DE102006027208A1 - Membrane dosing pump for dosing e.g. corrosion protection agents, has drive head with pressure stroke side that is connected with inlet line through control valve when delivery stroke side is connected with outlet line at time period - Google Patents

Abstract

The pump (1) has an inlet line (19) connected with a cylinder chamber (12) of a drive head (11) for receiving compressed gas from a gas line (18). The drive head is designed as a single-acting gas drive e.g. membrane drive, such that only a pressure stroke side of the drive head is connected with the inlet line through a control valve (20) when a delivery stroke side of the drive head is connected with an outlet line (21) at a time period. A compression spring (17) is arranged in the delivery stroke side and affects a delivery stroke on a drive part (14) in a preset direction. An independent claim is also included for a method for controlling a gas-operated drive.

Description

The Invention relates to a diaphragm metering pump with gas-driven drive, in particular for dosing excipients in gas lines, for example a natural gas source, according to the preamble of claim 1.

The Invention also relates a method for controlling this gas-powered drive according to the preamble of claim 10.

dosing Gas powered have long been known and are preferred for Dosing excipients, eg. As corrosion inhibitors, in gas lines (Pipelines) near or at a natural gas source used. gas wells are not very productive and scattered in remote areas, so that electrical energy to drive the metering pump only with very big Costs available can be made. It is therefore preferred that the gas from the Gas source itself used as a pressure medium for driving the metering pump. So far, however, the gas used was usually blown into the environment, which of course energy economic reasons as well as for reasons the environmental impact is not desirable.

To avoid this, it is already known ( US 6,694,858 ), as a drive for an oscillating positive displacement pump to provide such a gas drive in which the compressed gas removed from the gas line by means of a corresponding control valve is supplied to the positive displacement pump that it hits both sides alternately on the displacer or this actuated both in Druckhubrichtung and in the intake stroke , whereupon then each of the compressed gas is returned to the low pressure side in the gas line.

To For this purpose it is necessary that in the gas pipeline a certain Differential pressure is present, for. B. at a constriction of the line or at one created for example by a metering orifice Flow measuring point, or that the differential pressure is artificial created by the installation of a throttle point.

This However, known gas drive has the disadvantage that the entire Construction including the associated Control very expensive designed and that the gas consumption is very high.

Of the The invention is therefore based on the object, the diaphragm metering pump of the generic type in order to eliminate the described disadvantages in such a way that the gas drive is structurally very simple and only has a low gas consumption. In addition, a simple procedure be created to control such a drive.

These The object is achieved by the invention having the features of the claim 1 or 10 solved. Advantageous embodiments thereof are described in the further claims.

Of the The invention is based on the idea of the drive head of the diaphragm metering pump as a single-acting gas drive, in such a way that only the pressure stroke side of the drive head on the Control valve is connected to the compressed gas supply line while on the suction stroke side of the drive head is arranged a spring, the acting on the drive part in the direction of suction stroke. In addition is the suction stroke side of the drive head at any time with the compressed gas discharge line, i.e. So with the point lower gas pressure, connected. hereby results in the significant advantage that the drive regardless of the pressure level can be operated in the pipeline.

In inventive design the control valve is designed such that it is suitable for carrying out the Pressure stroke of the drive head, the compressed gas supply line to Druckhubseite of the drive head opens, while it is the opening in the suction stroke for the discharge of the then relaxed gas causes the gas discharge line.

This means in the sense of the invention that the oscillating motion the gas drive simply by, preferably mechanically controlled, Switching on the compressed gas supply for the pressure stroke of the drive head takes place. In contrast, in constructively extraordinary easy way for that Suction stroke of the drive head used the spring force, in which case the located on the Druckhubseite in the cylinder chamber of the drive head, now relaxed gas in the gas line, namely on the low pressure side is promoted back.

When Dosing preferably passes a diaphragm pump head with hydraulic Membrane drive for use. This provides two major benefits namely to the effect that on the one hand the dosage is leak-free and on the other hand, the piston reciprocating in the hydraulic oil works almost frictionless.

It is therefore only for the pressure stroke of the drive head and thus also of the diaphragm pump head only a certain amount of effort to overcome the spring pressure force necessary. It must therefore in addition to this pressure force practically no additional forces considered or overcome be because the frictional force in relation to the compressive force negligible is low.

Out that is why it is possible the diaphragm metering pump then also by means of the gas-driven according to the invention Drive to operate when in the gas line only a very small Differential pressure, for example, less than 0.5 bar, prevails.

Of the gas powered drive according to the invention thus uses the energy from the funded in the gas line Gas only for the pressure stroke of the drive head. In contrast, the suction stroke takes place by means of Spring force. This makes the overall control much easier and cheaper constructed as in the known double-acting drive.

In Another embodiment of the invention, it is advantageous if the Drive head is designed as a diaphragm drive, whose drive part is a membrane member. Thereby can the friction losses are reduced to a minimum, so that the Drive with an even lower differential pressure in the gas line can be operated.

The Membrane member of the gas-driven membrane drive can be a single membrane, a double membrane or a rolling membrane.

Instead it is also possible to provide a piston drive as the drive head, the drive part a piston is.

The inventive method for controlling the gas powered drive is in claims 10 closer to 12 described.

The The invention will be explained in more detail below with reference to the drawings. in this connection demonstrate:

1 schematically in section a diaphragm metering pump with a single-acting gas drive in the form of a drive head, which is designed as a membrane drive with a single diaphragm;

2 a modified embodiment with a single-acting gas drive in the form of a membrane drive with a double diaphragm and

3 a further modified embodiment with a gas drive in the form of a piston drive.

How out 1 can be seen, is a diaphragm metering pump 1 provided, which is configured in the illustrated embodiment as a diaphragm pump with hydraulically acting diaphragm drive. For this purpose, the diaphragm metering pump 1 one in a pump body 2 reciprocating piston rod 3 on top of one in the pump body 2 formed, filled with hydraulic oil working space 4 in the sense of a pressure stroke - in 1 when moving to the left - or a suction stroke - in 1 moving to the right - acting.

The pump body 2 is through a pump cover 5 closed, in which a delivery room 6 for conveying a metering medium via an inlet valve 7 and an exhaust valve 8th is formed.

The workroom 4 and the pump room 6 are through a membrane 9 disconnected between the pump body 2 as well as pump cover 5 is clamped and by means of the axially reciprocating piston rod 3 about that in the workroom 4 befindliches hydraulic oil in the sense of a pressure stroke and suction stroke is actuated.

The piston rod 3 the diaphragm dosing pump 1 is operated mechanically, by a gas powered drive 10 , which is designed as a single-acting gas drive. For this purpose is a drive head 11 provided, which has a cylinder space 12 encloses. In this is a drive rod 13 movable back and forth, on the one hand with her from the cylinder room 12 of the drive head 11 outstanding end with the piston rod 3 the diaphragm dosing pump 1 connected or hereby integrally and on the other hand at its in the cylinder space 12 of the drive head 11 located end of a drive part 14 in the form of a single membrane. This separates the cylinder space 12 of the drive head 11 in the manner shown in two chambers, in a Druckhubseitige chamber 15 as well as in a suction stroke side chamber 16 ,

In the suction chamber 16 of the drive head 11 is on the drive rod 13 a compression spring 17 arranged on the one hand on the wall of the cylinder space 12 and on the other hand on the single membrane 14 or supported on the support part, so that thereby the single membrane 14 in the direction of the suction stroke of the drive head 11 - to the right in 1 - is under spring action.

At the same time the suction stroke chamber is 16 constantly in connection with the gas discharge line 21 , so in the suction side chamber 16 always the lower gas pressure P2 acts.

The pressure stroke of the drive head 11 - left in 1 - Is caused by compressed gas, that of the gas line 18 (Pipeline), Ex. taken at or near a natural gas source at a location P1 of higher pressure and via a supply line 19 the pressure stroke side chamber 15 of the drive head 11 is supplied.

In the supply line 19 is also a control valve 20 provided, which relaxed the Gas, after this the pressure stroke in the pressure-stroke-side chamber 15 has executed, via a discharge line 21 back to the main gas line 18 (Pipeline), and at a downstream point P2 lower gas pressure. Here, as already stated, a differential pressure between P1 and P2 of less than 0.5 bar is sufficient for the drive head 11 to operate, ie its Druckhubseitige chamber 15 to pressurize with gas pressure in the sense of a pressure stroke. The differential pressure can be. through a panel 23 in the pipeline 18 be generated.

The control valve 20 is designed to carry out the compression stroke of the drive head 11 - left in 1 - The compressed gas supply via the supply line 19 to the pressure stroke side 15 of the drive head 11 opens while it is during the suction stroke of the drive head 11 - to the right in 1 - For removal of the then expanded gas, the opening in the discharge line 21 causes, so that the expanded gas via this discharge line 21 at the point P2 lower gas pressure in the main gas line 18 is returned.

The control of the control valve 20 takes place mechanically in the manner shown via a linkage 22 , in turn, about the respective axial position of the drive rod 13 of the drive head 11 or the piston rod 3 the diaphragm dosing pump 1 is operable.

The modified embodiment according to 2 differs from the one according to 1 only in that instead of the single membrane 14 of the drive head 11 a double membrane 14 ' is provided.

Similarly, in the embodiment according to 3 the drive head is not designed as a diaphragm drive, but as a piston drive, whose drive part is a piston 14 '' is.

Regarding not closer in detail Illustrated Features of the invention is expressly to the claims as well the drawing referenced.

Claims (12)

Diaphragm metering pump with gas-operated drive, in particular for metering auxiliaries in gas lines (pipelines), eg. a natural gas source, - with a drive head ( 11 ) for the diaphragm dosing pump ( 1 ), - one in a cylinder space ( 12 ) of the drive head ( 11 ) reciprocating drive rod ( 13 ), one the cylinder space ( 12 ) in two chambers ( 15 . 16 ) separating drive part ( 14 ) and in operative connection with the piston rod ( 3 ) of the diaphragm metering pump ( 1 ), - one with the cylinder space ( 12 ) of the drive head ( 11 ) connected supply line ( 19 ) for compressed gas from the gas line ( 18 ) and - a control valve ( 20 ) between the gas supply line ( 19 ) and a discharge line ( 21 ) for relaxed gas back into the gas line ( 18 ), characterized in that the drive head ( 11 ) of the diaphragm metering pump ( 1 ) is designed as a single-acting gas drive, such that only the Druckhubseite ( 15 ) of the drive head ( 11 ) via the control valve ( 20 ) with the compressed gas supply line ( 19 ), while the suction stroke side ( 16 ) of the drive head ( 11 ) at any time with the gas discharge line ( 21 ) and that on the suction stroke side ( 16 ) of the drive head ( 11 ) a feather ( 17 ) is arranged, which on the drive part ( 14 ) acts in the direction of suction stroke. Diaphragm metering pump according to claim 1, characterized in that the control valve ( 20 ) is designed such that it for carrying out the pressure stroke of the drive head ( 11 ) the compressed gas supply line ( 19 ) to the pressure stroke side ( 15 ) of the drive head opens, while it during the suction stroke for discharging the then expanded gas, the opening in the gas discharge line ( 21 ) causes. Diaphragm metering pump according to claim 1 or 2, characterized in that the control of the control valve ( 20 ) mechanically via a linkage ( 22 ) takes place, in turn, via the respective axial position of the piston rod ( 3 ) of the diaphragm metering pump ( 1 ) or the drive rod ( 13 ) of the drive head ( 11 ) is operable. Diaphragm metering pump according to one of the preceding claims, characterized in that the gas drive ( 10 ) actuated dosing pump ( 1 ) is a hydraulically acting diaphragm pump whose piston rod ( 3 ) with the drive rod ( 13 ) of the drive head ( 11 ) is in operative connection or is hereby in one piece. Diaphragm metering pump according to one of the preceding claims, characterized in that the drive head ( 11 ) is a membrane drive whose drive part is a membrane member ( 14 ). Diaphragm metering pump according to claim 5, characterized in that the membrane member is a single membrane ( 14 ). Diaphragm metering pump according to claim 5, characterized in that the membrane member is a double membrane ( 14 ' ). Diaphragm metering pump according to claim 5, since characterized in that the membrane member is a rolling membrane. Diaphragm metering pump according to one of claims 1 to 4, characterized in that the drive head ( 11 ) is a piston drive whose drive part is a piston ( 14 '' ). Method of controlling according to one of the preceding claims trained gas operated drive of the diaphragm metering pump, by characterized in that the oscillating movement of the drive head on the one hand during the pressure stroke by acting on the Druckhubseitigen chamber the drive head with compressed gas and on the other hand during the suction stroke by applying the suction stroke-side chamber of the drive head performed with spring force becomes. Method according to claim 10, characterized in that that the pressure stroke of the drive head by opening the connection between the compressed gas supply line or the point of the pipeline of higher pressure and the pressure stroke side chamber of the drive head is initiated. Method according to claim 10 or 11, characterized that the suction stroke of the drive head by closing the connection between the compressed gas supply line and the pressure stroke side chamber of the drive head as well as by opening the connection between this chamber and the point of the pipeline introduced lower pressure and then by means of the spring force is carried out.