SE450652B - INSPECTION CONTROL DEVICE FOR A COMPRESSOR - Google Patents

Description

15 20 30 40 450 652 In order to obtain a delayed opening of the intake line when the compressor is switched on and a delicate setting movement of the element closing the intake line during proportional control, the pressure surface of the control piston affected by the working pressure of the compressor is adjusted in relation to the spring force so that the spring force v is overcome even at a small working pressure. A delayed opening of the suction line during the connection of the compressor is facilitated by a bore with a small cross-section being formed in the cylinder on the net pressure side of the guide piston, which bore communicates with the suction side of the compressor. According to a suitable design, an electrical and / or a pneumatic control device is arranged in the mains pressure leading to the control piston, whereby the suction control device can be controlled electrically and / or pneumatically by applying a control pressure to the mains pressure side of the control piston.

For venting the oil container at a screw compressor with oil injection, the intake element closing the suction line can be provided with a bore, which in the closing position of the element is connectable to the working pressure side of the control piston or to the working pressure conducting line. An example of an embodiment according to the invention is described in more detail below with the aid of the drawing, which shows a suction control device in cross section.

The suction cylindrical control device as a whole is inserted in a hole 1 at a housing wall Z of the compressor.

Opposite this housing wall 2, a further housing wall 3 is arranged, in which a suction line 4 is fixed coaxially with the suction control device or with the hole 1. This intake line 4 may be surrounded by an air filter cartridge (not shown).

The space between the house walls 2 and 3 is in direct connection with the suction opening of the compressor.

A cylinder body 5 is fixed in the hole 1, for example pressed in. A guide piston 6 is slidably arranged in the cylinder body 5, the piston rod 7 of which extends through the end wall 8 of the cylinder body and carries at the free end a closing piece 9. (h) The closing piece 9, which is frustically conical in shape at the front, is annular. surface provided with a sealing ring 10, which in the closing position of the closing piece 9 lies close to the seat 11 of the suction line 10 15 20 25 40 3 450 652.

The closure piece 9, which is approximately in the form of a pot, has a jacket section 12, the length of which is slightly greater than the stroke of the closure piece 9. With this jacket section 12, the closing piece 9 is guided on the outer circumference of the cylinder body 5, a seal being arranged in an annular groove 13 at the end of the jacket section, which slide on the circumferential surface of the cylinder body 5. At 14 a ventilation opening is formed in the closure piece 9, which provides a connection between the suction line and the cavity, which in the closing position of the closure piece 9 is between it and the cylinder body 5. This design largely avoids forces which may occur at the closure piece 9 at its striking movement due to different pressures on both sides of the closure piece 9. The ventilation opening 14 is adapted so that a pressure equalization is obtained on both sides of the closing piece 9.

The guide piston 6 is actuated in the closing direction by a compression spring 15, which abuts the housing wall Z and is arranged in a recess in the guide piston 6. Furthermore, the guide piston 6 can be actuated by the conduit 16 coaxially with the longitudinal axis 15 of the compression spring 15 the compressor fed the mains. The pressure in the line 16 is taken out at the compressor behind the non-return valve arranged in the pressure line or behind the pressure holding valve. At 17, a schematically represented proportional regulator is shown.

As indicated by dashed lines, a solenoid valve 18 and / or a pneumatic valve 19 can also be connected to the line 16, whereby the control piston 6 can be actuated by a pneumatic or electric control with a control pressure to close the suction line 4.

In the opening direction, the guide piston 6 is actuated on an annular piston surface 20 with the pressure obtained directly from the compressor. In parallel with the piston shaft, a bore 21 runs through the cylinder body 5, which mouth opens into a ring groove 22, from which a radial bore 23 opens outwards into the cylinder space. The ring groove 22 is tightly covered by a sleeve 5 ', which on the outer circumference forms the guide surface for the closure piece 9.

The longitudinal bore 21 communicates with a line 24 passed through the housing wall 2, which is connected to the pressure side of the compressor or, for example, to the oil container and thus conducts the pressure immediately obtained from the compressor to the control piston 6.

The cylindrical body 5 formed approximately as a whole has on the open side an annular shoulder, on which a sealing ring is arranged, which sealingly separates the cylinder space affected from the line 16 from the pressure line 21, 24.

An axial bore 26 with a radial portion runs through the guide piston 6 and its rod 7. In the closed position of the closure piece 9, the bore 26 communicates with a radial bore 27 formed in the cylinder body 5, so that the pressure side of the compressor over these bores 26, 27 communicates with the atmosphere and when the compressor is switched off or the suction control device is closed.

The force of the compression spring 15 is adapted in relation to the pressure surface 20 at the control piston 6 so that even a small working pressure of the compressor is sufficient to displace the control piston 6 against the force of the compression spring 15. Suitably, the compression spring 15 is adjusted so that the spring force roughly corresponds to a pressure of one bar at the pressure surface 20 of the guide piston.

In the housing wall 2, a bore 28 with a small cross-section is further formed, which connects the cylinder space affected by the line 16 to the suction side of the compressor. This bore 28 can, for example, open into the space between the house walls 2 and 3.

The pressure surface 29 actuated by the line 16 at the guide-H piston can, for example, be so adapted that it is twice as large as the opposite pressure surface 20. Depending on the design of the compression spring 15, a different relationship can also prevail between the pressure surfaces 20, 29. Suitably the pressure surface 29 acting with the spring 15 in the closing direction is larger than the pressure surface 20.

The compression spring 15 is suitably so adapted that it precisely holds the guide piston in the closed position when the negative pressure of the suction side prevails on the pressure surface 29. At a small pressure on the pressure surface 20, the guide piston then shifts to the opening position.

The suction control device can be controlled from three different places (proportional regulator 17, electric valve 18 and pneumatic valve 19) and thus enables a proportional control and a on-off control of electric J! 10 15 20 25 30 35 40 5 450 652 or the pneumatic side.

The suction control device works as follows. When the compressor is switched off, the suction piece 4 keeps the suction line 4 closed under the force of the spring 15. The line 19 is connected to the atmosphere via one of the valves 18, 19. The pressure side of the compressor or the oil container is also connected to the atmosphere via the line 24 and the bores 21, 27, 26.

If the compressor is switched on, a certain pressure is built up which acts on the pressure surface 20 of the control piston, while at the same time via the bore 28, which is connected to the suction side, a certain negative pressure is built up, so that after the compressor starts the control piston 6 is shifted slightly to the left. In this case, the connection between the bores 26 and 27 is broken and thus the ventilation of the pressure side is canceled. At a working pressure of approximately 1 bar, the control piston 6 can already be displaced to the complete opening position shown.

In control operation with stepless adjustment of the intake control device, the line 16 is connected to the mains via the proportional controller 17. When the pressure surface 29 at the guide piston 6 is larger than the pressure surface 20 affected by the working pressure, the suction control device remains open as long as behind the proportional regulator 17 a pressure prevails which is less than the working pressure minus the spring force. When this pressure behind the proportional regulator 17 approaches the working pressure minus the spring force, the control piston 6 begins to shift to the right. In the described exemplary embodiment, the suction control device starts to close the suction line 4 when at a final pressure of 7 bar the mains pressure reaches 6 bar. Correspondingly, the suction control device opens in control mode automatically when the mains pressure is lowered again.

In another mode of operation of the compressor, the line 16 can be connected to the atmosphere via one of the valves 18 or 19, so that during the operation of the compressor the suction control device is in the complete opening position shown.

Depending on an electrical or pneumatic control, a control pressure can be applied via one of the valves 18 or 19 on the pressure surface 29 for direct closing of the intake line. The mains pressure is suitably used as the control pressure. In such a continuous operation, only the suction line 4 is opened and closed without the closing piece 9 occupying intermediate positions as in regulating operation.

Denoted by 30 is a shut-off valve in line 16.

Many different changes to the described construction are possible. Thus, the ventilation bore 26 in the guide piston can be filled or a replacement nozzle can be inserted in the front dolly of the closing piece 9. fw '\ :)

Claims (8)

1 450 65fi Patent claim Intake control device for a compressor, in particular a screw compressor with oil injection, with an intake line opening and closing element, which is actuated by a spring and is connected to a control piston controlled in a cylinder, which is displaceable with pressure means in the closing direction, k ä characterized in that the guide piston (6) and the element (9) are moved in the closing direction of the spring (15) and that the guide piston is movable in the opening direction of the pressure obtained from the compressor (working pressure). Intake control device according to Claim 1, characterized in that the guide piston (6) is displaceable in the closing direction of the pressure prevailing on the user side (the net pressure). Intake control device according to Claims 1 and 2, characterized in that the pressure surface (20) of the control piston (6) affected by the compressor working pressure is so adapted to the force of the spring (15) that the spring force is overcome even at a small working pressure. Intake control device according to Claims 1 to 3, characterized in that a bore (28) with a small cross-section is arranged in the cylinder on the net pressure side of the guide piston (6), which bore communicates with the suction side of the compressor. Intake control device according to Claims 1 to 4, characterized in that the guide surface (29) which can be actuated by the mains pressure is larger than the pressure surface (20) affected by the working pressure. Intake control device according to Claims 1 to 5, characterized in that in the mains pressure leading to the control piston (6), an electrical and / or an automatic control device (18, 19) is arranged for actuating the control piston with a control pressure. Intake control device according to the preceding claim, characterized in that the closing element (9) closing the intake line (4) is provided with a bore (26) which in the closing position of the element can be connected to the working pressure side of the guide piston or to the working pressure (conductive). Intake control device according to the preceding claim, characterized in that the intake line (4) 450 652 on the closing element (9) is shaped in the form of a pot and is guided by means of a jacket section (12) on a cylinder body (5), a pressure equalization bore (14) is arranged in the element '(9) - 4) “lay