CN2611208Y

CN2611208Y - Device for transmitting signal of gears-shifting

Info

Publication number: CN2611208Y
Application number: CN 03220260
Authority: CN
Inventors: 刘欣; 董清伟
Original assignee: Dalian Naichi Vehicle Electronic Equipment Co Ltd; Xiamen Naichi Industrial Co Ltd
Current assignee: Dalian Naichi Vehicle Electronic Equipment Co Ltd; Xiamen Naichi Industrial Co Ltd
Priority date: 2003-03-04
Filing date: 2003-03-04
Publication date: 2004-04-14
Anticipated expiration: 2013-03-04

Abstract

The utility model comprises a sensing magnet steel, a Hall sensor and a sensor shifting device, the sensor shifting device comprises a movable body and a fixed body capable of doing relative movement to the movable body, the sensing magnet steel is arranged on the movable body, a plurality of Hall sensors are disposed on the fixed body, the sensing magnet steel arranged on the movable body can be corresponding with at least one of the Hall sensors on the fixed body. Based on the non-contact sensing method adopted by the utility model, the sensing magnet steel and the Hall sensor are respectively arranged on the movable body and the fixed body on the sensor shifting device and the corresponding information of each level generated from the automobile shifting can be precisely and stably sent to the gear executive device to realize the shifting gears through the relative movement between the movable body and the fixed body.

Description

The shift signal sending set

Technical field

The utility model relates to a kind of shift signal sending set, especially is applied in the electrical control shifting system.

Background technology

What present automobile gear mechanism mostly adopted is the mechanical type transmission device, rarely seen employing electrical control gearshift.

Summary of the invention

The purpose of this utility model is to provide a kind of shift signal sending set that can accurately, reliably shift signal be sent to the gear actuating unit.

For achieving the above object, the utility model comprises inductive magnetic steel, Hall element and sensor inversion mechanism, this sensor inversion mechanism comprises moving body and can make the fixed body relatively move with moving body, moving body is provided with inductive magnetic steel, fixed body is provided with a plurality of Hall elements, the inductive magnetic steel on the moving body at least can with a plurality of Hall elements on the fixed body in one corresponding.

Described sensor inversion mechanism comprises gear shift lever panel, mechanical slide, guide rail and slide block box; This mechanical slide constitutes described moving body, and the sidewall of this slide block box constitutes described fixed body; Described gear shift lever panel is installed on the slide block box, and its middle part is provided with the groove that can allow gear shift lever pass; In the slide block box, longitudinally be provided with the guide rail of square crossing; This mechanical slide is slipped on the guide rail of above-mentioned square crossing, on this mechanical slide sidewall separately, be separately installed with an inductive magnetic steel, with the sidewall of the cooresponding slide block box of this inductive magnetic steel on be separately installed with can with the Hall element of inductive magnetic steel induction; All be provided with the groove that can allow gear shift lever pass at this mechanical slide middle part.

One group two on the guide rail of described square crossing is respectively symmetry, the parallel slide bar that is fixed in the slide block box, and the mechanical slide gap is socketed on these two slide bars; Between mechanical slide and slide block box inwall, all be provided with retracing spring.

Described mechanical slide is made up of the control slide block that performs, layer position control slide block, reverse gear control slide block.

Described moving body is one can radially be provided with inductive magnetic steel along it around the gyro-rotor of axis rotation; Described fixed body is the housing that is provided with around moving body, is provided with a plurality of on the madial wall of this housing and the cooresponding Hall element of inductive magnetic steel.

Because the utility model adopts the noncontact sensing mode, inductive magnetic steel and Hall element are separately positioned on the moving body and fixed body of sensor inversion mechanism, the corresponding information of each gear that automobile conversion gear can be produced by just relatively moving between moving body and the fixed body accurately, reliably sends to the gear actuating unit, realizes gear.

Below in conjunction with the drawings and specific embodiments the utility model is further described.

Description of drawings

Fig. 1 is the three-dimensional exploded view of first embodiment of the utility model;

Fig. 2 is the front view of first embodiment of the utility model;

Fig. 3 is the lateral plan of first embodiment of the utility model;

Fig. 4 is the structural representation of second embodiment of the utility model;

Fig. 5 is the three-dimensional exploded view of the 3rd embodiment of the utility model.

Fig. 6 is the three-dimensional exploded view of the 4th embodiment of the utility model.

Fig. 7 is the front view of the 4th embodiment of the utility model.

Fig. 8 is the lateral plan of the 4th embodiment of the utility model.

Fig. 9 is the three-dimensional exploded view of the 5th embodiment of the utility model.

The specific embodiment

Fig. 1 is first embodiment of the present utility model.The utility model comprises inductive magnetic steel 1, Hall element 2, sensor inversion mechanism 8.

Described sensor inversion mechanism 8 comprises gear shift lever panel 81, mechanical slide 83, guide rail 84 and slide block box 85.This mechanical slide 83 constitutes described moving body, and the sidewall of this slide block box 85 constitutes described fixed body.Described inductive magnetic steel 1 is made of three inductive magnetic steels 11,12,13.Described Hall element 2 is made of three Hall elements 21,22,23.This gear shift lever panel 81 is a traditional design.

Described gear shift lever panel 81 is installed on the slide block box 85, and its middle part is provided with the groove 811 that can allow gear shift lever 3 pass (as Fig. 2, shown in Figure 3).In slide block box 85, longitudinally be provided with the guide rail 84 of three groups of square crossings; 84 1 groups two on this guide rail is respectively symmetry, the parallel six roots of sensation slide bar 841,842,843 that is fixed in the slide block box 85.Described mechanical slide 83 is made up of the control slide block 831 that performs, layer position control slide block 832, reverse gear control slide block 833; Perform control slide block 831, layer position control slide block 832, reverse gear control slide block 833 is socketed in one group two altogether on slide bar 841,842,843 slide bars of the six roots of sensation in the gap respectively; Between the control slide block 831 that performs, layer position control slide block 832, reverse gear control slide block 833 and slide block box 85 inwalls, all be provided with retracing spring 86.On three mechanical slide 831,832,833 sidewall separately, be separately installed with an inductive magnetic steel 12,11,13, with the sidewall of these inductive magnetic steel 1 cooresponding slide block boxes 85 on be separately installed with can with the Hall element 23,21,22 of inductive magnetic steel 1 induction.All be provided with the groove 8311,8321,8331 that can allow gear shift lever 3 pass (as Fig. 2, shown in Figure 3) at three mechanical slide, 831,832,833 middle parts.

For easy for installation, the utility model will be installed on the sensor board 87 that performs with the inductive magnetic steel 12 cooresponding Hall elements 23 that are installed on the control slide block 831 that performs, and the sensor board 87 that performs is fixed on the sidewall of slide block box 85; Be installed on layer level sensor plate 88 with inductive magnetic steel 11, the 13 cooresponding Hall elements 21,22 that are installed on layer position control slide block 832, the reverse gear control slide block 833, layer level sensor plate 88 is fixed on the sidewall of slide block box 85.

During engage a gear (as Fig. 2, shown in Figure 3), transverse row lever 3, thereby stir corresponding mechanical slide 83 to a certain position, inductive magnetic steel 1 on it is responded to the Hall element 2 on slide block box 85 sidewalls, the gear information of predefined car gear shifting generation is sent to gear actuating unit (not shown) carry out gear shift.

Design focal point of the present utility model is: adopt the noncontact sensing mode, inductive magnetic steel and Hall element are separately positioned on the moving body and fixed body of sensor inversion mechanism, and the corresponding information of each gear that automobile conversion gear is produced by relatively moving between moving body and the fixed body is transferred to the gear actuating unit and realizes gear.First embodiment mainly is in order to simulate the mechanical type gear.Below provide several embodiment that meet the present utility model spirit.

Fig. 4 is second embodiment of the present utility model.The utility model comprises inductive magnetic steel 1A, Hall element 2A, sensor inversion mechanism 3A.

Described sensor inversion mechanism 3A comprises moving body 31A and can make the fixed body 32A relatively move with moving body.

Described moving body is one can radially be provided with a protruding 311A along it around the gyro-rotor 31A of axis rotation, is provided with inductive magnetic steel 1A on this projection 311A; Described fixed body is the housing 32A that is provided with around moving body, is provided with a plurality of Hall element 2A on the madial wall of this housing 32A.By the gyro-rotor 31A of rotation, make its inductive magnetic steel 1A corresponding with Hall element 2A on the diverse location, respond to, just the gear signal can be sent to actuating unit, the realization gear shift.

Fig. 5 is the 3rd embodiment of the present utility model.The utility model also can be arranged on inductive magnetic steel 1B on the interlock button 3B, and Hall element 2B is installed on the corresponding panel 4B, pushes different button 3B and just can successively predefined gear signal be sent to the gear actuating unit, realizes gear.

Fig. 6 is for using later-model the 4th embodiment.This embodiment only is with the different of first embodiment: present embodiment makes king's word gear shift lever panel plate into a mao word gear shift lever panel, the slide block that will reverse gear removes, the Hall element (D) of reverse gear layer is arranged on the sustained height with other layer position Hall element 21, carry out reverse gear according to hair word gear shift lever panel equally, the gear signal of reverse gear can be sent to the gear actuating unit, realize gear, see Fig. 7,8.

Fig. 9 is the 5th embodiment of the present utility model, comprise gear shift lever panel 81, fixed mount 9 and adapter plate 10, wherein two inboards of fixed mount 9 are provided with groove 91, activity is nested with one deck position slide block 92, two inboards of this layer position slide block 92 also are provided with groove 921, the movable gear slide block 93 that is nested with, this two slide block is provided with inductive magnetic steel 1, about gear shift lever 3 drive slide blocks are in groove, when horizontally slipping, inductive magnetic steel 1 just can be responded to the Hall element 2 of setting on the adapter plate 10, predefined gear information is sent to the gear actuating unit, realize gear.The arrangement of this inductive magnetic steel 1 and Hall element 2 is consistent with gear groove on the gear shift lever panel.

Claims

1, a kind of shift signal sending set is characterized in that: use the contactless sensor of issuing an order; Comprise inductive magnetic steel, Hall element and sensor inversion mechanism, this sensor inversion mechanism comprises moving body and can make the fixed body relatively move with moving body, moving body is provided with inductive magnetic steel, fixed body is provided with a plurality of Hall elements, the inductive magnetic steel on the moving body at least can with a plurality of Hall elements on the fixed body in one corresponding.

2, shift signal sending set according to claim 1 is characterized in that: described sensor inversion mechanism comprises gear shift lever panel, mechanical slide, guide rail and slide block box; This mechanical slide constitutes described moving body, and the sidewall of this slide block box constitutes described fixed body; Described gear shift lever panel is installed on the slide block box, and its middle part is provided with the groove that can allow gear shift lever pass; In the slide block box, longitudinally be provided with the guide rail of square crossing; This mechanical slide is slipped respectively on the guide rail of above-mentioned square crossing, on a mechanical slide sidewall separately, be separately installed with an inductive magnetic steel, with the sidewall of the cooresponding slide block box of this inductive magnetic steel on be separately installed with can with the Hall element of inductive magnetic steel induction; All be provided with the groove that can allow gear shift lever pass at the mechanical slide middle part.

3, shift signal sending set according to claim 2 is characterized in that: one group two on the guide rail of described square crossing, be respectively symmetry, the parallel slide bar that is fixed in the slide block box, and the mechanical slide gap is socketed on these two slide bars; Between mechanical slide and slide block box inwall, all be provided with retracing spring.

4, shift signal sending set according to claim 2 is characterized in that: described mechanical slide is made up of the control slide block that performs, layer position control slide block, reverse gear control slide block.

5, shift signal sending set according to claim 2 is characterized in that: described mechanical slide is made up of the control slide block that performs, layer position control slide block.

6, shift signal sending set according to claim 1 is characterized in that: described moving body is one can radially be provided with inductive magnetic steel along it around the gyro-rotor of axis rotation; Described fixed body is the housing that is provided with around moving body, is provided with a plurality of on the madial wall of this housing and the cooresponding Hall element of inductive magnetic steel.

7, shift signal sending set according to claim 1 is characterized in that: described moving body is the interlock button, and fixed body is a panel on the other side.

8, shift signal sending set according to claim 1, it is characterized in that: described moving body comprises a fixed mount, two inboards of this fixed mount are provided with groove, wherein activity is nested with a slide block, two inboards of this slide block are provided with groove, and also activity is nested with a slide block, on two slide blocks inductive magnetic steel is set, fixed body is a panel on the other side, and Hall element is set on it.