DE29514272U1 - Fluid operated lock valve - Google Patents

Description

Description Pressure medium operated shut-off valve

The innovation relates to a pressure-medium-operated shut-off valve for shutting off a paint line of a painting device, which has an actuating piston in a housing that delimits a control chamber that can be pressurized with pressure medium and is provided with a valve needle, which forms a closing element at its free end that in the closed position rests against a valve seat of the housing, wherein the closing element controls a connection between a paint chamber and a paint outlet.

Such shut-off valves are used, for example, in painting systems to feed paint from a ring line to a spray device. In order to be able to dose a quantity of paint as precisely as possible, the shut-off valve must open and close quickly. This requires a relatively small valve stroke. In particular, the hydro-paints that have been increasingly used recently require a relatively large opening cross-section of the shut-off valve in order to be able to pass through the shut-off valve with a sufficiently low pressure loss.

In the shut-off valves known in practice to date, the valve needle passes through the paint chamber and has a cone as a closing body on the side facing away from the paint chamber. To open the shut-off valve, its piston must move in the direction of the valve seat. Practice has shown that a sufficiently large opening cross-section cannot be achieved with the relatively small valve stroke that is only permissible for reasons of time.

The innovation is based on the problem of designing a pressure-operated shut-off valve of the type mentioned above in such a way that

designed so that even with a small opening stroke the largest possible valve cross-section is released.

This problem is solved in accordance with the innovation by arranging the closing element in the paint chamber and being movable from the side of the paint chamber against the valve seat.

This new design creates a shut-off valve whose opening stroke is in the opposite direction to that of the shut-off valve according to the state of the art. This means that a large free cross-section can be achieved with a small opening stroke. This is advantageous both for the paint flow and for later cleaning of the shut-off valve using a cleaning fluid pumped through the shut-off valve. The shut-off valve according to the invention can have the same external dimensions as the previous shut-off valves and can therefore be screwed into existing holes in today's systems. This means that a larger opening cross-section can be achieved without changing a system simply by replacing the shut-off valves.

The check valve according to the innovation can have its pressure medium connection for the supply of the control pressure at the same place as the previously known check valve, so that it can be replaced without changing an existing painting system compared to the check valve according to the state of the art, if according to an advantageous further development of the innovation the control chamber is provided on the side of the piston facing the valve seat, if the piston has a piston rod on its side opposite the valve needle, which seals with the piston and is axially displaceable into a pressure medium chamber connected to a pressure medium inlet, and if the piston rod has an axial bore leading to the opposite side of the piston.

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which is connected to the control chamber via at least one radial bore.

All components of the shut-off valve can be inserted into the housing of the shut-off valve from the side facing away from the valve seat if, in the case of a shut-off valve in which the valve needle is sealed to the paint chamber by a stuffing box against which a compression spring pre-tensions it in the sealing position, the compression spring with its end facing away from the stuffing box rests against a screw-in ring which is screwed into an internal thread of the housing of the shut-off valve within the control chamber.

The shut-off valve is further simplified if, according to another development of the innovation, a housing chamber, which is located on the opposite side of the piston as the control chamber, is connected to the atmosphere and if a compression spring is arranged in this housing chamber which pre-tensions the piston in the closed position of the closing element.

The innovation allows for various embodiments. To further clarify its basic principle, the drawing shows a longitudinal section through a shut-off valve according to the invention and is described below.

The drawing shows a multi-stepped housing 1 in which a control chamber 2 is provided, which is delimited by a piston 3. This piston 3 has a valve needle 4 leading to the right in the drawing, which is provided at its free end with a conical closing element 5, which in the position shown seals against a valve seat 6. The valve needle 4 leads through a lacquer chamber 7, which

rather has two paint inlets 8, 9 and a paint outlet 10 that can be controlled by the closing body 5.

The piston 3 is provided with a piston rod 11 on its side facing away from the control chamber 2, which leads into a pressure medium chamber 12, against the wall of which it is sealed by means of a seal 13. This pressure medium chamber 12 is connected to a pressure medium inlet 14 on the front side of the shut-off valve opposite the paint outlet 10. An axial bore 15 leads from the pressure medium chamber 12 into the piston rod 11, which is connected to the control chamber 2 via a radial bore 16. As a result, the pressure supplied via the pressure medium inlet 14 acts on the side of the piston 3 facing away from it, so that the closing element 5 is moved away from the valve seat 6 into the open position. The closing stroke is carried out by the force of a compression spring 17, which is arranged in a housing chamber 18 connected to the atmosphere on the side opposite the control chamber 2 of the piston 3.

A stuffing box 19 is used to seal the valve needle 4 against the paint chamber 7, which is pre-tensioned in its sealing position by a ring 20 in that a compression spring 21 rests against this ring. This compression spring 21 is supported with its other end against a screw-in ring 22, which is screwed from the side of the piston 3 into an internal thread of the control chamber 2.

Reference list

1 housing

2 Control room

3 pistons

4 Valve needle

5 Locking link

6 Valve seat

7 Paint room

8 Paint inlet

9 Paint inlet

10 Paint outlet

11 Piston rod

12 Pressure fluid chamber

13 Seal

14 Pressure medium inlet

15 Axial bore

16 Radial bore

17 Compression spring

18 Housing space

19 Stuffing box

20 rings

21 Compression spring

22 Screw-in ring

Claims (4)

Protection claims 1. Pressure medium-operated shut-off valve for shutting off a paint line of a painting device, which has an actuating piston in a housing which delimits a control chamber to which pressure medium can be applied and is provided with a valve needle which forms a closing member at its free end which, in the closed position, rests against a valve seat of the housing, the closing member controlling a connection between a paint chamber and a paint outlet, characterized in that the closing member (5) is arranged in the paint chamber (7) and can be moved from the side of the paint chamber (7) against the valve seat (6). 2. Shut-off valve according to claim 1, characterized in that the control chamber (2) is provided on the side of the piston (3) facing the valve seat (6), that the piston (3) has a piston rod (11) on its side opposite the valve needle (4) which, in a sealing manner with the piston (3), leads axially displaceably into a pressure medium chamber (12) connected to a pressure medium inlet (14), and that the piston rod (11) has an axial bore (15) leading to the opposite side of the piston (3) which is connected to the control chamber (2) via at least one radial bore (16). 3. Shut-off valve according to claims 1 or 2, in which the valve needle is sealed towards the paint chamber by a stuffing box against which a compression spring prestresses it in the sealing position, characterized in that the compression spring (21) rests with its end facing away from the stuffing box (19) against a screw-in ring (22) which is screwed into an internal thread of the housing (1) of the shut-off valve within the control chamber (2). 4. Shut-off valve according to at least one of the preceding claims, characterized in that a housing space (18), which is located on the opposite piston side as the control chamber (2), is connected to the atmosphere and that in this housing space (18) a compression spring (17) is arranged which prestresses the piston (3) in the closed position of the closing member (5).