DE2109597A1 - Vacuum regulator for vacuum systems - Google Patents

Description

Vacuum regulator for vacuum systems The invention relates to a vacuum regulator for vacuum systems with one chamber, which with a first connection for one to one. A suction line leading to a vacuum pump and an air inlet are part of the invention The object is to create a controller of the type mentioned, which as a result Avoiding ventilation of the suction line allows continuous operation of the vacuum pump, which is usually only allowed to work against a vacuum. Furthermore, the vacuum regulator should the possibility of connecting several such controllers to a single vacuum pump or a single pump system can take several negative pressures independently of one another to be able to achieve the object of the inventive design of a vacuum regulator is characterized in that the chamber is provided with a second connection for reducing the vacuum is provided and one of its walls contains a membrane, the means for adjustment the measure of their pressure due to the difference between the pressures prevailing on their two surfaces Caused deflection are assigned and one located in the chamber first lever assembly is attached, the a first valve body for the first Connect this when a negative pressure is reached holds, which is predetermined by the setting of the funds.

In principle, one could think of it as a vacuum regulator on the suction line to connect a valve, the valve body by a to the desired negative pressure parked spring is pressed against a valve seat. As soon as the specified value the negative pressure is undershot by the pump, then the opens.

Valve an air inlet. But this would have to be disadvantageous The result is that after reaching the predetermined waiting time of the negative pressure, continuous ventilation takes place in the same wetness, in &; em the pump sucks air or gas so that the F £ pe cannot be operated continuously.

The invention has the advantage that after Errsichen the specified value of the negative pressure in the chamber of the negative pressure regulator and so that the rooms to be evacuated from the pump in its connected device be separated by closing the valve, so that then dis pump continue to work because it works on a high vacuum. As soon as for any reason, for example due to leaks, the pressure has increased again in an impermissible manner, opens the described valve again, sa that the suction line is opened again.

The erate valve body is expediently within the chamber held and lies under the suction generated by the vacuum pump when reached of the given interpressure, that is to say for a given deflection of the Membrane, against a first valve seat facing the chamber. So here is the Suction effect of the continuously operated vacuum pump at the same time to achieve a safe and tight valve seat used.

In the preferred embodiment of the invention is the air inlet assigned a second valve body, which is under the influence of one on a second Lever arrangement acting or against a second valve seat facing away from the chamber lies. This training of the vacuum regulator according to the invention offers the possibility of venting the chamber from tape if the The vacuum has reached a value that is too low. With this arrangement, however, there is the danger that even with the first valve open, i.e. the suction pipe connection open, an opening of the air inlet which interferes with the continuous operation of the pump can be made can.

For this reason, one becomes an embodiment that is distinguished by it prefer the invention that the two Eebel arrangements a common, on the Membrane-attached lever assembly with two at least approximately parallel Form levers, each of which carries one of the valve bodies at one end and the other ends to the ends of a balance beam suspended from the membrane are hinged.

This construction, which is very simple in principle, now offers possibilities a certain operating sequence of the two valves when the preload changes to force the diaphragm by operating the means mentioned above. The connection point between the fog carrying the second valve body, i.e. the air inlet, is ordered, and the balance beam forms during increasing deflections of the Membrane and, when the first connection is open, a pivot point fixed by the spring for the balance beam. This means that as the vacuum in the chamber increases when the first valve is open or when the desired one is reset Negative pressure in the direction of lower negative pressure values, that is, whenever the deflection of the diaphragm increases, only the first valve is actuated, until it shuts off the suction pipe connection; during this time the second valve body is pulled against its seat by the spring assigned to it. Accordingly, the connection forms between the lever assigned to the second valve body on the one hand and the balance beam on the other hand, a kind of pivot bearing during the movement of the first valve body for the balance beam. This ensures that when the first valve, the second valve, that is to say the air inlet, is closed.

Ventilation while the chamber is being evacuated is therefore ruled out.

In contrast, the connection point between the forms the first Valve body supporting lever and the balance beam during increasing deflections the membrane and when the first connection is completed, i.e. after the chamber has been switched off from the pump, a pivot point for the balance beam. As soon as after closing of the first valve actuates the means in the sense of a further deflection of the membrane a force is transmitted to the second lever via the balance arm, which seeks to open the second valve body against the action of the spring. At from The closed chamber of the pump is now ventilated through the Air intake possible until one by readjusting the deflection of the diaphragm predetermined new vacuum value is reached. This hiring has an effect as a result of the combination of the two lever arrangements also on the first valve the end.

The means for adjusting the deflection already mentioned several times the membrane at a given negative pressure in the chamber can one with the Membrane via springs connected threaded rod supported on the chamber contain.

In the following the invention is shown figuratively with reference to the Embodiment explained. The figure shows schematically a cross section a vacuum regulator again, the Zebelanorßnung common to both valves is equipped with a balance beam.

The chamber denoted by 1 has a leading to the suction line first connection 2 and a second connection 3 for taking the vacuum Mistake, so that the chamber 1 in the way of the indicated by the arrows 4 and 5 flow when Operation of the vacuum pump. Furthermore, the chamber 1 has the air inlet 6.

The practically one forms an essential part of the chamber Membrane 7 representing the chamber wall, on which the balance beam 9 is suspended via the rod 8 is. This balance beam is a two-armed lever, the two levers of which are in the one shown Embodiment are of different lengths. There are connection points at its ends 10 and 11 with the first lever 12 and the second lever 13, the first of which Lever 12, the first valve body 14, which is designed as a ball, and the second lever 13 carries the second valve body 15, which is also designed as a ball. As can be seen only the first valve body 14 is inside, whereas the second valve body is located 15 outside the chamber 1. The conical valve seats are also corresponding 16 and 17 directed differently, namely valve seat 16 faces chamber 1, on the other hand, valve seat 17 of chamber 1 is turned away. At 18, one covenant is the other Lever 13 is designated, which serves to support the compression spring 19. The compression spring 19 therefore tries to always close the valve 15, 17. In contrast, the valve body 14 by the suction indicated by the arrow 4 and generated by the vacuum pump in pulled its valve seat 16, provided that the deflection of the membrane 7 allows. The membrane 7 is connected via the spring 20 to the threaded rod 21, which is supported on the extension 23 of the chamber 1 via the knurled nut 22. Depending on the setting the knurled nut 22 and thus the height of the lower end of the threaded rod 21 result At a certain value of the negative pressure in the chamber 1, that is, different Through & bends the membrane 7 in the direction of the chamber 1, so that hereby that value of the negative pressure in the chamber 1 can be set at which by closing the first valve 14, 16, the entire vacuum regulator from the pump is switched off. As long as the chamber 1 is still evacuated, forms the connection point 11 practically a pivot point for the balance beam 9 and in particular its other end 10, which via the lever 12 the first valve body 14 more and more its valve seat 16 approaches until the predetermined value of the negative pressure is reached in the chamber 1, the valve 14, 16 finally blocks.

The vacuum regulator is now switched off from the vacuum pump.

A further deflection of the membrane 7 can only take place if if the knurled nut 22 in the sense of a lower negative pressure in the chamber 1 is adjusted. The connection point 10 now forms a fixed pivot point for the balance beam 9, so that now under the action of the downward movement Rod 8 lifts the other valve body 15 from its seat 17 and accordingly a Connection with the atmosphere is established. The valve 15, 17 is only then closed again when the pressure in chamber 1 has increased so much that the Membrane 7 has gained a shape that ensures the closure of the valve 15, 17.

Since during this readjustment of the vacuum regulator to another Vacuum value the valve 14, 16 is closed, the vacuum pump is not in any Way applied. It is also possible to use the same vacuum pump several times after the According to the invention to connect built-up pressure regulator, which on different Vacuum values are set. Accordingly, one can use only a single vacuum pump Generate several negative pressure values and accordingly several, possibly different ones Supply facilities with negative pressure. An example of application of the invention is the testing of ignition distributors with double vacuum adjustment, where you can use a single vacuum pump and two vacuum regulators designed according to the invention Pressure gauges.

The extension 23 can itself also form a Kemmer, but against the atmosphere must not be closed i

Claims (8)

Claims vacuum regulator for vacuum systems with a chamber that with a first connection for. a suction line leading to a vacuum pump and is provided with an air inlet, characterized in that the chamber (1) is provided with a second connection (3) is provided for vacuum decrease and one of its walls has a Membrane (7) contains means (20, 21, 22) for adjusting the degree of its through the difference in the pressures prevailing on their two surfaces caused by deflection are assigned - and on which a first lever arrangement located in the chamber (1) (8, 9, 12) is attached, which has a first valve body (14) for the first connection (2) finally holds this when a negative pressure is reached, which is caused by the setting the means (20, 21, 22) is predetermined. 2. Vacuum regulator according to claim 1, characterized in that the first valve body (14) is held within the chamber (1) and under the suction generated by the vacuum pump when the specified negative pressure is reached against a first valve seat (16) facing the chamber (1). 3. Vacuum regulator according to claim 1 or 2, characterized in that that the air inlet (6) is assigned a second valve body (15) which is located below the influence of a spring (19) acting on a second lever arrangement (8, 9, 13) against a second valve seat (17) facing away from the chamber (1). 4. Vacuum regulator according to claims 2 and 3, characterized in that that the two lever arrangements have a common lever arrangement fastened to the membrane (7) (8, 9, 12, 13) with two at least approximately parallel levers (12, 13), each of which carries one of the valve bodies (14, 15) at one end and the with their other ends to the ends (10, 11) one on the membrane (7) suspended balance beam (9) are articulated. 5. Vacuum regulator according to claim 4, characterized in that the Connection point (11) between the lever carrying the second valve body (15) (13) and the balance beam (9) during increasing deflection of the membrane (7) and when the first connection (12) is open, a pivot point fixed by the spring (13) forms for the balance beam (9). 6. Vacuum regulator according to claim 5, characterized in that the Connection point (10) between the lever carrying the first valve body (14) (12) and the balance beam (9) during increasing deflections of the membrane (7) and when the first connection (2) is closed, a pivot point for the balance beam (5) forms. 7. Vacuum regulator according to one of claims 1 to 6, characterized in that that the valve bodies (14, 15) are balls. 8. Vacuum regulator according to one of claims 1 to 7, characterized in that that the means are connected to the membrane (7) via springs (20), contain (22) threaded rod (21) supported on the chamber (1).