DE2410273A1 - Fluid pump priming device - comprises pump housing insert outlet holes preventing gas/air accumulation - Google Patents

Abstract

Priming devices for a fluid pump of the membrane or piston type with a cylindrical pump housing, the lengthways axis of which is horizontal or inclined to a horizontal plane, where the inlet is arranged in the cylinder surface, the outlet in the one end surface, and a membrane or piston moving backwards and forwards in the other end surface. The pump housing is provided with unit containing both inlet and outlet holes and their corresponding check valves. There is at least one outlet hole arranged along only a part of the outer edge, in which case the insert init is rotatable in the pump housing. Alternatively, where several outlet holes are available and arranged around the outer edge, the insert unit is then attached firmly to the pump housing cylinder surface. Thus, in both cases, at least one outlet hole is located in the upward facing part of the pump housing, so that gas or air coming in with the pumped fluid and inclined together in the upper part of the housing is forced out of the outlet hole(s).

Description

Venting device for a liquid pump The invention relates to a venting device for a pump specified in the preamble of claim 1 Art.

The pump is particularly useful as a fuel pump for passenger compartment heaters in motor vehicles or the like. provided, but by no means for this area of application limited. It is primarily a diaphragm type pump, but the invention is also advantageous at e.g.

Piston pumps applicable.

Earlier pumps of this type had problems getting an even To maintain the flow of the pumped liquid. The reason for this was that with Air, or some other type of gas, entrained with the liquid is in the pump housing collects and causes a deteriorated and uneven pumping effect. This The problem has now been solved in a simple and reliable manner in that the The ventilation device according to the invention has the characteristics specified in claim 1 received.

Since gas or air is always lighter than liquid, it collects the gas or air that follows with the liquid is always in the upper part of the Pump housing. Since now, according to the invention, the insert is arranged such that at least one outlet hole on the upper part of the effective part of the Pump housing is located, the gas or air leaves the pump housing together with the liquid, therefore does not accumulate there. The pump works as a result extremely uniform and delivers a precisely measured amount of liquid per Time unit. The amount is controlled in a simple way by speed regulation the drive device. When you get the desired amount of liquid per unit of time knows, the control can be adjusted during assembly.

The main advantage of the pump is that it can be arranged in any position in a confined space, for example in the engine compartment of a motor vehicle. After determining the position of the pump, turn the insert so that there is an outlet hole located on the top part of the pump housing. Then you screw the pump housing so together that the insert is clamped against the membrane and is in operation can not adjust. Alternatively, if the insert is permanently arranged, the below Covered holes in the insert before screwing the pump housing together will.

To get a more even outflow from the pump, in A standard type nozzle is inserted into the outlet from the pump housing.

The rotatable adjustable insert can be with one or more Outlet holes along part of its periphery. If there are several outlet holes setting the stake is less critical. Besides, the danger is one Clogging of the holes less.

There is nothing to prevent this from having several inlet holes in use arranges.

The reciprocating movement of the membrane is preferably thereby causes the membrane in its middle part to be fixed to an electrically operated, spring-loaded piston is connected, and the piston rod on the diaphragm with a Magnetic element is provided that the piston rod when current flows in one around the piston rod arranged winding against the spring force acting on the piston rod Spring in one direction outwards from the pump housing, and the piston rod in the other direction when the current is interrupted by means of the spring force of the spring to be led. The piston rod is provided with a radially extending groove in which is supported by one end of a resilient arm fixed in the housing of the pump, which in turn against a resilient control member of a switch fixed in the housing is present, which closes the current in the winding when the control element is pressed in and separates it when the control element is not pressed in.

The groove has such an axial extension that its widest the end wall on the outside of the piston rod at the furthest inserted end wall The position of the piston causes the arm to depress the control element of the switch, and that its innermost end wall on the piston joins the arm on the other The end position of the piston rod leads away from the control element of the switch. The suspension of the The arm is not big enough to cause the control member to be pushed in to can, but is sufficiently large that the arm in the depressed position of the control member able to keep the control member depressed.

The drive can of course also take place in other ways, for example with the help of an eccentric disc guiding the piston back and forth, which in turn powered by an electrical or mechanical btr.

The invention is described below with reference to the accompanying drawings Drawings described in more detail, in which Fig. 1 is a longitudinal section through an embodiment the pump according to the invention and Fig. 2-6 different embodiments of the show insert inserted into the pump housing. In Fig. 1 is a .Längsschnitt shown by an embodiment of the pump according to the invention, in which the circular cylindrical Pump housing 1 is provided with an insert 5 in the form of a circular disc, the outside diameter of which is essentially the same as the inside diameter of the pump housing matches. An inlet hole extends into the pump housing 1 in the cylinder surface 2 inside, and a recessed one running around the periphery of the insert Groove 10 is arranged so that it lies in the middle in front of the inlet hole 2. From the groove 10 extends a hole 7 into the insert with the other end of the hole on the side of the insert 5 which points to a membrane 4 moving back and forth. The groove 10 can of course also be formed as one in the cylinder surface of the pump housing recessed groove can be arranged.

The edge of the insert 5 has a raised flange on the membrane side 11 so that the effective part of the on the membrane side of the insert Pump housing is big enough. Instead of the flange 11 can also be a think annular disc. On the flange 11 are an outlet hole 6 (Fig. 2) or more Outlet holes 6I-6IV arranged along part of the periphery of the insert (Fig. 3), extending across the insert to the insert side leading to an outlet hole 3 points from the pump housing. The outlet hole or holes 6 need each other not to extend parallel to the cylinder surface of the pump housing, but can also be directed obliquely. In the outlet hole 3 sits upstream of the outlet of the pump a standard type nozzle 45 for uniform, non- to cause pulsating discharge.

The insert 5 also has a raised flange towards the outlet side 12 on. This flange can also be arranged on the end face of the pump housing be. In addition, a sealing ring 13 is arranged. The thickness of the insert on the edge is adjusted in such a way that the insert with the pump housing screwed together against the The diaphragm is clamped, which also seals against the diaphragm side of the pump housing causes, and the insert cannot twist during operation.

In front of the inlet on the surface of the insert facing the membrane side there is a check valve in the form of a leaf spring covering the inlet hole 7 9.

In front of the outlet hole or holes 6 there are one or more a plurality of check valves 8 fixed on the side of the disc facing the Outlet facing from the pump housing. If several outlet holes are arranged, you can, if you so wish, arrange a single leaf spring to cover all the outlet holes covers.

In another embodiment of the invention, the insert becomes solid Arranged in the pump housing, e.g. by gluing. In this case the groove is 10 not required, the inlet hole in use runs directly from the inlet hole 2. The insert 5 (Fig. 4-6) is also provided with a guide pin 22 which with a guide groove arranged in the pump housing for the purpose of correct adjustment of the insert fits together. In this case neither the pump housing nor need the insert to be circular, but can be oval in shape, for example. Around around the edge of the insert there are several outlet holes 23 (Fig. 4). When assembling the pump is on the diaphragm side of the disk a cover disk 29 (Fig. 5) for Covering the holes arranged, which in terms of position are not on top of the pump housing.

One or more holes can be left free. The inlet hole covering leaf spring has the designation 28.

The cover disk can be secured with clamping devices (not shown) or, in the case of circular use, with symmetrically arranged Outlet lids, provided with pegs that protrude downwards into the holes, that should be covered. Each covered hole can also have its cover disk.

In this case, the check valve preferably consists of one leaf spring 24 with spokes attached to the center of the insert (see Fig. 6), which covers all outlet holes 23 and attached to the side of the insert facing the outlet 3.

The latter embodiment can also be used without a cover plate or cover plate ben be effective.

The membrane 4 is in its central part in both embodiments firmly connected to a piston 14, which is thereby guided back and forth that he with current-carrying winding 17 against the spring force of one acting on the piston rod Spring 16 out and in the event of a power failure in the winding 17 in the opposite direction. The current in the winding is with a Switch 21 closed and separated. The switch is using one with his actuated one end fixed in the housing of the pump resilient arm 19, which with its other end rests in a groove 18 on the piston 14. The suspension of the arm is so adjusted that it is not large enough to be able to move without the help of those lying outside End wall of the groove 18 to be able to push in the resilient control member 20 of the switch 21, but that it is big enough so that the arm, when the control element is pushed in can keep this pressed in.

Claims (10)

Claims Venting device for diaphragm or piston type liquid pumps with a cylindrical pump housing (1), the longitudinal axis of which is horizontal or inclined to a horizontal plane is where the inlet (2) is in the cylinder surface, and the outlet (3) in one end face, and a reciprocating assembly (4) that either can be a membrane or a piston arranged in the other end face, it is noted that the pump housing with a both Inlet holes (7) and outlet holes (6) and check valves associated with them (9,10) containing insert (5) is provided that the number of outlet holes is at least is one, and the outlet hole or holes on the outer edge and only along one Part of the same are arranged, and the insert then rotatable in the pump housing can be used, or several outlet holes are present and arranged around the outer edge are, and the insert then preferably with the cylinder surface of the pump housing is firmly connected, so that in both cases at least one outlet hole is at the overhead part of the effective part of the pump housing is located, so that gas or air that follow along with the pumped liquid and strive to be in the to collect overhead Te 'of the pump housing, through the outlet hole or the Outlet holes (6) in the insert (5) go out with the liquid from the pump housing and therefore not gather there. 2. Ventilation device according to claim 1, d a d u r c h g e -k e n n n z e i n e t that the insert consists of a disc (5) with a circumference, which substantially coincides with the cylindrical surface of the pump housing that the disc is provided with at least one outlet hole (6) which is connected to the towards and facing arrangement a short distance from the periphery of the Disc is arranged and extends transversely through the disc to the outlet side, and that the inlet by means of one along the periphery of the disc (5) and / or along the cylinder surface of the pump housing located groove (10) takes place, which extends from the inlet (2) arranged in the cylinder surface to one arranged in the disc (5) Hole (7) extends from the periphery of the disc to the side of the disc extends facing the reciprocating assembly (4). 3. Ventilation device according to claim 2, d a d u r c h g e -k e n n z e i c h n e t that the reciprocating arrangement consists of a membrane (4) exists, and that the disc edge has a raised flange (11) on the membrane side, which is intended to rest against the membrane (4), and that the outlet hole (or the outlet holes) is (are) arranged next to the flange, and that the edge of the Disc to the outlet side and / or the end face of the cylindrical pump housing next to the cylinder surface have a raised flange (12), and that for sealing a sealing ring (13) between the disc and the pump housing on the outlet side is arranged on the flange. 4. Ventilation device according to one of the preceding claims, it is noted that the pump housing is circularly cylindrical is, and the disc is circular and adjustable in the pump housing that a Outlet hole to the side facing the reciprocating assembly (4), is adjustable for position in the overhead part of the pump housing, and that the groove in the periphery of the disc and / or the periphery of the cylinder surface is arranged in the pump housing around the entire cylinder surface. 5. Ventilation device according to one of the preceding claims, d a d u r c h e k e n n n z e i c h n e t that the inlet valve (9) consists of a das There is a leaf spring covering the inlet hole (7), which is attached to the side of the disc facing the reciprocating assembly (4) and that each exhaust valve (8) also consists of a leaf spring covering an outlet hole (6). those on the Side of the disc is attached, which faces the outlet from the pump housing. 6. Ventilation device according to one of the preceding claims, it is noted that the disc has only one outlet hole (Fig. 2). 7. Ventilation device according to one of claims 1-6, d a d u r it is noted that the disc has several outlet holes along one Part of its periphery (Fig. 3). 8. Ventilation device according to one of claims 1-7, d a d u r It is noted that the disc has several outlet holes that are symmetrical are arranged along the entire periphery of the disc (Fig. 4-6). 9. Ventilation device according to claim 8, d a d u r c h g e -k e It is noted that the insert is firmly connected to the pump housing, and that Inlet hole preferably a channel with a direct connection to the inlet hole in the pump housing is. 10. Ventilation device according to claim 8 or 9, d a d u r c h g It is not noted that for covering the holes that are not in terms of placement are on top of the pump housing, at least one cover plate on the side of the plate, facing the arrangement (4) can be arranged.