DE3213919A1 - Device for generating low-temperature air - Google Patents

Abstract

The invention relates to a device for generating low-temperature air with a compressor for air compression, a drier, connected to the compressor, for removal of moisture from the compressed air, a heater for heating the air if it is intended to subject the device to a heat treatment, and a heat exchanger connected to the drier, and finally a temperature-insulated store for receiving a cryogenic liquefied gas to be fed to the heat exchanger, the dried air being cooled in the heat exchanger in order to be supplied through an insulated line to the site of a medical treatment with cryogenic air. The drier is provided with two drying cylinders which hold a water-absorbent and each of which is used alternately by switching a closure or valve for removal of moisture from the supplied air, on the one hand, whereas the respective other cylinder is simultaneously subjected to a regeneration treatment in which the water-absorbent is regenerated by decompression and recycling part of the dried air.

Description

Title of the invention: Device for generating air

low temperature description The invention relates to a device for generating low temperature air, as used in medical Treatment of rheumatism, lumbago, (lumbago) and the like is needed.

A long time ago it was used for the medical treatment of Rheumatism, lumbago, sore shoulders and the like treatment with cryogenic gas is developed in which the patient's sick parts of the body are exposed to the influence exposed to cryogenic gas, i.e. low temperature gas. Possibly becomes even a patient's entire body in a low temperature atmosphere cooled to temporarily relieve the pain caused by diseased body parts and Afterwards, he would otherwise not be able to take active physical or physical activities because of the pain. to have gymnastic exercises done. It is now common knowledge that excellent treatment results with this type of medical treatment are to be achieved. It turned out that the treatment results the lower the temperature of the gas used for cooling, the better. In general, the temperature of the cryogenic, i.e., low temperature, gas is about -1000C or less, preferably about -1500C. Such cryogenic gas is through mechanical Cooling systems are difficult to manufacture, which is why cryogenic, liquefied gas, such as liquid oxygen or liquid nitrogen for industrial use Production and warehousing is preferred. The patient to be treated should, however not be exposed directly to liquid oxygen or nitrogen and yourself especially do not stay in a room with the atmosphere of such cryogenic gases, which is why cryogenic air mixtures are used as cryogenic gases for medical treatment are needed.

It is in itself very simple to extract liquid air as a cryogenic gas from a To use air mixture, however, due to its physical properties, it is evaporated liquid air as a cryogenic gas is an oxygen-rich gas that is dangerous and rilit which must therefore be handled with care. Liquid nitrogen and liquid Oxygen can be mixed to obtain a cryogenic gas as a mixture of air. However, mixing these liquids further eliminates the problems of oxygenating them Gases like liquid air. It also has some major technical problems when mixing these two components in a gaseous state to obtain a cryogenic one Gas can be overcome because when using the gas for medical treatments no; error must be made and because the devices for generating cryogenic Air for medical purposes is mostly used by people with little experience in dealing with cryogenic technology. It follows that it is for medical Treatment less dangerous is to use cryogenic air by cooling from atmospheric air (ambient air) using liquid nitrogen and oxygen was obtained. However, there are still some problems to be solved. the largest of which is the removal of moisture and carbon dioxide from the air is. It is known that the atmosphere contains components such as moisture and carbon dioxide gas that solidify at low temperatures. In particular, freezes before moisture that is not removed by cooling the air and thereby clogs the air ducts, whereby the entire apparatus becomes unusable.

It is therefore particularly important to check the humidity before cooling the air to remove from her.

In known solutions, dryers with a drying agent are used for this purpose used, wherein the cryogenic gas generating, the dryer enclosing plant is subjected to a heat treatment. Therefore, known systems require additional Pipelines and heat sources to be able to carry out the heat treatment. Of the The dryer of such known systems works alternately with two cylinders (two-cylinder-change-over type), with one cylinder being used for drying and the other being regenerated will. In the regeneration phase, a gas is used for regeneration with a additional heating device and then fed to the dryer to be regenerated, which are subjected to a heat exchange treatment after the heat treatment phase got to. These treatments take a long time to switch absorption cylinders, therefore the regeneration treatment of the dryer remains inadequate when the medical Treatment is interrupted or terminated during regeneration of the dryer, which happens quite often. That would lead to the fed and to be cooled Air has excess moisture with the result that the system is clogged Could collapse from solidified moisture if this is inadequate with one regenerated dryer would be operated. To avoid this, in general a heat regeneration treatment that goes beyond the normal is carried out, however, this takes an additional time and a large amount of heat requires. In particular, the heat regeneration treatment requires an expenditure of time, as it is often incompatible with the requirements of the medical company. In addition, the regeneration takes place at a noise level that is unacceptable in medicine. Since medical treatments of the type in question are usually carried out during the day regeneration takes place at night, so that the patient can rest at night due to the noise generated by the drive of the compressor and the like is disturbed. The additional heat source required also means an increased one Risk of accident.

It is therefore the object of the invention to provide a device for generating of low temperature air to create that with little expenditure of time and energy leads to good results. Furthermore, the device according to the invention Provide air of lower temperature, in which operational failures as a result of harmful Air components such as moisture and carbon dioxide to a much lesser extent than are to be expected with known systems. The device is also intended during the regeneration phase work with low noise for a long time.

Finally, in the device according to the invention, the generation of air at a low temperature may be possible without the need for any more for the dryer special, additional heat source would be necessary and thus not only save energy as it is necessary for the regeneration of the dryer, but also the operational safety of the device and the associated system is increased.

To solve this task and to obtain further advantages suggests the invention a device for generating low-temperature air for medical Treatments with the following characteristics. A compressor is provided for compressing air, connected to which a dryer for removing moisture from the compressed air is. A heater is also provided for heating the air when the device is used is to be subjected to a heat treatment. A heat exchanger is also provided, which is connected to the dryer, as well as a heat-insulated storage for recording a cryogenic, liquefied gas to feed the latter to the heat exchanger grains, whereby the dried air is cooled in the heat exchanger to the place medical treatment by means of an insulated cable! to become. The dryer is preferably seen with two drying cylinders, which are equipped with one Water-absorbent material are filled and the means of a switch or valve alternately for removing moisture from the supplied air and for regeneration treatment of the water-absorbent material by decompression and subsequent recycling a part of the dried air are marked.

Referring now to the drawing, there is shown in the form of a flow chart one embodiment the invention illustrated, which is explained below by means of a compressor 1, air is compressed to about 5 kg / cm and at a flow rate of 30 Nm3 / h fed through a line 2 to an aftercooler 3, where the heat of compression of the Air is discharged. The air is then fed to the dryer 5 through the line 4. The dryer '9 includes a pair of dryer cylinders fia and 6b, the inlet ports thereof are connected to the line 4 by Meeheelventile 7a, 7b and their outlets are connected to an elner line 13 via shuttle valves ta, 9b. In addition, sinc the opening of the drying cylinders Ca and 6b through a changeover valve 8a, th with the discharge line 12 and there are the outlets of the Drying cylinder 6a, 6r through a gas duct 11 for regeneration with one another connectable, a reduction valve 10 being inserted into the gas duct 11 is. The drying cylinders 6a and 6b are to be switched alternately so that one of them in the drying phase, the other in the regeneration phase is located. Assuming that the drying cylinder 6a in the drying phase is located and the counter cylinder 6b is subjected to the regeneration treatment, the valves 7a, 8b and 9a are open. While the Bentile 7b, 8a and 9b are closed are. As a result, the air introduced into the dryer 5 through the line 4 flows through the valve 7a into the drying cylinder 6a to remove the moisture it contains to drive out. Then the dried, compressed material flows at a flow rate of 25 Nm3 / h Air through valve 9a into line 13, while the remaining 5 Nm3 / h in the regeneration line 11 reach where this air fraction by means of the reduction valve 10 is relaxed essentially to atmospheric pressure and into the drying cylinder 6b, which is now subjected to the regeneration treatment. The air flow from the appropriate drying air carries the moisture with it, which during the previous drying phase absorbed by the desiccant of the cylinder 6b whereupon the air through valve 8b and discharge line 12 into the atmosphere exit. The drying cylinders 6a and 6b are switched over every four minutes, whereupon drying and regeneration are repeated again in the respective cylinder.

The drying air freed from moisture in this way with 25 Nm3 / h (the dew point is around -700C) passes through the shuttle valve 9a in the Line 13 and is then opened by means of a reduction valve 14 relaxed to a pressure of about 2 to 3 kg / cm, after which it is placed in a heater 15 is introduced. The heater 15 is used to heat the dried air, for example by electrical means after the device has been shut down; will however cryogenic air generated by means of the device, it is not actuated and the Compressed air introduced into the heater 15 passes through the heater without to be influenced and flows through line 16 into the heat exchanger 17, for example a plate heat exchanger with an air and a nitrogen supply is. The dried air flows through the air duct 16 into the heat exchanger 17, there is a heat exchange with the counterflow of the liquid nitrogen in the stickstnff guide line and the air is cooled. The liquid nitrogen is stored in the temperature insulating tank 1β and flows by opening one Valve 19 through an insulated line 20 in the heat exchanger 17, in which it is through the nitrogen guide line flows. By cooling the compressed dry Air in countercurrent vaporizes the liquid nitrogen and then passes through a pipe 21 and an adjustable valve 22 to get into the atmosphere.

Through this heat exchange, the compressed air is increased to about - .15o0r cooled, the carbon dioxide gas not removed in the dryer 5 in the air duct freezes and is therefore separated from the cryogenic air.

The air cooled in this way leaves the heat exchanger 17 through a line 23 and is passed through a filter 24 to remove the remaining carbon dioxide gas to filter out, whereupon it through a valve 25 to the place of me: medical treatment got. In order to control the cryogenic air to a predetermined temperature, the temperature of the air at the outlet of the heat exchanger 37 with a Temperature sensor 26 determined to provide a control signal for setting the valve 22 to get a certain value of the valve opening. The reference number 27 Identifies an outlet line for the cryogenic air, which is connected to the line 23 the outlet side of the valve 24 is connected to by opening an electromagnetic Valve 28 to allow air to escape into the atmosphere when starting the system the temperature deviates from a value intended for use. The valve 28 is designed and switched so that it is open when the valve 25 is closed is to prevent the supply of low temperature air during a medical treatment to interrupt the place of treatment. On the input side of the valve 24 is with the line 23 an outlet line 29 connected to the heated gas through a valve 30 to let go.

The low temperature air generating device according to the invention generates the low temperature air in the manner described above. After completion a medical treatment, there is a heat treatment of the device, in particular of the heat exchanger 17. In particular, the supply of liquid nitrogen terminated by closing the valve 19, whereupon the dried air by actuation of the heater 15 is heated to about 250C and then into the heat exchanger 17 is introduced where they contain carbon dioxide, as well as any traces of moisture and the like sublimates or evaporates, which excreted from the air and in the Air duct of the heat exchanger 17 during the generation of low-temperature air were solidified and now by opening the valve 28 through the lines 23 and 27 are discharged into the atmosphere.

In the drying unit according to the present invention takes place the switching of the two drying cylinders after about four minutes each, in which the regeneration of the respective dryer cylinder is carried out, with this regeneration the pressure difference between the supplied air and the atmosphere results, so that no special heat source as in known solutions is necessary is. In this way, the heat treatment is directed solely to the heat exchanger 17 and so much heat and time can be saved. This differs the invention in an advantageous manner of devices such as those previously used used in medical treatment.

In summary, the following can be said on this matter will.

The invention relates to a device for generating a Low temperature air with one compressor for air compression, one with the compressor connected dryer for removing moisture from the compressed air, a Heater for heating the air when the device is subjected to heat treatment should be and with a heat exchanger connected to the dryer, and finally with a temperature-insulated storage for holding a cryogenic liquefied Gas for its supply to the heat exchanger, the dried air in the heat exchanger is cooled to the place of medical treatment through an insulated pipe to be supplied with cryogenic air. The dryer is with two drying cylinders provided that absorb a water absorbent and each of which by switching over a closure or valve alternately once to release the supplied Air and moisture serve, while the other is a regeneration treatment at the same time is subjected to in de.

the water absorbing agent by decompression and recycling part of the dried air is regenerated.

L e r s e i t e

Claims (7)

Title of the invention: device for generating air lower Temperature Claims Device for generating low-temperature air for cryogenic medical treatment with a compressor to compress air, with a dryer connected to the compressor to remove moisture from the compressed air, with a further heater for heating the dried ones Air, when the device is subjected to a heat treatment, with further one heat exchanger connected to the dryer and with a temperature-insulated one Storage tank for holding a cryogenic liquefied gas to transfer it to the heat exchanger feed and cool the dried air in the heat exchanger and isolate it through Feeding lines to the location of medical treatment, characterized in that that the dryer is provided with two drying cylinders (6a, 6b) which have a water absorb absorbent, of which by switching a shuttle valve (7a, 7b, 9a, 9b) alternately in each case one humidity of the supplied in an operating phase Draws air and the other draws a regeneration in its other operating phase is subjected in which the water absorbent means by decompression and Backflow of part of the dried air is regenerated. 2. Apparatus according to claim 1, characterized in that the heater (15) is arranged between the dryer (5) and the heat exchanger (17) to the to be able to heat air dried in the dryer. 3. Apparatus according to claim 2, characterized in that the air is compressed to not less than about 5 kg / cm2 by the compressor (1) and In the dryer (5) is introduced, with some of this air at about atmospheric pressure is decompressed in order to regenerate the respective in the regeneration phase To be used drying cylinder. 4. Apparatus according to claim J or 3, characterized in that Thee compressed air is decompressed to around 2 to 3 kg / cm in order to be called Regenere lonsges used to be. 5. Apparatus according to claim l, characterized in that the compromised Air in the heat exchanger (5) is cooled in W # exchange with liquid nitrogen, wherein the liquid nitrogen is taken from a reservoir (18) and countercurrent to the to be cooled Air is passed through the heat exchanger. 6. Apparatus according to claim 1, characterized in that the amount of the nitrogen to be supplied to the heat exchanger (5) by the amount of the by evaporation resulting nitrogen gas is determined, which flows out of the heat exchanger and although corresponding to a signal t ur display of the temperature of the heat exchanger leaving low temperature air 7. Apparatus according to claim 1 characterized in that the dried LJft through a heater (15) to is heated after the medical treatment is completed and the dried and heated air can be introduced into the heat exchanger (17) to convert solidified carbon dioxide and remove precipitated moisture from the heat exchanger.