DE9405162U1 - Diaphragm pump - Google Patents

Description

The invention relates to a diaphragm pump with a housing that has two housing parts and a clamping ring between them, with two coupled movable diaphragms, each of which is fixed between a housing part and the clamping ring, and which enclose a free space, and with a pump chamber delimited by one of the two diaphragms, which is provided with an inflow channel and an outflow channel, the inflow channel and the outflow channel each running through the diaphragm, and in the clamping area of which a valve flap serving as a check valve is formed from the diaphragm.

Such a diaphragm pump can be found, for example, in US-A 3,145,659. The diaphragm pump serves as a fuel pump that is driven by pressure fluctuations generated by an internal combustion engine that act on the second diaphragm. Since the volume of the free space is constantly changing, the free space is ventilated. Fuel escaping into the free space through a leaky diaphragm is not detected.

As a dosing device for an additive in the suction flow leading to a separator of a dental treatment station, a diaphragm pump is also known from WO-A 90/01909, which has two opposing, unconnected diaphragms, one of which forms a piston and is acted upon by a spring, and the second contains the valve flaps of alternately opening and closing check valves. If the diaphragm forming the piston becomes leaky, additive can be lost without this being noticed.

The invention now has the object of creating a diaphragm pump that can be used in particular as a dosing pump in a dental treatment station, in which a loss of medium due to a leaky diaphragm can be detected.

According to the invention, this is achieved by assigning leak detection means to the free space between the two membranes. The leak detection means can be designed in any way; for example, to detect liquid losses, electrical moisture sensors can be provided in the free space or in a drain leading from the free space. The design of the leak detection means naturally depends on the type of media flowing through the membrane pump.

In a preferred embodiment, the second membrane defines a second pump chamber, the inflow channel and the outflow channel of which each run through the second membrane, and in the clamping area of which a further valve flap is formed from the second membrane. This embodiment is particularly suitable as a coupled conveying or dosing device for different media, since the joint leak detection indicates any damage to each membrane. Mixing of the two media is almost impossible, since simultaneous damage or leakage of both membranes is quite unlikely.

In a further preferred embodiment, it is provided that each inflow channel and each outflow channel has start and end sections in the same housing part, which are connected by channel sections in the clamping ring. This simplifies production, since the connecting channel sections can be formed by grooves in the ring surface of the clamping ring.

In the following, embodiments of the invention are described in more detail with reference to the accompanying drawings, without being limited thereto.

Figures 1 and 2 show schematic sections through two different designs of a diaphragm pump.

A diaphragm pump has a housing 1, which is composed of a first housing part 21, a second housing part 22 and a clamping ring 19. Between the clamping ring 19 and the two housing parts 21, 22, two membranes 4, 5 are clamped along an annular edge area, so that the housing 1 is divided into three spaces. At least one of these spaces forms a pump chamber 2, 3. The two membranes 4, 5 are connected by a central part 16 and clamped by the clamping ring 19. Between the membranes 4, 5, there is a free space 14 as a third space, in which leak detection means 15 are shown schematically, so that a leak in each pump chamber 2, 3 is detected. An inflow channel 7 and an outflow channel 8 each consist of three sections, namely an initial section 9 opening into the pump chamber 2,3 and an end section 13 opening outwards, both of which are arranged separately from one another on the same side of the membrane 4,5 in the same housing part 21,22. On the other side of the membrane, a connecting section is provided in the clamping ring 19 for each channel 7,8, which can consist of a recess or a partially covered groove. Each inflow channel 7 and each outflow channel 8 contains a check valve which has a valve flap 11 and a recess 10 which enables its movement. Each valve flap is formed in the clamped edge area of the membrane 4,5 and is made from the membrane 4,5 by means of a three-sided incision or the like. The valve flaps 11 are thus located in the plane of the membrane 4,5 and each inflow and outflow channel 7,8 runs twice through the membrane 4,5.

In the embodiment according to Fig. 1, a pump chamber 2 is provided with an opening 20 through which a medium under pressure can flow in (not shown in detail). This is displaced from the first pump chamber 2 by the compressing return spring 6 in the second pump chamber 3 as soon as the pressure is released. Instead of using the medium entering through the opening 20, the

Diaphragm 4 can also be moved by a piston rod or the like, whereby the return spring 6 can also be omitted if necessary.

The second medium to be pumped is sucked into the second pump chamber 3 through the inflow channel 7 when the return spring 6 relaxes, whereby the valve flap 11 opens the opening 12 of the inflow channel 7 and the valve flap 11 of the outflow channel 8 closes its opening 12. If the return spring 6 is compressed, the valve flap 11 in the inflow channel 7 closes, whereas the valve flap 11 in the outflow channel 8 opens.

In the design according to Fig. 2, both housing parts 21, 22 are constructed in the same way and each have start and end sections 9, 13 of an inflow channel 7 and an outflow channel 8 in both pump chambers 2, 3. The two housing parts are arranged rotated by 90°. Four connecting sections 17 for the start and end sections 9, 13 run in pairs on both sides of the clamping ring 19. Common leak detection means 15 are contained in the free space 14 for both pump chambers 2, 3.

Claims (3)

Protection claims: 1. Diaphragm pump with a housing that has two housing parts (21, 22) and a clamping ring (19) between them, with two coupled movable diaphragms, each of which is fixed between a housing part (21, 22) and the clamping ring (19), and which enclose a free space (14), and with a pump chamber (2, 3) delimited by one of the two diaphragms (4, 5), which is provided with an inflow channel (7) and with an outflow channel (8), wherein the inflow channel (7) and the outflow channel (8) each run through the diaphragm (4, 5), and in the clamping area of which a valve flap (11) serving as a check valve is formed from the diaphragm (4, 5), characterized in that leak detection means (15) are assigned to the free space (14) between the two diaphragms (4, 5). 2. Diaphragm pump according to claim 1, characterized in that the second diaphragm (5) delimits a second pump chamber (2), the inflow channel (7) and the outflow channel (8) of which each run through the second diaphragm (5), and in the clamping area of which a further valve flap (11) is formed from the second diaphragm (5). 3. Diaphragm pump according to claim 1 or 2, characterized in that each inflow channel (7) and each outflow channel (8) has start and end sections (9, 13) in the same housing part (21, 22) which are connected by channel sections (17) in the clamping ring (19).