric heating cartridges (3) connected to a three-phase system, one of the cartridges being connected to the first phase line, the next cartridge to the second phase line, etc. the extent of the present part is such that it covers the three cartridges. β. Device according to one of Claims 1 to 5, characterized in that the heating device consists of a plurality of heating cartridges (3) and that the raised part (16) is elongate and arranged above all of them and is provided with a plurality of temperature-sensing means (17). connected to a control relay (14) »which acts on the heating cartridges. Device according to one of the preceding claims, characterized in that the temperature sensing element is a thermistor. Device according to one of the preceding claims, characterized in that the side surface of the raised part (12, 16) is provided with thermal insulation. Device according to Claim 10, characterized in that the raised part (12, 16) is surrounded by a metal collar (20) welded to the base (4) and that the space between the raised part and the metal collar is filled with a chlorine-insoluble thermal insulator ( 21). 8 57508