The utility model belongs to the technical field of gun sights, in particular to a knob brightness adjustment switch, in particular to a multi-gear brightness adjustment circuit board, a multi-gear brightness adjustment assembly, and a battery holder structure.
In order to reduce the size of the gun sight and the convenience of operation, the battery compartment and the knob switch are generally designed as a whole, and the output light energy or power is adjusted through manually adjusting the gear of the knob switch.
However, the existing rotary switch (with battery included) only has the function of manual adjustment, and cannot automatically adjust the light power according to the needs of ambient light. At the same time, the mode of the target cannot be adjusted or changed, such as cannot switching between the aiming point and the dot-circle mode, but relying on the separately disposed aiming auxiliary target mode switch button to achieve this, which is not conducive to the reduction of overall components and the convenience of operation.
The purpose of the utility model is to transform the existing knob-type control switch or assembly to automatically adjust the light power according to the external ambient light and realize the switching of the mode of aiming at the target. Thereby, the sight has better application performance, and at the same time, the electric energy is fully and reasonably used, and the unreasonable and wasteful utilization of electric energy is avoided.
To achieve the above purpose, A multi-gear brightness adjustment circuit board, including a plurality of gear conductive contact pieces disposed sequentially along a circumferential direction of a top surface of a circuit board and with gradually increased gear, where the circuit board is also disposed with an automatic control gear AUTO conductive contact piece and a light spot dot-circle pattern composite conductive contact piece disposed along the circumferential direction of the circuit board in the circumferential direction.
The automatic control gear AUTO conductive contact piece and the light spot dot-circle pattern composite conductive contact piece are sequentially disposed between an OFF gear of the gear conductive contact piece and a maximum gear MAX conductive contact piece of the gear conductive contact piece;
or the automatic control gear AUTO conductive contact piece and the light spot dot-circle pattern composite conductive contact piece are respectively disposed closely on a front and a back sides of the OFF gear.
When the automatic control gear AUTO conductive contact piece and the light spot dot-circle pattern composite conductive contact piece are respectively disposed closely on the front and back sides of the OFF gear, where
the automatic control gear AUTO conductive contact piece is disposed between a 1 gear conductive contact piece of the gear conductive contact piece and the OFF gear, and the light spot dot-circle pattern composite conductive contact piece is disposed between the OFF gear and the maximum gear MAX conductive contact piece.
The top surface of the circuit board is disposed with a negative conductive contact point or piece and a positive conductive ring;
the gear conductive contact piece, the automatic control gear AUTO conductive contact piece and the light spot dot-circle pattern composite conductive contact piece are all disposed on the same circumferential gear ring surface;
the negative conductive contact point or piece, the positive conductive ring and the circumferential gear ring surface are arranged along the radial direction of the circuit board, and are respectively disposed on non-intersecting ring surfaces.
A battery holder structure including the above multi-gear brightness adjustment circuit board, where including a first pressing ring, an annular rotating cover, an annular rotating seat and a second pressing ring, a upper cover, an insulating pad, a battery, a positive toothed ring, a negative circuit board, a conductive contact piece;
the insulating pad is pressed between the upper cover and a positive of the battery;
the battery is clamped in the positive toothed ring;
the negative circuit board is disposed between a negative of the battery and the conductive contact piece;
the negative circuit board is disposed with a negative elastic piece that is pressed between the negative of the battery and the negative circuit board;
the conductive contact piece includes a positive conductive contact piece, a negative conductive contact piece and a gear switching contact piece;
the positive conductive contact piece and the negative conductive contact piece are respectively in contact with a positive conductive piece and a negative conductive piece on the circuit board;
the gear switching contact piece is used to contact any one of the gear conductive contact piece, the automatic control gear AUTO conductive contact piece, and the light spot dot-circle pattern composite conductive contact piece to realize a switching of different working states or modes;
the first pressing ring is disposed outside the positive toothed ring and presses a top surface edge of the negative circuit board from top to bottom;
the negative circuit board is suspended on a step on an inner wall of the annular rotating seat;
the second pressing ring is sleeved on a annular step at a bottom end of an outer wall of the annular rotating seat;
the annular rotating cover is sleeved on a top of the annular rotating seat and is spirally connected with the annular rotating seat;
the upper cover is threadedly connected with a upper end of an inner wall of the annular rotating seat;
the circuit board is fixed on a housing of a peripheral device.
A sealing ring is disposed between the annular rotating seat and a mounting hole on the housing.
A plurality of spherical grooves arranged in a circumferential direction are disposed on a bottom end surface of the annular rotating seat;
the housing is disposed with at least one blind hole perpendicular to the bottom end surface of the annular rotating seat, a coil spring and a steel ball are disposed in the blind hole;
the steel ball and the coil spring are sequentially disposed between the spherical groove and a bottom surface of the blind hole;
a C-shaped step is disposed on an inner side of a bottom end surface of the annular rotating seat; an annular step for mounting the circuit board is disposed on an inner side of a mounting hole on the housing, and a limit member that can be embedded in the C-shaped step is disposed on the annular step, thereby the annular rotating seat rotates clockwise and counterclockwise within a range of less than 360° relative to a plane where the mounting hole is located.
A notch recessed radially outward is disposed on a side wall of the mounting hole, and the notch is located above the annular step, and is used to cooperate with protrusions on a edge of the circuit board mounted on the annular step to realize a limit of the circuit board.
A multi-gear brightness adjustment assembly including the multi-gear brightness adjustment circuit board, where including a upper cover, an insulating pad, a battery, a positive toothed ring, a negative circuit board and a conductive contact piece;
the insulating pad is pressed between the upper cover and a positive of the battery;
the battery is clamped in the positive toothed ring;
the negative circuit board is disposed between a negative of the battery and the conductive contact piece;
the negative circuit board is disposed with a negative elastic piece that is pressed between the negative of the battery and the negative circuit board;
the conductive contact piece includes a positive conductive contact piece, a negative conductive contact piece and a gear switching contact piece;
the positive conductive contact piece and the negative conductive contact piece are respectively in contact with the positive conductive ring and the negative conductive contact point or piece on the circuit board;
the gear switching contact piece is used to contact any one of the gear conductive contact piece, the automatic control gear AUTO conductive contact piece, and the light spot dot-circle pattern composite conductive contact piece to realize a switching of different working states or modes.
The advantages of the utility model are: it can realize automatic adjustment of gears to ensure that the output light power adapts to the needs of ambient light, and the reasonable use of electrical energy is conducive to energy saving; at the same time, the mode switching of the shooting target is integrated, which reduces the parts of the sight and makes the sight more compact.
The following describes the utility model in detail with reference to the drawings and embodiments.
Description of reference signs: 1. circuit board; 2. gear conductive contact piece; 3. automatic control gear AUTO conductive contact piece; 4. dot-circle pattern composite conductive contact piece; 5. solar cell; 6. upper cover; 7. insulating pad; 8. battery; 9. positive toothed ring; 10. negative circuit board; 11. conductive contact piece; 12. negative elastic piece; 13. first pressing ring; 14. annular rotating cover; 15. annular rotating seat; 16. second pressing ring; 17. sealing ring; 18. housing; 19. spherical groove; 20. blind hole; 21. coil spring; 22. steel ball; 23. negative conductive contact point or piece; 24. positive conductive ring.
Among them, see
Or the automatic control gear AUTO conductive contact piece 3 and the light spot dot-circle pattern composite conductive contact piece 4 are respectively disposed closely before and after the OFF gear. As shown in
The top surface of the circuit board 1 is disposed with a negative conductive contact point or piece 23 and a positive conductive ring 24. The gear conductive contact pieces 2, automatic control gear AUTO conductive contact piece 3 and light spot dot-circle pattern composite conductive contact piece 4 are all disposed on the same circumferential gear ring surface; The negative conductive contact point or piece 23, the positive conductive ring 24 and the circumferential gear ring surface are disposed along the radial direction of the circuit board 1, and are respectively disposed on non-intersecting ring surfaces.
In a specific embodiment, as shown in
In this way, the present embodiment realizes the automatic adjustment of light energy according to the environment through adding the automatic control gear AUTO and the light spot dot-circle mode, and at the same time integrates the target mode on the circuit board, which reduces the number of component parts and facilitates operation.
The negative circuit board 10 is disposed between the negative of the battery 8 and the conductive contact piece 11. The conductive contact piece 11 includes a positive conductive contact piece, a negative conductive contact piece and a gear switching contact piece. The positive conductive contact piece and the negative conductive contact piece are respectively in contact with the positive conductive piece and the negative conductive piece on the circuit board 1; The gear switching contact piece is used to contact any one of the gear conductive contact piece 2, the automatic control gear AUTO conductive contact piece 3, and the light spot dot-circle pattern composite conductive contact piece to realize the switching of different working states or modes.
Among them, the positive conductive contact piece, the negative conductive contact piece and the gear switching contact piece are in contact with any one of the positive conductive piece, negative conductive piece, the gear conductive contact piece 2, the automatic control gear AUTO conductive contact piece 3, and the light spot dot-circle pattern composite conductive contact piece respectively through the arc-shaped contact points on the bottom surface thereof to ensure the normal shift of gears while realizing the stable power.
The negative circuit board 10 is disposed with a negative elastic piece 12 that is pressed between the negative of the battery 8 and the negative circuit board 10 and pressed against the negative of the battery 8 to ensure good contact and further stabilize the battery 8.
As shown in
It can be seen from
A notch 29 recessed radially outward is disposed on the side wall of the mounting hole 26, and the notch 29 is located above the annular step 27, and is used to cooperate with the protrusions on the edge of the circuit board 1 mounted on the annular step 27 to realize the limit of the circuit board 1 to ensure the stable installation of the circuit board.
It can also be seen from
Refer to
The working process of the aforementioned circuit or the practical way of the battery holder structure can be briefly described in conjunction with
When the gear switch is turned to (that is the spot dot-circle composite gear), when the MCU samples the level change of this gear, it will change the LED icons in the other gears. For example, when the gear turns to the ATUO gear, the state of the inner red dot is a single point; When it turns to gear first, and then reversely turns to AUTO gear, the inner red dot state becomes dot+circle (that is dot-circle) state, that is, the target is composed of a circle and the center of the circle or a cross target.
Number | Date | Country | Kind |
---|---|---|---|
201810416897.4 | May 2018 | CN | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/CN2019/078394 | 3/16/2019 | WO | 00 |