EP1177377A1

EP1177377A1 - Pressure valve

Info

Publication number: EP1177377A1
Application number: EP01913721A
Authority: EP
Inventors: Stanislaus Tomczak; Kurt Frank
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2000-02-29
Filing date: 2001-02-26
Publication date: 2002-02-06
Also published as: JP2003525391A; DE10009592A1; KR20020005015A; US20020157647A1; WO2001065108A1

Abstract

The invention relates to a pressure valve, especially a pressure regulator, of a fuel supply system. A contact terminal link (20) is joined in a fixed and durable manner to a housing part (4) of a pressure valve (2) with the aid of a joining material (24). A connector pin (20a) is formed on said contact terminal link (20). A cable that leads to an electrical ground can be easily connected to the connector pin (20a).

Description

pressure valve

State of the art

The invention relates to a pressure valve according to the preamble of claim 1.

DE 197 12 155 AI and WO 98/42973, which belong to the same patent family, show an electrically conductive component which is held in an electrically insulating arrangement. An electrically conductive connection is connected to the electrically conductive component. The electrically conductive component is connected to the electrical potential of an electrical conductor via the electrically conductive connection. The publications mentioned show different exemplary embodiments. In one of the exemplary embodiments, a plug connection is formed on the housing of a pressure regulator. For this purpose, a tab is punched onto the housing and the tab is bent outwards so that the tab can be connected with a plug-in coupling. A disadvantage of this embodiment is that the housing is given an opening by punching out the tab, so that the pressure regulator is not everywhere, in particular not can be arranged in the area of the engine compartment of a motor vehicle. In another exemplary embodiment in the publications mentioned, a plug-in tab is soldered to a holding clip. However, this embodiment has the disadvantage that a special retaining clip must be used and the effort for producing this retaining clip is increased. Another disadvantage is that the electrical connection is not directly connected to the housing of the pressure regulator, which may result in poorer electrical contact with the housing of the

Pressure valve can run. In further exemplary embodiments shown in the publications mentioned, resilient elements make electrical contact with the housing of the pressure regulator. However, these designs have the disadvantage that additional resilient elements are required and that electrical contact resistance between the surfaces of the components used, in particular a contact resistance between the housing of the pressure regulator and the resilient element to which the electrical connection is connected, arises.

The German patent application DE 195 26 524 AI shows a pressure valve for controlling a pressure in a fuel supply system of a motor vehicle. The

Pressure valve has a fuel supply connection and a fuel overflow connection. A tubular connection for the atmosphere or for the intake pressure of the internal combustion engine is attached to an upper housing part of the pressure valve. The shown in DE 195 26 524 AI

Pressure valve is installed in a fuel rail. If the fuel rail is made of electrically non-conductive material, the pressure valve may become electrostatically charged. Advantages of the invention

The pressure valve designed according to the invention with the characterizing features of claim 1 has the advantage that an exact positioning of the contact connection tab is easily possible and that the electrical contact between the

Contact connection tab and the pressure valve is guaranteed in a simple manner and very securely.

Advantageous further developments and improvements of the pressure valve specified in the main claim are possible through the measures listed in the subclaims.

If the gas connection is connected to the pressure valve via a connecting material, which connecting material can be a fusible solder, then there is the additional advantage that both the connection between the gas connection and the housing part as well as the connection between a common operation the

Contact connection tab and the pressure valve can be made.

If the gas connection is in the form of a tube and this tube protrudes through a through hole provided in the contact connection lug, this gives the advantage that the connection between the gas connection and the housing part and the connection between the contact connection lug are very simple and the pressure valve can be manufactured. If that

Through hole completely surrounds the gas connection in the form of the tube, then you get the advantage that the connection can be made particularly easily without great effort and is excellent Tightness and good mechanical stability can be achieved

The attached in the area of the transition point contact tab has the advantage that

Housing part can be reinforced by the contact connection tab in the area of the transition point, without additional effort being required.

drawing

Preferably selected, particularly advantageous

Exemplary embodiments of the invention are shown in simplified form in the drawing and are explained in more detail in the description below. 1 shows a view obliquely from the side of a first exemplary embodiment, FIG. 2 shows a detail of the first exemplary embodiment in a sectional view, FIG. 3 shows a detail of a modified exemplary embodiment, and FIG. 4 shows another

Exemplary embodiment also diagonally from the side.

Description of the exemplary embodiments

The pressure valve designed according to the invention is used, for example, to control or regulate a pressure in a fuel supply system of an internal combustion engine. For example, an Otto engine may come into question as an internal combustion engine. The fuel is, for example, gasoline or diesel, and because gasoline is particularly flammable, it is proposed that the pressure valve be designed according to the invention at least when the fuel is gasoline. FIG. 1 shows a first, preferred, selected, particularly advantageous exemplary embodiment. Figure 2 shows a detail of the exemplary embodiment. FIG. 2 shows a section of a longitudinal section of the pressure valve.

In all figures, parts that are the same or have the same effect are provided with the same reference symbols. Unless otherwise stated or shown in the drawing, this applies to one of the figures and

Shown also in the other exemplary embodiments. Unless otherwise stated, the details of the various exemplary embodiments can be combined with one another.

FIG. 1 shows a pressure valve 2. The pressure valve 2 has a housing part 4. The housing part 4 can, for example, be assembled from several individual parts punched out of sheet metal. The housing part 4 is composed, for example, of two pot-shaped individual parts which are bound together.

The pressure valve 2 has a fuel inlet connection 6, a fuel outlet connection 8, a gas connection 10, a first sealing ring 12 and a second sealing ring 14. The fuel inlet connection 6 is formed by holes punched into the housing part 4. The fuel flow connection 8 is located, for example, on a connecting pipe inserted into the housing part 4 in a pressure-tight manner. The fuel flows through the fuel inlet connection 6 into the pressure valve 2, and the fuel flows out of the pressure valve 2 again via the fuel extension connection 8. The pressure valve 2 is, for example, an electrically non-conductive plastic

Fuel rail mounted. For better clarity, the fuel rail is not shown because of the drawing. The pressure valve 2 is inserted, for example, in a bore provided in the fuel rail. In the fuel rail there is an inlet pipe leading to the hole and an outlet pipe leading away from the hole. The feed line leads the fuel to the fuel feed connection 6 of the pressure valve 2; the flow line conducts the fuel from the fuel flow connection 8 of the pressure valve 2, for example, to a consumer or to a storage container, not shown. The first sealing ring 12 seals the bore provided in the fuel distribution pipe and the inlet line hm to the outside. The second sealing ring 14 seals the inlet line leading to the fuel inlet 6 through the fuel distribution pipe against the outlet line which decreases the fuel from the fuel outlet connection 8.

The pressure valve 2 is installed, for example, in the fuel rail, as described and illustrated in the German Offenlegungsschπft DE 195 26 524 AI. Inside, the pressure valve can be constructed in the same way as described and illustrated for example in DE 197 12 155 AI or in WO 98/42973 or in DE 195 28 739 AI or in US 5,509,390 or in DE 195 26 524 AI is. To avoid unnecessary repetitions, please refer to the above

Publications shown ways to design the built-in inside the pressure valve 2 internal parts referenced. The pressure valve 2 can be, for example, a pressure control valve or a pressure control valve or a differential pressure control valve or a differential pressure control valve. Inside the pressure valve 2 there is, for example, a fuel chamber and a pressure control chamber. A diaphragm group separates the pressure control chamber from the fuel chamber. The fuel inlet connection 6 leads into the fuel chamber. Via the gas connection 10, the pressure control chamber of the pressure valve 2 is connected, for example, to a suction line of the internal combustion engine via a line which is not shown for clarity. Via the gas connection 10, for example, the negative pressure prevailing in the suction line can be passed into the pressure control chamber provided in the pressure valve 2.

On a lateral surface of the housing part 2, there is a transition point 16. At the transition point 16, the gas connection 10 flows into the housing part 2 of the pressure valve 2. The transition point 16 between the gas connection 10 and the housing part 4 is designed so that a tight Connection between the gas connection 10 and the housing part 4 is ensured, that is to say that the interior of the pressure valve 2 is sealed off from the surroundings.

The gas connection 10 is, for example, a piece of pipe consisting of electrically conductive sheet metal. The housing part 4 is, for example, one made of an electrically conductive one

Punched-out plate-shaped component. To connect the gas connection 10 to the housing part 4, an opening 18 (FIG. 2) is provided in the housing part 4 on the cylindrical outer surface. The opening 18 is like this dimensioned that the gas connector 10 can be inserted into the opening 18 with little play.

At the transition point 16, the gas connection 10 is firmly connected to the housing part 4 using a connecting substance 24. The connection takes place, for example, by soldering, in particular by brazing, or by welding. The fusible connector 24 is preferably copper solder. The connecting substance 24 is therefore usually very good electrical conductor.

A contact connection tab 20 is provided in the area of the transition point 16. The contact connection tab 20 has a through hole 22. The through hole 22 is dimensioned such that the tubular gas connection 10 can be inserted through the through hole 22. Because the gas connection 10 has a bulge 10a at its end protruding from the housing part 4, the gas connection 10 is inserted through the through hole 22 of the contact connection tab 20 when the pressure valve 2 is assembled before it is inserted into the opening 18 of the housing part 4.

After plugging the contact connection tab 20 onto the gas connection 10 and after inserting the gas connection 10 into the through hole 22, the tubular gas connection 10, the contact connection tab 20 and the housing part 4 in the region of the transition point 16 are made using the connecting substance 24 soldered to each other.

Figure 3 shows a modified version. Here there is a modified gas connection 10 ^λ instead of the gas connection 10. The gas connection 10 has no bulge. In this embodiment, the contact connection tab 20 with their passage hole 22 are directly inserted ^λ from the outside to the gas terminal 10th

The pressure-tight soldering of the gas connection 10, 10 ^Λ to the housing part 4 and the attachment of the

Contact connection tab 20 can be done in a common operation. No additional effort is therefore required to attach the contact connection tab 20. Therefore, without requiring additional effort, an excellent, durable, electrically good conductive and absolutely safe connection between the contact connection tab 20 and the gas connection 10, 10 ^λ or between the contact connection tab 20 and the housing part 4 can be created.

The end of the contact connection tab 20 protruding from the transition point 16 projects beyond the housing part 4. This end of the contact connection tab 20 is designed in the form of a plug pin 20a. The plug pin 20a is dimensioned such that an electrical plug coupling which is usually used in motor vehicles can be plugged onto this end of the contact connection tab 20. There is an electrical cable on the plug-in coupling. The cable connects to an electrical pole of the motor vehicle, this electrical pole preferably also being the electrical ground of the motor vehicle. By plugging in the plug-in coupling, the cable can very easily be electrically connected to the contact connection tab 20. It is thereby achieved that the pressure valve 2 or the housing part 4 and / or the gas connection 10, 10 'are also electrically connected to a defined electrical potential when that Component, which the pressure valve 2 is installed, consists of an electrically non-conductive material.

The contact connection tab 20 is electrically securely and permanently permanently connected to the gas connection 10, 10 ′ and to the housing part 4 via the connecting material 24. The connecting substance 24 forms a secure electrical connection between the contact connection tab 20, the housing part 4 and the gas connection 10, 10 '. Even if the gas connection 10, 10 'or the housing part 4 consists of an electrically non-conductive material, then there is still an electrical connection between the contact connection tab 20 and the other component made of electrically conductive material, the housing part 4 and the Gas connection 10, 10 ', guaranteed.

If the connecting material 24 is made flowable by appropriate addition of heat, then it flows into the gap between the components to be connected. Because the connecting substance 24 has a large area in the

If gaps between the components, that is, between the contact connection tab 20, the housing part 4 and the gas connection 10, 10 ', flows, the contact connection tab 20 also provides mechanical reinforcement of the housing part 4 in the region of the opening 18 without any additional effort and in addition a mechanical reinforcement of the connection between the housing part 4 and the gas connection 10, 10 '.

As FIGS. 2 and 3 show, the gas connection 10, 10 'and the housing part 4 are assembled from separate components. In conversion of this, it is also possible to form the gas connection 10, 10 'and the housing part 4 in one piece from the beginning. In this modification, too, it is advantageous to use the contact connection tab 20 at the transition point 16, at which the housing part 4 merges into the gas connection 10, 10 ', to be provided and to be fastened with the connecting substance 24, because in this case too, at the transition point 16, an excellent electrical connection between the contact connection tab is simple 20 and the housing part 4 or between the contact connection tab 20 and the pressure valve 2 is created.

FIG. 4 shows a further, preferably selected, particularly advantageous exemplary embodiment.

In the exemplary embodiment shown in FIG. 4, a gutter 26 extending over the entire thickness of the contact connection tab 20 is provided. The Ansenkrinne 26 is mounted instead of the through hole 22 shown in Figure 1.

In the exemplary embodiment shown in FIG. 4, it is possible to insert the gas connection 10 in advance into the opening 18 of the housing part 4 and then to slide on the contact connection tab 20 without having to take the bulge 10a of the gas connection 10 into account.

Claims

Expectations

1. Pressure valve, for controlling a pressure in one

Fuel supply system of a motor vehicle, with a housing part (4), with a fuel supply connection (6), with a fuel flow connection (8) and with a gas connection (10) connected to the housing part (4) at a transition point (16) 10 '), characterized in that an electrically conductive contact connection tab (20) is provided, the contact connection tab (20) being fastened to the pressure valve (2) at the transition point (16) with the aid of an electrically conductive connecting material (24).

2. Pressure valve according to claim 1, characterized in that the gas connection (10, 10 ') with the housing part (4) via the connecting material (24) is connected pressure-tight.

3. Pressure valve according to claim 1 or 2, characterized in that the contact connection tab (20) has a through hole (22), the gas connection (10, 10 ') being designed in the form of a tube and the tube through the through hole (22 ) protrudes.

4. Pressure valve according to claim 1 or 2, characterized in that the contact connection tab (20) Ansanskrinne (26), wherein the gas connection (10, 10 ') is formed in the form of a tube and the tube protrudes through the Ansenkrinne (26).

5. Pressure valve according to one of the preceding claims, characterized in that the housing part (4) consists of an electrically conductive material.

6. Pressure valve according to one of the preceding claims, characterized in that the gas connection (10, 10 ') consists of an electrically conductive material.

7. Pressure valve according to one of the preceding claims, characterized in that the connecting material (24) e is solder.

8. Pressure valve according to one of the preceding claims, characterized in that the contact connection tab (20) serves as a plug pin (20a) of an electrical plug connection.

9. Pressure valve according to one of the preceding claims, characterized in that the pressure valve (2) is arranged on a fuel distribution pipe consisting of electrically non-conductive material.