RU179320U1 - COMPRESSED AIR DRYER - Google Patents

Abstract

The invention relates to a device for drying air inflated by a compressor for a pneumatic tool. The technical result of the invention is to increase the reliability of operation, which is achieved due to the fact that the compressed air dryer contains a housing with input and output, characterized in that the housing is made of metal and made in the form of a hollow product of oblong shape, the entrance and exit of which are located on opposite sides, while the entrance to the housing is made in the form of a connecting fitting around which A heat-insulating sleeve is located on the inside of which a heating cable is laid; transverse metal condenser plates with holes and cutouts are installed between the inlet fitting and the outlet inside the housing.

Description

The invention relates to devices for draining air supplied by a compressor to a pneumatic tool. [B01D 53/26].

The prior art DEVICE AND METHOD FOR DRYING GAS COOLED [RU 2536982 C1, publ. 12/27/2014], consisting mainly of a closed cooling circuit containing refrigerant, which can be circulated in the cooling circuit using a compressor, and, additionally, a condenser connected to the compressor outlet and expansion means sequentially arranged in the direction of flow of the refrigerant flow, behind which there is an evaporator connected to the inlet of the aforementioned compressor, while the specified evaporator forms the first part of the heat exchanger, which also contains the second part, through which the drying gas and, in addition, there is a bypass line in the cooling circuit, which can be closed by the bypass valve with the help of the valve working element, which is held closed by the force of the spring element, and with the help of a pressure sensitive element that acts on the working the valve element and through the control pressure pipe is exposed to local control pressure in the cooling circuit, and the control pressure pipe is connected to the cooling circuit, different scheesya in that the control pressure pipe is connected to a closed cooling circuit upstream of the flow from the outlet of the evaporator.

The disadvantage of this analogue is the low reliability due to the use of a closed cooling circuit with refrigerant and compressor to drain compressed air, and in the event of refrigerant leakage or compressor failure, the device will not be able to drain the compressed air.

The closest in technical essence is the DRYER FOR COMPRESSED GAS, COMPRESSOR UNIT CONTAINING THE DRYER AND THE METHOD OF DRYING GAS [RU 2633572 C1, publ. 10/13/2017], comprising a housing with a drying zone and a regeneration zone; the first entrance to the drying zone to supply the heated compressed gas to be dried and the first exit from the drying zone to drain the dried gas, wherein the regeneration zone comprises a first subzone with a first inlet for the first regeneration stream and a second subzone with a second inlet for the second regeneration stream, the regeneration zone has a second outlet for regeneration flows from the first and second subzones; the dryer is also provided with a drum mounted rotatably in the housing, with a regenerable drying agent located therein and a drive for rotating the drum so that the drying agent can move sequentially through the drying zone and the regeneration zone, characterized in that the second exit from the regeneration zone connected to the first inlet of the drying zone using a connecting pipe with a built-in cooler and condensate separator, while the first end of the exhaust pipe is connected to the first outlet of the zone drying, and its other end is connected to the second entrance of the second subzone; wherein the dryer is configured such that the entire flow of the gas to be drained is first directed through the regeneration zone before passing through the drying zone; however, there are means for forcibly moving the second regeneration stream from the drying zone through the exhaust pipe into the second subzone, while these tools are a supercharger built into the connecting pipe. The main technical problem of the prototype is the use of a regenerated drying agent located in a drum with a drive for drying compressed air, which leads to low reliability of the dryer. As a result of the failure of the drive, the drum will not be able to move the drying agent through the drying zone and the regeneration zone, while the known device will not provide drainage of compressed air.

The purpose of the utility model is to eliminate the disadvantages of the prototype.

The technical result of the utility model is to increase reliability.

The specified technical result is achieved due to the fact that the desiccant of compressed air containing a housing with inlet and outlet, characterized in that the housing is made of metal and made in the form of a hollow product of oblong shape, the entrance and exit of which are located on opposite sides, while the entrance to the housing is made in the form of a connecting fitting, around which there is a heat-insulating sleeve, on the inside of which a heating cable is laid, inside the housing between the inlet fitting and the outlet are installed Meth metal capacitor plate with holes and notches.

In particular, the cross section of the housing is made in the shape of a circle.

In particular, the capacitor plates are made in the form of disks with holes and cutouts.

In particular, the exit from the housing is made in the form of a nipple connected in series with a shut-off valve and an outlet connecting fitting,

In particular, the diameter of the inlet connecting fitting corresponds to the inner diameter of the connecting rubber-fabric hose from the compressor, and the gap between the inlet connecting fitting and the heat-insulating sleeve corresponds to the wall thickness of this hose.

In particular, a drainage pipe with a stopper is located at the bottom of the housing.

A brief description of the drawings.

In FIG. 1 shows a block diagram of the operation of a compressed air dryer.

In FIG. 2 shows a side view of a compressed air dryer.

In FIG. 3 shows a section AA of a compressed air dryer.

In FIG. 4 shows a section BB of a compressed air dryer.

In FIG. 5 shows a cross-section BB of a compressed air dryer.

The drawings indicate: 1 - compressor, 2 - compressed air dryer, 3 - distribution manifold, 4 - pneumatic tools, 5 - cylinder, 6 - connecting fittings, 7 - heat-insulating sleeve, 8 - heating cable, 9 - nipple, 10 - locking tap, 11 - drain pipe, 12 - plug, 13 - legs, 14 and 15 - capacitor discs, 16 - cutouts in the capacitor discs, 17 - holes in the capacitor discs.

Implementation of a utility model.

The installation for operation of the claimed technical solution comprises a compressor 1, a compressed air dryer 2 and a distribution manifold 3 connected to the rubber hose by a pneumatic tool 4. A compressed air dryer contains a cylinder 5, on one side of which a connecting fitting 6 is installed, while around the fitting a heat-insulating sleeve 7 is located, on the inner surface of which a heating cable 8 is laid, on the other hand, a nipple 9 is attached to the cylinder 5, which after ovatelno connected to the stopcock 10 and the connecting nipple 6.

Bottom to the cylinder 5 is connected a drainage pipe 11 with a stopper 12, as well as legs 13. Inside the cylinder 5, capacitor disks 14 and 15 are alternately arranged alternately. The notches 16 are made around the circumference of the disks 14, and holes 17 are made in the capacitor disk 15, while the bottom part of the capacitor disk 15 made a cutout 16 for condensate drain.

A compressed air dryer operates as follows.

The claimed technical solution is used in the cold season, while for operation the compressed air dryer 2 is installed on the street on legs 13 so that the temperature of the condenser disks 14 and 15, as well as the walls of the cylinder 5, is lower than the temperature of the compressed air.

After that, the compressor 1 is connected with a rubber-fabric hose to the inlet connecting fitting 6, then the heat-insulating sleeve 7 is placed around the connecting hose at the point of its articulation with the inlet 6, while ensuring that the inner surface of the sleeve 7 and the heating cable 8 are snug against the surface of the connecting hose.

After that, the output connecting nipple 6 with a rubber-fabric hose is connected to the distribution manifold 3, to which the pneumatic tool 4 is connected.

When the compressor 1 is operating, compressed air feeds into the cavity of the housing 1, in which the compressed air passes through the cutouts 16 and the openings 17 in the capacitor disks 14 and 15, while moisture condenses on the surface of these disks 14 and 15, as well as on the inner surface of the housing 1 compressed air. Drops of condensate flow down to the bottom of the body, after which they can be removed by opening the plug 12 of the drain pipe 11. The claimed technical result of this utility model is achieved by ensuring that the interface of the connecting rubber-fabric hose and the connecting fitting is heated by the heating cable 8, which prevents the formation of frost and overlapping the inlet, as well as through the use of metal capacitor plates with cutouts and holes that provide drainage of compressed spirit and ensure high reliability of the technical solution, which has no moving parts and mechanisms.

Claims (6)

1. A compressed air dryer containing a housing with an inlet and an outlet, characterized in that the housing is made of metal and made in the form of a hollow oblong shaped product, the entrance and exit of which are located on opposite sides, while the entrance to the housing is made in the form of a connecting fitting, around which there is a heat-insulating sleeve, on the inside of which a heating cable is laid, transverse metal condenser plates with holes are installed inside the case between the inlet fitting and the outlet and cutouts. 2. The dehumidifier according to claim 1, characterized in that the cross section of the housing is made in the shape of a circle. 3. The dehumidifier according to claim 1, characterized in that the condenser plates are made in the form of disks with holes and cutouts. 4. The dehumidifier according to claim 1, characterized in that the outlet from the housing is made in the form of a nipple connected in series with a shut-off valve and an outlet connecting fitting. 5. The dryer according to claim 1, characterized in that the diameter of the inlet connecting fitting corresponds to the inner diameter of the connecting rubber-fabric hose from the compressor, and the gap between the inlet connecting fitting and the heat-insulating sleeve corresponds to the wall thickness of the hose. 6. The dehumidifier according to claim 1, characterized in that a drainage pipe with a stopper is located at the bottom of the housing.

Images