KR100881809B1 - Pump comprising a shield valve controlled by the conveying medium - Google Patents

Abstract

Controlled by a transfer medium, clamped at the central part and movable between the opening and the closure, in which the valve disc 4 closes at least one valve opening 9. A pump is provided having at least one shut-off valve having (4). The pump according to the invention is arranged laterally away from the valve disc 4 and / or the valve opening 9 to prevent sudden contact of the valve disc on the valve alternate surface and / or to limit valve opening operation. And an extension 11 which projects from the valve alternate surface 10. The pump according to the invention is characterized in that particularly low noise is possible.

Pumps, shutoff valves, valve discs, extensions

Description

Pump containing shutoff valve controlled by transfer medium {PUMP COMPRISING A SHIELD VALVE CONTROLLED BY THE CONVEYING MEDIUM}             

The present invention relates to a pump comprising at least one shut-off valve controlled by a transfer medium, said shut-off valve having an elastic valve disc clamped at a central part and movable between an opening and a closing part. At least one valve opening hole is closed at the closure portion.

Diaphragm pumps are already known from DE 42 00 838 A1, the inlet and outlet valves each being formed of shut-off valves controlled by a transfer medium. Each of the shut-off valves has an elastic valve disk clamped in the center portion and can move between the open and closed portions. While the valve disc 4 closes in at least one valve opening in the closure, during the opening operation it at least locally contacts the valve abutment surface which is arranged laterally away from the valve opening.

 Due to the opening and closing operation of the valve disc, the valve disc can also be leveled with respect to the valve alternate surface and suddenly release the air present between the valve disk and the valve alternate surface, which will generate noise. Can be.

It is therefore an object of the present invention to provide a pump, characterized in that it is possible to provide a relatively low noise, in particular having at least one shut-off valve of the type as described above.

To limit the sudden horizontal contact of the valve disc and / or the valve opening operation on the valve alternating surface as a means for solving the above object of the invention, in particular the extension is arranged laterally away from the valve disc and / or at the valve opening. Known pumps are provided which protrude from the valve alternating surface.

The pump according to the invention has at least one shut-off valve, characterized in that the extension projects from the valve disc and / or the valve alternating surface. The valve alternating surfaces are arranged to prevent sudden horizontal contact of the valve disks arranged laterally towards the valve opening.

Since the extension is formed above the valve disc and / or the valve alternate surface, sudden contact of the valve disk above the valve alternate surface is prevented, and the air present between the valve disk and the valve alternate surface is expected to be noisy in the area of the shutoff valve. It can be discharged without noise.

 A preferred embodiment according to the invention is provided for the extension formed on the valve disc to operate in a shut off valve region which projects in a step shape over the disk peripheral edge of the valve disc and surrounds the valve alternate surface. Due to the stepped expansion around the disk of the valve disk, the valve disk contacts in a wave form over the valve alternate surface, preventing the generation of loud noise due to sudden impact of the valve disk above the valve alternate surface. .

In order to prevent the loud sound impact of the valve disc against the entire disc periphery, it is advantageous for the valve disc to have a plurality of extensions which project almost uniformly against the peripheral edge of the disc.

Since the valve alternate surface can flatten the valve disc in a disk shape corresponding to the opening, it is appropriate that the valve alternate surface is generally conical in shape.

A preferred embodiment according to the invention is the central part of the valve disc being centered by a pin passing through the central aperture of the valve disc.

A further embodiment of importance for the protection of the invention according to the invention is provided in one of the step-shaped extensions with a sealing ring clamped such that the valve disc encloses at least the valve disc and is sealed between the two housing parts. To be connected. The embodiment according to the present invention can avoid unintentional rotation of the valve disc during the opening and closing operation and corresponding wear to the valve disc is prevented. Furthermore, a further separate sealing ring can be omitted if it does not seal the valve opening between the intermediate cover and the pump head cover. Finally, a constant compressive stress is created on the step-shaped extension by the extension connecting the sealing ring and the valve disc, slowing the opening of the valve disc and reducing the opening path, between the valve disc and the valve alternate surface. Sudden release of the air in place can be avoided and additionally the generation of noise can be prevented.                 

Preferred embodiments in order not to unduly prevent the opening operation of the valve disc according to the invention are at least one extension connecting the valve disc and the sealing ring at least partly across the radius of the disc and in particular in the form of a spiral. do.

It is particularly advantageous that at least one gap acting as a through hole is provided between the sealing ring and the valve disc.

Further features of the present invention will become apparent from the following description of embodiments according to the invention based on the claims and the drawings.

1 shows a diaphragm pump with suction and discharge valves formed as shut-off valves in the longitudinal direction.

FIG. 2 shows the intake valve of the diaphragm pump shown in FIG. 1 in the closure.

3 shows the suction valve of FIG. 2 in the opening;

4 shows the valve disc of the shutoff valve shown in FIGS. 2 and 3 in plan view.

FIG. 5 shows the shutoff valve shown in the closed part where the valve disc has a shape deformed from the valve disc of FIGS. 2 and 3.

FIG. 6 shows the shutoff valve of FIG. 5 located in the opening, the valve disc being at least nearly at the valve alternating surface.

FIG. 7 shows the valve disc of the cutoff valve shown in FIGS. 5 and 6 in plan view.

As shown in FIG. 1, the diaphragm pump 1 is provided with the intake valve 2 and the discharge valve 3 which are each formed as a shutoff valve. The shut-off valves 2, 3 of the diaphragm pump 1 shown in FIG. 1 are controlled by a transfer medium and clamped at the center between the pump head cover 5 and the intermediate cover 6, and the valve disc ( The valve disc 4 which is centered by the pin 7 which passes through the center hole 8 of 4) is provided.

The valve disc 4 of the shutoff valves 2, 3 can move between the closure and the opening. While the valve disc 4 closes in the at least one valve opening 9 in the closure, it is operated towards the valve abutment surface 10 during the opening operation.

Sudden horizontal contact of the valve disc 4 on the valve alternating surface 10 above to restrict the valve opening operation of the valve disc 4 of the shutoff valves shown in FIGS. To prevent this, the extension 11 which projects in step form over the disk peripheral edge of the valve disc 4 is on the one hand as shown in more detail in FIGS. 1 to 4 and on the other hand. As shown in 5 to 7, it is formed on the valve disc 4 of the shutoff valve.

5 and 6, the primary portion of the expansion 11 formed on the valve disc 4 of the shutoff valve between the expansion 11 and the valve alternate surface 10 is the valve alternate surface during the opening operation of the isolation valve. (10) At the alternating front surface of the valve disc 4 at the top, it is shown to operate on the part 12 surrounding the valve alternating surface 10. Thus, the air located between the valve disc 4 and the valve alternate surface 10 can be discharged. Therefore, since the valve disc 4 performs a wave-form opening operation, noise can be prevented from occurring in a large shift of the valve disc above the valve alternate surface 10.

5 and 6 show that the valve alternating surface 10 is conical in shape to substantially match the shape of the valve disc in the opening.

1 to 4, the valve disc 4 of the shut-off valve comprises a step-shaped extension 11, one end of which is connected with the valve disc 4 and the other end surrounding the valve disc 4; It can be seen that the sealing ring 13 is connected together. The sealing ring 13 is clamped between the pump head cover 5 and the intermediate cover 6 and closes the shutoff valve in a separate plane lying between.

In the top view of FIG. 4 it is clearly shown that the extension 11, in which the valve disc 4 and the sealing ring 13 are connected together, is at least partitioned across the radius of the disc and in particular in the form of a spiral. The extension prevents rotational movement and corresponding wear of the valve disc 4 around the pin 7 and restricts the valve opening operation as shown in FIG. 3, so that the valve disc 4 above the valve alternating surface 10. It is possible to reliably prevent abrupt contact that causes noise of).

It can be seen from FIG. 4 that at least a gap 14 acting as a through hole is formed between the sealing ring 13 and the valve disc 4.

As shown in Figs. 1 to 7, pumps with shut-off valves are particularly characterized by low noise operation.

The pump according to the invention is arranged laterally away from the valve disc 4 and / or the valve opening 9 to prevent sudden horizontal contact of the valve disc on the valve alternate surface and / or to limit valve opening operation. A pump having at least one shut-off valve controlled by a conveying medium comprising an extension part 11, characterized by projecting from a valve alternate surface 10, having an elastic valve disk 4, in particular The low noise level of the pump makes it useful for noise-controlled areas and work environments where noise needs to be reduced.

Claims (8)

A shutoff valve controlled by a transfer medium, The shut-off valve has a valve disc 4 made of a soft material, which is clamped at the central part and is movable between the opening and closing parts, The valve disc 4 closes the valve opening hole 9 in the closure, and prevents the sudden horizontal contact of the valve disc on the valve alternating surface and also restricts the valve opening operation. ) Protrudes from the valve disk 4 in the form of a step, the valve disk 4 enclosing a sealing ring 13 enclosing the valve disk 4 by one of the step-shaped extensions 11. And a shutoff valve controlled by a transfer medium, characterized in that it is connected to and clamped between two housing portions (5,6). 2. The pump as claimed in claim 1, wherein the plurality of extensions (11) are evenly projected from the peripheral edge of the disk. 3. The pump as claimed in claim 1 or 2, wherein the valve alternate surface (10) has a conical shape. 2. A shut-off valve controlled by a transfer medium according to claim 1, characterized in that the central part of the valve disc (4) is centered by a pin (7) passing through the central aperture (8) of the valve disc (4). Pump comprising a. 2. The pump as claimed in claim 1, wherein an extension (11) connecting the valve disc (4) and the sealing ring (13) is formed spirally across the disc radius. 2. Pump according to claim 1, characterized in that a gap (14) acting as a through hole is formed between the sealing ring (13) and the valve disc (4). delete delete

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