CN114132517A

CN114132517A - Camera lens buffer stop

Info

Publication number: CN114132517A
Application number: CN202111505649.5A
Authority: CN
Inventors: 程玉添; 林金飞; 周日师
Original assignee: Shenzhen Zhongan Video Technology Co ltd
Current assignee: Shenzhen Zhongan Video Technology Co ltd
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2022-03-04

Abstract

The invention relates to a camera lens anti-collision device, which can effectively solve the problem that a lens is damaged in the photographing process of an unmanned aerial vehicle; the glass plate fixing device comprises a shell, wherein a round hole is formed in the middle of a right side plate of the shell, a vertically placed glass plate is arranged in the shell on one side of the round hole, a vertical supporting plate is arranged on the left side of the glass plate, a round rod is fixed on the supporting plate, the other end of the round rod penetrates through the glass plate, a spring is sleeved on the round rod, two vertical baffles which are symmetrical in front and back are arranged on the left side of the supporting plate, a pin is arranged on the supporting plate, a pin hole is formed in the baffle on one side, corresponding to the supporting plate, of the supporting plate, a cylindrical block is fixed on the inner side surface of the glass plate, and a pull rope penetrates through the cylindrical block; a box body is arranged on the lower end face of the shell, and a hard tube is fixed in a cavity of the box body; one end of each pull rope on each cylindrical block is fixed on the pin on the corresponding side, and the two pull ropes are provided with balancing weights; the baffle is closed by the collision of the glass sheets; when the shell is impacted, the counterweight block closes the baffle; fully guarantee that unmanned aerial vehicle takes a photograph the first lens at the flight in-process and do not receive the damage.

Description

Camera lens buffer stop

Technical Field

The invention relates to the field of camera shooting, in particular to a camera lens anti-collision device.

Background

When the unmanned aerial vehicle shoots, a camera needs to be installed below the unmanned aerial vehicle, and then low-altitude flying shooting is carried out; in the flight photographing process of the unmanned aerial vehicle, the lens of the camera may touch objects such as branches, birds and buildings, and the lens of the camera is scratched or cracked; the phenomenon of falling can also appear, causes the lens to produce the mar, has increased the maintenance degree of difficulty in later stage to the cost is higher, and slightly mar is changed and is more extravagant, does not change and influences again and shoot.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention aims to provide the camera lens anti-collision device, which can effectively solve the problem that the lens is damaged in the photographing process of the unmanned aerial vehicle.

The technical scheme includes that the glass plate fixing device comprises a shell, wherein a round hole is formed in the middle of a right side plate of the shell, a vertically-placed glass plate is arranged in the shell on one side of the round hole, two vertical supporting plates which are placed in front and at the back are arranged on the left side of the glass plate, a space is formed between the two supporting plates, a round rod is fixed on each supporting plate, the other end of each round rod penetrates through the glass plate, the glass plate slides left and right along the two round rods, a spring is sleeved on each round rod, and the spring enables the glass plate to be attached to the right side plate of the shell;

two vertical baffles which are symmetrically arranged in the front and back are arranged on the left side of each supporting plate, the vertical plates are arranged in the front and back directions, the two baffles can be closed or separated by moving back and forth, each supporting plate is provided with a pin, the baffle on one side corresponding to each supporting plate is provided with a pin hole, the pin is arranged in the pin hole, the two baffles are in a separated state, the pin moves out of the pin hole, and the two baffles are closed;

a cylindrical block is respectively fixed at the front and the rear of the inner side surface of the glass plate, and a pull rope is penetrated on each cylindrical block; a box body is fixed on the lower end face of the shell, and a hard tube is fixed in a cavity of the box body; one end of each pull rope on each cylindrical block is fixed on the pin on the corresponding side, the other ends of the two pull ropes penetrate through the hard tube and extend out of the hard tube, and balancing weights are arranged on the two pull ropes extending out of the hard tube.

In order to ensure the safety of the glass plate when sliding left and right, the outer edge of the glass plate is wrapped with a circle of rubber strip, and the outer side of the rubber strip is in sliding contact with the shell; the inner side surface of the glass plate is pasted with a layer of plastic transparent film, the plastic transparent film and the glass plate have adhesive force, and one end of the cylindrical block penetrates through the plastic transparent film and is fixed on the glass plate.

One end of the supporting plate is fixed on the shell and is arranged in the middle of the upper position and the lower position of the shell.

Each baffle consists of a fixed plate fixed on the shell and a partition plate arranged on the fixed plate in a sliding way; an upper straight rod and a lower straight rod are fixed on the shell on the left side of the fixing plate, two sliding blocks which slide on the straight rods back and forth are mounted on each straight rod, and one sliding block on each side is fixed on the partition plate on the same side; the straight rod is sleeved with a spring, and the spring closes the two clapboards together through the sliding block; the pin hole is arranged on the clapboard.

Each supporting plate is provided with a cylinder, a pin is arranged in the cylinder, a spring is sleeved on the pin, one end of the spring is fixed on the cylinder, the other end of the spring is fixed on the pin, the pin can move out of the cylinder through the spring, and one end of a pull rope penetrates through the cylinder and is fixed on the pin.

The box body is fixed at the lower end of the glass plate and the middle position of the shell in the front-back direction, and the two cylindrical blocks are arranged on the inner side of the lower end of the supporting plate.

The hard tube is a vertical tube with one end fixed on the shell, and the outer end of the hard tube is of a conical structure.

The balancing weight is a spherical balancing weight.

The glass plate has an ingenious structure, plays a certain role in buffering by the leftward movement of the glass sheet due to collision, and closes the baffle after the glass plate moves leftward; when the shell is impacted, the counterweight block closes the baffle; fully guarantee that unmanned aerial vehicle takes a photograph the first lens at the flight in-process and do not receive the damage.

Drawings

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

Fig. 2 is a front sectional view of the present invention.

FIG. 3 is a right side sectional view of the invention A-A.

Fig. 4 is a top cross-sectional view of the present invention.

Fig. 5 is an operational state diagram of a top cross-sectional view of the present invention.

Fig. 6 is an enlarged view of the present invention at B.

FIG. 7 is a pictorial view of a glass sheet of the present invention and its fit.

Detailed Description

The following describes in further detail embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1 to 7, the glass plate fixing device comprises a shell 1, wherein a circular hole 2 is formed in the middle of a right side plate of the shell 1, a vertically-arranged glass plate 3 is arranged in the shell 1 on one side of the circular hole 2, two vertical supporting plates 4 which are arranged front and back are arranged on the left side of the glass plate 3, a space is formed between the two supporting plates 4, a round rod 5 is fixed on each supporting plate 4, the other end of each round rod 5 penetrates through the glass plate 3, the glass plate 3 slides left and right along the two round rods 5, and a spring is sleeved on each round rod 5 and enables the glass plate 3 to be attached to the right side plate of the shell 1;

two vertical baffles which are symmetrically arranged in the front and back are arranged on the left side of each supporting plate 4, the vertical plates are arranged in the front and back directions, the two baffles can be closed or separated by moving back and forth, each supporting plate 4 is provided with a pin 6, the baffle on the side corresponding to each supporting plate 4 is provided with a pin hole, the pin 6 is arranged in the pin hole, the two baffles are in a separated state, the pin 6 moves out of the pin hole, and the two baffles are closed;

the front and the rear of the inner side surface of the glass plate 3 are respectively fixed with a cylindrical block 7, and each cylindrical block 7 is penetrated with a pull rope 8; a box body 9 is fixed on the lower end face of the shell 1, and a hard tube 10 is fixed in a cavity of the box body 9; one end of each pull rope 8 on each cylindrical block 7 is fixed on the pin 6 on the corresponding side, the other ends of the two pull ropes 8 penetrate through the hard tube 10 and extend out of the hard tube 10, and the balancing weight 11 is arranged on the two pull ropes 8 extending out of the hard tube 10.

In order to ensure the safety of the glass plate 3 when sliding left and right, the outer edge of the glass plate 3 is wrapped with a circle of rubber strip 12, and the outer side of the rubber strip 12 is in sliding contact with the shell 1; a layer of plastic transparent film is pasted on the inner side surface of the glass plate 3, adhesive force exists between the plastic transparent film and the glass plate 3, and one end of the cylindrical block 7 penetrates through the plastic transparent film and is fixed on the glass plate 3.

One end of the supporting plate 4 is fixed on the shell 1 and is arranged in the middle of the upper position and the lower position of the shell.

Each baffle consists of a fixed plate 13 fixed on the shell 1 and a partition plate 14 slidably mounted on the fixed plate 13; an upper straight rod 15 and a lower straight rod 15 are fixed on the shell 1 on the left side of the fixed plate 13, each straight rod 15 is provided with two sliding blocks 16 which slide on the straight rods 15 in the front-back direction, and one sliding block 16 on each side is fixed on the partition plate 14 on the same side; the straight rod 15 is sleeved with a spring, and the spring closes the two clapboards 14 together through a sliding block 16; the pin holes are cut in the partition 14.

Each supporting plate 4 is provided with a cylinder 17, the pin 6 is arranged in the cylinder 17, the pin 6 is sleeved with a spring, one end of the spring is fixed on the cylinder 17, the other end of the spring is fixed on the pin 6, the pin 6 can move out of the cylinder 17 through the spring, and one end of the pull rope 8 penetrates through the cylinder 17 and is fixed on the pin 6.

The box body 9 is fixed at the lower end of the glass plate 3 and the middle position of the shell 1 in the front-back direction, and the two cylindrical blocks 7 are arranged on the inner side of the lower end of the supporting plate 4.

The hard tube 10 is a vertical tube with one end fixed on the shell 1, and the outer end of the hard tube 10 is in a conical structure.

The balancing weight 11 is a spherical balancing weight.

When the invention is used, the camera is arranged in the shell 1, the lens 18 of the camera is arranged at the left side of the fixed plate 13 and the partition plate 14, the glass plate 3 is attached to the side surface of the shell, and the lens of the camera shoots an object through the glass plate 3 and the round hole 2.

Before use, the two partition plates 14 are pulled towards the front side and the rear side, so that the pins 6 on the supporting plate 4 are placed in the pin holes of the partition plates 14 on the corresponding sides, the positions of the partition plates 14 are positioned, and an interval is formed between the two partition plates 14 for lighting by a camera; the length of the pull rope 8 is adjusted, when the glass plate 3 is attached to the right side face of the shell 1 and the pin 6 is arranged in the pin hole on the partition plate 14, the pull rope 8 is in a tensioning state, so that the spherical seed matching block 11 is tightly attached to the conical end of the hard tube 10.

When the unmanned aerial vehicle is used, when the right side of the shell 1 of the unmanned aerial vehicle touches obstacles such as a point or a branch in the flying process, the obstacles such as the point or the branch can extrude the glass plate 3 through the round hole 2, the glass plate 3 can move leftwards under the action of the extrusion force, the glass plate 3 can extrude the spring on the round rod 5 in the process of moving leftwards, and the glass plate 3 can drive the cylindrical block 7 on the glass plate 3 to move together in the process of moving leftwards, the cylindrical block 7 can pull the pin 6 to move through the pull rope 8, the pin 6 is pulled out from the pin hole of the partition plate 14, when the glass plate 3 moves leftwards to pull out the pin hole 6 from the pin hole, the two partition plates 14 move towards the middle under the action of the spring on the straight rod 15 and are closed together instantaneously, a closed space is formed, the glass plate 3 can be damaged by the point or the branch to form glass fragments, the partition plates 14 are closed together and can block the glass fragments outside, prevent that glass piece fish tail camera lens.

After glass sheet 3 moved certain distance left, the point or the branch that exert the extrusion force to glass sheet 3 disappeared the back, and pin 6 did not pull out completely from the pin downthehole, and at this moment, glass sheet 3 can reset to the right under the effect of spring, and pin 6 also can move to the pin downthehole under the effect of spring, receives the extrusion force and produces the removal and prepare for next time glass sheet 3.

When unmanned aerial vehicle takes place the condition that drops suddenly at the in-process of flight, the impact force between casing 1 and the ground can be very big when casing 1 contacts with ground, under the effect of impact force, breakage can take place for glass board 3 in the casing 1, in order to prevent glass piece fish tail camera lens, the spherical balancing weight 11 of coniform one end can stimulate the stay cord 8 and extract pin 6 from the pin hole on hard tube 10, make two baffles 14 under the effect of spring quick closure together, form a confined space, protect the camera lens.

Because the balancing weight 11 is hugged closely together through conical one end on stay cord 8 and the hard tube 10, because the existence of coniform structure, conical one end is less with balancing weight 10's area of contact, in the twinkling of an eye when casing 1 striking ground, no matter which position and ground contact of unmanned aerial vehicle or casing 1, also no matter what the relative position from top to bottom between hard tube 10 and balancing weight 11 when casing 1 contacts with ground, under the effect of striking force, conical one end can not play the effect of hindrance to the beat of balancing weight 10, balancing weight 11 all can break away from the conical one end of hard tube 10 and stimulate stay cord 8.

The transparent plastic film is attached to one side of the glass plate 3, when the glass plate 3 is broken, the transparent plastic film and the glass plate 3 are bonded, so that the situation that glass does not splash when broken is guaranteed, and the glass fragments are further guaranteed not to damage a lens.

The round rubber strip 12 of the outer fringe parcel of glass board 3, rubber strip 12 and the contact of casing 1 when glass board 3 slides from side to side, glass board 3 does not take place the beat when guaranteeing to slide, guarantees gliding stability, and rubber strip 12 and casing 1 sliding contact moreover, when the condition that casing 1 takes place to drop suddenly, rubber strip 12 can play certain cushioning effect to the impact force that glass board 13 received, can reduce the broken degree of glass board 13.

According to the unmanned aerial vehicle, the camera is placed in the shell 1, when the unmanned aerial vehicle collides with obstacles such as sharp objects or branches in the flying process, the obstacles can extrude the glass plate 3, the glass plate 3 can move under the action of extrusion force to buffer the extrusion force, and when the extrusion force is too large, the glass plate 3 can pull out the pin from the pin hole, so that the partition plate 14 is closed, and a closed space is formed for the camera; when the extrusion force is not enough to enable the glass plate 3 to move to pull out the pin 6 from the pin hole, after the external force disappears, the glass plate 3 and the pin 6 can reset again, shooting can be continued after resetting, shooting cannot be influenced due to slight collision of the glass plate 3, and meanwhile preparation is made for next collision.

Owing to be provided with again on hard tube 10 and the hard tube 10 through the balancing weight 11 that 8 stay cords are fixed, when unmanned aerial vehicle takes place the condition that drops suddenly at the in-process of flight, if the unmanned aerial vehicle or casing with what angle and ground contact, be coniform one end on the hard tube 10 and continue spherical balancing weight 11's cooperation, all can make balancing weight 11 and hard tube 10's one end take place to break away from, make balancing weight 11 pulling stay cord with pin 6 follow the downthehole extraction of pin, make baffle 14 closed.

According to the invention, the glass plate 3 is adopted to buffer the extrusion force of the obstacle on the unmanned aerial vehicle in the flying process, and when the extrusion force is so large that the glass plate 3 is likely to be broken, the pin can be pulled by the glass plate 3 to close the partition plate 14; when the condition that drops takes place suddenly in the flight process, can pull out the pin hole through balancing weight 11 with the pin again through balancing weight 11 and the cooperation of hard tube 10 and make baffle 14 closed, fully guarantee that unmanned aerial vehicle does not receive the damage at the flight in-process camera lens.

Claims

1. The camera lens anti-collision device is characterized by comprising a shell (1), wherein a round hole (2) is formed in the middle of a right side plate of the shell (1), a vertically-arranged glass plate (3) is arranged in the shell (1) on one side of the round hole (2), two vertical supporting plates (4) which are arranged front and back are arranged on the left side of the glass plate (3), an interval is formed between the two supporting plates (4), a round rod (5) is fixed on each supporting plate (4), the other end of each round rod (5) penetrates through the glass plate (3), the glass plate (3) slides left and right along the two round rods (5), a spring is sleeved on each round rod (5), and the glass plate (3) is attached to the right side plate of the shell (1) through the spring;

two vertical baffles which are symmetrically arranged in the front and back are arranged on the left side of each supporting plate (4), the vertical plates are arranged in the front and back directions, the two baffles can be moved back and forth to be closed or separated, each supporting plate (4) is provided with a pin (6), the baffle on one side corresponding to each supporting plate (4) is provided with a pin hole, the pins (6) are arranged in the pin holes, so that the two baffles are in a separated state, the pins (6) move out of the pin holes, and the two baffles are closed;

the front and the rear of the inner side surface of the glass plate (3) are respectively fixed with a cylindrical block (7), and each cylindrical block (7) is penetrated with a pull rope (6); a box body (9) is fixed on the lower end face of the shell (1), and a hard tube (10) is fixed in a cavity of the box body (9); stay cord (8) one end on every cylinder piece (7) is fixed on pin (6) of corresponding side, and the other end of two stay cords (8) all passes hard tube (10) and stretches out hard tube (10), is equipped with balancing weight (11) on two stay cords (8) that stretch out hard tube (10).

2. A camera lens anticollision device according to claim 1, characterized in that the outer edge of the glass plate (3) is wrapped with a ring of rubber strip (12), the outer side of the rubber strip (12) is in sliding contact with the housing (1); a layer of plastic transparent film is pasted on the inner side surface of the glass plate (3), adhesive force exists between the plastic transparent film and the glass plate (3), and one end of the cylindrical block (7) penetrates through the plastic transparent film and is fixed on the glass plate (3).

3. A camera lens anticollision device according to claim 1, characterized in that one end of the supporting plate (4) is fixed on the housing (1) and placed in the middle of the upper and lower position of the housing (1).

4. A camera lens bump guard according to claim 1, characterized in that each baffle is formed by a fixed plate (13) fixed to the housing (1) and a partition plate (14) slidably mounted on the fixed plate (13); an upper straight rod and a lower straight rod (15) are fixed on the shell (1) on the left side of the fixing plate (13), two sliding blocks (16) which slide back and forth on the straight rods (15) are mounted on each straight rod (15), and one sliding block (16) on each side is fixed on the partition plate (14) on the same side; the straight rod (15) is sleeved with a spring, and the spring closes the two clapboards (14) together through a sliding block (16); the pin hole is arranged on the clapboard (14).

5. A camera lens anticollision device according to claim 4, characterized in that each support plate (4) is provided with a cylinder (17), the pin (6) is placed in the cylinder (17), the pin (6) is sleeved with a spring, one end of the spring is fixed on the cylinder (17), the other end is fixed on the pin (6), the spring enables the pin (6) to move out of the cylinder (17), one end of the pull rope (8) passes through the cylinder (17) and is fixed on the pin (6).

6. A camera lens anticollision device according to claim 1, characterized in that the box (9) is fixed at the lower end of the glass plate (3) and in the middle of the housing (1) in the front-rear direction, and the two cylindrical blocks (7) are placed inside the lower end of the support plate (4).

7. A camera lens anticollision device according to claim 1, characterized in that, the hard tube (10) is a vertical tube with one end fixed on the housing (1), and the outer end of the hard tube (10) is a conical structure.

8. A camera lens collision avoidance device according to claim 1, wherein said weight (11) is a spherical weight.