DE2823734A1 - FUEL CONVEYOR UNIT - Google Patents

Description

1337 / ot / hn

May 9, 1978 - <2Γ -

State of the art

The invention is based on a fuel delivery unit according to the Genre of the main claim.

If a liquid is conveyed with the aid of a liquid pump, which is designed as a piston pump or a related pump, for example as a positive displacement pump, then the medium to be conveyed becomes sucked in, compressed and pushed out, this process being repeated cyclically in quick succession. With one for fuel delivery The roller cell pump, which is often used as a displacement pump, repeats the suction, compression and pushing process of the Pumped medium per pump revolution as often as there are separate chamber volumes available, in the case of a five-cell Roller cell pump, for example, five times. Each of these pumping processes involves a brief drop in the suction vacuum as well as an increase in the delivery pressure. The resulting pressure vibrations of the conveyed medium, which are both on the suction and pressure side of the pump and the frequency of which is determined by the pump speed, lead to pressure peaks on the suction and pressure side of the fuel feed pump, which not only represent a general exposure, but also in particular in the form of sound waves (mainly structure-borne noise) spread and thus possibly generate an annoying noise level, which can be attributed to the operation of the pump.

If the noise-generating pump is a fuel feed pump in a motor vehicle or other mobile

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len unit, then the main source of noise in it is closed find that the suction and pressure side pressure fluctuations are reflected as structure-borne noise on the body (pressure side) and on the tank (suction side) transfer.

In such electric fuel pumps, it is known in the rest, a Provide memory for the fuel pumped under pressure, which comprises a closed housing, in the working space is a The spring-loaded diaphragm is located. The working space of the store located outside the fuel feed pump is via a Connecting line connected to the outlet line of the fuel feed pump, so that the fuel delivered when the pump is working the working space of the accumulator fills and thereby the spring-preloaded Pushes back the membrane. The accumulator back space located on the side of the membrane facing away from the fuel is therefore pressureless, that is to say for the Atmosphere vented; In this back space there is also the compression spring which gives the diaphragm a pretension can keep a certain supply of fuel under pressure when the fuel pump is not working.

However, such a memory represents a certain security risk, because of leaks in the housing (crimps, connections of the supply line, etc.), in the area of the membrane clamping or through If the diaphragm ruptures, fuel can flow into the atmosphere.

Advantages of the invention

The fuel delivery unit according to the invention with the characterizing

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the features of the main claim has the advantage that the memory can also be used as a pressure peak damper. The two on top of each other via the resilient membrane of the memory The pressure vibrations acting on the system enable the pressure peaks to be reduced and, at the same time, reduce noise.

It is also particularly advantageous that the memory within the in any case arranged pressure-tight housing of the electric fuel pump can be, causing leaks of the memory, should they ever occur, not detrimental to the basic operation of the Fuel pump can affect. In fact, perfect tightness of the housing of the electric fuel pump is necessary anyway and is also easier to control. By installing the connected between the pressure and suction side of the electric fuel pump, At the same time, suction and pressure-side pressure peaks attenuating accumulators are also unnecessary, supply lines to the otherwise external one Storage and monitoring of the same for leaks.

The measures listed in the subclaims are advantageous Further developments and improvements of the fuel delivery unit specified in the main claim are possible.

drawing

An embodiment of the invention is shown in the drawing and is explained in more detail in the following description. The drawing shows a schematic representation of the pressure peak damper working memory and its assignment to the fuel feed pump.

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Description of the examples of the invention

In the drawing, the functional unit of the pump unit is .nit I designated; the pump 1 with suction port la and pressure outlet port Ib divides the suction side 2 from the pressure side 3. The pump 1, their Structure can be of any type and is not described in detail here, since it is not the subject of the invention Tank 4 via a "connecting line 5, the medium to be conveyed, usually In the present exemplary embodiment, therefore, fuel is supplied, with an optional flow rate only from the tank 4 in Direction of the fuel feed pump 1 permitting check valve 6 can be arranged in the fuel feed line 5. The den The memory 7 containing pumped fuel under pressure is shown in the drawing as a separate element with a surrounding Wall 7a is formed and is divided by a membrane 8 into two spaces, namely a working space 9 and a storage back space 10. If the spring biasing the membrane 8 is designed as a compression spring 11, as in the illustrated embodiment, then it is located in the memory back space 10.

The memory function results from the fact that the from the fuel feed pump 1 delivered fuel from the outlet line 12 passes through a branch line 13 into the working space 9 of the memory 7, the membrane being pushed back against the spring pressure is, whereby a predetermined amount of fuel accumulates in the working space 9 of the memory, which during operation the electric fuel pump 1 is under the outlet pressure, which is in The state of equilibrium is the same as that of the spring 11 on the mem-

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bran 8 pressure exerted.

An essential inventive measure is that the otherwise The accumulator back space 10 vented to the atmosphere is made tight and is connected to the suction side 2 via a connecting line 14 stands, so that the back space of the storage tank with the one below the suction side Pressurized fuel is filled. Assuming that the pressure of the fuel on the suction side is around 1 bar and on the Pressure side is about 6 bar, then the compression spring 11 takes care of the Pressure equalization and establishes a state of equilibrium in which, in any position of the membrane 8, the suction and pressure fluctuation peaks on the pressure side can act. Those that occur on both sides when the electric fuel pump is operated Pressure fluctuation amplitudes are roughly the same and can have a fluctuation range of approx. + ^ 0.2 bar.

As studies have shown, there are pressure peaks on the suction side do not occur at the same time as the pressure peaks on the pressure side,

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the overall system / can be designed so that one preferably 180 phase shift of the respective pressure peaks occur, it is possible that a mutual Reduction of pressure peaks and thus a damping of the pressure fluctuations and the noise level of the electric fuel pump that goes back to them is possible through the use of the memory that is already available.

A particular advantage of the present invention then results if the memory function is integrated in the electric fuel pump,

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that is, in the housing indicated by the dashed lines 15 of the electric fuel pump is installed. In this case it can even in the event of a failure of the accumulator 7, no more fuel can escape, both the accumulator function and the the pressure peak damping between pressure and suction side is ensured

It goes without saying that it is in the case of the electric fuel pump integrated memory does not have to be the membrane-spring version you see, when it is installed in space problems could arise in the housing of the fuel pump. Every aggregate is responsible for fulfilling the storage function suitable, which container-like the fuel which is under comparatively high pressure when the fuel feed pump is in operation can absorb in the desired amount and is able to deliver this amount of fuel under pressure or during operation to act in a compensatory manner on the pressure states due to the storage function.

This means that after the fuel feed pump 1 has been switched off, the memory Pressurized fuel does not pass through the fuel feed pump 1 flows back to the suction side 2, is seen from the pressure outlet 1b of the pump 1 in front of the branch point of the lines IZ and 13 a check valve 16 is arranged.

Finally, there is still between suction side 2 and pressure side 3 a pressure relief valve designated 17.

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Claims (5)

2 8 / 'S 7 3 4 Dipl. Mg. Peter Otte _{7O33 Herrenberg (Kuppingen)} Patent attorney Eifelstrasse 7 Telephone (O 70 32) 319 99 1337 / ot / hn
May 9, 1978 Robert Bosch GmbH, 7000 Stuttgart PATENT CLAIMS / lJ Fuel delivery unit, especially electric fuel delivery pump For motor vehicles and the like., With a memory for the delivery medium, which has a limited amount of the delivery medium preferably by means of a spring before ge tensioned membrane keeps under pressure and with the pressure side of the fuel feed pump is connected, characterized in that the normally vented to the atmosphere storage back space (10) with the The suction side (2) of the fuel feed pump (l) is connected in such a way that that through the suction and pressure side separation of the conveying medium only through the flexible membrane (8) a mutual Action of the pumped medium for the suction and pressure side pressure peak damping takes place. 2. Fuel delivery unit according to claim 1, characterized in that that its working space (9) is connected to the pressure side (3) and its storage back space (10) is connected to the suction side Storage (7) is arranged within the housing (15) of the electric fuel pump. 9 09 8 k 9/01 9 8. ORIGINAL INSPECTED 1337 / ot / hn May 9, 1978 - 2 - 3. Fuel delivery unit according to. Claim 1 or 2, characterized in that that seen from the outlet side of the fuel feed pump (1) before the connection to the memory (7) Line (13) a check valve (16) is arranged. 4. Fuel delivery unit according to one of claims 1 to 3, characterized characterized in that between the tank (4) and the connection port (14) from the suction side (2) to the storage back space (10) another check valve (6) is arranged. 5. Fuel delivery unit according to one of claims 1 to 4, characterized characterized in that a pressure relief valve (17) is connected between the suction and pressure side (2, 3). 909849/0198