KR20110005117U - Inhibitor switch for a vehicle - Google Patents

Abstract

The present invention, a movable terminal unit having one or more movable terminals; A rotation bar in which the movable terminal is disposed; A housing part including a base plate on which a plurality of fixed terminals which are in contact with the movable terminal are formed by insert injection molding on a rotation radius of the pivot bar, and a cover plate which is engaged with the base plate to form a movable space of the pivot bar; The fixed terminal comprises: a plurality of fixed terminal output terminals for forming a shift range signal according to a rotation state of the rotation bar, and spaced apart from the fixed terminal output terminal, and the fixed terminal output through the movable terminal. A fixed terminal ground terminal capable of forming a connection state with a terminal, wherein the fixed terminal ground terminal provides an inhibitor switch device which is a single arc-shaped line in the housing portion.

Description

Inhibitor switch device {INHIBITOR SWITCH FOR A VEHICLE}

The present invention relates to an inhibitor switch, and more particularly to an inhibitor switch device having a structure capable of minimizing the size of the device.

Vehicles, such as automobiles, have been added to a variety of functions that allow the user to provide a more stable and comfortable driving state beyond the function as a means of transportation, and various configurations including electronic control of the engine and the transmission as key driving elements of the vehicle. The element is either electronic or in the process of becoming electronic.

On the other hand, the proportion of vehicles equipped with automatic transmissions is rapidly increasing for smooth and relaxed driving in a complex traffic situation in the city. When the driver sets a desired shift range through the shift lever, the driver's shift range is It is transmitted to the Transmission Control Unit (TCU) that controls the transmission, and various control units to control the power supply and cutoff when starting the vehicle, and to control the electric field such as setting, releasing and reversing the shift stage in the shift range set while driving. .

The driver's intention of the shift range through the shift lever is converted into an electrical signal through an inhibitor switch and transmitted to the various electronic components described above. Korean Laid-Open Utility Model Publication No. 2005-98617 discloses an inhibitor switch of a method of generating a corresponding shift range signal set by a driver through a connection with a plurality of contacts and a select lever.

Since the inhibitor switch according to the prior art has a simple housing structure, when an external shock is applied, the inhibitor switch has a high possibility of falling into an inoperable state of the inhibitor switch due to damage to an internal component, that is, a movable terminal. . In addition, the inhibitor switch according to the prior art increases the generation of defective parts causing thermal deformation of terminal lines generated through a single insert injection process or malfunction due to incomplete formation of internal components or occurrence of burrs. There was a problem.

Particularly problematic is that the inhibitor switch according to the prior art does not comply with the recent automotive technology, which requires a compact configuration due to the large size of the device through complicated wiring lines.

Accordingly, the present invention provides an inhibitor switch device having a structure capable of minimizing wiring lines, enabling a compact configuration, and minimizing the possibility of defects caused by component distortion during insert injection process by minimizing the device. In addition, an object of the present invention is to provide an inhibitor switch device having a structure capable of preventing or reducing product defects caused by a single insert injection structure through a single insert injection process.

The present invention for achieving the above object is a movable terminal unit having one or more movable terminals; A rotation bar in which the movable terminal is disposed; A housing part including a base plate on which a plurality of fixed terminals which are in contact with the movable terminal are formed by insert injection molding on a rotation radius of the pivot bar, and a cover plate which is engaged with the base plate to form a movable space of the pivot bar; The fixed terminal comprises: a plurality of fixed terminal output terminals for forming a shift range signal according to a rotation state of the rotation bar, and spaced apart from the fixed terminal output terminal, and the fixed terminal output through the movable terminal. A fixed terminal ground terminal capable of forming a connection state with a terminal, wherein the fixed terminal ground terminal provides an inhibitor switch device which is a single arc-shaped line in the housing portion.

In the inhibitor switch device, the plurality of fixed terminal output terminals may be disposed around the fixed terminal ground terminal and spaced apart from the center of rotation of the pivot bar with a different radius from the fixed terminal ground terminal.

In the inhibitor switch device, the fixed terminal output terminal having the same radius from the center of rotation of the rotation bar among the plurality of fixed terminal output terminals may be divided into parts on the same radius.

In the inhibitor switch device, the movable terminal portion is connected to both ends of the movable elastic member disposed on the pivoting bar, the movable terminal horizontal portion forming a contact state with the movable elastic member, and the movable terminal horizontal portion, A lower end of the movable terminal horizontal portion including a movable terminal having a movable terminal vertical portion accommodated in a bar and in contact with at least one movable terminal rib disposed on one surface of the housing may be rounded.

The inhibitor switch device according to the present invention having the configuration as described above has the following effects.

First, the inhibitor switch device according to the present invention, by making a common ground terminal sharing structure through a single fixed terminal ground terminal can minimize the device to enable a compact configuration.

Secondly, the inhibitor switch device according to the present invention may prevent or minimize the possibility of occurrence of burrs or distortions through the inhibitor switch device having a minimized structure, thereby minimizing the defective rate.

Hereinafter, the inhibitor switch device according to the present invention will be described with reference to the drawings.

1 is a schematic perspective view of an inhibitor switch device according to an embodiment of the present invention, Figure 2 is a schematic plan view of the inhibitor switch device according to an embodiment of the present invention, Figure 3 A schematic exploded perspective view of an inhibitor switch device according to an embodiment of the present invention is shown, and FIG. 4 is a schematic partial plan view of the inhibitor switch device according to an embodiment of the present invention, and FIG. A schematic cross-sectional view taken along line AA is shown, FIG. 6 shows a schematic plan view of a fixed terminal of an inhibitor switch device according to an embodiment of the present invention, and FIG. 7 shows the operating range and fixed terminal of a pivot bar. A schematic partial plan view showing an area of is shown.

The inhibitor switch device 10 according to an embodiment of the present invention includes one or more movable terminal parts 400, a rotation bar 200, and a housing part 100, wherein the housing part 100 is formed of insert injection molding. The base plate 120 and the cover plate 110 is provided. Here, the base plate 110 may be configured in a variety of ranges to take the insert injection structure.

1 to 5, the cover plate 110 is disposed on the top of the base plate 120 to form an inner space with the base plate 120, the cover plate 110 and the base plate 120 In the inner space formed by), a rotation bar 200 to be rotated is disposed. The cover plate 110 may be formed of the same material as the base plate 120 described below, but the load of the inhibitor switch device 10 may be minimized in a range sufficiently supporting the internal space of the inhibitor switch device 10. Various modifications are possible, such as being formed of a material different from the base plate 120 as a material for the purpose.

The cover plate sealer mounting portion 114 is disposed on the bottom surface of the cover plate 110 toward the base plate 120, and the seal ring 115 is disposed on the cover plate sealer mounting portion 114. That is, the sealer ring 115 is inserted into the cover plate sealer mounting portion 114 to minimize the gap between the cover plate 110 and the base plate 120 when the cover plate 110 and the base plate 120 are fastened to each other. By doing so, it is possible to prevent foreign matters from being introduced into the housing 100. In addition, the cover plate 110 is formed with a cover plate through-hole 111 through which the inflow of the component from the transmission side enables the connection with the rotation bar disposed therein.

 A base plate opening 121 is formed in the base plate 120, and the cover plate 110 is disposed to close the base plate opening 121 with the base plate opening 121 disposed thereon. Although not clearly illustrated in the drawings, a cover plate seating portion (not shown) and a cover plate mounting portion (not shown) are formed on an inner circumference of the base plate opening 121 so that the cover plate 110 may cover the base plate opening 121. It takes a structure that covers and can be mounted to the base plate 120 stably.

The housing connector portion 125 is disposed at one side of the base plate 120. The housing connector portion 125 has a connector region of a fixed terminal connected to the fixed terminal 300 to be described below, and an external electrical device such as a TCU. Can achieve electrical communication.

As described above, the cover plate 110 is disposed on one surface of the base plate 120, and the base plate mounting unit 124 is provided on the outside of the base plate 120 so that the cover plate 110 may be fixedly mounted inside the vehicle (not shown). . A plurality of fixing terminals 310 and 320 are disposed on one surface of the base plate opening 121 of the base plate 120, and the rotation bar 200 is disposed in an inner space formed by the cover plate 110 and the base plate 120. And the movable terminal part 400 are arranged.

Meanwhile, although not shown here, the housing part 100 according to an embodiment of the present invention may further include a metal reinforcement plate (not shown), and the metal reinforcement plate is disposed on the outer surface of the cover plate 110. A metal plate, such as a single steel sheet, may be further formed by press working to protect the inhibitor switch device from external impact or the like. At the same time, it takes a thin metal reinforcing plate structure to form the entire cover plate made of a metal material to solve the problem of increasing the weight due to excessive weight possible and at the same time have sufficient rigidity for the area exposed to the outside of the inhibitor switch device It is also possible to take a structure that can stably provide impact protection.

Rotating bar 200 and movable terminal portion 400 are disposed in an interior space partitioned by base plate opening 121 of base plate 120, which includes one or more movable terminals 420. .

The rotation bar 200 includes a rotation bar center axis 220 and a rotation bar frame 230 extending radially from the rotation bar center axis 220. Rotating bar center axis 220 is rotatably disposed on the base plate 120, the outer bar of the rotation bar center axis 220 is disposed a rotation bar central axis sealer (see 240, Figs. 3 and 5), the foreign material It can also prevent that it flows into the inside of the housing part.

The rotation bar central axis mounting hole 123 is disposed on the base plate 120, and several protrusion mounting parts are disposed on the outer circumference of the rotation bar central axis mounting hole 123. The rotation bar central axis 220 is rotatably mounted to the rotation bar central axis mounting hole 123 and has a structure engaged with a plurality of protrusion mounting portions, thereby forming an inner space formed by the base plate 120 and the cover plate 110. Enables stable rotation at A rotation bar connector 210 is provided at an upper end of the pivot bar central axis 220, and the rotation bar connector 210 may be formed on the cover plate through hole 111 formed on the cover plate 110 and / or the base plate 120. By making a mechanical connection with a shift lever (not shown) of the external automatic transmission through the formed base plate through hole 123, the rotation bar 200 performs a base plate 120 so as to perform an operation corresponding to the operation of the shift lever. The rotation bar 200 disposed in the inner space of the cover plate 110 rotates to the corresponding position, which will be apparent in the art, and a detailed description thereof will be omitted. However, a rotation bar connection mounting portion 211 is further provided inside the rotation bar connector 210 to form an engagement connection with the shift lever side of the automatic transmission to prevent relative rotation between the two to secure a more accurate shift range shifting function. It may be.

A movable terminal unit 400 is disposed in an area of the rotating bar frame 230 facing one surface of the base plate 120 inward of the rotating bar frame 230, and the movable terminal unit 400 includes one or more movable terminals 420. do. The movable terminal 420 is formed of a conductive material and generates an electrical change in contact with the fixed terminal 300 on the base plate 120. A movable terminal receiving protrusion 231 is formed inside the rotating bar frame 230. Protruding from one surface of the frame 230 toward the base plate 120, the movable terminal receiving protrusion 231 forms a movable terminal receiving groove 233, the movable terminal 420 is a movable terminal receiving groove 233 Is accommodated). Here, one movable terminal 420 is shown, but this is for clarity of the description of the embodiment of the present invention may be provided with a plurality. In this embodiment, two movable terminals are arranged, and the two movable terminals have a structure arranged on a different radius from the center of rotation of the rotation bar.

The movable terminal 420 includes two movable terminal vertical parts 421 and one movable terminal horizontal part 423, and the movable terminal horizontal parts 423 are two movable terminal vertical parts 421 arranged in parallel with each other. On one side of the), it takes a structure connected to the upper portion toward the cover plate 110 from the end toward each base plate 120. Since the two movable terminal vertical portions 421 and the movable terminal horizontal portions 423 are made of a conductive material, the two movable terminal vertical portions 421 spaced apart from each other in parallel to each other may move the movable terminal horizontal portions 423. Electrical communication with each other. That is, each of the movable terminal vertical parts 421 forms an individual connection with the fixed terminals 300 spaced apart from each other, and each movable terminal vertical contacting each part of the fixed terminals 300 spaced apart from each other. An end portion of the portion 421 is in electrical communication through the movable terminal horizontal portion 423. Therefore, when the movable terminal 420 is separated from the base plate 120, the connection between the movable terminal 420 and the fixed terminal 300 is released, thereby changing the electrical flow through the base plate, causing a predetermined signal change, This outputs a signal for a predetermined shift pattern such as N (neutral), P (parking), D (driving), L (low speed), R (reverse), etc. selected by the user.

A movable elastic member 410 is provided between the movable terminal 420 and the rotation bar frame 230 of the rotation bar 200, and one end and the other end of the movable elastic member 420 are rotated at one end of the rotation bar frame 230. In contact with the movable terminal horizontal portion 423 of the movable terminal 420. An elastic member accommodating groove 235 is formed on an inner surface of the movable terminal accommodating groove 233 formed in the rotation bar frame 230, and an elastic member accommodating horizontal groove 425 is formed on an outer circumference of the movable terminal horizontal part 423. One end of the movable elastic member 410 is mounted in the elastic member receiving frame groove 235 and the other end of the movable elastic member 410 is received in the elastic member receiving horizontal groove 425. The movable elastic member 410 is elastically deformable in the longitudinal direction and elastically supports the movable terminal 420 so that the movable terminal 420 is movable inside the movable terminal accommodating groove 233.

In addition, one or more movable terminal ribs 126 are disposed in an area between the areas where the plurality of fixed terminals are disposed on one inner surface of the base plate 120 of the housing part, and the movable terminal ribs 126 have a predetermined stepped structure. By raising the movable terminal toward the cover plate at a position determined according to the design specification, the contact state between the movable terminal and the fixed terminal is released to generate an interruption of a predetermined electrical signal, thereby making it possible to output a corresponding signal for the shift range. . A movable terminal horizontal part rounder 434 is disposed at a lower end of the movable terminal horizontal part 433 of the movable terminal 420 forming a contact state with the movable terminal rib 126 according to the present invention, and the movable terminal horizontal part rounder ( 434 is a rounding process to rotate the rotation bar 200, the movable terminal 410 is pivoting about the rotation center of the rotation bar 200, the movable terminal horizontal portion rounder 434 and the movable terminal rib ( When the contact between the 126 occurs, it is possible to enable a stable upward movement of the movable terminal 420 to prevent or minimize the movable resistance to enable a smooth shift range selection.

On the other hand, the fixed terminal 300 according to an embodiment of the present invention (see Fig. 6) is formed integrally with the housing portion, more specifically the base plate 120 through the insert injection process, the fixed terminal 300 is fixed terminal A ground terminal 320 and a plurality of fixed terminal output terminals 310 are provided. The fixed terminal output terminal 310 is disposed on the rotation bar 200 on one surface of the base plate 120 to form shift range signals such as N, P, D, and R according to the rotation state of the rotation bar 200. The exposure terminal is disposed in contact with the movable terminal 420, and the fixed terminal ground terminal 320 is spaced apart from the fixed terminal output terminal 310 to move the movable terminal 420 on one surface of the base plate 120 of the housing part 100. Insert injection is disposed in the housing 100 so as to be exposed toward the fixed terminal ground terminal 320 is connected to the fixed terminal output terminal 310 through the movable terminal 420, that is, electrical communication is possible . The fixed terminal ground terminal 320 of the present invention is composed of a single arc-shaped line on the housing portion 100, more specifically, the base plate 120. That is, as shown in Figure 3, the fixed terminal output terminal 310 and the fixed terminal ground terminal 320 takes a separate configuration, a plurality of fixed terminal output terminal 310 is provided, each fixed terminal output The terminal 130 has a fixed terminal output terminal contact area 311a, b, c, d and a fixed terminal output terminal connector area 313 which are in contact with the movable terminal 420. Each fixed terminal output terminal connector region 313 is disposed in the housing connector portion 125 and can be in electrical communication with an external electrical device through the housing connector portion 125. In addition, the fixed terminal ground terminal 320 has a fixed terminal ground terminal contact area 321 and a fixed terminal ground terminal connector area 323, both of which are connected to each other and in electrical communication. The fixed terminal ground terminal connector region 323 is disposed to be exposed to the outside through the housing connector portion 125 and the fixed terminal ground terminal contact region 321 is disposed on an inner surface of the base plate 120 of the housing portion 100. It is arranged to be exposed toward the movable terminal. The fixed terminal ground terminal contact region 321 of the present invention, unlike the structure of the prior art, is composed of a single arc line to minimize the radius of the rotation bar and the size of the base plate and ultimately the inhibitor switch device The size of can be made compact.

In particular, the fixed terminal terminal 320 having the fixed terminal ground terminal contact region 321 constituted by a single arc line according to the present embodiment is the center of the other fixed terminal output terminal contact regions 311a, b, c, d. Take a structure that is placed on. That is, each of the fixed terminal output terminal contact regions 311a, b, c, and d of the plurality of fixed terminal output terminals 310 is disposed to surround the fixed terminal ground terminal contact region 321 at the center thereof. The fixed terminal output terminal contact regions 311a, b, c, d are fixed terminal ground terminals around the fixed terminal ground terminal contact region 321 of the fixed terminal ground terminal 320 from the center of rotation of the rotation bar 200. The fixed terminal ground terminal contact region 321 of 320 has a different radius and is spaced apart. Each fixed terminal output terminal contact region 311a, b, c, d is arranged to have a radius of R1 or R2 from the pivot center O of the pivot bar 200, respectively, and the fixed terminal ground terminal contact region 321 Is arranged to have a radius of Rc from the center of rotation of the rotation bar 200, wherein the rotation radius Rc of the fixed terminal ground terminal contact region 321 is the rotation of the fixed terminal output terminal contact regions 311a, b, c, d. It has a value different from the radius R1, R2. Thus, the size of the inhibitor switch device by unifying the fixed terminal ground terminal by taking a configuration in which the fixed terminal output terminal contact regions 311a, b, c, d are arranged around the fixed terminal ground terminal contact region 321. Minimize the size and enable a compact configuration.

In particular, among the plurality of fixed terminal output terminal contact regions 311a, b, c, and d of the present invention, the fixed terminal output terminal contact regions having the same radius from the rotation center O of the rotation bar 200 have the same radius. Divided into each other. That is, the plurality of fixed terminal ground terminal contact regions 321a and b disposed on the same radius from the rotation center O have reference numerals aa and αb, respectively, wherein the rotatable angle α0 of the rotation bar 200 is represented. ) Has a value equal to or greater than the sum of the area angles aa and αb of the fixed terminal ground terminal contact areas 321a and b (α 0> = α a + α b). This configuration allows for a configuration that shares the grounding function for the fixed terminal ground terminal contact area as a single common ground terminal, thereby minimizing the size of the base plate 120 and ultimately allowing the compact configuration of the inhibitor switch unit. can do.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the attached utility model registration registration claims.

1 is a schematic perspective view of an inhibitor switch device according to an embodiment of the present invention.

2 is a schematic plan view of an inhibitor switch device according to an embodiment of the present invention.

3 is a schematic exploded perspective view of the inhibitor switch device according to an embodiment of the present invention,

4 is a schematic partial plan view of an inhibitor switch device according to an embodiment of the present invention,

5 is a schematic cross-sectional view taken along the line A-A of FIG.

6 is a schematic plan view of a fixed terminal of an inhibitor switch device according to an embodiment of the present invention.

7 is a schematic partial plan view showing the operating range of the pivoting bar and the area of the fixed terminal.

* Description of the symbols for the main parts of the drawings *

10 ... inhibitor switch unit 100 ... housing unit

110 ... cover plate 120 ... base plate

200..Pivoting Bar 300 ... Fix Terminal

310 ... fixed terminal output terminal 320 ... fixed terminal ground terminal

321 ... Fix terminal ground terminal contact area

323 ... fixed terminal ground terminal connector area

400 ... movable terminal part 410 ... movable elastic member

420 ... operating terminal

Claims (4)

A movable terminal unit having one or more movable terminals; A rotation bar in which the movable terminal is disposed; A housing part including a base plate on which a plurality of fixed terminals which are in contact with the movable terminal are formed by insert injection molding on a rotation radius of the pivot bar, and a cover plate which is engaged with the base plate to form a movable space of the pivot bar; And The fixed terminal is: A plurality of fixed terminal output terminals for forming a shift range signal in accordance with a rotation state of the rotation bar; A fixed terminal ground terminal spaced apart from the fixed terminal output terminal and capable of being connected to the fixed terminal output terminal through the movable terminal; And said fixed terminal ground terminal is a single arc-shaped line in said housing portion. The method of claim 1, And the plurality of fixed terminal output terminals are arranged around the fixed terminal ground terminal and spaced apart from the center of rotation of the pivot bar with a different radius from the fixed terminal ground terminal. 3. The method of claim 2, The fixed terminal output terminal which has the same radius from the rotation center of the said rotation bar among the said plurality of fixed terminal output terminals is each dividedly arranged on the same radius, The inhibitor switch apparatus characterized by the above-mentioned. The method of claim 1, The movable terminal portion: A movable elastic member disposed on the pivot bar, A movable terminal having a movable terminal horizontal portion for forming a contact state with the movable elastic member and a movable terminal vertical portion connected to both ends of the movable terminal horizontal portion and received and supported by the pivoting bar, And a lower end of the movable terminal horizontal portion which is in contact with at least one movable terminal rib disposed on one surface of the housing is rounded.

Images