DE1007631B - Diaphragm pump - Google Patents

Description

Diaphragm pump The invention relates to a diaphragm pump for Pumping of sludge-like liquids with two of one double-acting piston controlled by a pump medium in a special pressure chamber, a part of the Tubular membranes forming fluid conduit. Pumps of this kind compared to the known pumps with only one diaphragm and one only single-acting Pistons have the advantage that the delivery is continuous and not intermittent, since with each back and forth stroke of the piston a suction through the one membrane and an ejection. connected by the other membrane. Because the piston is at its displacements does not act directly on the membranes - an embodiment, which is also known but via a pump medium that is more or less compressible is, there is also a continuous and soft loading of the membranes.

In the known pumps of this type are each the membranes, the Pump piston and the reservoir for the pump medium each in a special housing housed so that the pump is composed of a number of individual units, which are connected by flanges and pipes and put together to form the pump. This design means that the necessary for the installation of the pump Space is very large in relation to the delivery rate. In addition, there is access difficult to the individual housings. As a result, there are difficulties in Cleaning the individual housings, as well as cleaning the connecting lines, because for this the housings have to be separated from each other. Since keeping the The inside of the pump is difficult and difficult to reach properly Deposits of the pump medium or the liquid to be pumped are inevitable, which reduces the efficiency of the pump.

To the disadvantages of the known diaphragm pumps mentioned Eliminate kind, which are caused by the use of single housings, strives The invention is to provide a pump housing that is easily accessible and lightweight is to be cleaned and also allows a compact pump design through which dimensions appropriate to the conveying capacity can be achieved.

As a solution to the problem on which the invention is based, it is provided that the two membranes are axially parallel to one another on both sides of the pump cylinder are arranged in their pressure chambers, the one with the pump cylinder and one above the pressure chambers provided reservoir for the pump medium a common housing form, the pressure chambers in a well-known manner about Valves with the reservoir stay in contact.

An axially parallel arrangement of two membranes, one double acting piston are acted upon by a pump medium is known per se. at However, the known pumps of this type do not form part of the diaphragms Liquid line, apart from the fact that the membranes like in these pumps the pistons are also housed in a single housing, creating a in relation to the delivery rate results in a spacious design. In contrast, are in the pump according to the invention, the membranes, the pressure chambers for the transmission fluid, the pump cylinder for the transfer fluid and the reservoir summarized in a particularly space-saving manner in a single housing and are available directly connected to each other without the interposition of pipelines.

In the figures, the invention is shown schematically in one embodiment shown. FIG. 1 shows a cross section through a double-acting diaphragm pump and FIG. 2 shows a longitudinal section through the pump according to section line II-II of Fig. 1.

The housing is denoted by 1 in the figures.

Inside the housing, the cylinder chamber 2 is arranged in which the Piston 22 is slidably mounted. This is done by means of the crankshaft 23 and moved here. The pressure chambers are located in the housing 1 on both sides of the cylinder chamber 2 3 and 4 provided for the transmission fluid, in which axially parallel to each other the membranes 5 and 6 are arranged. The membranes are designed like tubes and form part of the liquid line.

Around the membranes 5 and 6 are the supporting devices perforated tubes 12. They are attached to the Connecting piece 20 and 21 attached. The latter can be seen in detail from FIG.

The pressure chambers 3 and 4 are on the side through openings in the housing 1 accessible, which are closed by means of the cover 3 'and 4'. Another Part of the housing forms the reservoir 13, which is above the pressure chambers 3 and 4 and the cylinder bore 2 is arranged. This arrangement of the reservoir also has the advantage that, if necessary, along the piston rod 22 ' penetrating leakage liquid directly enters the reservoir and as a result is still available as transfer liquid. A connection from Storage tank 13 to the pressure chambers 3 and 4 for the transmission fluid consists of the openings 16 and 17. The openings 16 and 17 are through the valve cone 14 and 15 closed. If the pressure in pressure chamber 3 is impermissibly high, da.s. opens Pressure relief valve 14, while there is a lack of fluid in the pressure chamber 3 through the opening 17 liquid can flow from the storage container r 13. A corresponding arrangement of valves is also provided for the pressure chamber 4.

The way the diaphragm pump works, in a single housing 1, the cylinder chamber 2, the pressure chambers 3 and 4 and the reservoir 13 are combined is, as can be seen from FIGS. 1 and 2, as follows: The crank 23 moves the piston 22 back and forth. This compresses as it moves on the crank to the pump medium in the pressure chamber 3.

The opposite shift results in a compression of the Pump medium in the pressure chamber 4, where the membranes 5 and 6 are alternately compressed and be relieved again. As can be seen from FIG. 2, the membranes work with j. a suction and a pressure valve together.

The suction valve is denoted by 7, which is through the rubber valve ball 8 can be closed.

The pressure valve is labeled 9 and the associated valve ball is labeled 10. The valves are each arranged in the drainage connection 20 and 21, respectively. The pressure equalization is produced via the valves 14 and 15, via which the pressure chambers 3 and 4 are in connection with the storage container 13 when an overpressure or there is a negative pressure.

As can be seen from the figures, is in the case of the pump shown cleaning the pump housing particularly easy. All that is needed is the two Take out valve balls 8 and 10 and then the inside of the diaphragms with a flush with a powerful jet of water while cleaning the pressure chambers and the Cylinder space only the cover 3 'and 4' have to be removed. For cleaning is therefore, unlike the known Äiembran pumps of this type, not a Separation of different housings from each other, which accommodate the individual aggr-cgate, necessary. The Membraunen 5 and 6 are made of rubber or a known manner rubber-like plastic. For the connecting pieces 21 and 22, for example plastic can also be used. In addition, there are also porcelain, cast iron or stainless alloys.

Claims (1)

As the figures show, the pump housing is characterized which includes all essential units for the operation, through its crowded design, so that of the diaphragm pump according to the invention in proportion only a small amount of space is required for the service. PATENT CLAIM: internal cylinder pump for pumping sludge-like liquids with two of a double-vibrating piston over a pump medium in a special one each Pressure chamber controlled, a part of the liquid line forming hose-like Äiembranen, characterized in that the two membranes (5, 6) are axially parallel to each other on both sides of the pump cylinder (2) iii their pressure chambers arranged are provided with the pump cylinder (2) and one above the pressure chambers (3. 4) Reservoir - (13) for the pump medium forming a common housing (1), wherein the pressure chambers (3, 4) in a manner known per se via valves (14, 15) with the storage tank (13) related. Documents considered: German Patent No. 577 401; Swiss Patent No. 251 213; French patent specification no. 585 051, 336 394; USA.-Patent Nos. 2,478,568, 1,832,257, "The Engineer", Vol. 193 (1952), No. 5025, p.655; "Engineering", Vol. 172 (1951), Issue 4481, p. 767.