CN111674341B

CN111674341B - Skylight sunshade screen combination control switch

Info

Publication number: CN111674341B
Application number: CN202010651547.3A
Authority: CN
Inventors: 汪伟; 何千道
Original assignee: Huangshan Ruixing Automobile Electronic Co ltd
Current assignee: Huangshan Ruixing Automobile Electronic Co ltd
Priority date: 2020-07-08
Filing date: 2020-07-08
Publication date: 2024-06-14
Anticipated expiration: 2040-07-08
Also published as: CN111674341A

Abstract

The invention discloses a skylight sunshade screen combination control switch, which comprises a shell, a PCB and a conductive rubber plate, wherein a sliding block is arranged on the shell, a button fixing seat is arranged on the sliding block, a first push-down ejector rod and a second push-down ejector rod which are matched with the button fixing seat are arranged in the shell, and a first push-down rubber guide column matched with the first push-down ejector rod and a second push-down rubber guide column matched with the second push-down ejector rod are arranged on the conductive rubber plate; a first swinging rod and a second swinging rod which can rotate are arranged in the shell; a first ejector rod is arranged below the first swing rod, and a first rubber guide post matched with the first ejector rod is arranged on the conductive rubber plate; a second ejector rod is arranged below the second swing rod, and a second rubber guide post matched with the second ejector rod is arranged on the conductive rubber plate. The switch structure can realize the contact conduction of 6 electric signals, thereby realizing the control of the sunshade curtain and the sunroof, and being widely applied to the field of automobile sunroof switches.

Description

Skylight sunshade screen combination control switch

Technical Field

The invention relates to the field of automobile switches, in particular to a skylight sunshade screen combination control switch.

Background

Sunroofs are a common arrangement for automobiles, under which sun visors or sun shades are also typically arranged. The existing automobile skylight opening and closing switch and the existing sunshade curtain opening and closing switch are independently arranged and arranged on an automobile roof. By adopting the independent switch structure, as the skylight and the sunshade curtain switch are arranged on the ceiling, most drivers are blind to operate when driving, and the operation is easy to be wrong. And two switch structures occupy large space, the processing cost is also high, the arrangement and the processing are unfavorable, and the skylight opening and the sunshade curtain opening are usually combined and used, and the skylight opening and the sunshade curtain opening and closing can be arranged on the same switch assembly in consideration of the continuity of actions. Because the skylight is opened and closed manually and automatically, 4 trigger signals are needed, and the sunshade curtain is opened and closed together with two trigger signals, at least 6 trigger signals are needed for the switch, so that the simplicity of structural design and the mutual interference resistance are key for the whole switch design.

Disclosure of Invention

The invention aims to provide a skylight sunshade screen combination control switch, which solves the problems that the existing skylight sunshade screen needs two switches to be controlled independently and occupies large space.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a skylight sunshade screen combination control switch, includes the shell that fixes on the automobile body sets up the PCB board in the shell and sets up the conductive rubber plate on the PCB board, be provided with the slider that can reciprocate on the shell, install rotatable button fixing base on the slider, fixed mounting has the button on the button fixing base, be provided with in the shell with button fixing base complex first push down ejector pin and second push down ejector pin, be provided with on the conductive rubber plate with first push down ejector pin complex first push down rubber guide pillar and with second push down ejector pin complex second push down rubber guide pillar;

A first swinging rod and a second swinging rod which can rotate are arranged in the shell and on the moving path of the sliding block; a first ejector rod is arranged below the first swing rod, and a first rubber guide post matched with the first ejector rod is arranged on the conductive rubber plate; a second ejector rod is arranged below the second swing rod, and a second rubber guide post matched with the second ejector rod is arranged on the conductive rubber plate.

In order to realize the opening and closing of the automatic skylight and the manual skylight, the first rubber guide post comprises a first manual rubber guide post and a first automatic rubber guide post, first gear blocks are arranged on the first manual rubber guide post and the first automatic rubber guide post, and the lower end of the first ejector rod is pressed on the first gear blocks and is close to the first manual rubber guide post; the second rubber guide post comprises a second manual rubber guide post and a second automatic rubber guide post, second gear blocks are arranged on the second manual rubber guide post and the second automatic rubber guide post, and the lower end of the second ejector rod is pressed on the second gear blocks and is close to the position of the second manual rubber guide post.

In order to ensure the matching position of the first ejector rod and the first gear block, the matching position of the second ejector rod and the second gear block is provided with pressing grooves respectively matched with the bottoms of the first ejector rod and the second ejector rod.

In order to ensure the matching reliability of the swing rods and the ejector rods, the first swing rod and the second swing rod comprise a rotating shaft arranged on the shell and a swing block arranged on the rotating shaft, the swing block is of a triangular block structure, one side of the swing block is matched with the first ejector rod or the second ejector rod below, the other side of the swing block is matched with the sliding block, and bayonets matched with the swing block are formed in the first ejector rod and the second ejector rod.

In order to further ensure that the manual rubber guide posts are contacted and conducted firstly when the ejector rod is pressed down, the first manual rubber guide post, the first automatic rubber guide post, the second manual rubber guide post and the second automatic rubber guide post all comprise conical deformation parts at the bottoms and cylindrical platforms arranged on the conical deformation parts; the taper of the taper deformation part of the first manual rubber guide post is larger than that of the first automatic rubber guide post, and the diameter of the cylindrical table of the first manual rubber guide post is larger than that of the first automatic rubber guide post; the structure of the second manual rubber guide post is the same as that of the first manual rubber guide post, and the structure of the second automatic rubber guide post is the same as that of the first automatic rubber guide post.

In order to prevent the sliding block from sliding, the lower pressing ejector rod is not in contact conduction with the lower pressing rubber guide post, and the first lower pressing ejector rod comprises a first lower pressing ejector rod matched with the first lower pressing rubber guide post and a first lower pressing ejector rod arranged on the first lower pressing ejector rod; the bottom of the first lower upper ejector rod is provided with a limiting rod, and the shell is symmetrically provided with two baffles for supporting the limiting rod; the structure of the second downward pressing ejector rod is the same as that of the first downward pressing ejector rod, and the second downward pressing ejector rod comprises a second downward pressing ejector rod and a second downward pressing upper ejector rod; and a yielding groove is formed in the baffle plate above the first lower push rod and the second lower push rod.

In order to ensure the gear hand feeling during the pressing, the sliding block is further provided with a gear pin, the button fixing seat is provided with a gear track matched with the gear pin, and an ejection spring for ejecting the gear pin on the gear track is further arranged below the gear pin.

In order to ensure the reliability of the movement of the sliding block, the shell is provided with a sliding rail, and the sliding block is provided with a sliding groove matched with the sliding rail.

The invention has the beneficial effects that: according to the invention, the first downward pressing ejector rod and the second downward pressing ejector rod are driven to move downwards through the rotation of the button, so that the first downward pressing rubber guide post and the second downward pressing rubber guide post below are in contact conduction with the PCB, and the sunshade curtain is opened and closed. Then through back-and-forth sliding slider, the slider slides and drives the pendulum rod and rotate, and the pendulum rod pushes down the ejector pin, realizes that ejector pin below rubber guide pillar and PCB board contact switch on, then realizes that manual rubber guide pillar and automatic rubber guide pillar's successive contact switch on through the unit piece to realize the manual switching and the automatic switching function of skylight, simple structure, convenient operation, the reliability is good. The pushing down ejector rod adopts a sectional design, and a baffle is arranged on the shell, so that the pushing down ejector rod can not be pushed down when the sliding block slides, and mutual interference is avoided. The switch has the advantages of ingenious overall structural design, small occupied space, reliable performance and low cost.

The invention will be described in more detail below with reference to the drawings and examples.

Drawings

Fig. 1 is an exploded view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is a schematic perspective view of a conductive adhesive plate and a matching structure thereof according to the present invention.

Fig. 5 is a schematic perspective view of the housing according to the present invention.

Fig. 6 is a schematic perspective view of a first lower upper ejector rod according to the present invention.

FIG. 7 is a schematic view of the mating structure of the first manual rubber guide post and the first automatic rubber guide post according to the present invention.

Detailed Description

An embodiment, as shown in fig. 1 to 7, a sunroof shade combination control switch includes a housing 1 fixed on a vehicle body, a PCB board 2 disposed in the housing 1, and a conductive adhesive sheet 3 disposed on the PCB board 2. The shell 1 is provided with a sliding block 4 capable of moving back and forth, specifically, the shell 1 is provided with two sliding rails 103 which are arranged in parallel, the sliding block 4 is provided with a sliding groove 401 matched with the sliding rails 103, and the sliding block 4 is ensured to slide along a set direction through the matching of the sliding groove 401 and the sliding rails 103. The sliding block 4 is provided with a rotatable button fixing seat 5, and the button fixing seat 5 is fixedly provided with a button 6. The both sides of button fixing base 5 are provided with the installation arm, are provided with the rotation mounting hole on the installation arm, the both sides of slider 4 are provided with rotate mounting hole complex erection column, rotate the mounting hole and install on the erection column to realize the normal running fit of button fixing base 5 and slider 4.

The shell 1 is internally provided with a first push rod 7 and a second push rod 8 which are matched with the button fixing seat 5, and the conductive rubber plate 3 is provided with a first push rubber guide post 9 matched with the first push rod 7 and a second push rubber guide post 10 matched with the second push rod 8. The first lower push rod 7 comprises a first lower push rod 701 matched with the first lower rubber guide post 9 and a first lower upper push rod 702 arranged on the first lower push rod 701, a mounting hole matched with the first lower upper push rod 702 is formed in the sliding block 4, the first lower upper push rod 702 is sleeved in the mounting hole of the sliding block 4, so that the first lower upper push rod 702 can move up and down, and meanwhile, can also move horizontally along with the sliding block 4.

The bottom of the first lower upper ejector rod 702 is provided with a limiting rod 703, two baffles 101 supporting the limiting rod 703 are symmetrically arranged on the shell 1, and the baffles 101 are located on the inner side of the sliding rail 103. The second pressing ejector rod 8 has the same structure as the first pressing ejector rod 7, and comprises a second pressing ejector rod 801 and a second pressing upper ejector rod 802. The baffle 101 is disposed above the first lower push rod 701 and the second lower push rod 801, and is provided with a yielding groove 102 for yielding the limit rod 703 to enable the first lower upper push rod 702 and the second lower upper push rod 802 to descend. When the sliding block 4 is at the initial position, the first lower upper ejector rod 702 is located right above the first lower ejector rod 701, the second lower upper ejector rod 802 is located right above the second lower ejector rod 701, the button 6 is pushed forward and backward, the button pushes the first lower upper ejector rod 702 or the second lower upper ejector rod 802, the lower first lower ejector rod 701 or the second lower ejector rod 801 is driven to move downwards, and accordingly the first lower rubber guide column 9 or the second lower rubber guide column 10 is pushed downwards, conductive particles located on the first lower rubber guide column 9 or the second lower rubber guide column 10 are in contact conduction with the PCB 2, and triggering of a switch signal is achieved.

In order to realize gear hand feeling when the button 6 is rotated and ensure that the button is shifted to a proper position, the sliding block 4 is further provided with a gear pin 20, the button fixing seat 5 is provided with a gear track 501 matched with the gear pin 20, and an ejection spring 21 for ejecting the gear pin 20 on the gear track 501 is further arranged below the gear pin 20. When the button 6 is pushed, the shift pin 20 moves on the shift track 501, thereby realizing shift feel.

A first swinging rod 11 and a second swinging rod 12 which can rotate are respectively arranged in the shell 1 and on the front-back moving path of the sliding block 4; a first ejector rod 13 is arranged below the first swing rod 11, and a first rubber guide column 14 matched with the first ejector rod 13 is arranged on the conductive rubber plate 3; a second ejector rod 15 is arranged below the second swing rod 12, and a second rubber guide column 16 matched with the second ejector rod 15 is arranged on the conductive rubber plate 3. The sliding block 4 moves to drive the first swing rod 11 or the second swing rod 12 to rotate, so that the first ejector rod 13 or the second ejector rod 15 is pressed down, the first rubber guide column 14 and the second rubber guide column 16 below the first ejector rod 13 and the second ejector rod 15 are pressed in parallel, and conductive particles on the first rubber guide column 14 and the second rubber guide column 16 are in contact conduction with the PCB 2, so that the triggering of a switching signal is realized. When the slide block 4 moves, the first lower upper push rod 702 and the second lower upper push rod 802 also move together with the slide block 4, and at this time, the limit rods 703 of the first lower upper push rod 702 and the second lower upper push rod 802 press on the baffle 101, so that the button cannot rotate, and misoperation is avoided.

For moving the slide block to realize the generation of 4 trigger signals, the first rubber guide post 14 includes a first manual rubber guide post 141 and a first automatic rubber guide post 142, the first manual rubber guide post 141 and the first automatic rubber guide post 142 are provided with a first gear block 17, the lower end of the first ejector rod 13 is pressed on the first gear block 17 and is close to the position of the first manual rubber guide post 141, the position is provided with a pressing groove 19, and the first ejector rod 13 is pressed in the pressing groove 19. Through the lever principle, when the first swing rod 11 rotates to drive the first ejector rod 13 to press down, the stress of the first manual rubber guide post 141 is larger than that of the first automatic rubber guide post 142. The structure of the second rubber guide post 16 is the same as that of the first rubber guide post 14, the second rubber guide post 16 comprises a second manual rubber guide post 161 and a second automatic rubber guide post 162, a second gear block 18 is arranged on the second manual rubber guide post 161 and the second automatic rubber guide post 162, the lower end of the second ejector rod 15 is pressed on the second gear block 18 and is close to the position of the second manual rubber guide post 161, a pressing groove 19 is also arranged at the position, and the second ejector rod 15 is pressed in the pressing groove 19.

The first manual rubber guide post 141, the first automatic rubber guide post 142, the second manual rubber guide post 161 and the second automatic rubber guide post 162 each include a tapered deformation portion 1001 at the bottom and a cylindrical table 1002 provided on the tapered deformation portion 1001; the taper of the taper deformation portion 1001 of the first manual rubber guide post 141 is larger than that of the first automatic rubber guide post 142, and the diameter of the cylindrical table 1002 of the first manual rubber guide post 141 is larger than that of the first automatic rubber guide post 142. The structure makes the force required by the forced deformation of the first manual rubber guide post 141 smaller than that of the first automatic rubber guide post 142, and combines with the indent position of the first gear block 17, so that when the sliding block 4 slides to drive the first ejector rod 13 to move downwards, the first manual rubber guide post 141 deforms first to be in contact with the PCB, and when the sliding block is pushed continuously, the first automatic rubber guide post 142 deforms to be in contact with and is conducted. The second manual rubber guide post 161 has the same structure as the first manual rubber guide post 141, and the second automatic rubber guide post 162 has the same structure as the first automatic rubber guide post 142.

The specific structure of the first swing rod 11 and the second swing rod 12 comprises a rotating shaft 1101 arranged on the shell 1 and a swing block 1102 arranged on the rotating shaft 1101, the swing block 1102 is of a triangular block structure, one side of the swing block 1102 is matched with a first ejector rod 13 or a second ejector rod 15 below, the other side of the swing block is matched with the sliding block 4, bayonets 131 matched with the swing block 1102 are arranged on the first ejector rod 13 and the second ejector rod 15, and the reliability of motion transmission is guaranteed through the structure.

The switch structure can realize the conduction of two paths of electric signals when the button is pushed back and forth, so that the switch structure can be used for realizing the opening and closing of the sunshade curtain, and can realize the conduction of four paths of electric signals when the slider is pushed back and forth, thereby realizing the manual opening, the automatic opening, the manual closing and the automatic closing of the skylight.

The invention is described above by way of example with reference to the accompanying drawings. It will be clear that the invention is not limited to the embodiments described above. As long as various insubstantial improvements are made using the method concepts and technical solutions of the present invention; or the invention is not improved, and the conception and the technical scheme are directly applied to other occasions and are all within the protection scope of the invention.

Claims

1. The utility model provides a skylight sunshade screen combination control switch, includes shell (1) setting on the automobile body PCB board (2) and setting conductive adhesive tape board (3) on PCB board (2) in shell (1), its characterized in that: the novel electric power switch is characterized in that a sliding block (4) capable of moving back and forth is arranged on the shell (1), a rotatable button fixing seat (5) is arranged on the sliding block (4), a button (6) is fixedly arranged on the button fixing seat (5), a first push-down ejector rod (7) and a second push-down ejector rod (8) which are matched with the button fixing seat (5) are arranged in the shell (1), and a first push-down rubber guide column (9) which is matched with the first push-down ejector rod (7) and a second push-down rubber guide column (10) which is matched with the second push-down ejector rod (8) are arranged on the conductive rubber plate (3);

a first swinging rod (11) and a second swinging rod (12) which can rotate are arranged in the shell (1) and on the moving path of the sliding block (4); a first ejector rod (13) is arranged below the first swing rod (11), and a first rubber guide post (14) matched with the first ejector rod (13) is arranged on the conductive rubber plate (3); a second ejector rod (15) is arranged below the second swing rod (12), and a second rubber guide post (16) matched with the second ejector rod (15) is arranged on the conductive rubber plate (3);

The first rubber guide post (14) comprises a first manual rubber guide post (141) and a first automatic rubber guide post (142), a first gear block (17) is arranged on the first manual rubber guide post (141) and the first automatic rubber guide post (142), and the lower end of the first ejector rod (13) is pressed on the first gear block (17) and is close to the position of the first manual rubber guide post (141); the second rubber guide post (16) comprises a second manual rubber guide post (161) and a second automatic rubber guide post (162), a second gear block (18) is arranged on the second manual rubber guide post (161) and the second automatic rubber guide post (162), and the lower end of the second ejector rod (15) is pressed on the second gear block (18) and is close to the position of the second manual rubber guide post (161);

The first lower push rod (7) comprises a first lower push rod (701) matched with the first lower rubber guide post (9) and a first lower upper push rod (702) arranged on the first lower push rod (701); a limiting rod (703) is arranged at the bottom of the first lower upper ejector rod (702), and two baffles (101) supporting the limiting rod (703) are symmetrically arranged on the shell (1); the second downward pressing ejector rod (8) has the same structure as the first downward pressing ejector rod (7) and comprises a second downward pressing ejector rod (801) and a second downward pressing upper ejector rod (802); and a yielding groove (102) is formed in the baffle plate (101) above the first lower push rod (701) and the second lower push rod (801).

2. The sunroof shade combination control switch of claim 1 wherein: the first gear block (17) and the second gear block (18) are respectively provided with a pressing groove (19) which is matched with the bottoms of the first ejector rod (13) and the second ejector rod (15).

3. The sunroof shade combination control switch of claim 2 wherein: the first swing rod (11) and the second swing rod (12) comprise a rotating shaft (1101) arranged on the shell (1) and a swing block (1102) arranged on the rotating shaft (1101), the swing block (1102) is of a triangular block structure, one side of the swing block is matched with a first ejector rod (13) or a second ejector rod (15) below, the other side of the swing block is matched with the sliding block (4), and bayonets (131) matched with the swing block (1102) are arranged on the first ejector rod (13) and the second ejector rod (15).

4. The sunroof shade combination control switch of claim 2 wherein: the first manual rubber guide post (141), the first automatic rubber guide post (142), the second manual rubber guide post (161) and the second automatic rubber guide post (162) comprise a conical deformation part (1001) at the bottom and a cylindrical table (1002) arranged on the conical deformation part (1001); the taper of the taper deformation part (1001) of the first manual rubber guide pillar (141) is larger than that of the first automatic rubber guide pillar (142), and the diameter of a cylindrical table (1002) of the first manual rubber guide pillar (141) is larger than that of the first automatic rubber guide pillar (142); the second manual rubber guide post (161) has the same structure as the first manual rubber guide post (141), and the second automatic rubber guide post (162) has the same structure as the first automatic rubber guide post (142).

5. The sunroof shade combination control switch of claim 1 wherein: the gear-shifting mechanism is characterized in that a gear pin (20) is further arranged on the sliding block (4), a gear track (501) matched with the gear pin (20) is arranged on the button fixing seat (5), and an ejection spring (21) for ejecting the gear pin (20) onto the gear track (501) is further arranged below the gear pin (20).

6. The sunroof shade combination control switch of claim 1 wherein: the shell (1) is provided with a sliding rail (103), and the sliding block (4) is provided with a sliding groove (401) matched with the sliding rail (103).