CN110502063A - A kind of onboard system inductive control knob structure - Google Patents

Abstract

A kind of onboard system inductive control knob structure, including the component successively axially assembled, wherein electroplated decoration circle is buckled along multiple rectangles being fastened and connected with revolving part are axially arranged with, boss is along the circumferential direction equipped on revolving part inner wall, metallic conductor part is connected in revolving part by boss, metallic conductor part is equipped with multiple sensing chips, sensing chip is placed equidistant with vertically downward on the inner peripheral surface of metallic conductor part, rectangle buckle protrudes into revolving part, top is crimped on metallic conductor part, the lower rotation of revolving part connects inductor support, inductor support is equipped with inductor.The control handle is by metallic conductor part and inductor using contactless induction booting structure, eliminate the starting key on traditional vehicle electronics product, power up function is realized by simply touching electroplated decoration circle, the property easy to use for improving onboard system control handle further reduced in driving when operating onboard system and the risk of security risk occurs.

Description

A kind of onboard system inductive control knob structure

Technical field

The present invention relates to the human-machine interface technologys of electricity field more particularly to in-vehicle electronic system, especially a kind of vehicle-mounted System inductive control knob structure.

Background technique

Most current automotive interior electronic product realizes control by knob-operated, and control handle is in onboard system One of most basic man-machine interface tool, and touch display screen is due to that can not provide good physics feel, it is difficult to realize blind behaviour Make, there are security risks, can not thoroughly replace knob or press-key structure at this stage.But in the prior art, control handle cannot be real Existing hand grabs induction booting, needs that starting key is in addition arranged on vehicle electronics product, reduces the convenience that equipment uses.

Summary of the invention

It is an object of the invention to overcome disadvantage of the existing technology, a kind of onboard system inductive control rotation is provided Button structure eliminates traditional vehicle electronics and produces by metallic conductor part and inductor using contactless induction booting structure Power up function is realized by simply touching electroplated decoration circle, improves onboard system control handle by the starting key on product Property easy to use, further reduced driving in operate onboard system when there is the risk of security risk.

This onboard system inductive control knob structure of the invention, including successively axially assemble electroplated decoration circle, Transparent cover plate, LCD mould group, LCD module bracket, metallic conductor part, revolving part, inductor support, circuit board and rear cover, it is described Bright cover board is bonded with the LCD mould group and is bonded in the LCD module bracket, by printed circuit in LCD mould group with it is described Circuit board connection, wherein the electroplated decoration circle is buckled along multiple rectangles being fastened and connected with the revolving part are axially arranged with, institute It states and is along the circumferential direction equipped with boss on revolving part inner wall, the metallic conductor part is connected to the revolving part by the boss Interior, the metallic conductor part is equipped with multiple sensing chips, and the sensing chip is placed equidistant with vertically downward in the metallic conductor part Inner peripheral surface on, rectangle buckle protrudes into the revolving part, and top is crimped on the metallic conductor part, the rotation The lower rotation of part connects inductor support, and the inductor support is equipped with inductor, the inductor support installation induction Outer diameter at device position is slightly less than the internal diameter of the metallic conductor part, and described inductor one end corresponds to be set at the sensing chip position There is induction point, the inductor other end is connect with the circuit board.

Further, the spacing distance between the sensing chip is twice of sensing chip width.

Further, described inductor one end is set there are three the identical induction point of size, the width of described inductor one end It is three times of the sensing chip width.

Further, brake component is additionally provided between the revolving part and the inductor support.

The working principle of the invention is: hand catches case ring when operation, is equivalent to a conductor after case ring plating, is electroplated Rectangle buckle on case ring is contacted with metallic conductor part, and the sensing chip on metallic conductor part is parked in induction when revolving part stops At device, three induction promise sensing chips on inductor can be parked in any when turning to any position stopping with revolving part At induction point, sensing chip and inductor are non-contact structure, and manpower is equivalent to electrode, when human contact's electroplated decoration circle, are led to Crossing metallic conductor part makes capacitance on inductor generate variation, and the touch-control IC on circuit board receives inductor signal, and touch-control IC is again Signal is passed to MCU, MCU driving LCD control circuit lights LCD mould group, completes display power up function.

The present invention compares with prior art, and effect is positive and apparent.The present invention passes through metallic conductor part and sense It answers device using contactless induction booting structure, the starting key on traditional vehicle electronics product is eliminated, by power up function It is realized by simply touching electroplated decoration circle, improves the property easy to use of onboard system control handle, further reduced There is the risk of security risk when operating onboard system in driving.

Detailed description of the invention

Fig. 1 is configuration schematic diagram of the invention.

Fig. 2 is the schematic diagram of the section structure of the invention.

Fig. 3 is metallic conductor part and sensing chip positional structure schematic diagram of the invention.

Specific embodiment

Embodiment 1:

As shown in Figure 1 to Figure 3, this onboard system inductive control knob structure of the invention, including what is successively axially assembled Electroplated decoration circle 1, transparent cover plate 2, LCD mould group 3, LCD module bracket 4, metallic conductor part 5, revolving part 6, inductor support 7, Circuit board 8 and rear cover 9, transparent cover plate 2 are bonded with LCD mould group 3 and are bonded in LCD module bracket 4, pass through the print in LCD mould group 3 Brush circuit 301 is connect with circuit board 8, and electroplated decoration circle 1 is buckled along multiple rectangles being fastened and connected with revolving part 6 are axially arranged with 101, boss 601 is along the circumferential direction equipped on 6 inner wall of revolving part, metallic conductor part 5 is connected in revolving part 6 by boss 601, Metallic conductor part 5 is equipped with multiple sensing chips 501, and sensing chip 501 is placed equidistant with the inner periphery in metallic conductor part 5 vertically downward On face, rectangle buckle 101 is protruded into revolving part 6, and top is crimped on metallic conductor part 5, and the lower rotation of revolving part 6 connects sense Device bracket 7 is answered, inductor support 7 is equipped with inductor 10, and the outer diameter that inductor support 7 installs at 10 position of inductor is slightly less than The internal diameter of metallic conductor part 5,10 one end of inductor, which corresponds to, is equipped with induction point 1001 at 501 position of sensing chip, inductor 10 is another End is connect with circuit board 8.

Further, the spacing distance between sensing chip 501 is twice of 501 width of sensing chip.

Further, 10 one end of inductor is set there are three the identical induction point 1001 of size, the width of 10 one end of inductor It is three times of 501 width of sensing chip, when revolving part 6 stops at an arbitrary position, can ensures that sensing chip 501 rests on inductor 10 At an induction point 1001 in three induction points 1001.

Further, brake component 11 is additionally provided between revolving part 6 and inductor support 7.

The course of work of the present embodiment is: hand catches case ring when operation, and conductor is equivalent to after case ring plating metal, electricity Rectangle buckle on plating case ring is contacted with metallic conductor part, and the sensing chip on metallic conductor part is parked in sense when revolving part stops It answers at device, three on inductor, which incude to be parked in when promise sensing chip turns to any position stopping with revolving part, to be appointed At one induction point, sensing chip and inductor are non-contact structure, and manpower is equivalent to electrode, when human contact's electroplated decoration circle, So that capacitance on inductor is generated variation by metallic conductor part, is used in touch-control IC(the present embodiment on circuit board CY8C4024 inductor signal, touch-control IC(CY8C4024) are received) signal is passed in MCU(the present embodiment use again STA1090), MCU(STA1090) drive LCD control circuit to light LCD mould group, complete display power up function.

Claims (4)

1. a kind of onboard system inductive control knob structure, including successively axially assemble electroplated decoration circle, transparent cover plate, LCD mould group, LCD module bracket, metallic conductor part, revolving part, inductor support, circuit board and rear cover, the transparent cover plate with The LCD mould group fitting is bonded in the LCD module bracket, is connected by the printed circuit in LCD mould group with the circuit board It connects, it is characterised in that: the electroplated decoration circle is buckled along multiple rectangles being fastened and connected with the revolving part are axially arranged with, described Boss is along the circumferential direction equipped on revolving part inner wall, the metallic conductor part is connected in the revolving part by the boss, The metallic conductor part is equipped with multiple sensing chips, and the sensing chip is placed equidistant with vertically downward in the metallic conductor part On periphery, the rectangle buckle is protruded into the revolving part, and top is crimped on the metallic conductor part, the revolving part Lower rotation connects inductor support, and the inductor support is equipped with inductor, and the inductor support installs inductor position The outer diameter at the place of setting is slightly less than the internal diameter of the metallic conductor part, and described inductor one end, which corresponds to, is equipped with sense at the sensing chip position Ying Dian, the inductor other end are connect with the circuit board.

2. onboard system inductive control knob structure as described in claim 1, it is characterised in that: between the sensing chip Spacing distance is twice of sensing chip width.

3. onboard system inductive control knob structure as described in claim 1, it is characterised in that: described inductor one end is set There are three the identical induction point of size, the width of described inductor one end is three times of the sensing chip width.

4. onboard system inductive control knob structure as described in claim 1, it is characterised in that: the revolving part and described Brake component is additionally provided between inductor support.