DE102015004093A1 - Motor vehicle lock with position detection means - Google Patents

Abstract

It is an object of the invention to provide a lock with position detection device with a small number of components and / or with a small space. To achieve the object lock is provided for a motor vehicle with a locking mechanism with which the lock can be locked, comprising a movable component and a position detection device for detecting a position of the movable component. The movable component is biased by a particular metal spring. The spring may also consist of another electrically conductive material, with metal being preferred for reasons of stability. By the spring, a circuit can be closed and so the position of the component can be detected. The circuit and the spring are therefore part of the position detection device. In particular, in comparison to the prior art known from the publication DE 10 2006 012 567 A1, it is advantageously possible to reduce the number of components that form the circuit. Since a spring is basically made of metal and thus is electrically conductive, no special choice of material must be made in order to realize the current path.

Description

The invention relates to a lock with a locking mechanism for a motor vehicle with a position detection device for detecting one or more positions such as closed position or open position.

With a locking mechanism, a lock can be locked. When locked, an associated door or flap can not be opened. An open requires unlocking the locking mechanism.

As the publication DE 10 2009 026 921 A1 can be seen, a locking mechanism comprises a rotary latch with an inlet slot, also called inlet mouth into which a locking pin, also called lock holder, a vehicle door or a vehicle door passes when the vehicle door or vehicle door is closed. The locking pin then rotates the catch from an open position to a closed position. If the catch has reached a closed position, then the locking pin can not leave the inlet slot of the catch. In such a closed position a pawl of the conversation locked the catch so that it can not be rotated back into the open position.

From the DE 10 2009 026 921 A1 is further known to provide two locking positions in a lock for a motor vehicle, which can be taken in succession during the closing of the rotary latch, namely the so-called pre-locking position and the so-called main locking position. In the main catch position, the catch is locked by a main catch pawl. In the pre-locking position, the catch is locked by a Vorrastsperrklinke.

In order to avoid that a pawl is not moved unplanned out of its detent position, according to the DE 10 2009 026 921 A1 a blocking lever may be provided which blocks such movement when the catch is latched. Such a blocking lever is required for the main catch pawl when the catch and the main catch pawl are designed so that the pawl in the main latching position introduces an opening moment into the catch to detent a locking with little effort.

A lock for a motor vehicle thus comprises a plurality of components, which are movable and are rotatably mounted in the rule. One or more of the rotatably mounted components are as in the DE 10 2009 026 921 A1 described biased by one or more springs in a direction of movement. If such a component, which is biased by a spring, moves counter to the direction of movement, this is done against the force of the spring. Basically, the catch is biased in the opening direction by such a spring, so that the catch is reliably moved after unlocking the lock into its open position. The DE 10 2009 026 921 A1 further teaches to bias the blocking lever by a spring so that it can be moved by the force of the spring in its blocking position. Such springs are basically made of metal.

The DE 10 2009 026 921 A1 teaches the provision of side by pawls arranged microswitches, which can be actuated by lateral contour areas of Vorrastsperrklinke and / or Hauptrastsperrklinke. The position of the respective pawl can be determined by actuation of the micro-switch to control a closing aid with which the locking mechanism can be automatically brought from the pre-locking position to the main locking position. That from the DE 10 2009 026 921 A1 So has a position detection device of the type mentioned.

The DE 10 2008 035 607 A1 discloses the provision of microswitches for detecting positions of a ratchet to control, for example, an interior light of a motor vehicle. The microswitches are arranged laterally by two pawls and can in turn be actuated by lateral contours of the pawls, so as to determine positions of the locking mechanism.

The publication DE 10 2006 012 567 A1 refers to a lock in which a circuit is closed in a closed position, so as to detect positions of the lock. Such a circuit leads from a control unit via a conductor track to an axis of a rotary latch. From the axis, the current path continues to the pawl. Via the axis of the pawl, the current is forwarded to a current path and finally back to the control unit. The circuit is closed when the pawl locks the catch. In order to realize such a current path, an electrically conductive plastic is used.

It is an object of the invention to provide a lock with a position detection device with a small number of components and / or with a small space.

The object of the invention is achieved by a lock with the features of the first claim. Advantageous embodiments emerge from the subclaims.

To solve the problem lock is provided for a motor vehicle with a locking mechanism, with the lock can be locked, comprising a movable component and a position detection device for detecting a position of the movable component. The movable component is biased by a particular metal spring. The spring may also consist of another electrically conductive material, with metal being preferred for reasons of stability. By the spring, a circuit can be closed and so the position of the component can be detected. The circuit and the spring are therefore part of the position detection device.

In particular, in comparison to that of the document DE 10 2006 012 567 A1 known prior art, it is advantageous to reduce the number of components that make up the circuit. Advantageously, therefore, the required space can be small. Since a spring is basically made of metal and thus is electrically conductive, no special choice of material must be made in order to realize the current path. The commonly used materials are sufficient.

The spring advantageously bends in one embodiment, a resilient electrical contact when the circuit is closed. This ensures on the one hand that an electrical contact succeeds reliably and in a sufficient manner when the circuit is closed. On the other hand, it can be ensured that the spring at any time is able to move the catch to its open position.

One or two electrical contacts of the position detection device are advantageously arranged at least partially above the movable component. This means an area above the area within which the movable component can be moved. With little space so the circuit can be provided. This is especially true if above the movable component anyway available space, for example, a Vorrastsperrklinke.

Preferably, the electrical contact of the position detection device is arranged above the movable component, which is contacted by the spring. It then suffices a relatively short spring arm, which then advantageously does not have to be made overly stable in order to bend the electrical contact for a contact can.

Preferably, an electrical contact of the position detection device is arranged laterally next to the movable component. This electrical contact is outside the range of movement of the movable component, so that accidents are avoided.

The position detection device advantageously has a plate which is arranged at least in regions between the movable component and one or more electrical contacts of the position detection device. The plate reliably prevents electrical contacts from being caught and bent by the movable component. The plate thus takes over a protective function to protect the circuit from moving components of the locking mechanism.

The aforementioned plate is advantageously spatially separated by an upwardly projecting edge from the main surface of the movable component. The edge thus ensures that a distance between the main surface of the movable component and the plate is always ensured, in order to avoid interference even further improved.

The position detection device preferably comprises an electrical component carrier, which is formed by electrical conductor tracks. The electrical conductor tracks are at least partially embedded in an electrically insulating material. An electrical component carrier makes it possible to connect with little space desired electrical or electronic components, so as to control the lock position-dependent.

The electrical component carrier may be connected to an electric motor and / or a control unit to position-dependently monitor and / or control the lock and / or to motorize one or more movable components of the lock.

The movable component is preferably a catch of the locking mechanism. So can be advantageously determined directly and thus very reliable, whether a lock is locked or unlocked.

The ratchet usually includes a catch and a main latch pawl for locking the ratchet in the main ratchet position. Above the Hauptrastsperrklinke a Vorrastsperrklinke is preferably arranged.

Further embodiments and advantages will be explained with reference to the following embodiment.

Show it

1 : Ratchet with locked catch;

2 : Lock in the open state.

The 1 shows a latched in the main detent position locking, which in the from the DE 10 2009 026 921 A1 a known way catch 1 , a main latch 2 , a pre-ratchet pawl 3 and a blockage lever 4 includes. catch 1 , Main latch pawl 2 , Pre-ratchet pawl 3 and blockage lever 4 are rotatable by axes 5 . 13 . 14 stored. The axes 5 . 13 . 14 are attached to a lock plate. The catch 1 is in the from the DE 10 2009 026 921 A1 apparent way through the main latch pawl 2 locked.

The catch 1 can around its axis 5 be pivoted. The catch 1 is by a thigh spring 6 biased towards the open position. The thigh feather 6 gets through the axis 5 the catch 1 held. An over the rotary contour contour laterally extending leg 7 the thigh feather 6 is biased to an electrical contact 8th of a circuit. The electrical contact encloses, for example, a bolt 28 , The bolt 28 For example, it is attached to the lock plate so as to provide sufficient mechanical support. The bolt 28 may be made of electrically insulating plastic or sheathed with electrically insulating plastic to electrically isolate the circuit from the lock plate. The other leg of the leg spring 6 has a particular right-angled end 9 , which is in a peripheral recess 10 extends and so the catch 1 biased towards the open position. This leg with the bent end 9 is not enough or only slightly over the contour of the rotary latch 1 out. The leg with the bent end 9 is not due to the other electrical spring-designed contact 11 of said circuit, when the locking mechanism is locked. The circuit further includes an electronic component carrier 12 which may comprise a control unit or which may be connected to a control unit.

The leg with the bent end 9 may arc out of the plane of the paper from the main surface of the rotary latch 1 stand up to an electrical contact 11 above the main surface of the rotary latch 1 reliable contact.

The main latch pawl 2 and the pre-ratchet pawl 3 are by a common axis 13 rotatably mounted. The blockage lever 4 is through an axis 14 rotatably mounted.

In the main position shown is a through the Vorrastsperrklinke 3 concealed locking arm of the main catch pawl 2 on the tentacle 15 the catch 1 at. The catch 1 in the locked state, initiates an opening moment in the main catch pawl 2 one. In the illustrated main latch position is the blockage lever 4 with a blocking arm on said locking arm of the main catch pawl 2 and thus prevents the main latch pawl 2 can be moved clockwise out of its detent position due to the initiated opening moment.

The blockage lever 4 is through one through the blocking lever axis 14 held leg spring biased towards Blockadestellung. A thigh 16 this leg spring is biased at a stop 17 at. The stop 17 is attached to the lock plate. The other thigh 18 is biased on a protruding bolt 19 of the blockage lever 4 at. On the opposite side of the bolt 19 is a latch arm 20 the Vorrastsperrklinke 3 at. From the rotary latch 1 stands a bolt attached to the catch 21 vertically off. If the locking mechanism is locked in the pre-locking position, then the locking arm is located 20 the Vorrastsperrklinke 3 on the bolt 21 and thus prevents the catch 1 can be pivoted in the opening direction. The Vorrastsperrklinke 3 is located above the plane where the catch is 1 , the main latch pawl 2 and the blockage lever 4 are arranged.

For opening the lock is the Vorrastsperrklinke 3 pivoted clockwise. The latch arm 20 then move the bolt 19 of the blockage lever 4 , causing the blockage lever 4 is moved counterclockwise out of its blocking position. Has the blockage lever 4 leave its blocking position, so moves the Hauptrastsperrklinke 2 out of their detent position and that due to the opening moment, which by the catch 1 into the main catch pawl 2 is initiated. Has the main latch pawl 2 leave their rest position, so pivots the catch 1 clockwise in the opening direction and thus reaches the in the 2 shown open position. The pivoting of the catch 1 in its open position alone the spring 6 cause.

More thigh springs 22 and 23 can be present to the main latch pawl 2 and / or the Vorrastsperrklinke 3 to bias in an anticipated manner.

The stop 17 can also be a stop for the blocking lever 4 be. The blockage lever 4 reaches the stop 17 when the blockage lever 4 has reached his blocking position. The stop 17 thus limits a rotational movement of the blocking lever 4 clockwise.

Another stop attached to the lock plate 24 can for the Vorrastsperrklinke 3 and / or the main latch pawl 2 be provided. The stop 24 is through the Vorrastsperrklinke 3 and / or the main latch pawl 2 achieved when the pawls 2 . 3 reach their rest positions. The stop 24 thus limits a rotational movement of the two pawls 2 . 3 opposite to the clockwise direction.

The electronic component carrier 12 can be beneficial over a plate 25 on which the electrical contacts 8th . 11 at least partially fly up. The electrical contacts 8th and 11 can at least partially on the plate 25 be attached to stabilize the position of the electrical contacts. A free, projecting end or a protruding free area of the plate 25 can look like 1 visible above the catch 1 and, for example, to a protruding edge 26 the catch 1 border or through this edge 26 be guided. This reliably prevents the catch 1 an electrical contact 11 grasp and bend unscheduled. The edge 26 also provides a distance from the plate as viewed from the main surface of the rotary latch 25 for sure.

The electronic component carrier 12 can be an electric motor 27 include or with an electric motor 27 be connected. Depending on the detection of a position of the locking mechanism, the engine can 27 be put into operation, for example, to move the rotary latch motorized from the pre-locking position to the main detent position. The motor 27 but can also be provided for moving other components.

The electronic component carrier 12 comprises electrical conductor tracks, for example formed by a stamped grid, which are embedded in an insulating mass. In addition, the electric component carrier 12 comprise one or more microswitches or other electrical or electronic components to electrically switch in the desired manner and / or to control movements of components of the lock, for example by means of the electric motor 27 ,

The 2 shows the locking mechanism in the open state. The leg with the bent end 9 is now due to the electrical contact 11 at. The circuit is closed, signaling that the lock is open. The circuit is thus part of a position detection means or a position detection device. Is the locking mechanism in its open position, so is the contact 11 biased due to its resilient properties on the leg with the bent end 9 at. This ensures that a reliable electrical contact is made. Reach the catch 1 their open position, thus becomes the contact 11 a little elastically bent back to achieve the spring preload. This is also illustrated by the comparison of 1 with the 2 , The spring force of the contact is advantageous 11 less than the spring force of the spring 6 , so that the catch 1 reliable by the spring 6 can be moved to its open position. The spring force of the contact 11 is so small that by the force of the spring 11 can not prevent the catch 1 due to the force of the spring 6 reached their open position.

It is also possible that in addition to the resilient contact 11 another resilient contact is present, for example, from the leg with the bent end 9 is contacted when the catch 1 reached their main position. The further contact is part of another circuit, so as to be able to recognize when the locking mechanism is in the main locking position.

It can therefore be one or more circuits that are available through the spring 6 can be closed and opened so as to recognize positions.

LIST OF REFERENCE NUMBERS

1

catch

2

Main catch pawl

3

Vorrastsperrklinke

4

blocking lever

5

Axle of the rotary latch

6

Spring for the catch

7

Leg of the rotary latch spring

8th

electrical contact of a circuit

9

bent end of a leg of the rotary latch spring

10

edge recess of the catch

11

resilient electrical contact of the circuit

12

Electric component support

13

Axle for pawls

14

Axle for blocking lever

15

Catch arm of the catch

16

Spring leg of the blockage lever spring

17

Stop for blocking lever and blocking lever spring

18

Legs of blockage lever spring

19

protruding bolt of the blocking lever

20

Latch arm of Vorrastsperrklinke

21

Bolt of the catch for locking in the pre-locking position

22

Spring for the Vorrastsperrklinke

23

Spring for the Vorrastsperrklinke

24

Stop for pawls

25

Plate of the electric component carrier

26

protruding edge of the rotary latch

27

electric motor

28

bolt

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009026921 A1 [0003, 0004, 0005, 0006, 0006, 0007, 0007, 0028, 0028]
• DE 102008035607 A1 [0008]
• DE 102006012567 A1 [0009, 0013]

Claims (10)

Lock for a motor vehicle with a locking mechanism ( 1 . 2 . 3 . 4 ), with which the lock can be locked, comprising a movable component ( 1 ), which by a spring made of electrically conductive material ( 6 ) is biased, as well as a position detection device ( 8th . 11 . 12 ) for detecting a position of the movable component ( 1 ), characterized in that by the spring ( 6 ) closed a circuit of the position detection device and so the position of the component ( 1 ) can be recognized. Lock according to claim 1, characterized in that the spring ( 6 ) a resilient electrical contact ( 11 ) bends when the circuit is closed. Lock according to one of the preceding claims, characterized in that an electrical contact ( 11 ) of the position detection device at least partially above the movable component ( 1 ) is arranged. Lock according to one of the preceding claims, characterized in that an electrical contact ( 8th ) of the position detection device laterally next to the movable component ( 1 ) is arranged. Lock according to one of the preceding claims, characterized in that the position detection device via a plate ( 25 ), which at least partially between the movable component ( 1 ) and one or more electrical contacts ( 8th . 11 ) of the position detection device is arranged. Lock according to the preceding claim, characterized in that the plate ( 25 ) by an upwardly projecting edge ( 26 ) from the main surface of the movable component ( 1 ) is spatially separated. Lock according to one of the preceding claims, characterized in that the position detection device comprises an electrical component carrier ( 12 ) formed by electrical traces embedded at least partially in an electrically insulating material. Lock according to the preceding claim, characterized in that the electrical component carrier ( 12 ) with an electric motor ( 27 ) and / or a control unit is connected. Lock according to one of the preceding claims, characterized in that the movable component is a catch ( 1 ) of the lock ( 1 . 2 . 3 . 4 ). Lock according to one of the preceding claims, characterized in that the locking mechanism is a catch ( 1 ), a main latch ( 2 ) for locking the locking mechanism in the main locking position and a Vorrastsperrklinke ( 3 ) for a locking of the catch ( 1 ) in the pre-locking position, wherein the Vorrastsperrklinke ( 3 ) above the main latch ( 2 ) is arranged.

Images