DE2810567A1 - Laboratory membrane pump for gases - has casing hermetically sealed with adjustable inlet to regulate throughput - Google Patents

Abstract

The pump casing has a base (2) and an upper section (3) with a gasket (4) forming an hermetic seal between them. An outlet piece (6) attached to the inside of the top of the upper section carries the membrane (7) and a permanent magnet (8) beneath it. An electromagnet (5) is supported on the base of the casing. Gas enters through a filter (15) which projects upwards from the base alongside the electromagnet. A screw (18) on the underside of the base projects into the filter. It has an axial bore with radial openings to the outside which are more or less obscured according to the distance it is screwed in.

Description

P a t e n t a n t a n m e l d u n g Diaphragm pump for pumping gaseous Media The invention relates to a diaphragm pump for conveying gaseous media a two-part housing, consisting of a housing base and a housing upper part.

Such diaphragm pumps find a wide variety of uses, for example for the air supply to ventilation devices for aquarium systems, as suction and Pressure pump for laboratories in the medical industry and many others technical areas of application where it is a matter of continuously using an air consumer to be supplied with as constant an amount of air or gas as possible.

The known diaphragm pumps are relatively complex, work noisily and require a relatively large construction effort to control the pump output.

In a known construction, the pump body is on Bottom of the pump housing and has a disk-shaped one connected to the pump diaphragm Permanent magnet, by means of an electromagnet arranged at a distance above it is set in vibration. The electromagnet protrudes from the ceiling of the upper part of the housing down and can be adjusted by a control button on the top of the housing, which is connected to a threaded spindle, up and down in relation to the pump body be guided. The performance value of the diaphragm pump can be read on a scale attached to the top of the housing around the control knob.

Apart from the fact that the upper part of the housing in such a diaphragm pump be extremely stable for the adjustable arrangement of the electromagnet must, results from the adjustable suspension when the pump is in operation up and down oscillating electromagnets on the upper housing part a relatively high Noise level that is perceived as annoying.

In another known diaphragm pump, the electromagnet is on Housing bottom arranged while the actual diaphragm pump body is suspended above it is. This known diaphragm pump is also extremely complicated. Though the pump housing is only in two parts, but requires the suspension of the diaphragm pump an additional muffler cap that is attached to pillars raised from the floor of the pump housing. With this diaphragm pump, there would be a reduction in pump performance only possible by changing the oscillation frequency of the electromagnet but because of the structural effort required for this, for reasons of cost ruled out.

The invention is based on the object of providing a diaphragm pump of the initially mentioned mentioned type by simple constructive measures to the effect that the pump performance without Influencing the electromagnet to a large extent Limits can be regulated. This problem is solved according to the invention in that the housing is arranged between the housing base and the upper housing part Seal is hermetically sealed and one protruding from the housing base inward having tubular filter chamber with passage to the housing interior, the lower Part is designed with an internal thread for receiving a knurled head screw with a longitudinal bore open at the top and transverse bores directed to the side as well as a knurled washer, which with its edge over the circumference of the case back at least partially protrudes.

The invention provides several unpredictable advantages. This enables the hermetic sealing of the pump housing from the surrounding area Regulation of the pump output simply by adjusting the outside atmosphere Air supply by means of the Randel headless screw located on the bottom of the case. The knurled head screw can be adjusted from the outside of the housing as required so that either only the lowest transverse bore - partially or with its entire cross section - is exposed or in addition, there are also other transverse bores above it from the Outside air can flow through the vertically arranged, open top Longitudinal drilling of the knurled head screw in the filter material above flows in to then through the outlet openings of the tubular filter chamber to get into the interior of the pump housing, where they are sucked in by the diaphragm pump and is conveyed into the pressure line via the outlet valve of the diaphragm pump.

Further details and advantages of the invention emerge from the The following description of an exemplary embodiment shown schematically in the drawing. Show it Fig. 1 is a vertical section through a diaphragm pump and FIG. 2 shows a vertical partial section through the filter chamber of the diaphragm pump with the knurled set screw located at the lower end for regulation the air supply to the pump.

The housing 1 of the diaphragm pump consists of a housing base 2 and an upper housing part 3, which by a between the housing bottom and upper housing part arranged ring seal 4 are hermetically sealed against each other. On the case back 2 there is an electromagnet 5, while the diaphragm pump assembly, consisting from a pump body 6, a membrane 7 and a permanent magnet located underneath 8, sealed on the ceiling 9 of the upper housing part 3 by means of a rubber seal 10 is hung. From the upper housing part 3 protrudes a spout or a nozzle 11 for the Connection of an air hose to the top. The attachment of the pump body 6 on Upper housing part 3 takes place via lateral fastening straps 12 by means of several Fastening screws 13 which are screwed into the housing cover 9 from below are. The arranged on the housing base 2 electromagnet 5 is via a connecting cable 14 supplied with power, laterally next to the electromagnet 5 protrudes from the housing base 2 has a tubular filter chamber 15 which has an air outlet opening at its upper end 16 and is formed in its lower part with an internal thread 17 for receiving a knurled headless screw 18, which in turn has an open top Has longitudinal bore 19 and transverse bores 20 directed to the side thereof and on its lower end carries a knurled washer 21 with its edge 22 over the outer circumference 23 of the housing bottom 2 protrudes at least partially. The Psändel set screw 18 can move so far from the filter chamber 15 by turning the knurled disk 21 unscrewed at the bottom, that either one or more of the existing transverse bores 20 on the underside of the recessed at this point Housing bottom 2 protrude downwards and so the air access to the filter chamber 15 and further open more or less wide into the interior of the pump housing. In the filter chamber 15 contains filter floss or another suitable filter material 25th

The filter chamber 15 protrudes approximately to the top of the electromagnet 5 into the interior of the housing 1, so that the inflowing air or the like after passing through the filter material 25 directly to the membrane pump 6, 7 can flow. By screwing the knurled screw 18 into that shown in FIG In the closed position, the air supply to the pump body 6 can be completely shut off be0 In a further embodiment of the invention, the housing base 2 and the upper housing part 3 instead of a ring seal 4 also by a corresponding one Exactly fitting surface design on their abutting parts sealed against each other and connected to each other airtight by threaded bolts be.

Claims (2)

Patent claims embrane pump for conveying gaseous media with a two-part housing, consisting of a housing base and a housing upper part, characterized in that the housing (1) by an intermediate housing base (2) and housing upper part (3) arranged seal (4) is hermetically sealed and a tubular filter chamber (15) protruding inwards from the housing base (2) and having a passage to the housing interior, the lower part of which is formed with an internal thread (17) is for receiving a Randel headless screw (18) with a longitudinal bore that is open at the top (19) and transverse bores (20) thereof directed to the side, as well as a knurled washer (21) with their edge (22) over the circumference (23) of the housing base (2) at least partially protrudes 2. Diaphragm pump according to claim 1, characterized in that the filter chamber (15) approximately up to the top of the electric magnet (5) in the interior of the housing (1) protrudes 0