CN213585739U - Indoor dome lamp with gesture recognition and touch functions - Google Patents

Abstract

The utility model relates to an improvement of automobile lighting technology, in particular to a gesture recognition and touch function indoor ceiling lamp, which can realize controlling an indoor lamp, a skylight and a light screen in a touch manner and can also adopt a gesture to control the indoor lamp, the skylight and the light screen, and comprises a reading lamp outer lampshade, a reading lamp PCB, a reading lamp lampshade, a road rescue switch cover, a chute, a mechanical switch PCB board and a lampshade; the reading lamp cover is arranged on the reading lamp PCB, the reading lamp cover is arranged on the lamp cover, the reading lamp outer lamp cover is also arranged on the lamp cover, the reading lamp cover is arranged in the reading lamp cover, the road rescue switch cover is in sliding fit with the lamp cover through a sliding groove, and the mechanical switch PCB is also arranged on the lamp cover; the touch panel, the electric field plate shielding cover, the main control PCB and the rear cover are also included; the electric field plate is arranged in the electric field plate shielding cover, the electric field plate shielding cover is detachably connected with the lamp shade, and the touch pad is also arranged on the lamp shade and is positioned around the electric field plate.

Description

Indoor dome lamp with gesture recognition and touch functions

Technical Field

The utility model relates to an automotive lighting technology's improvement specifically is an indoor dome lamp of gesture recognition and touch function.

Background

The opening and closing of the indoor lamp, the top skylight and the light screen of the automobile in the prior art are still controlled by adopting mechanical keys, and the main problem of the control mode adopting the mechanical keys is that along with the aging of the automobile, especially when some plastic parts, switch keys and the like of a high-grade noble vehicle are damaged, the maintenance and replacement usually need to be carried out for a long time and the maintenance cost is higher, but the prior art does not have other new realization modes for controlling the device of the automobile.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem who solves overcomes current defect, provides an indoor dome lamp of gesture recognition and touch function, can realize controlling indoor lamp and skylight and light screen with the mode of touch, can adopt gesture control indoor lamp and skylight and light screen again.

In order to solve the technical problem, the utility model provides a following technical scheme: a gesture recognition and touch function indoor ceiling lamp comprises a reading lamp outer lampshade, a reading lamp PCB, a reading lamp lampshade, a road rescue switch cover, a sliding groove, a mechanical switch PCB board and a lampshade;

the reading lamp cover is arranged on the reading lamp PCB, the reading lamp cover is arranged on the lamp cover, the reading lamp outer lamp cover is also arranged on the lamp cover, the reading lamp cover is arranged in the reading lamp cover, the road rescue switch cover is in sliding fit with the lamp cover through a sliding groove, and the mechanical switch PCB is also arranged on the lamp cover;

the touch panel, the electric field plate shielding cover, the main control PCB and the rear cover are also included;

the electric field plate is established in the electric field plate shield cover, electric field plate shield cover and lamp shade detachable connection, the touch pad is also established on the lamp shade and is located around the electric field plate, touch pad, electric field plate shield cover and main control PCB board are all installed in the back lid, back lid and lamp shade detachable connection, touch pad and electric field plate all are connected with main control PCB board.

Preferably, the touch panel is an FPC flexible board using capacitive touch.

Preferably, the lampshade is provided with an operation interface area, the operation interface area is made of a non-conductive material, and the touch pad is arranged on the back of the operation interface area and attached to the operation interface area.

The utility model discloses beneficial effect: the utility model discloses an indoor dome lamp of gesture recognition and touch function controls the switch on the dome lamp the left side or the right through hand left side or right slip, and the switch in the switch and the skylight in the steerable top skylight sunshading board of hand top-down slip. Compared with the traditional dome lamp, the design of the utility model saves the traditional mechanical switch keys, has more abundant space, and replaces the mechanical switch keys by touch, thus leading the surface of the lampshade to be smoother and the shape to be simple and beautiful; and gesture control based on the electric field plate control principle is added, so that a driver can control the electric field plate control principle in a sliding mode by hands while driving, the driving feeling is improved, and compared with a key, the electric field plate control method is more convenient and faster.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is an assembly schematic of the present invention.

Description of reference numerals: 101. the outer lampshade of the reading lamp; 102. a reading lamp PCB; 103. a reading lamp shade; 104. a road rescue switch cover; 105. a chute; 106. a mechanical switch PCB board; 107. a lamp shade; 1071. an operation interface region; 108. a touch panel; 109. an electric field plate; 110. an electric field plate shielding cover; 111. a rear cover; 112. the main control PCB board.

Detailed Description

The following description of the preferred embodiments of the present invention is provided for the purpose of illustration and description, and is not intended to limit the invention.

A gesture recognition and touch function indoor ceiling lamp comprises a reading lamp outer lampshade 101, a reading lamp PCB102, a reading lamp lampshade 103, a road rescue switch cover 104, a sliding groove 105, a mechanical switch PCB board 106 and a lampshade 107; the reading lamp shade 103 is arranged on the reading lamp PCB102, the reading lamp shade 103 is arranged on the lamp shade 107, the reading lamp outer lamp shade 101 is also arranged on the lamp shade 107, the reading lamp shade 103 is arranged in the reading lamp shade 103, the road rescue switch cover 104 is in sliding fit with the lamp shade 107 through a sliding groove 105, and the mechanical switch PCB 106 is also arranged on the lamp shade 107; also included are a touch pad 108, an electric field plate 109, an electric field plate shield cover 110, a main control PCB board 112 and a back cover 111; electric field plate 109 establishes in electric field plate shield 110, electric field plate shield 110 and lamp shade 107 detachable connection, touch pad 108 also establishes on lamp shade 107 and is located electric field plate 109 all around, touch pad 108, electric field plate 109, electric field plate shield 110 and main control PCB board 112 are all installed in back lid 111, back lid 111 and lamp shade 107 detachable connection, touch pad 108 and electric field plate 109 all are connected with main control PCB board 112.

The touch pad 108 is an FPC flexible board adopting capacitive touch; the lamp housing 107 is provided with an operation interface area 1071, the operation interface area 1071 is made of a non-conductive material, and the touch pad 108 is disposed on the back surface of the operation interface area 1071 and attached to the operation interface area 1071.

The road rescue switch has two modes, namely emergency rescue and road rescue, and the two modes are mechanical keys. And the touch area can control the top skylight and the shading plate, and the reading lamp is left and right. Meanwhile, the top reading lamp and the top skylight can be controlled by sliding the hands above the touch area.

As shown in the figure, the touch pad 108 is an FPC flexible board, and is a capacitive touch sensor, and the principle is that when a finger of a human body contacts a metal sensing piece, a capacitance is formed between the sensing piece and the ground because the human body is equivalent to a capacitance connected to the ground. The key operating interface may be a single piece of non-conductive material, where the black area of fig. 1 is the operating interface area 1071, and the FPC flexible board is attached to the back of the outer cover 101 of the reading lamp corresponding to the operating interface area 1071 of the cover 107. And the port of the FPC flexible board is connected with the port of a main control PCB 112 of the touch control chip.

The touch pad 108 is a groove line, and the middle size of the groove is slightly larger than the size of the electric field plate 109 compared with the electric field plate 109, so as to prevent the FPC flexible plate from interfering with the electric field plate 109. Because the touch pad 108FPC flexible board and the electric field board 109 are tightly attached to the inner side of the lampshade during assembly.

The utility model discloses in, lamp shade 107 has adopted IML mould inner inlay piece to mould plastics, and its characteristics are that the surface is the transparent film of a layer sclerosis, and the centre is the printing pattern layer, and the back is the plastic layer, because printing ink presss from both sides in the centre, can make the product prevent that the surface from being scraped flower and antifriction, and can keep the bright difficult fading of colour for a long time. The lampshade 107 is made of PC and PMMA, the surface of the lampshade is made of transparent PMMA, the bottom surface of the lampshade is made of PC material, and the picture marks of the middle printing ink are black.

The gesture recognition function uses electric field sensing to detect gestures, the electrodes are on the electric field plate 109, there are four electrodes with a width of 0.5MM, and the four electrodes are closed to form a matrix shape. And a metallic field plate shield cap 110 is added behind the field plate 109 to prevent interference from other currents. The back of the electric field plate 109 has beam ports, the electric field control chips of which are also distributed on the main control PCB 112, and the ports of the electric field plate 109 are connected to the main control PCB 112.

Four screw through holes are formed in the outer side of the electric field plate shielding cover 110, four corresponding screw holes are formed in the back of the lampshade 107 to install the electric field plate shielding cover 110, the electric field plate 109 is fixed on a screw column in the electric field plate shielding cover 110, the upper portion of the electric field plate is covered by the lampshade, therefore, the nearest size of an electric field and human interaction can be guaranteed, the rear side of the electric field plate shielding cover 110 can be covered, the electrostatic interference of the rear main control PCB 112 is prevented, and gaps are reserved on the side edges of the electric field plate shielding cover 110 to enable the wiring harness at the port of the electric field plate 109 to penetrate through.

The main control PCB 112 is installed on the screw on the inner side of the rear cover 111, four screw through holes are arranged on the rear cover 111 and can be mutually buckled and fixed with four screw columns on the inner side of the outer lampshade 101 of the reading lamp, two installation angles are arranged in front of the rear side of the rear cover 111, and two spring buckling structures are arranged below the rear cover and are used for being matched and fixed with sheet metal parts in a vehicle room.

The utility model discloses an indoor dome lamp of gesture recognition and touch function has realized detecting the gesture based on electric field plate sensing to steerable car room lamp and top skylight and light screen, but the capacitive touch response touch control car room lamp and the operation effect of top skylight and light screen based on the FPC flexor.

The above is the preferred embodiment of the present invention, and the technical personnel in the field of the present invention can also change and modify the above embodiment, therefore, the present invention is not limited to the above specific embodiment, and any obvious improvement, replacement or modification made by the technical personnel in the field on the basis of the present invention all belong to the protection scope of the present invention.

Claims (3)

1. A gesture recognition and touch function indoor ceiling lamp comprises a reading lamp outer lampshade (101), a reading lamp PCB (102), a reading lamp lampshade (103), a road rescue switch cover (104), a sliding groove (105), a mechanical switch PCB board (106) and a lampshade (107);

the reading lamp cover (103) is arranged on the reading lamp PCB (102), the reading lamp cover (103) is arranged on the lamp shade (107), the reading lamp outer lamp shade (101) is also arranged on the lamp shade (107), the reading lamp cover (103) is arranged in the reading lamp cover (103), the road rescue switch cover (104) is in sliding fit with the lamp shade (107) through a sliding groove (105), and the mechanical switch PCB (106) is also arranged on the lamp shade (107);

the method is characterized in that: the touch panel is characterized by further comprising a touch panel (108), an electric field plate (109), an electric field plate shielding cover (110), a main control PCB (112) and a rear cover (111);

electric field plate (109) are established in electric field plate shield cover (110), electric field plate shield cover (110) and lamp shade (107) detachable connection, touch pad (108) are also established on lamp shade (107) and are located around electric field plate (109), touch pad (108), electric field plate (109), electric field plate shield cover (110) and main control PCB board (112) are all installed in back lid (111), back lid (111) and lamp shade (107) detachable connection, touch pad (108) and electric field plate (109) all are connected with main control PCB board (112).

2. The gesture recognition and touch function indoor dome lamp of claim 1, wherein: the touch pad (108) is an FPC flexible board adopting capacitive touch.

3. The gesture recognition and touch function indoor dome lamp of claim 1, wherein: the lamp shade (107) is provided with an operation interface area (1071), the operation interface area (1071) is made of non-conductive material, and the touch pad (108) is arranged on the back of the operation interface area (1071) and attached to the operation interface area (1071).

Images