JPH0713418U - Membrane air dryer controller and sterilizer in compressor - Google Patents

Abstract

(57) [Summary] [Purpose] A compressed air dewatered by a refrigeration air dryer is sent to a sterilizer to sterilize. Drainage is likely to occur from the compressed air that is generated. Also, electrical wiring is required, noise and vibration occur, and the amount of drainage is large. [Structure] A dust removing and oil removing filter device 5, a membrane air dryer 2, and a sterilizer 4 are provided in a discharge pipe 1 of an air compressor. By removing dust and oil by the dust remover and oil remover 5, the capacity of the hollow fiber 25 is prevented from being deteriorated, and the water vapor in the compressed air sent to the dispersion chamber 26 passes through the hollow fiber 25 to the collecting chamber 27. Go into the water vapor chamber 28 and gather room 2
At 7, dry compressed air from which water is removed is obtained. Since this is sent to the sterilizer 4, compressed air having an atmospheric pressure dew point of −40 ° C. and 7 kg / cm ² is used in the sterilizer 4 and is always dry. The drain discharge valve 36 is a preliminary valve for removing the drain generated when the membrane air dryer 2 is misadjusted.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a disinfection device in a compressor, and more specifically, it is an improvement in a device that can remove various bacteria as much as possible while removing water contained in compressed air generated by the compressor, and a membrane air dryer. Regarding the control device.

[0002]

[Prior art]

 As a conventional technique, there is an invention disclosed in Japanese Patent Publication No. 3-31485. According to the invention, a refrigerating air dryer for removing water contained in compressed air is arranged upstream of the sterilizer using a membrane filter interposed in the discharge pipe as a filtering element, and a refrigerating air dryer is provided downstream thereof. A dust removal filter with a drain trap that can remove the water that could not be removed to the outside is installed, and a drain trap that can remove the water that could not be removed with the automatic drain trap of the dust removal filter to the outside is provided downstream of it. By installing a sterilizer, the compressed air from which water was gradually removed was passed through a membrane filter in the order of a refrigeration air dryer, a drain trap of a dust filter, and a drain trap of the sterilizer to sterilize. On the most upstream side, the compressed air is first dehumidified by the air dryer, and the drain in the compressed air is separated there. Then, in the next dust removing filter, the drain is dehumidified by the drain trap as well as the dust is removed.

When it flows into the sterilizer, the compressed air is once discharged to the outer area of the membrane filter, and the water is discharged by the drain trap of the sterilizer, so that water particles adhere to the membrane filter as much as possible. Since the membrane filter is not clogged, water particles are prevented from adhering to the membrane filter as much as possible, which prevents the growth environment of bacteria from forming there. Therefore, the disinfection effect is good. In particular, since the drain reservoir is connected to the outlet through the membrane filter, bacteria that have grown in the drain reservoir will not accidentally escape from the outlet to the discharge destination. Then, this drain water is automatically removed by an automatic drain trap. In this way, the water content in the compressed air is gradually removed, and the sterilization effect is improved.

[0004]

[Problems to be solved by the device]

In the above conventional example, a refrigerating air dryer is used for dehumidifying compressed air. According to this refrigeration air dryer, (1) When the temperature and humidity of the compressed air flowing into the refrigeration air dryer are high and the inflow rate is large, the humidity of the compressed air around the membrane filter of the sterilizer becomes high and the membrane filter Will be in a wet state, and the bacteria will be able to grow partially. In other words, although it is effective under normal conditions, it allows the growth of bacteria depending on the conditions. This is because the refrigeration air dryer has a relatively high compressed air pressure of 7 kg / cm ² and a dew point temperature of -17 ° C. (2) The refrigeration type air dryer requires a drain discharge means, and the discharged drain needs to be processed by the oil-water separation device and then discharged, which complicates the device. (3) The refrigeration type air dryer requires electric wiring because it uses a compressor to pressurize the refrigerant. (4) Freon (trade name) used as a refrigerant is not preferable because it destroys the ozone layer in the atmosphere. Also, although alternative CFCs have a low degree of depleting the ozone layer, their use is not guaranteed in the future. (5) Drain is always generated from the dust filter and sterilizer, so a drain treatment means is required as in the cold-freezing air dryer.

The present invention solves the above-mentioned problems of the conventional example, and a sterilizer in a compressor which does not necessarily use a refrigerant, in which dry compressed air is always supplied to the sterilizer and which does not necessarily require a drain treatment means and electric equipment. The purpose is to provide a device.

To achieve the above object, the present invention uses a membrane air dryer. However, if the membrane air dryer also misadjusts the purge air flow rate, it will discharge compressed air from which moisture has not been sufficiently removed, causing drainage in downstream equipment. If the downstream device is, for example, a sterilizer, the sterilized state of the sterilizer may be deteriorated.

Another object of the present invention is to provide a control device for a membrane air dryer that does not generate drainage in a device disposed downstream of the membrane air dryer in which drainage generation is undesirable.

[0008]

[Means for Solving the Problems]

 A first aspect of the present invention is a sterilization device in a compressor in which a sterilizer having a membrane filter is arranged in a compressed air discharge pipe of a compressor, and the compressed air flow in the discharge pipe is eliminated. A dust remover and / or oil remover for removing dust and / or oil in compressed air is installed upstream of the fungus, and a membrane air dryer for removing water contained in compressed air is placed downstream of the remover and oil remover. A sterilization device for a compressor, characterized in that a sterilizer is provided, and compressed air from which moisture has been removed by the membrane air dryer is passed through a membrane filter to sterilize the bacterium.

A second invention of the present invention is the sterilization apparatus for a compressor according to the first invention, characterized in that the sterilizer is provided with a drain discharge means.

A third aspect of the present invention is a sterilization apparatus for a compressor, wherein a sterilizer having a membrane filter is arranged in a compressed air discharge pipe of the compressor. A dust remover or oil remover that removes dust or oil in compressed air is installed further upstream, and a membrane air dryer that removes water contained in compressed air is placed downstream of it, and dust remover is installed downstream of it. A filter device is installed, and the sterilizer is provided downstream of the filter device. The compressed air cleaned by the dust remover and / or the oil remover is subjected to moisture removal by the membrane dryer, and the membrane filter is passed through the dustproof filter device. This is a sterilization device in a compressor, which is characterized in that the sterilization is carried out by passing it through the filter.

A fourth aspect of the present invention is the sterilization apparatus for a compressor according to the third aspect, characterized in that a filter for dust removal and a sterilizer are provided with drain discharge means.

A fifth aspect of the present invention is characterized in that the sterilizer is provided with a drain sensor, and a controller for controlling the purge air flow rate adjusting valve is provided by a signal from the drain sensor detecting the occurrence of drain. It is the disinfection device in the compressor according to the first invention or the second invention.

In a sixth aspect of the present invention, a filter for dust removal or a sterilizer is equipped with a drain sensor, and a controller for controlling a purge air flow rate adjusting valve is provided by a signal detected by the drain sensor when the drain is generated. A sterilizing apparatus for a compressor according to the third or the fourth invention.

A seventh aspect of the present invention is a drain sensor for detecting a drain generated in a device installed in a discharge pipe connected to a dry compressed air outlet of a membrane air dryer, or a compressed air in the compressed air in the device. A membrane air dryer control device comprising a humidity sensor for detecting humidity, and a control device for controlling a purge air flow rate adjusting valve of the membrane air dryer according to the signal of the sensor.

[0015]

【Example】

 Embodiments of the present invention will be described below with reference to the drawings.

Example 1 FIG. 1 is a flow sheet of Example 1. Dust removing or oil removing means is provided in the compressed air discharge pipe 1. A dust filter is arranged as the dust removing means, and an oil separator is arranged as the oil removing means. In this example, a dust removal and oil removal filter unit 5 for removing dust and oil with one filter unit is provided. The dust removal and oil removal filter 5 is installed upstream of the sterilizer 4 installed in the discharge pipe 1 with respect to the flow of compressed air in the discharge pipe 1, and immediately downstream of the dust removal and oil removal filter device 5. A membrane air dryer 2 is interposed in the discharge pipe 1.

The compressed air is discharged from an air compressor (not shown), passes through a dust removing and oil removing filter unit 5, a membrane air dryer 2 and a sterilizer 4, and is directed to a discharge end (not shown).

The sterilizer 4 includes a body 16, a housing 17 detachably attached below the body 16, and a filter support 18 having a cylindrical perforated plate in the housing 17 as the body 16. A cylindrical membrane filter 19 is removably attached around the filter support 18 and is attached to the body 16 outside the membrane filter 19 without facing the cylindrical membrane filter 19. An inlet 16a for compressed air is formed so as to connect to the side region, and an outlet 16b is formed so as to be connected to the inside of the filter support 18. The means for detachably attaching the cylindrical membrane filter 19 to the filter support 18 includes a planting bolt 21 embedded in the body 16, and a seat plate 22 and a seat plate 22 that come into contact with the lower end of the filter support 18 from below. It is a nut 23 screwed into the planting bolt 21 via.

The membrane filter 19 usually has a thickness of about 0.1 micrometer (μm) to 5 micrometer (μm), but it is possible to sterilize general bacteria, fungi such as mold and yeast. For this reason, a material having a thickness of about 0.1 (μm) to 0.4 (μm) is used. The material of the membrane filter is regenerated cellulose, nitrocellulose, or the like.

As the dust removing and oil removing filter unit 5, a body 6 and a housing 8 detachably attached to the lower side of the body 6 and a filter support body 11 having a cylindrical porous plate inside the housing 8 are provided below the body 6. A cylindrical dust removal and oil removal filter 7 is detachably mounted around the filter support 11 and the dust removal and oil removal filter 7 does not face the body 6 and does not face the dust removal and oil removal filter 7. An inlet 6a for compressed air is formed so as to connect to the outer region of the filter 7, and an outlet 6b is formed for connecting to the inside of the filter support 11. The means for detaching the dust removing and oil removing filter 7 of the filter element with respect to the filter support body 11 is a planting bolt 12 embedded in the body 6, and a seat plate 13 that abuts the lower end of the filter support body 11 from below. And the nut 14 screwed into the planting bolt 12 via the seat plate 13. The bottom of the housing 8 communicates with the outside through the stop valve 34 and the drain discharge valve 9.

Since the downstream membrane air dryer 2 uses the hollow fiber 25 as the dust removing and oil removing filter 7 used in the dust removing and oil removing filter unit 5, the dust removing and oil removing filter 7 does not contain bacteria. The one that is passed but removes harmful dust from the hollow fibers 25 in the compressed air is selected. Since the hole diameter of the hollow fibers 25 is 300μ, dust larger than 300μ that immediately closes the holes of the hollow fibers 25 is completely removed. In addition, it is necessary to have a filtering element that collects as much dust as possible so that it does not adhere to the hollow fiber membranes. Therefore, it is preferable to remove the oil almost completely because it shortens the durability. Therefore, as already mentioned, as the dust removal and oil removal filter unit 5, one or more dust removal filter units and one or more oil removal filter units may be provided in series, and the oil removal filter unit filters the oil adsorbent. The element may be used.

In the membrane air dryer 2, a large number of hollow fibers 25 are arranged in a casing 24, a dispersion chamber 26 and a collecting chamber 27 are formed above and below the inside of the casing 24, and a steam chamber is provided between the dispersion chamber 26 and the collecting chamber 27. Partition plates 29 and 31 are provided so as to form 28, and both end portions of the hollow fiber 25 are supported by the partition plates 29 and 31, and both end openings of the hollow fiber 25 are seen in the dispersion chamber 26 and the collecting chamber 27. There is. The casing 24 is provided with a compressed air inlet 24a communicating with the dispersion chamber 26 and the outside, a dry compressed air outlet 24b communicating with the collecting chamber 27 with the outside, a purge air inlet 24c which does not communicate with the steam chamber 28 and the outside, and an exhaust outlet 24d. It is provided. The purge air inflow port 24c and the exhaust port 24d are provided near the partition plates 31, 29 of the casing 24 so as to be separated from the water vapor chamber 28.

A discharge pipe 1 is connected between the compressed air inflow port 24a to the dispersion chamber 26 and the outflow port 6b of the dust removal and oil removal filter unit 5, and the dry compressed air outflow port 24b from the collecting chamber 27 is a sterilizer. 4 is connected to the inflow port 16a of 4 through the discharge pipe 1, and the purge air pipe 32 branched from the middle of the discharge pipe 1 between the dry compressed air outlet 24b of the membrane air dryer 2 and the inflow port 16a of the sterilizer 4 is the purge air flow rate. It is connected to the purge air inflow port 24c of the water vapor chamber 28 via a regulating valve 33.

As shown in FIG. 2, the hollow fiber 25 has a tubular shape with a hole diameter of about 300 μ. The peripheral wall is a separation membrane of polyimide resin, which has the property that it is very permeable to water vapor and less permeable to air. With this hollow fiber 25, it is possible to easily obtain dry compressed air having a low dew point as low as the atmospheric pressure dew point of −40 ° C., for example. The action of the hollow fiber 25 is compressed air containing water vapor S and dry air D (circle indicates nitrogen, flat circle indicates oxygen) from one end of the hollow fiber 25 as shown by arrow A in FIG. If the outside of the hollow fiber 25 is kept at a low pressure through (wet) A, only the water vapor S goes out through the hollow fiber membrane, and only the dry compressed air D flows out from the other end of the hollow fiber 25. .

Since the hollow fibers 25 are thin as described above, 1000 to 1500 fibers are required to flow compressed air of 200 Nl / min.

The operation of the above configuration will be described. The compressed air sent from the air compressor (not shown) through the discharge pipe 1 reaches the dust removing and oil removing filter unit 5 and enters the space outside the dust removing and oil removing filter 7 in the housing 8 through the inflow port 6a. The drain condensed here is collected on the bottom of the housing 8 and discharged through the stop valve 34 by the drain discharge valve 9. The compressed air passes through the dust removing and oil removing filter 7 from the outside to the inside. At that time, dust and oil in the compressed air are removed. The compressed air that has flowed into the dust removing and oil removing filter 7 proceeds from the outlet 6b to the membrane air dryer 2 and enters the dispersion chamber 26 through the compressed air inlet 24a, is dispersed and enters the center hole of the hollow fiber 25, and the center hole During the process from the bottom to the top, only the water vapor S in the compressed air is extracted into the water vapor chamber 28, becomes dry compressed air D, flows out to the collecting chamber 27 and joins in the collecting chamber 27, and the dry compressed air outlet 24b From the discharge pipe 1 to the sterilizer 4. From the middle of the discharge pipe 1 between the membrane air dryer 2 and the sterilizer 4, a part of the dry compressed air D is sent to the steam chamber 28 through the purge air pipe 32 and the purge air inlet 24c. At that time, the purge air flow rate is adjusted by the purge air flow rate adjusting valve 33 provided in the middle of the purge air pipe 32. The dry compressed air D that has flowed into the water vapor chamber 28 is mixed with the water vapor S to reduce the degree of dryness and is decompressed, and is diffused into the atmosphere through the exhaust port 24d. It is water vapor that contains almost nothing except water, and is released as it is because it does not generate drainage.

The dry compressed air D discharged from the membrane air dryer 2 has, for example, a pressure of 7 kg / cm ² and an atmospheric pressure dew point of −40 ° C. The compressed air that has proceeded from the membrane air dryer 2 to the sterilizer 4 enters the outside of the membrane filter 19 inside the housing 17 through the inflow port 16a, passes from the outside of the membrane filter 19 to the inside, and when passing through the membrane filter 19, it becomes a virus. Bacteria other than the above are removed and supplied from the outlet 16b to a medical device or a food manufacturing machine.

Since the compressed air supplied to the sterilizer 4 has a low dew point and a high dryness, drainage does not occur in a normal use state. However, if the purge air flow rate adjusting valve 33 is throttled below the required purge air flow rate, the water vapor extraction capability of the hollow fiber 25 will be reduced, and the moisture in the compressed air that has flowed in will not be sufficiently removed, and the compressed air will dry into the collecting chamber 27. Relatively moist compressed air will flow instead of becoming air, and when this flows into the sterilizer 4, drainage may occur and the drainage may accumulate at the bottom of the housing 17, so at the bottom of the housing 17. The drain discharge valve 36 may pass through the stop valve 35. However, since the drain is temporarily generated in a small amount, it is not necessary to additionally install a drain processing device for the drain discharged from the drain discharge valve 36.

Example 2 FIG. 3 is a flow sheet of Example 2 of the present invention.

A different point from the first embodiment is that in the arrangement of the first embodiment, the dust removal filter device 3 is interposed in the discharge pipe 1 between the membrane air dryer 2 and the sterilizer 4, and The configuration is the same as in the first embodiment. In the second embodiment, the particle size of the dust removed by the dust removal and oil removal filter unit 5 is 300 μ or less, but the dust removal filter unit 3 does not remove bacteria but does not remove dust with a particle size as small as possible. To remove. The dust removing filter device 3 has a body 37, a cylindrical dust removing filter 38 provided as a filtering element, and a housing 39, and their respective relationships are similar to those of the dust removing and oil removing filter device 5. The inlet 37a provided in the body 37 communicates with the dry compressed air outlet 24b of the membrane air dryer 2 through the discharge pipe 1, and the outlet 37b communicates with the inlet 16a of the sterilizer 4 through the discharge pipe 1. ing.

In this embodiment, the dust in the compressed air flowing from the membrane air dryer 2 through the inflow port 37a is removed by the dust removal filter 38, and the dust other than bacteria is removed to the sterilizer 4 as much as possible. Sent.

In the present example as well, normally, drainage is not observed, but due to inadequate adjustment of the purge air amount and the like, the stop valve 41 connected to the bottom of the housing 39 is prepared in case of compressed air drainage. The drain discharge valve 42 may be provided.

[Embodiment 3] This embodiment is the same as Embodiment 1 or 2 except that the purge flow rate adjusting valve 33 is a motor-operated valve or a servo control valve type flow rate adjusting valve. , A drain sensor 44 is provided at a position where the generated drain of the housing 17 of the sterilizer 4 can be detected as soon as possible, for example, in front of the stop valve 35, and when the drain sensor 44 detects the generated drain, the signal is controlled. The control unit 45 increases the opening degree of the purge air flow rate adjusting valve 33 to increase the purge air flow rate, thereby increasing the moisture removal capacity of the membrane air dryer 2. In addition, in FIG. 5 corresponding to FIG. 3, a drain sensor 44 and a control device 45 for the sterilizer 4 may be provided as in FIG. 4, or as shown in FIG. A sensor 44 is provided, and a signal for detecting the drain by the drain sensor 44 is sent to the control device 45, and the control device 45 increases the opening of the purge air flow rate adjusting valve 33 to increase the purge air flow rate. The moisture removal capacity of the membrane air dryer 2 may be increased.

In the above description, a humidity sensor may be provided instead of the drain sensor. When the humidity sensor is provided, the humidity of the compressed air sent to the sterilizer or the filter for dust removal is grasped and before the drain is generated. The purge air flow rate can be controlled to increase the moisture removal capacity of the membrane air dryer.

The present invention extracted from this embodiment uses the dry compressed air, which is installed in the discharge pipe 1 connected to the dry compressed air outlet 24b of the membrane air dryer 2, and the device for removing the dust is the dust filter 3. Obviously, it is not limited to the bacterium 4. Therefore, a humidity sensor is provided in the device installed in the discharge pipe 1 connected to the dry compressed air outlet 24b of the membrane air dryer 2, and the humidity detected by the humidity sensor is higher than the humidity set by the controller 45. At this time, the opening degree of the purge air flow rate adjusting valve 33 is increased, and when it is small, the opening degree is made small, whereby constant humidity control can be performed.

[0036]

[Effect of device]

 In the first aspect of the present invention, since the dust removing and oil removing means, the membrane air dryer, and the sterilizer are arranged in this order in the discharge pipe of the air compressor, the compressed air obtained by the membrane air dryer from which water has been removed is removed. Since compressed water is supplied to the sterilizer, the compressed air passing through the sterilizer is in a highly dry state, and it is possible to prevent water from adhering to the membrane filter of the sterilizer to grow bacteria. Since it has a membrane air dryer, it does not generate noise or vibration unlike a refrigeration type air dryer, and is suitable for use in medical fields. Electric equipment such as a refrigeration type air dryer is not always necessary, and there is no disadvantage in using CFCs. Unlike the refrigeration type air dryer, a large amount of drain does not occur, so there is no need for drain piping or drain treatment equipment.

The second aspect of the present invention is the same as the first aspect of the present invention, because the sterilizer is provided with a drain discharge means. Therefore, by accidentally adjusting the purge air flow rate of the membrane air dryer, drain is generated in the sterilizer. Even if it does, since the sterilizer has a drain discharge means, generation of bacteria in the sterilizer is suppressed. Then, the purge air flow rate is corrected, and when dry compressed air is sent to the sterilizer, the inside of the sterilizer is rapidly dried.

In the third aspect of the present invention, the means for removing dust and oil, the membrane air dryer, the filter for dust removal, and the sterilizer are arranged in this order in the discharge pipe of the air compressor. The compressed air with high dryness is further dusted and supplied to the sterilizer, so the compressed air passing through the sterilizer is in a highly dry state without containing bacteria, and the membrane filter of the sterilizer contains moisture. This prevents the bacteria from growing due to the adhesion. Also, the membrane filter is less likely to be clogged with dust, which increases the durability of the membrane filter.

Since it is provided with a membrane air dryer, it does not generate noise and vibration unlike a refrigeration type air dryer, and is suitable for use in a medical field. It does not necessarily require electrical equipment like a refrigeration air dryer, and does not have the disadvantages of using CFCs. Unlike the refrigeration type air dryer, a large amount of drain does not occur, so there is no need for drain piping or drain treatment equipment.

According to a fourth aspect of the present invention, in the third aspect, since the filter for dust removal and the sterilizer are provided with the drain discharge means, it is assumed that the purge air flow rate of the membrane air dryer is erroneously adjusted. Also, part of the water in the compressed air becomes a drain with the filter for dust removal, and it can be discharged by the drain discharge means provided in the filter for dust removal. Since there is a drain discharge means, the generation of bacteria in the sterilizer is suppressed. Then, when the purge air flow rate is corrected and the dry compressed air is sent into the dust filter and sterilizer, the dust filter and sterilizer rapidly become dry.

In the fifth aspect of the present invention, the drain sensor is provided in the sterilizer in the first or second aspect, and the purge air flow rate adjusting valve is controlled by the signal of the drain sensor. The air discharged from the air dryer can be kept in the required dry compressed air state.

A sixth invention of the present invention is the third or fourth invention, wherein a drain sensor is provided in the sterilizer or dust filter, and the purge air flow rate adjusting valve is controlled by the signal of the drain sensor. Therefore, the discharge air of the membrane air dryer can be kept in the required dry compressed air state.

A seventh invention of the present invention is provided with a humidity sensor for detecting a drain or humidity for detecting a drain generated in a device interposed in a discharge pipe connected to an outlet of dry compressed air of a membrane air dryer, Since a control device for controlling the purge air flow rate adjusting valve of the membrane air dryer is provided by the signal of the sensor, the purge air flow rate of the membrane air dryer changes the moisture removal capacity of the membrane air dryer, and the device installed in the discharge pipe is changed. Can supply compressed air with low water content that does not generate drainage, or compressed air with a humidity lower than a certain humidity. It is also possible to obtain dry compressed air with constant humidity.

[Brief description of drawings]

FIG. 1 is a flow sheet of Example 1 of the present invention.

FIG. 2 is a perspective view showing the action of a hollow fiber.

FIG. 3 is a flow sheet of Example 2 of the present invention.

FIG. 4 is a flow sheet of Example 3 of the present invention.

FIG. 5 is a flow sheet of Example 3 of the present invention.

[Explanation of symbols]

 1 Discharge pipe 2 Membrane air dryer 3 Filter device for dust removal 4 Sterilizer 5 Dust removal and oil removal filter device 19 Membrane filter 25 Hollow fiber 26 Dispersion chamber 27 Assembly chamber 28 Water vapor chamber 29, 31 Partition plate 32 Purge air pipe 33 Purge air flow rate Regulating valve

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI technical display location B01D 63/06 8014-4D F04B 39/00 Z

Claims (7)

[Scope of utility model registration request] 1. A sterilizing apparatus in a compressor, wherein a sterilizer 4 having a membrane filter 19 is arranged in a compressed air discharge pipe 1 of a compressor, and a compressed air flow in the discharge pipe 1 is removed. Dust remover or and oil remover 5 for removing dust or oil in compressed air upstream from the fungus device 4
A membrane air dryer 2 for removing water contained in the compressed air is provided downstream thereof, and the sterilizer 4 is provided downstream thereof, and the compressed air from which water has been removed by the membrane air dryer 2 is passed through the membrane filter 19 A sterilization device in a compressor, which is characterized in that the sterilization is carried out by passing it through a tube. 2. The disinfection device for a compressor according to claim 1, wherein the disinfection device 4 is provided with a drain discharge means. 3. A sterilizing apparatus in a compressor, wherein a sterilizer 4 having a membrane filter 19 is arranged in a discharge pipe 1 for compressed air of a compressor, and the sterilizer 4 is upstream of the sterilizer 4 in the discharge pipe 1. Is equipped with a dust remover or an oil remover 5 for removing dust or oil in the compressed air, and downstream thereof,
A membrane air dryer 2 for removing water contained in the compressed air is arranged, a dust removing filter device 3 is arranged downstream thereof, and a sterilizer 4 is arranged downstream thereof, and a dust removing device or an oil removing device 5 is provided. A sterilization apparatus for a compressor, characterized in that the purified compressed air is dewatered by the membrane air dryer 2 and is passed through a membrane filter 19 through a dustproof filter unit 3 to sterilize the air. . 4. The sterilizing apparatus for a compressor according to claim 3, wherein the dust removing filter unit 3 and the sterilizing unit 4 are provided with drain discharge means. 5. The sterilizer 4 is provided with a drain sensor 44, and the drain sensor 44 is provided with a control device 45 for controlling the purge air flow rate adjusting valve 33 in response to a signal detected by the drain sensor 44. A sterilizing device in the compressor according to 1 or 2. 6. The dust removing filter device 3 or the sterilizing device 4 is provided with a drain sensor 44, and a control device 45 is provided for controlling the purge air flow rate adjusting valve 33 by a signal in which the drain sensor 44 detects the occurrence of drain. The disinfection device in the compressor according to claim 3 or 4. 7. A drain sensor for detecting a drain generated in a device interposed in a discharge pipe 1 connected to an outlet of dry compressed air of a membrane air dryer 2 or a humidity sensor for detecting humidity in compressed air in the device. Prepare,
A control device for a membrane air dryer, comprising a control device for controlling a purge air flow rate adjusting valve 33 of the membrane air dryer 2 by a signal of the sensor.