DE8330793U1 - Pneumatic-electric control element for automatic pressure switch-off in pneumatic actuation systems with an electric air pump - Google Patents

Description

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IBS Brocke GmbH & Co KG in Morsbach

Pneumatic-electrical control element for automatic pressure cut-offs in pneumatic actuation systems with an electric air pump

The invention relates to a pneumatic-electric control element according to the preamble of the main claim, that for the automatic pressure switch-off in pneumatic actuation systems with an electrical one Air pump, such as in central locking systems of motor vehicles, is intended.

Central locking systems are used in motor vehicles with several locks for doors, lids and the like provided with which by a manual locking or unlocking process e.g. on a Vehicle door automatically unlocks or locks all vehicle locks at the same time will. Pneumatic central locking systems have recently been used for this purpose applied, in which each lock with one by air pressure and air pressure actuatable pneumatic control element is coupled and with an electric motor driven, reversible air pump in the system an overpressure or a negative pressure for simultaneous unlocking or locking of all locks is generated.

These pneumatic central locking systems contain a pneumatic-electrical control element of the type mentioned initially, with which the air pump for a manual triggering of the system Overpressure or underpressure generation is switched on and after reaching a predetermined overpressure or

Negative pressure in the system, in which the central actuation of all locks occurs, automatically again; is the cut off "In a nowadays most commonly used known construction they ^possess: control members one disposed on the board pressure switch with an actuated by a diaphragm piston piston rod which moves and depending on the pressure or vacuum pressure of the pressure switch from a central position in opposite directions while a movable Switching contact of the electrical circuit board takes along in order to bring the movable switching contact with one of two fixed switching contacts of the electrical circuit board circuit into contact that triggers the shutdown of the air pump. Since the size of the piston rod travel from the central position depends on the level of excess pressure or negative pressure acting on the pressure switch, two adjusting wheels are arranged on a thread of the piston rod that carry the movable switch contact in opposite directions, their distance from the movable switch contact in the central position of the piston rod as follows is set so that the movable switching contact is brought into contact with one of the two stationary switching contacts at that piston rod travel by which the piston rod moves from the center position until the predetermined overpressure b2w required for adjusting the locks is reached. Negative pressure in the central locking system moves. These known control elements therefore require a very complex manual adjustment of the adjusting wheels that entrain or switch over the movable switching contact in order to set the switching points of the pressure switch, which is a function of both the overpressure-dependent and the independent

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The pressure-dependent amount of movement of the opposite in two Direction of movement switching diaphragm pistons are prescribed on the very tightly tolerated! coordinate system overpressure and system underpressure. Another disadvantage of the construction and functional principle of the known control elements is that the separate movable electrical switching contact is required and is also manufactured and installed must become.

The invention has set itself the task of creating a control member of the type mentioned, with which avoids the difficult and costly manual adjustment of the previously used pressure switch can be saved as well as the separate switching contact, which is movably coupled to the pressure switch can be.

According to the invention, this object is achieved with the characterizing features of the main claim. The mode of action and advantages of the control member of the present invention are as follows. The pressure switch is not only arranged directly on the board, but it also acts with its electrically conductive Switching membrane provided with contact surfaces directly to the circuit board, i.e. with contact points on the to closing or opening interruptions of the circuit board conductors, electrically switching together. This makes the additional movable switching contact required in the known control members superfluous and simplifies manufacture and assembly of the control member. The electrical circuit board is designed in such a way that the air pump is activated when bridging the conductor track interruptions by means of the

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brane is switched on and by lifting the switching membrane is switched off by the circuit board or the contact points of the conductor interruptions. Everyone of the two membrane sections only needs overpressure or underpressure for one of the two types of pressurization to react and only execute a movement in one direction to trigger the pump shutdown. The pump shutdown is no longer pressure-proportional, as with the known pressure switches Stroke length of the piston diaphragm depends, but occurs at the moment the diaphragm sections are lifted off from the circuit board when the overpressure or underpressure in the central locking system reaches the target pressure, in which the membrane sections counter to the predetermined and predeterminable acting on them Spring force can be lifted from the board like a valve. There is therefore no need for the known control elements necessary complex manual adjustment of the stroke to be carried out to switch off the pump Pressure switch. The control member according to the invention is due to the aforementioned advantages over the previous Control member training easier and cheaper to manufacture and assemble. Beneficial Developments of the control member according to the invention are specified in the subclaims and are based on still described in the drawing.

In the drawing is an embodiment of the invention Control member shown schematically in section. The control element contains a circuit board 1, on the board side 2 of which are the interruptions in the conductor tracks to be closed or opened an electrical or electronic circuit are located, and a pneumatic

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matic pressure switch, a housing 3 and a Has cover 4. The housing 3 contains a switching membrane 5 made of a rubber-like flexible material and is with this switching membrane on the circuit board · side 2 arranged in a sealing manner. The cover 4 is sealingly adjacent to the opposite Arranged board side and carries in the illustrated embodiment an air connection 6 for connecting of the pressure switch with the pneumatic actuation system. For simple as well as detachable fastening of the pressure switch on the circuit board, the housing 3 is provided with fastening tongues 7, which are supported by holding slots 8 of the board 1 protrude and with hook-shaped ends in fastening recesses 9 of the Engage cover 4. The switching membrane 5 lying flat on the circuit board side 2 has two opposite sides the housing 3 and with respect to the circuit board 1, membrane sections 10 which are separate from one another and are sealed off from one another and 11. The circuit board 1 is in the area of the membrane section 10 with an overpressure circuit board opening 12 and in the area of the membrane section 11 with a vacuum plate opening 13 trained. These board openings 12 and 13 are from the membrane sections 10 and 11 closed like a valve. At the Pla.ti-

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Inner openings 12 and 13 are each / interruption one electrical conductor track 14 or 15 of the circuit board. To bridge the interruptions of the conductor track are the two membrane sections 10 and 11 on their side facing the circuit board 1 each with an electrical conductive contact surface 16 or 17 formed, z, B, by using an electrically conductive material for the switching membrane 5. The housing 3 contains two housing spaces 18 and 19, in each of which a spring 20 or 21 is arranged, which the mem-

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Burning section 10 or 11 presses against the plate 1 with a predetermined spring force. The cover 4 ·, has a pressure channel 22 to which the switching membrane 5 facing away from the air port 6 side of the pressure board opening 12 leads. The housing 3 has a vacuum channel 25 which communicates with the air connection 6 via an air passage hole 24 in the circuit board 1 and the switching membrane 5 and via a connecting channel 23 in the cover 4 and which leads to the housing space 19 which has a housing vacuum chamber on the circuit board 1 represents the rear side of the membrane section 11 which closes the vacuum plate opening 13, facing away. The housing space 18 located on the rear side of the membrane section 10 closing the overpressure plate opening 12 is ventilated via a housing opening 26. The vacuum plate opening 13 closed by the membrane section 11 is ventilated from the side facing the cover 4 via a cover opening 27.

When the pressure switch is pressurized, the membrane section 11 additionally to the vacuum plate opening 13 pushes, the membrane section 10 opens like a valve from the overpressure plate opening 12 lifted off and thereby the conductor track 14, triggering the pump shutdown, interrupted as soon as the overpressure generated in the pneumatic actuation system reaches the target pressure, which corresponds to the Set overpressure predetermined closing force of the spring 20 overcomes. When applying the pressure peeling ice with Underpressure, which additionally attracts the membrane section 10 to the pressure plate opening 12, becomes the membrane section 11 opening like a valve from the lower

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printing plate opening 13 lifted and thereby the Lei- j terbahn 15, triggering the pump shutdown, interrupted as soon as the negative pressure generated in the actuation system reaches the target pressure, which corresponds to this target negative pressure predetermined closing force of the Overcomes spring 21. The closing forces of the feet 20 and 21 are calculated and predetermined on the basis the target overpressure or target negative pressure and the light projected onto the membrane sections 10 and 11 The opening area of the board openings 12 and 13. Advantageously, that of the membrane sections 10 and 11 sealingly spanned cross-sectional area of Housing spaces 18 and 19 made larger than that of The effective cross-sectional area of the circuit board openings 12 and 13, which is closed to the membrane sections increases when the membrane sections lift off, the overpressure or underpressure effect of them exposed area and thus also the opening force and it is ensured that the membrane actually and reliably cut with their contact surfaces from the conductor tracks to be interrupted lift up.

Instead of being arranged on the cover 4 and in the overpressure To open into the channel 22, the air connection 6 can also be arranged on the housing 3 and then directly into the vacuum channel 25 joins i. The contact surfaces 16 and 17 can, for example, also consist of metal plates that are attached to a Rubber switching membrane are attached. Housing 3 with cover 4 can also be connected by a welded connection be attached to the circuit board 1.

Claims (4)

ItIl · ··· ■ · ** ■ · IBS Brocke GmbH & Co KG in Morsbach Protection claims j 1. Pneumatic-electric control element for automatic Pressure cut-offs in pneumatic actuation systems with an electric air pump, especially for pneumatic central locking systems of motor vehicles, consisting of a circuit board with an electrical circuit for Switching on and off the air pump and one on the circuit board with the system pneumatically connected pressure switch, which when a predetermined excess air pressure or negative air pressure is reached in the system the air pump is actuated switching clocks on the circuit board, characterized in that that the pressure switch has a housing (3) which is arranged on one side of the circuit board (1) and contains a switching membrane (5) resting on the circuit board, and one on top of the other Has the board side arranged cover (4), wherein the cover or the housing one Has air connection (6), that the switching membrane (5) two opposite the housing (3) and with respect to the board (1) sealed from one another and separated from a predetermined one Has membrane sections (10, 11) which can be lifted off the plate by spring force and the plate with two board openings that can be closed in a sealing manner by the membrane sections (overpressure board opening 12 and vacuum board opening 13) is formed, wherein the board openings and On the side of the circuit board facing the switching membrane there is an interruption in a conductor path (14 resp. - 2 - 15) of the circuit board is provided and the membrane sections each with an electrically conductive one Contact surface (16 or 17) to bridge the Conductor interruptions are formed, that the cover (4) has an overpressure channel (22) from the air connection (6) to that of the Switching diaphragm (5) leads away from the pressure plate opening (12), and that the housing (3) has a negative pressure channel (25) which leads from the air connection (6) to a housing negative pressure chamber (19) on the back of the vacuum circuit board facing away from the circuit board (13) sealing membrane section (11) leads. 2. Control member according to claim 1, characterized in that that the housing (3) has two housing spaces (18, 19) each with one of the two membrane sections (10, 11) contains spring (20, 21) pressing against the plate (1), that the membrane section closing the overpressure board opening (12) on the rear side (10) lying housing space (18) is ventilated via a housing opening (26), that the membrane section on the rear side of the vacuum circuit board opening (13) closes (11) housing space lying the housing vacuum chamber (19) and the vacuum board opening from the side facing the cover (4) is ventilated forth through a cover opening (27). 3. A control member according to claim 2, gekennzeich- characterized ', net, that of the diaphragm portions (10, 11) sealingly spanned cross-sectional area of the housing spaces (18, 19) is larger than the locked by the diaphragm portions sectional area of the over- or under-pressure board opening ( 12 or 13). 4. Control member according to one of claims 1-3, characterized in that for fastening the With the pressure switch on the circuit board, fit the housing (3) or the cover (4) with fastening tongues (7) which protrude through holding slots (8) of the board and with hook-shaped ends in mounting recesses (9) of the cover or the housing can be releasably locked into place.