EP1179681B1 - Submersible motor pump unit - Google Patents

Description

The invention relates to a submersible pump arrangement, in particular as part of a Fresh water supply from a fresh water reservoir via a Hose line assembly to at least one removal fitting, with at least a submersible pump, which in a waterproof housing formed an electrical Drive motor for an impeller in an open pressure chamber, of which leads an outlet channel to a hose line, and with a pressure switch, which turns on when falling below a first output pressure threshold, the submersible pump and when a second output pressure threshold is exceeded, the submersible pump turns off and communicating with the output channel communicating sealed in the Housing is integrated and where connecting lines between the drive motor and the pressure switch within the housing.

For the water supply, for example in recreational vehicles, sales vehicles, Coaches or boats often become self-priming pumps used according to the principle of vane pumps, gear pumps, oval wheel pumps, Piston pumps or diaphragm pumps work. In a replica of a Domestic water supply system, in which the water is constantly under a predetermined Water pressure is pending, the pumps are often in a pressurized water system built-in. A commonly provided with a membrane pressure switch turns on the pump when a first, low outlet water pressure threshold is fallen short of. The submersible pump is switched off again when a second, higher output water pressure threshold is reached. The self-sucking Pumps are placed outside the water tank. For this Self-priming pumps are known to push the pressure switch into the housing to integrate the pump.

Operation of self-priming pumps outside the water tank are mounted, often leads to a noise nuisance, especially then Particularly disturbing is when the installation in a used as a sleeping place vehicle is done. Noise pollution is common even in neighboring vehicles noticeable. The sounds are often caused by resonances passing through the vibration of the pump via the fasteners for the pump or the Pressure line can be generated.

It is known that the noise pollution by the use of submersible pumps can be avoided. For this purpose used submersible pumps a waterproof trained housing in which an electric drive motor is arranged, whose output shaft sealed by a wall of the housing is guided in an open pressure chamber, where the output shaft with a Impeller is connected. From the pressure chamber, the water over a Output channel pressed into a hose. It is known such Submersible pumps use one or more, with several submersible pumps preferably be arranged as a cascade, i. that the exit channel an upstream submersible pump with the pressure chamber located downstream connected subsequent submersible pump. The supply of the drive motor with electricity via a sealed cable gland in the waterproof executed housing inside. A cascade arrangement of several Pumps in a single housing is known from DE 299 16 897 U1.

Such submersible pumps are usually switched on directly via electrical switches, which are actuated separately or preferably with the removal fitting can be coupled. In the latter case, the actuation of the removal fitting the electric switch is closed and the submersible pump switched on. DE 33 44 765 A1 discloses a submersible pump arrangement of the beginning mentioned type, in which the pressure switch in the form of a membrane switch housed in the housing of the submersible pump itself. In the output channel there is a check valve in the form of a flap valve. immediate downstream of the check valve is one with a pressure chamber of the Membrane switch communicating opening provided with a frontal Cover piece of the cylindrical housing is formed. The membrane is here Part of a plastic piece that is shaped to make it a sealed passage the power cable, the diaphragm, the check valve and the seal forms between the housing and the cover part. This part is just like that Housing complicated structure and does not allow realization of the submersible pump with previously common designs.

The invention is therefore based on the problem, a submersible pump assembly of the type mentioned above in such a way that the design conventional Submersible pumps without pressure switch are essentially maintained can.

Based on this problem is inventively a submersible pump assembly of the type mentioned above, characterized in that the pressure switch is arranged in a housing part, which is fixed and sealed as a separate part with a conventional housing part of the submersible pump without pressure switch is connected to the housing part of the pressure switch on an outlet spout the outlet channel of the housing part of the submersible pump is placed, wherein a pressure channel is formed by a gap with which the Pressure switch communicates and that a sealed cable gland between the housing parts is provided

According to the invention, the pressure switch is thus arranged in a housing part, as a separate part and sealed with a conventional housing part the submersible pump is connected without pressure switch, being in a special constructive embodiment, the housing part of the pressure switch on an outlet spout the output channel of the housing part of the submersible pump is placed and the pressure channel is formed by a gap. This is it possible, the previous housing submersible pumps without pressure switch with only minor modifications by the integrated pressure switch assembly in the housing to supplement, without changing the production of the submersible pump to have to.

In the context of the present invention, the pressure switch can be a customary used membrane switch, but also with a sealed guided piston be formed. It is also possible, the pressure switch as an electrical output signal emit the issuing pressure sensor whose output with a electrical switch is connected. In this way, the switching of the electronic switch by the output signal of the pressure sensor controlled.

Of course, the present invention is also suitable for a cascaded one Arrangement of several submersible pumps, the pressure switch then with the output channel the last submersible pump of the cascade communicates.

The invention will be described below with reference to a in the drawing in a vertical section illustrated embodiment will be explained.

The drawing shows a housing 1, which consists of a first housing part 2 and a second housing part 3. In the first housing part 2 is a Drive motor 4 mounted in a waterproof inner chamber into which a cable. 5 introduced with two wires 6, 6 'sealed. At the lower front end is a Output shaft 7 of the drive motor 4 through a seal 8 from the chamber led out of the drive motor 4 and projects into a pressure chamber 9, with a central inlet opening 10 is open at the bottom. In the area of the pressure chamber 9 is on the output shaft 7, an impeller 11 in the form of an impeller applied. The pressure chamber communicates with a chamber the drive motor 4 surrounding the closed annular space 12, so that the through the inlet opening 10 inflowing water through the impeller 11 also is pressed into the annular space 12 and so contributes to the cooling of the drive motor 4.

On the output side, the pressure chamber 9 at a radial end with an axially extending output channel 13, in which a check valve 14 is inserted is. The upper end of the outlet channel 13 forms a cylindrical spout 15, to which a hose 16 would be pushed, if a conventional Submersible pump would be used without the second housing part 3.

According to the invention, the second housing part 3 is placed on the first housing part 2, with a cylindrical connector 17 which is sealed is pushed over the nozzle 15 to form a gap 18, in a horizontal pressure channel 19 opens. The horizontal pressure channel 19 ends at a stepped diameter enlargement, at which a membrane 20 so is attached, that it closes the pressure channel 19 on one side. The membrane 20 is replaced by a hollow cylindrical piece 21 of the second housing part 3 at the outer Edge held and set. With the membrane 20 is a switch plunger 22nd connected, which triggers a switching operation in an electrical switch 22 '.

The arrangement of membrane 20, switch plunger 22 and electrical switch 22 ' forms a pressure switch 23.In the pressure switch 23, the wire 6 'runs into it and a wire 6 "connected to a terminal of the drive motor 4 is. With a second connection of the drive motor 4, the core 6 of the Cable 5 connected. Accordingly, the drive motor 4 becomes a supply current supplied only when the switch 22 'is closed. The switch 22 'is closed, that is conducting, when the pressure in the output channel 13 below a first output pressure threshold is. If the pressure increases due to the operation the pump wheel 11 via the second output pressure threshold, so is the membrane 20 bent away from its support surface, the switch 22 'switches so that a current-conducting connection between the wires 6 ', 6 "interrupted is, so that no further supply current supplied to the drive motor 4 and he stops.

The structure of the housing 1 with the two housing parts 2, 3, wherein the housing part 2 largely corresponds to the housing of a conventional submersible pump, allows by attaching the second housing part 3, a retrofit a conventional submersible pump with the arrangement of the pressure switch 23 in a watertight housing, creating a jointly manageable and No wiring required installation of the entire submersible pump assembly is possible.

The wires 6 ', 6 "are guided in a part of the housing part 3, the formation a sealed cable gland 24 angled and sealed by an upper end wall of the first housing part 2 is passed.

Although the main application of the submersible pump assembly according to the invention is in the fresh water supply, it is readily apparent that the Submersible pump assembly according to the invention also for the promotion of other liquids suitable is.

Claims (5)

1. Submersible pump arrangement, in particular as part of a fresh-water supply from a fresh-water storage tank via a hoseline arrangement to at least one extraction fitting, with at least one submersible pump which has in a casing (1) of watertight design an electric drive motor (4) for a pump impeller (11) in an open pressure chamber (9), from which an outlet duct (13) leads to a hoseline (16), and with a pressure switch (23) which switches on the submersible pump when a first outlet-pressure threshold is undershot and switches off the submersible pump when a second outlet-pressure threshold is overshot and which, communicating with the outlet duct (13), is integrated in a sealed-off manner into the casing (1), connecting lines (6, 6', 6") running between the drive motor (4) and the pressure switch (23) within the casing (1), characterized in that the pressure switch (23) is arranged in a casing part (3) which, as a separate part, is connected firmly and in a sealed-off manner to a conventional casing part (2) of the submersible pump without a pressure switch (23), to which casing part the casing part (3) of the pressure switch (23) is attached on an outflow socket (15) of the outlet duct (13) of the casing part (2) of the submersible pump, an interspace (18) forming a pressure duct (19), with which the pressure switch (23) communicates, and in that a sealed-off cable leadthrough (24) between the casing parts (2, 3) is provided.
2. Submersible pump arrangement according to Claim 1, characterized in that the pressure switch (23) is a diaphragm switch.
3. Submersible pump arrangement according to either one of Claims 1 and 2, characterized in that the pressure switch (23) is formed by a piston led in a sealed-off manner.
4. Submersible pump arrangement according to either one of Claims 1 and 2, characterized in that the pressure switch (23) is a pressure sensor which emits an electrical output signal and the output of which is connected to an electrical switch.
5. Submersible pump arrangement according to one of Claims 1 to 4, characterized by a cascaded arrangement of a plurality of submersible pumps, in which the pressure switch (23) communicates with the outlet duct (13) of the last submersible pump of the cascade.

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