CN111043295A

CN111043295A - Electron selector keeps off position double-circuit output structure

Info

Publication number: CN111043295A
Application number: CN202010017972.7A
Authority: CN
Inventors: 张广辉
Original assignee: Nanjing Aoji Intelligent Automotive Technology Research Institute Co ltd
Current assignee: Nanjing Aoji Intelligent Automotive Technology Research Institute Co ltd
Priority date: 2019-12-25
Filing date: 2020-01-08
Publication date: 2020-04-21
Also published as: CN211852767U

Abstract

The invention discloses a gear double-path output structure of an electronic gear shifter, which comprises a gear shifting control mechanism, a positioning reed and a gear shifting controller circuit board, wherein the gear shifting control mechanism is arranged on the gear shifting control mechanism; the gear shifting control mechanism is fixed on the gear shifting support, the positioning reed is fixed on the gear shifting support and movably connected with the bottom of the gear shifting control mechanism, and the controller circuit board is arranged on one side of the gear shifting control mechanism. According to the invention, the gear shifting handle can accurately reach the angle of the gear shifting position through the matching of the tooth-shaped groove of the gear shifting baffle and the positioning spring plate; a Hall sensor on a circuit board of the gear shifting controller outputs an analog signal of a gear request according to the rotation angle of a magnet, a gear shifting plate triggers a corresponding microswitch to output a switch signal of the gear request by a pressing structure on a shifting baffle plate in the rotating process along with a gear shifting handle, and a gearbox controller realizes dual identification of gears according to two groups of signals simultaneously so as to ensure the accuracy of gear identification and meet the failure safety requirement.

Description

Electron selector keeps off position double-circuit output structure

Technical Field

The invention relates to the technical field of automobile parts, in particular to a gear double-path output structure of an electronic gear shifter.

Background

The automobile gear shifter is a common device on an automobile, the gear position of the gear shifter is used for embodying the intention of a driver, so that the gear shifter is required to have a clear gear shifting position, the gear shifting position can be accurately displayed on a human-computer interaction interface, the phenomenon that the driver lowers the head and engages the gear is avoided, and the driving safety is improved. With the continuous development of automotive electronics, the traditional mechanical gear shifter is replaced by an electronic gear shifter, the gear request of a driver is converted from mechanical to electric signal transmission, but due to electromagnetic interference and failure of a sensor, output errors can exist when the electric signal is transmitted to the gear request. For this reason, an accurate and robust gear output structure is required.

Disclosure of Invention

The invention aims to provide a gear double-path output structure of an electronic gear shifter.

The technical scheme adopted by the invention for solving the technical problems is as follows: a gear double-path output structure of an electronic gear shifter comprises a gear shifting control mechanism, a positioning reed and a gear shifting controller circuit board;

the gear shifting control mechanism is fixed on the gear shifting support, the positioning reed is fixed on the gear shifting support and movably connected with the bottom of the gear shifting control mechanism, and the controller circuit board is arranged on one side of the gear shifting control mechanism.

Further, the gear shifting control mechanism comprises a gear shifting handle, a gear shifting baffle and a gear shifting handle rotating shaft; the gear-shifting baffle and the gear-shifting handle are arranged on a gear-shifting handle rotating shaft; a magnet is arranged at one end of the gear shifting handle rotating shaft close to the gear shifting controller circuit board; the bottom of the gear shifting baffle is provided with a tooth-shaped groove, and the side of the gear shifting plate close to the circuit board of the gear shifting controller is provided with a pressing structure.

Further, the positioning spring plate is positioned below the shift plate and used for limiting the position of the shift operating mechanism in each gear.

Further, a Hall sensor and a microswitch are arranged on the gear shifting controller circuit board; the Hall sensor is arranged corresponding to the magnet, and the microswitch is arranged corresponding to the pressing structure.

The invention has the following beneficial effects: the gear double-path output structure of the electronic gear shifter can ensure that the gear shifting handle can accurately reach the angle of the gear shifting position through the matching of the tooth-shaped groove of the gear shifting plate and the positioning reed; a Hall sensor on a circuit board of the gear shifting controller outputs an analog signal of a gear request according to the rotation angle of a magnet, a gear shifting plate triggers a corresponding microswitch to output a switch signal of the gear request by a pressing structure on a shifting baffle plate in the rotating process along with a gear shifting handle, and a gearbox controller realizes dual identification of gears according to two groups of signals simultaneously so as to ensure the accuracy of gear identification and meet the failure safety requirement.

Drawings

Fig. 1 is a schematic diagram of a two-way output structure of gears of the electronic gear shifter of the invention.

The notation in the figures means: 1-a shift controller circuit board; 2, changing a baffle; 3-a gear shift handle; 4-positioning the reed; 5-a microswitch; 6-Hall sensor; 7-a magnet; 8-a shift handle shaft; 9-toothed groove.

Detailed Description

The technical solution of the present invention is further described below with reference to the following embodiments and the accompanying drawings.

Example 1

This embodiment provides an electron selector keeps off position double output structure for the shift position of accurate discernment selector prevents that electromagnetic interference and sensor are malfunctioning to lead to the fact that the signal transmission keeps off the position signal and has the mistake.

As shown in fig. 1, the gear double-path output structure of the electronic gear shifter comprises a gear shifting control mechanism, a positioning reed 4 and a gear shifting controller circuit board 1;

the gear shifting control mechanism is fixed on the gear shifting support, the positioning reed 4 is fixed on the gear shifting support and is movably connected with the bottom of the gear shifting control mechanism, and the controller circuit board 1 is arranged on one side of the gear shifting control mechanism.

Specifically, the gear shifting control mechanism comprises a gear shifting handle 3, a gear shifting plate 2 and a gear shifting handle rotating shaft 8; the gear-shifting baffle 2 and the gear-shifting handle 3 are arranged on a gear-shifting handle rotating shaft 8; a magnet 7 is arranged at one end of the gear shifting handle rotating shaft 8 close to the gear shifting controller circuit board 1; the bottom of the shift baffle 2 is provided with a tooth-shaped groove 9, and the side of the shift baffle 2 close to the shift controller circuit board 1 is provided with a pressing structure. In this embodiment, when shifting, the shift lever 3 drives the shift lever shaft 8 and the shift plate 2 to rotate around the axis of the shift lever shaft 8.

The positioning spring 4 is located below the shift gate 2 and is used for limiting the position of the shift control mechanism in each gear. In this embodiment, when shifting, the shift plate 2 rotates along with the shift handle 3, and the protrusions of the positioning reeds 4 are sequentially clamped into the grooves corresponding to different gears in the tooth-shaped groove 9.

The gear shifting controller circuit board 1 is provided with a Hall sensor 6 and a microswitch 5; the Hall sensor 6 is arranged corresponding to the magnet 7, and the microswitch 5 is arranged corresponding to the pressing structure. In this embodiment, when shifting gears, the shift lever 3 drives the shift lever rotating shaft 8 and the shift plate 2 to rotate together, and at this time, the magnet 7 arranged on the shift lever rotating shaft 8 also rotates, so that the hall sensor 6 arranged corresponding to the magnet 7 outputs an analog signal of a gear request according to a rotation angle of the magnet 7, and when the shift plate rotates, the pressing structure triggers the micro switches 5 corresponding to different gears at different gears to output switch signals of the gear request, that is, the micro switches 5 can be set to be multiple; in this embodiment, the pressing structure may be a bump formed on the shift gate 2, the bump being formed between the shift gate 2 and the shift controller circuit board 1.

In the gear double-path output structure of the electronic gear shifter, the gear shifting handle can accurately reach the angle of a gear shifting position through the matching of the tooth-shaped groove 9 of the gear shifting plate 2 and the positioning reed 4; a Hall sensor 6 on a gear shifting controller circuit board 1 outputs an analog signal of a gear shifting request according to the rotation angle of a magnet 7, a pressing structure on a gear shifting plate 2 triggers a corresponding micro switch 5 to enable the micro switch to output a switch signal of the gear shifting request in the rotation process of the gear shifting plate 2 along with a gear shifting handle 3, and a gearbox controller realizes dual identification of gears according to two groups of signals simultaneously so as to guarantee accuracy of gear identification and meet failure safety requirements.

The sequence of the above embodiments is only for convenience of description and does not represent the advantages and disadvantages of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. A double-path output structure of gears of an electronic gear shifter is characterized by comprising a gear shifting control mechanism, a positioning reed and a gear shifting controller circuit board;

2. The dual output structure of the electronic shifter gear according to claim 1, wherein the shift operating mechanism includes a shift knob, a shift gate, and a shift knob shaft; the gear-shifting baffle and the gear-shifting handle are arranged on a gear-shifting handle rotating shaft; a magnet is arranged at one end of the gear shifting handle rotating shaft close to the gear shifting controller circuit board; the bottom of the gear shifting baffle is provided with a tooth-shaped groove, and the side of the gear shifting plate close to the circuit board of the gear shifting controller is provided with a pressing structure.

3. The dual output configuration of electronic shifter gears of claim 1 wherein the positioning reed is located below the shift gate for defining the position of the shift operating mechanism in each gear.

4. The dual output structure of the electronic shifter gears of claim 2 wherein the shift controller circuit board is provided with hall sensors and micro switches; the Hall sensor is arranged corresponding to the magnet, and the microswitch is arranged corresponding to the pressing structure.