CN215268483U - Infrared focusing optical imaging device with anti-shake structure - Google Patents

Abstract

The utility model discloses an infrared focusing optical imaging device with an anti-shake structure, which comprises a base, an auxiliary component and an anti-shake component, wherein a chute is arranged on the inner wall of the base, and a through hole is arranged in the chute; the bearing table is connected to the top of the base, an auxiliary assembly is mounted at the bottom of the bearing table, a limiting assembly is arranged inside the bearing table, and an imaging camera is arranged inside the limiting assembly; the anti-shake subassembly install in formation of image camera bottom, auxiliary assembly includes spacing dish, ball and reset spring, spacing dish outside embedding has the ball. This infrared optical imaging device that focuses with anti-shake structure passes through the setting of spacing subassembly for constitute detachable construction between formation of image camera and the accepting platform, can separately deposit formation of image camera and accepting platform after using the completion, when the convenience is maintained the imaging camera and is overhauld, still made things convenient for the transportation of device to hold, reduced its occupation of land space.

Description

Infrared focusing optical imaging device with anti-shake structure

Technical Field

The utility model relates to an optical imaging device technical field specifically is an infrared optical imaging device that focuses with anti-shake structure.

Background

Light is ubiquitous around people, optical imaging technology is inseparable from our lives, such as various cameras, video cameras, telescopes, projectors and the like, and along with the development of technological developed infrared focusing optical imaging devices, the functions are more and more abundant.

In order to enhance the practicability of the infrared focusing optical imaging device, the stability of the imaging device needs to be improved, however, the infrared focusing optical imaging device in the market cannot limit the infrared focusing optical imaging device after angle adjustment, so that the infrared focusing optical imaging device is easy to shift during use and cause image shaking, and therefore, an infrared focusing optical imaging device with an anti-shaking structure is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an infrared optical imaging device that focuses with anti-shake structure to the infrared optical imaging device that focuses that proposes in solving above-mentioned background art can not be spacing with it after angle modulation, takes place the skew easily when leading to the use, leads to the problem of picture shake.

In order to achieve the above object, the utility model provides a following technical scheme: an infrared focusing optical imaging device with an anti-shake structure comprises a base,

the sliding chute is arranged on the inner wall of the base, and a through hole is formed in the sliding chute;

the bearing table is connected to the top of the base, an auxiliary assembly is mounted at the bottom of the bearing table, a limiting assembly is arranged inside the bearing table, and an imaging camera is arranged inside the limiting assembly;

the anti-shake component is arranged at the bottom of the imaging camera;

the auxiliary assembly comprises a limiting disc, a ball and a reset spring, the ball is embedded into the outer portion of the limiting disc, and the other end of the ball is connected with the reset spring.

Preferably, the through holes are uniformly distributed in a circumferential shape about the inner surface of the sliding chute, and the sliding chute is in a circular shape.

Preferably, the bearing table is in sliding connection with the base through the auxiliary assembly, and the vertical center line of the bearing table is consistent with that of the base.

Preferably, the balls are elastically connected with the limiting disc, and the balls are uniformly distributed with respect to the outer surface of the limiting disc at equal intervals.

Preferably, the limiting assembly comprises a rotating shaft, a handle, a clamping plate and a soft rubber gasket, the handle is arranged in the rotating shaft, the inner end of the handle is connected with the clamping plate, and the inner part of the clamping plate is connected with the soft rubber gasket.

Preferably, the handle rod is in threaded connection with the rotating shaft, and the handle rod is movably connected with the clamping plate.

Preferably, the imaging camera is of a fixed structure through the limiting assembly and the bearing table, and the bearing table is U-shaped.

Preferably, the anti-shake subassembly includes anti-shake frame, gyro wheel, the cotton piece of bubble and electric telescopic handle, all install at anti-shake frame both ends the gyro wheel, just anti-shake frame top is connected with the cotton piece of bubble, electric telescopic handle install in anti-shake frame bottom.

Preferably, the rollers are distributed in a bilateral symmetry mode about the vertical center line of the anti-shaking frame, and the anti-shaking frame is fixedly connected with the electric telescopic rod.

The utility model provides an infrared optical imaging device that focuses with anti-shake structure possesses following beneficial effect:

1. this infrared optical imaging device that focuses with anti-shake structure, adopt mutually supporting between a plurality of subassemblies, not only can realize the feedback when formation of image camera rotates, can also guarantee the injecing of the position after the rotation simultaneously, avoid it to appear the skew in using and take place the picture shake condition, setting through spacing subassembly, it can be fixed with the formation of image camera to make it, can promote the stability of its use, setting through anti-shake subassembly, can guarantee that the in-process camera lens at work can not drop, lead to the condition of formation of image failure.

2. The utility model discloses a circular spout of base inner wall, through-hole and the setting of mutually supporting between the supporting components of accepting the platform bottom, make when rotating the accepting the platform, the inside rotation of spout can be followed to spacing dish, ball and spout contact compression reset spring when rotating, ball gets into inside the through-hole after the rotation finishes, not only can feel the sound feedback when also the ball collides with simultaneously through the damping when rotating and give the staff, promote its pivoted interesting, can also be spacing after rotating the accepting the platform simultaneously, avoid its in service to take place to rock the condition that leads to the picture shake.

3. The utility model discloses a setting of spacing subassembly for constitute detachable construction between formation of image camera and the accepting table, can separately deposit formation of image camera and accepting table after using the completion, when the convenience was maintained the maintenance to formation of image camera, still made things convenient for the transportation of device to hold, reduced its occupation of land space.

4. The utility model discloses a mutually support between anti-shake subassembly and the imaging camera and set up for in the course of the work, can promote the anti-shake frame through electric telescopic handle and go up and down, this anti-shake frame can promote the smoothness nature of its accepting table inside removal through the gyro wheel of both sides, can hold the imaging camera through anti-shake frame and bubble cotton piece simultaneously, avoids its during operation lens hair to take place to move down and leads to the picture shake, influences the off-the-shelf condition of shooting.

Drawings

Fig. 1 is a schematic diagram of an overall structure of an infrared focusing optical imaging apparatus with an anti-shake structure according to the present invention;

fig. 2 is a schematic structural view of a receiving platform of an infrared focusing optical imaging apparatus with an anti-shake structure according to the present invention;

fig. 3 is a schematic structural diagram of an auxiliary assembly of an infrared focusing optical imaging apparatus with an anti-shake structure according to the present invention;

fig. 4 is a schematic view of a three-dimensional structure of a limiting plate l of an infrared focusing optical imaging device with an anti-shake structure according to the present invention;

fig. 5 is the utility model relates to an infrared optical imaging device that focuses's anti-shake subassembly schematic structure with anti-shake structure.

In the figure: 1. a base; 2. a chute; 3. a through hole; 4. a receiving table; 5. an auxiliary component; 501. a limiting disc; 502. a ball bearing; 503. a return spring; 6. a limiting component; 601. a rotating shaft; 602. a handle bar; 603. a clamping plate; 604. a soft rubber gasket; 7. an imaging camera; 8. an anti-shake assembly; 801. an anti-shake frame; 802. a roller; 803. soaking cotton blocks; 804. an electric telescopic rod.

Detailed Description

As shown in fig. 1, an infrared focusing optical imaging device with an anti-shake structure includes a base 1, a chute 2 disposed on an inner wall of the base 1, and a through hole 3 disposed inside the chute 2; the bearing table 4 is connected to the top of the base 1, an auxiliary assembly 5 is mounted at the bottom of the bearing table 4, a limiting assembly 6 is arranged inside the bearing table 4, and an imaging camera 7 is arranged inside the limiting assembly 6; an anti-shake component 8 which is arranged at the bottom of the imaging camera 7,

referring to fig. 1-2, the position-limiting assembly 6 comprises a shaft 601, a handle 602, a clamping plate 603 and a soft rubber pad 604,

wherein, a rod 602 is arranged inside the rotating shaft 601, the inner end of the rod 602 is connected with a clamping plate 603, the clamping plate 603 is connected with a soft rubber gasket 604, the rod 602 is in threaded connection with the rotating shaft 601, the rod 602 is movably connected with the clamping plate 603, the imaging camera 7 is in a fixed structure through a limiting component 6 and a bearing table 4, the bearing table 4 is in a U shape, a detachable structure is formed between the imaging camera 7 and the bearing table 4 through the arrangement of the limiting component 6, by rotating the rod 602, the friction coefficient between the imaging camera 7 and the clamping plate 603 can be improved when the rod 602 is movably connected with the clamping plate 603, so that the imaging camera 7 can be fixedly clamped by pushing out the clamping plate 603 through the rod 602, and the friction coefficient between the imaging camera 7 and the imaging camera can be improved when the imaging camera 7 is prevented from being clamped by matching with the soft rubber gasket 604, thereby improving the clamping stability of the imaging camera, after using the completion, unscrewing barre 602 can separately deposit formation of image camera 7 and accepting the platform 4, when the convenience was maintained the maintenance to formation of image camera 7, still made things convenient for the transportation of device to hold, reduced its occupation of land space.

Referring to fig. 1, 3 and 4, the auxiliary assembly 5 is composed of a spacing disc 501, a ball 502 and a return spring 503,

wherein, the ball 502 is embedded outside the spacing disc 501, and the other end of the ball 502 is connected with a reset spring 503, the through hole 3 is uniformly distributed in a circumference shape relative to the inner surface of the sliding chute 2, the sliding chute 2 is in a circular shape, the receiving platform 4 is in sliding connection with the base 1 through the auxiliary component 5, and the vertical central line of the receiving platform 4 is consistent with the vertical central line of the base 1, the ball 502 is in elastic connection with the spacing disc 501, and the ball 502 is uniformly distributed in an equidistance relative to the outer surface of the spacing disc 501, through the matching arrangement between the circular sliding chute 2 on the inner wall of the base 1, the through hole 3 and the auxiliary component 5 at the bottom of the receiving platform 4, when the receiving platform 4 is rotated, the spacing disc 501 can rotate along the inner part of the sliding chute 2, the ball 502 contacts with the sliding chute 2 and compresses the reset spring 503 when the rotation, after the rotation, the ball 502 enters the through hole 3, not only can feed back the damping sense when the ball 502 collides with the working personnel through the rotation, promote its pivoted interesting, can also be spacing bearing table 4 after the rotation is ended simultaneously, avoid its in service emergence to rock the condition that leads to the picture shake.

Referring to fig. 1 and 5, the anti-shake assembly 8 is composed of an anti-shake frame 801, a roller 802, a foam block 803 and an electric telescopic rod 804,

wherein, gyro wheel 802 is all installed at anti-shake frame 801 both ends, and anti-shake frame 801 top is connected with the cotton piece 803 of bubble, electric telescopic handle 804 is installed in anti-shake frame 801 bottom, gyro wheel 802 is bilateral symmetry about the vertical central line of anti-shake frame 801 and distributes, and be fixed connection between anti-shake frame 801 and the electric telescopic handle 804, set up through mutually supporting between anti-shake subassembly 8 and the imaging camera 7, make in the course of the work, can promote anti-shake frame 801 through electric telescopic handle 804 and go up and down, this anti-shake frame 801 can promote its smoothness nature at the inside removal of bearing platform 4 through gyro wheel 802 of both sides, can hold imaging camera 7 through anti-shake frame 801 and the cotton piece 803 of bubble simultaneously, avoid its during operation imaging camera 7 to take place to move down and lead to the picture shake, the off-the-shelf condition is shot in the influence.

In conclusion, when the infrared focusing optical imaging device with the anti-shake structure is used, firstly, the handle rod 602 is rotated, the clamping plate 603 can be pushed out by the handle rod 602 due to the movable connection between the handle rod 602 and the clamping plate 603, so that the imaging camera 7 can be fixedly clamped, the friction coefficient between the imaging camera 7 and the flexible glue gasket 604 can be increased while the imaging camera 7 is prevented from being clamped, the clamping stability of the imaging camera is further improved, after the infrared focusing optical imaging device is used, the imaging camera 7 and the bearing table 4 can be stored separately by unscrewing the handle rod 602, the imaging camera 7 is convenient to maintain and repair, meanwhile, the transportation and the holding of the infrared focusing optical imaging device are facilitated, the occupied space of the infrared focusing optical imaging device is reduced, and then, when the shooting angle of the infrared focusing optical imaging device needs to be adjusted, the limiting disc 501 at the bottom of the bearing table 4 can rotate along the inner part of the sliding chute 2 by holding and rotating the bearing table 4, ball 502 contacts with spout 2 and compresses reset spring 503 when rotating, ball 502 gets into inside through-hole 3 after the rotation finishes, not only can give the staff through the damping sense when rotating while also having the sound feedback when ball 502 collides with, promote its pivoted interesting, simultaneously can also be spacing with carrying platform 4 after the rotation finishes, avoid its in service emergence to rock the condition that leads to the picture to shake, finally, open electric telescopic handle 804, make it promote anti-shake frame 801 and go up and down, this anti-shake frame 801 can promote its smoothness nature of carrying platform 4 inside removal through gyro wheel 802 of both sides, can hold imaging camera 7 through anti-shake frame 801 and cotton piece 803 of bubble simultaneously, avoid imaging camera 7 takes place to move down in its work to lead to the picture shake, the influence shoots the condition of finished product.

Claims (9)

1. An infrared focusing optical imaging device with an anti-shake structure is used for controlling and detecting equipment and is characterized by comprising a base (1),

the sliding chute (2) is arranged on the inner wall of the base (1), and a through hole (3) is formed in the sliding chute (2);

the bearing table (4) is connected to the top of the base (1), an auxiliary assembly (5) is installed at the bottom of the bearing table (4), a limiting assembly (6) is arranged inside the bearing table (4), and an imaging camera (7) is arranged inside the limiting assembly (6);

the anti-shake component (8) is arranged at the bottom of the imaging camera (7);

the auxiliary assembly (5) comprises a limiting disc (501), a ball (502) and a return spring (503), the ball (502) is embedded into the outer portion of the limiting disc (501), and the other end of the ball (502) is connected with the return spring (503).

2. The infrared focusing optical imaging device with anti-shake structure according to claim 1, wherein the through holes (3) are uniformly distributed in a circumferential shape with respect to the inner surface of the sliding chute (2), and the sliding chute (2) is in a circular shape.

3. The infrared focusing optical imaging device with anti-shake structure according to claim 1, wherein the receiving platform (4) is connected with the base (1) in a sliding manner through the auxiliary assembly (5), and the vertical center line of the receiving platform (4) is consistent with the vertical center line of the base (1).

4. The infrared focusing optical imaging device with the anti-shake structure according to claim 1, wherein the balls (502) are elastically connected to the limiting disc (501), and the balls (502) are uniformly distributed with equal distance with respect to the outer surface of the limiting disc (501).

5. The infrared focusing optical imaging device with the anti-shake structure according to claim 1, wherein the limiting assembly (6) comprises a rotating shaft (601), a handle bar (602), a clamping plate (603) and a soft rubber gasket (604), the handle bar (602) is arranged inside the rotating shaft (601), the clamping plate (603) is connected to the inner end of the handle bar (602), and the soft rubber gasket (604) is connected to the inside of the clamping plate (603).

6. The infrared focusing optical imaging device with the anti-shake structure according to claim 5, wherein the handle bar (602) is in threaded connection with the rotating shaft (601), and the handle bar (602) is movably connected with the clamping plate (603).

7. The infrared focusing optical imaging device with the anti-shake structure according to claim 1, wherein the imaging camera (7) is fixed to the receiving platform (4) through a limiting component (6), and the receiving platform (4) is U-shaped.

8. The infrared focusing optical imaging device with the anti-shake structure is characterized in that the anti-shake assembly (8) comprises an anti-shake frame (801), rollers (802), foam blocks (803) and an electric telescopic rod (804), the rollers (802) are installed at two ends of the anti-shake frame (801), the foam blocks (803) are connected to the top of the anti-shake frame (801), and the electric telescopic rod (804) is installed at the bottom of the anti-shake frame (801).

9. The infrared focusing optical imaging device with the anti-shake structure is characterized in that the rollers (802) are symmetrically distributed about a vertical center line of the anti-shake frame (801), and the anti-shake frame (801) is fixedly connected with the electric telescopic rod (804).

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