CN218367321U - Touch panel for vehicle-mounted air conditioner and air conditioner control system - Google Patents

Abstract

The utility model discloses a touch panel for vehicle-mounted air conditioner, which comprises a touch cover plate, an ink layer, a touch layer and a backlight lamp strip, wherein the touch cover plate comprises an air outlet and a cover plate frame surrounding the air outlet, and the ink layer is arranged on the cover plate frame of the touch cover plate; the touch cover plate further comprises a touch area, and the touch area is positioned on at least one side of the cover plate frame; the touch layer is arranged on the ink layer and located in the touch area, and the backlight lamp strip is arranged on the touch layer. The touch panel can be integrated with an air outlet of an air conditioner, and is convenient to operate nearby. The utility model also discloses an air conditioner control system, including above-mentioned touch panel.

Description

Touch panel for vehicle-mounted air conditioner and air conditioner control system

Technical Field

The utility model relates to a touch-control field especially relates to a touch panel and air conditioner control system for on-vehicle air conditioner.

Background

With the rapid development of automobile industry and the improvement of living standard of people in China, the automobile ownership of resident families is rapidly increased. The vehicle-mounted air conditioner is an air conditioning system used for adjusting the temperature and the humidity in a vehicle and providing comfortable environment for passengers. However, in the existing vehicle-mounted air conditioner, the control of the vehicle-mounted air conditioner is realized through a knob, and as disclosed in the chinese patent with the patent number 201720276170.1, the air conditioner air outlet structure comprises an air outlet pipe and an air outlet front panel, the front side of the air outlet front panel is provided with the knob, the air outlet front panel is provided with a slide way, side walls of two sides of the slide way are respectively provided with a first slide way and a second slide way, a rack is arranged in the first slide way, a slide block is arranged in the second slide way, a plurality of louver grids and a baffle are arranged between the rack and the slide block, the louver grids are rotatably connected with the rack and the slide block, the baffle is fixedly connected with the rack and the slide block, one side of the louver grids is provided with a connecting plate, the louver grids are rotatably connected with the connecting plate, an air outlet communicated with the air outlet pipe is arranged on the bottom surface of the slide way, an L-shaped protrusion is arranged on the connecting plate, and a bent end of the L-shaped protrusion passes through a groove with the section in an L shape and extends to the front side of the air outlet front panel, a rotating shaft is provided with a gear in the front cavity, and a gear is engaged with the gear and the knob.

However, such vehicle-mounted air conditioners controlled by knobs are cumbersome in operation mode, difficult to control appropriate air volume, easy to dirty and clean, faded after long-time use, unattractive in appearance and the like, and poor in user experience.

In order to solve the above problems, a vehicle-mounted air conditioner controlled by a touch panel appears in the prior art, and for example, a chinese patent with a patent number of CN201720657456.4 discloses a touch control system for a vehicle-mounted air conditioner, which includes a touch display module, an MCU motherboard and an air conditioner controller, where the touch display module is used to provide a host air conditioner operation interface for air conditioner control according to touch input, convert the touch input of a user into touch coordinate data, and send the touch coordinate data to the MCU motherboard; the MCU mainboard is connected to the touch display module through a CAN bus and is used for analyzing the touch coordinate data to acquire a CAN protocol corresponding to a vehicle, converting the touch coordinate data into an air conditioner operation instruction according to air conditioner protocol data corresponding to the CAN protocol and sending the air conditioner operation instruction to the air conditioner controller; the air conditioner controller is electrically connected with the MCU mainboard through a CAN bus and is used for converting the air conditioner operation instruction into an adjusting signal of the air conditioner, outputting a corresponding physical signal and controlling the motor of the part of the vehicle-mounted air conditioner to operate.

However, in such a vehicle-mounted air conditioner controlled by the touch panel, the touch panel is generally disposed on the center console, and the distance between the touch panel and the air outlet is far, so that the vehicle-mounted air conditioner cannot be operated nearby, and especially for rear passengers, the vehicle-mounted air conditioner cannot automatically control the air volume of the rear exhaust air outlet by operating the touch panel on the center console.

SUMMERY OF THE UTILITY MODEL

In order to solve the deficiencies of the prior art, the utility model provides a touch panel for vehicle-mounted air conditioner can be integrated with the air conditioner wind gap, convenient operation nearby.

The utility model discloses still provide an air conditioner control system for on-vehicle air conditioner, including above-mentioned touch panel.

The utility model discloses the technical problem that will solve realizes through following technical scheme:

a touch panel for a vehicle-mounted air conditioner comprises a touch cover plate, an ink layer, a touch layer and a backlight lamp bar, wherein the touch cover plate comprises an air outlet and a cover plate frame surrounding the air outlet, and the ink layer is arranged on the cover plate frame of the touch cover plate; the touch cover plate further comprises a touch area, and the touch area is positioned on at least one side of the cover plate frame; the touch layer is arranged on the ink layer and located in the touch area, and the backlight lamp strip is arranged on the touch layer.

Furthermore, a light-permeable switch pattern, an air volume adjusting pattern and an air volume display pattern are formed in the touch area by the ink layer; the touch layer comprises a switch electrode and an air volume adjusting electrode, the switch electrode corresponds to the switch pattern, and the air volume adjusting electrode corresponds to the air volume adjusting pattern.

Furthermore, the number of the air volume adjusting patterns is two, one is an air volume increasing pattern, and the other is an air volume decreasing pattern, and the two air volume increasing patterns and the two air volume decreasing patterns are respectively positioned on two sides of the air volume displaying pattern; the number of the air volume adjusting electrodes is two, one is an air volume increasing electrode corresponding to the air volume increasing pattern, and the other is an air volume reducing electrode corresponding to the air volume reducing pattern.

Further, the backlight lamp bar comprises at least three light emitting devices, at least one light emitting device corresponds to the switch pattern, at least one light emitting device corresponds to the air volume adjusting pattern, and at least one light emitting device corresponds to the air volume display pattern.

Further, the air volume display pattern includes at least two stages of air volume patterns, each stage of air volume pattern corresponding to at least one light emitting device.

Furthermore, all the light emitting devices of the backlight lamp bar are connected in parallel and connected with corresponding switches.

Further, the switch pattern, the air volume adjusting pattern and the air volume displaying pattern are hollow patterns or semi-transparent patterns.

Furthermore, the touch cover plate comprises a glass substrate and a touch circuit arranged on one surface of the glass substrate facing the backlight lamp strip, wherein the touch circuit comprises a switch electrode, an air volume increasing electrode, an air volume reducing electrode and touch wiring connected with the switch electrode, the air volume increasing electrode and the air volume reducing electrode respectively; one end of each touch wire is connected with the switch electrode, the air volume increasing electrode or the air volume reducing electrode, and the other end of each touch wire extends to the peripheral edge of the glass substrate and is bound with a flexible circuit board.

Furthermore, the touch cover plate is a glass cover plate, a plastic cover plate and a sapphire cover plate.

An air conditioner control system for a vehicle-mounted air conditioner comprises the touch panel, an MCU (micro control unit) mainboard, an air conditioner controller and a shutter assembly, wherein the MCU mainboard is electrically connected with the touch panel and the air conditioner controller respectively; the louver component comprises a frame and at least one rotatable air-conditioning louver, the frame is provided with an air-conditioning air opening, and the air-conditioning louver is arranged in the air-conditioning air opening; the frame of the cover plate of the touch panel is attached to the frame of the louver assembly, the air outlet of the touch panel is aligned with the air conditioner air outlet of the louver assembly, and the air conditioner louver is exposed from the air outlet of the touch panel.

The utility model discloses following beneficial effect has: the air outlet is formed in the touch panel, the air outlet is aligned and attached to an air conditioner air inlet in a vehicle during use and assembly, air conditioner shutters at the air conditioner air inlet are exposed out of the air outlet and then integrated with the air conditioner air inlet in the vehicle, convenience is brought to passengers to operate nearby, and the rear passengers can control the on-off and air volume of the vehicle-mounted air conditioner by operating the touch panel at the air conditioner air inlet nearby by themselves.

Drawings

Fig. 1 is a schematic front view of a touch panel provided by the present invention;

FIG. 2 isbase:Sub>A cross-sectional view taken along line A-A of the touch panel shown in FIG. 1;

fig. 3 is a schematic diagram of an ink layer on the back surface of a touch panel provided by the present invention;

fig. 4 is a schematic diagram of a touch layer in a touch panel according to the present invention;

fig. 5 is a schematic circuit diagram of a backlight bar in a touch panel according to the present invention;

fig. 6 is a schematic block diagram of an air conditioner control system provided by the present invention;

fig. 7 is a schematic view of a touch panel and a louver assembly in the air conditioning control system according to the present invention.

Detailed Description

The invention is described in detail below with reference to the drawings, wherein examples of the embodiments are shown in the drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the interconnection of two elements or through the interaction of two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Example one

A touch panel for a vehicle-mounted air conditioner, as shown in fig. 1 and 2, includes a touch cover plate 1, an ink layer 2, a touch layer 4 and a backlight bar, where the touch cover plate 1 includes an air outlet 11 and a cover plate frame 12 surrounding the air outlet 11, and the ink layer 2 is disposed on the cover plate frame 12 of the touch cover plate 1; the touch cover 1 further includes a touch area 13, and the touch area 13 is located on at least one side of the cover frame 12; the touch layer 4 is disposed on the ink layer 2 and located in the touch area 13, and the backlight light bar is disposed on the touch layer 4.

The air outlet 11 is formed in the touch panel, the air outlet 11 is aligned and attached to an air conditioner air inlet in a vehicle during use and assembly, air conditioner shutters at the air conditioner air inlet are exposed out of the air outlet 11 and then integrated with the air conditioner air inlet in the vehicle, a passenger can conveniently operate nearby, and a back-row passenger can control the on-off and air volume of the vehicle-mounted air conditioner by operating the touch panel at the air conditioner air inlet nearby by himself.

When the touch panel is assembled and used, the touch layer 4 and the backlight lamp strip 6 of the touch panel are both electrically connected to an MCU mainboard of an air conditioning control system, the MCU mainboard of the air conditioning control system receives touch signals from the touch layer 4 and sends control instructions to an air conditioning controller according to the received touch signals, so that the air conditioning controller controls the on-off and air volume of a vehicle-mounted air conditioner, and meanwhile, the MCU mainboard also sends control instructions to the backlight lamp strip 6 to control the backlight lamp strip 6 to light the touch area 13.

When the touch panel is manufactured, the ink layer 2 is formed on the cover plate frame 12 of the touch cover plate 1 in a screen printing mode, the touch layer 4 is attached to the touch area 13 of the touch cover plate 1 through OCA glue 3, and the backlight lamp strip 6 is attached to the touch layer 4 through insulating glue 5.

The touch cover 1 may be, but is not limited to, a glass cover, a plastic cover, and a sapphire cover.

In this embodiment, the touch cover plate 1 is a glass cover plate and is made of tempered glass.

Example two

As an optimization solution of the first embodiment, in this embodiment, as shown in fig. 3 and 4, the ink layer 2 is formed with a light-permeable switch 62 pattern 21, an air volume adjusting pattern 22 and an air volume display pattern 23 in the touch area 13, the touch layer 4 includes a switch electrode 42 and an air volume adjusting electrode 43, the switch electrode 42 corresponds to the switch 62 pattern 21, and the air volume adjusting electrode 43 corresponds to the air volume adjusting pattern 22; the backlight light bar 6 comprises at least three light emitting devices 61, at least one light emitting device 61 corresponds to the switch 62 pattern 21, at least one light emitting device 61 corresponds to the air volume adjusting pattern 22, and at least one light emitting device 61 corresponds to the air volume displaying pattern 23.

When the switch electrode 42 senses that a finger touches the switch 62 pattern 21, the touch layer 4 sends a corresponding touch signal to the MCU board, the MCU board sends an on or off instruction to the air conditioner controller according to the received touch signal to control the on or off of the vehicle-mounted air conditioner, and sends an on or off instruction to the backlight light bar 6 to control the on or off of each light emitting device 61 on the backlight light bar 6, after each light emitting device 61 is turned on, the switch 62 pattern 21, the air volume adjusting pattern 22 and the air volume display pattern 23 are respectively turned on, and after each light emitting device 61 is turned off, the switch 62 pattern 21, the air volume adjusting pattern 22 and the air volume display pattern 23 are respectively turned off; when the air volume adjusting electrode 43 senses that a finger touches the air volume adjusting pattern 22, the touch layer 4 sends a corresponding touch signal to the MCU board, and the MCU board sends an air volume adjusting instruction to the air conditioner controller according to the received touch signal, so as to adjust the air volume of the vehicle-mounted air conditioner.

Specifically, the number of the air volume adjusting patterns 22 is two, one is an air volume increasing pattern 22a, and the other is an air volume decreasing pattern 22b, which are respectively located on both sides of the air volume display pattern 23; the air volume display pattern 23 indicates that the air volume gradually decreases from the air volume increasing pattern 22a side to the air volume decreasing pattern 22b side. The number of the air volume adjusting electrodes 43 is two, one is an air volume increasing electrode 43a corresponding to the air volume increasing pattern 22a, and one is an air volume decreasing electrode 43b corresponding to the air volume decreasing pattern 22 b.

The air volume display pattern 23 includes at least two levels of air volume patterns, each level of air volume pattern corresponds to at least one light-emitting device 61, and the MCU board displays the real-time air volume to the passenger by lighting the light-emitting device 61 corresponding to each level of air volume pattern.

As shown in fig. 5, the light emitting devices 61 of the backlight light bar 6 are connected in parallel, and are electrically connected to the MCU board through the corresponding switches 62, and the MCU board turns on the corresponding light emitting devices 61 by controlling the corresponding switches 62. Preferably, each light emitting device 61 is an LED.

In a specific implementation manner, the switch 62 pattern 21, the air volume adjusting pattern 22, and the air volume displaying pattern 23 are hollow patterns of the ink layer 2, and when the ink layer 2 is silk-screened on the touch cover plate 1, the ink avoids the areas where the switch 62 pattern 21, the air volume adjusting pattern 22, and the air volume displaying pattern 23 are located, so as to form the hollow switch 62 pattern 21, the air volume adjusting pattern 22, and the air volume displaying pattern 23.

In another implementation manner, the switch 62 pattern 21, the air volume adjusting pattern 22, and the air volume displaying pattern 23 are semi-transparent patterns of the ink layer 2, a layer of black ink is first silk-screened on the touch cover plate 1, the black ink avoids the areas where the switch 62 pattern 21, the air volume adjusting pattern 22, and the air volume displaying pattern 23 are located to form a hollow pattern, a layer of semi-transparent ink is silk-screened on the black ink, and the semi-transparent ink is filled into the hollow pattern of the black ink to form the semi-transparent switch 62 pattern 21, the air volume adjusting pattern 22, and the air volume displaying pattern 23.

When the backlight lamp bar 6 is not lighted, the color difference between the black ink and the semi-transparent ink is small, the ink layer 2 forms an integral black frame on the touch cover plate 1, so that the screen-turning integral effect is improved, and when the backlight lamp bar 6 is lighted, the semi-transparent ink can be penetrated by light to display the switch 62 pattern 21, the air volume adjusting pattern 22 and the air volume display pattern 23.

The touch layer 4 is a touch cover plate and comprises a glass substrate 41 and a touch circuit arranged on one surface of the glass substrate 41 facing the backlight lamp strip 6, wherein the touch circuit comprises the switch electrode 42, an air volume increasing electrode 43a and an air volume reducing electrode 43b, and a touch trace 44 respectively connected with the switch electrode 42, the air volume increasing electrode 43a and the air volume reducing electrode 43 b; one end of each touch trace 44 is connected to the switch electrode 42, the air volume increasing electrode 43a or the air volume decreasing electrode 43b, and the other end extends to the peripheral edge of the glass substrate 41 and is bound to a flexible circuit board 40, so that the touch signals generated by the switch electrode 42, the air volume increasing electrode 43a and the air volume decreasing electrode 43b are output to the MCU board through the flexible circuit board 40.

EXAMPLE III

An air conditioner control system for a vehicle-mounted air conditioner is shown in fig. 6 and 7, and includes a touch panel 100 and an MCU board, an air conditioner controller and a louver assembly 200, which are described in the first embodiment or the second embodiment, wherein the MCU board is electrically connected to the touch panel 100 and the air conditioner controller respectively; the louver assembly 200 comprises a frame 201 and at least one rotatable air-conditioning louver 203, the frame 201 is provided with an air-conditioning air inlet 202, and the air-conditioning louver 203 is arranged in the air-conditioning air inlet 202; the cover plate frame 12 of the touch panel 100 is attached to the frame 201 of the louver assembly 200, the air outlet 11 of the touch panel 100 is aligned with the air conditioning air outlet 202 of the louver assembly 200, and the air conditioning louver 203 is exposed from the air outlet 11 of the touch panel 100.

It should be finally noted that the above embodiments are only used for illustrating the technical solutions of the embodiments of the present invention and not for limiting the same, and although the embodiments of the present invention are described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the embodiments of the present invention can still be modified or replaced with equivalents, and these modifications or equivalent replacements cannot make the modified technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A touch panel for a vehicle-mounted air conditioner is characterized by comprising a touch cover plate, an ink layer, a touch layer and a backlight lamp bar, wherein the touch cover plate comprises an air outlet and a cover plate frame surrounding the air outlet, and the ink layer is arranged on the cover plate frame of the touch cover plate; the touch cover plate further comprises a touch area, and the touch area is positioned on at least one side of the cover plate frame; the touch layer is arranged on the ink layer and located in the touch area, and the backlight lamp strip is arranged on the touch layer.

2. The touch panel for the vehicle air conditioner according to claim 1, wherein a light-permeable switch pattern, an air volume adjusting pattern and an air volume display pattern are formed in the ink layer in the touch area; the touch layer comprises a switch electrode and an air volume adjusting electrode, the switch electrode corresponds to the switch pattern, and the air volume adjusting electrode corresponds to the air volume adjusting pattern.

3. The touch panel for the vehicle-mounted air conditioner according to claim 2, wherein the number of the air volume adjusting patterns is two, one is an air volume increasing pattern, and the other is an air volume decreasing pattern, which are respectively located on both sides of the air volume display pattern; the number of the air volume adjusting electrodes is two, one is an air volume increasing electrode corresponding to the air volume increasing pattern, and the other is an air volume reducing electrode corresponding to the air volume reducing pattern.

4. The touch panel for the vehicle-mounted air conditioner according to claim 2 or 3, wherein the backlight light bar includes at least three light emitting devices, at least one light emitting device corresponds to the switch pattern, at least one light emitting device corresponds to the air volume adjusting pattern, and at least one light emitting device corresponds to the air volume display pattern.

5. The touch panel for the vehicle air conditioner according to claim 4, wherein the air volume display pattern includes at least two levels of air volume patterns, each level of air volume pattern corresponding to at least one light emitting device.

6. The touch panel for the vehicle-mounted air conditioner as recited in claim 4, wherein the light emitting devices of the backlight light bar are connected in parallel and connected with corresponding switches.

7. The touch panel for the vehicle-mounted air conditioner according to claim 2, wherein the switch pattern, the air volume adjusting pattern and the air volume display pattern are hollow patterns or semi-transparent patterns.

8. The touch panel for the vehicle air conditioner according to claim 1, wherein the touch cover plate comprises a glass substrate and a touch circuit arranged on a surface of the glass substrate facing the backlight light bar, and the touch circuit comprises a switch electrode, an air volume increasing electrode and an air volume reducing electrode, and touch traces respectively connected with the switch electrode, the air volume increasing electrode and the air volume reducing electrode; one end of each touch wire is connected with the switch electrode, the air volume increasing electrode or the air volume reducing electrode, and the other end of each touch wire extends to the peripheral edge of the glass substrate and is bound with a flexible circuit board.

9. The touch panel for the vehicle air conditioner according to claim 1, wherein the touch cover is a glass cover, a plastic cover, or a sapphire cover.

10. An air conditioner control system for a vehicle-mounted air conditioner, which is characterized by comprising the touch panel and the MCU mainboard as recited in any one of claims 1 to 9, an air conditioner controller and a shutter assembly, wherein the MCU mainboard is electrically connected with the touch panel and the air conditioner controller respectively; the louver component comprises a frame and at least one rotatable air-conditioning louver, the frame is provided with an air-conditioning air opening, and the air-conditioning louver is arranged in the air-conditioning air opening; the frame of the cover plate of the touch panel is attached to the frame of the louver assembly, the air outlet of the touch panel is aligned with the air conditioner air outlet of the louver assembly, and the air conditioner louver is exposed from the air outlet of the touch panel.

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