DE2451685A1 - VACUUM PUMP WITH BUILT-IN SHUT-OFF VALVE - Google Patents

Description

ARTHUR PFEIFFER Vakuumtechnik Wetzlar GmbH

Vacuum pump with built-in shut-off valve

The invention relates to a vacuum pump, in the suction channel of which a pneumatic valve is installed which is controlled by an auxiliary valve will. The valve closes the when the pump is at a standstill Suction channel vacuum-tight against the recipient connected to it.

_{Vacuum systems often require a shut-off valve 3} between the suction port of the pump and the recipient, which closes the recipient in a vacuum-tight manner when the pump is at a standstill. Without a shut-off valve, the recipient can be ventilated through the pump, with sealing liquid also being able to get into the recipient, particularly in the case of liquid-sealed vacuum pumps.

Vacuum pumps are known, the suction channel of which by a pneumatic Valve is closed, which in turn is controlled by an auxiliary valve. The auxiliary valve is operated mechanically via a centrifugal switch, which is coupled to the pump shaft, actuated.

This pump or valve control has the disadvantage that the pneumatic The valve is acted upon by atmospheric air. As a result, ingress of atmospheric air can occur in the recipient, in particular when restarting the pump after it has come to a standstill, which is essential in many cases, e.g. when operating with toxic or expensive gases must be avoided. Another disadvantage is the susceptibility to failure of the centrifugal switch apply.

BO y 819/0162

Auxiliary valves that operate the shut-off valve hydraulically, for example the disadvantage that their function can stop when the hydraulic fluid - normally the sealing oil in the pump - with gas is interspersed. Faults can also occur because of the strong temperature dependence of the viscosity of the hydraulic fluid.

The object of the invention is to specify a vacuum pump whose suction channel below a minimum speed of the pump with the help of a pneumatic Valve, which is controlled by an auxiliary valve, is quickly closed vacuum-tight, the control of the auxiliary valve mains-independent and without additional mechanical or hydraulic switches or actuators.

This object is achieved according to the invention in that as an auxiliary valve a current-closing electromagnetic valve is used, which is fed by a generator coupled to the pump shaft. The generator can e.g. be dimensioned so that the auxiliary valve actuates the pneumatic valve at 80% of the nominal speed of the pump.

Another object of the invention is that when the suction channel is closed the pump is ventilated and when the pump is switched on again the pneumatic valve opens the suction channel with a delay. The ventilation is at Liquid-sealed pumps desirable so that the sealing liquid is kept away from the valve space. In addition, the startup of the The pump makes it easier when it is not turned on under vacuum.

This object is achieved according to the invention in that a connection from the outlet of the auxiliary valve to the working chamber of the vacuum pump at least is provided when the valve is closed.

6 U 9 8 1 9/0 1 6 2

This connecting line can, for example, through the gap between the moving and housing-fixed components of the pneumatic valve are formed. In another version, this connection line is made up of the The pneumatic valve itself is only released when it is closed. This design ensures that the valve closes quickly and opens with a delay when restarting, since through the connection line the area with the actuating piston of the valve is slowly evacuated until the valve - depending on the installation position - with spring force or by its own weight is opened.

Another object of the invention is the ingress of non-process Avoid gas in the actuation chamber of the pneumatic valve and thus also in the suction chamber of the vacuum pump.

According to the invention, this object is achieved in that the actuating chamber of the valve connects to the exhaust chamber of the vacuum pump via the auxiliary valve connected is.

An execution example! the vacuum pump according to the invention is shown in Fig. using the example of a rotary vane pump. The pump consists of a housing (1) in which the pump body (2) is housed, a stand (3) to which the pump body and the housing are flanged, the suction and exhaust ports (4) and the valve combination (5) houses, and the Drive motor (6). The invention is independent of the pumping principle of the vacuum pump. It also applies to liquid-sealed pumps such as pumps with a "dry" workspace · Fig. 2 shows the basic structure and the operation of the valve combination.

The automatically working valve (7) is open when the apparatus is ventilated. When the pump is switched on, the winding of the auxiliary valve (8) is excited by the generator (9), which is coupled to the pump shaft (10) is, wherein the core (11) closes the line (12). The pneumatic valve remains open.

When the system is evacuated, the rotation of the pump shaft (10) stops (Power failure or shutdown of the pump), the generator (9) does not produce any Voltage off and the auxiliary valve (8) opens by spring pressure. That now Gas flowing in through lines (i2) and (13) presses over the piston (14) the valve disc (15) of the pneumatic valve against the valve seat (16) and closes the recipient in a vacuum-tight manner. At the same time will the working space of the pump (17) is ventilated via a bore (18). When the vacuum pump is switched on again, the auxiliary valve and closes the interior (19) of the pneumatic valve (7) is evacuated. is the pressure above the piston (14) has fallen so far that the spring pressure is sufficient to push the valve disk off and the valve opens. So no non-process gas into the valve combination and into the vacuum pump can reach, the line (13) leads into the exhaust chamber of the pump (20)

In the example shown, the valves are spring-loaded from their Seat lifted. With a suitable installation position, the valves can of course also by their own weight or by a combination of springs « and gravity open.

609819/0162

Claims (4)

Patent claims Vacuum pump with a built-in, the suction vacuum-tight occlusive pneumatic valve which is controlled by an auxiliary valve, characterized in _s that is fed by an input coupled to the pump wave generator a closing energized electromagnetic valve is used as an auxiliary valve. 2. Vacuum pump according to claim 1 _S, characterized in that at least when the pneumatic valve is closed there is a connection which connects the output of the auxiliary valve to the working chamber of the vacuum pump. 3. Vacuum pump according to claim 1, characterized in that the input of the auxiliary valve with the exhaust space of the vacuum pump connected is. 4. Vacuum pump according to claim 3, characterized in that the auxiliary valve is housed in the exhaust space of the pump. 6 ü 9 819/0162 Blank page