CN116744101A - Automatic correction structure for intelligent camera and use method - Google Patents

Abstract

The invention relates to the technical field of intelligent cameras, in particular to an automatic correction structure for an intelligent camera and a use method thereof, wherein the automatic correction structure is mainly characterized in that the position of a lens in the camera is adjusted through the matching adaptation of a correction control motor and a driving screw which are arranged in the lens, and the correction control motor and the driving screw are provided with four groups; when the lens needs to be subjected to inclination correction work, a correction control motor and a driving screw at corresponding positions are started aiming at the inclination positions; and the connector is further locked in position through the auxiliary assembly after the position of the lens is adjusted, so that the stability of the lens after correction and regulation is ensured, and the actual use requirement is met.

Description

Automatic correction structure for intelligent camera and use method

Technical Field

The invention relates to the technical field of intelligent cameras, in particular to an automatic correction structure for an intelligent camera and a use method thereof.

Background

The current chinese patent document with publication number CN212628102U discloses a smart camera for facilitating position correction, which proposes the smart camera and is a highly integrated micro machine vision system. The image acquisition, processing and communication functions are integrated in a single camera; the existing intelligent camera adjusts zooming through adjusting the distance between the lens of the lens and the internal reflecting plate, most of the existing equipment is adjusted through manually rotating the lens, the manual adjustment needs extremely high proficiency, the operation of a common user is extremely inconvenient, the improvement of the zooming precision of the camera cannot be realized, and the problem of inconvenient use is caused; the technical scheme is that an operator rotates to open a protective cover in a groove, the device is started through a control panel in the groove, power is supplied through a lithium battery in a battery box, the focal length can be automatically adjusted through an internal control system according to a use mode, buttons on the outer side of a camera body can be pressed for adjustment, a motor drives a screw rod to rotate when the focal length is adjusted, the screw rod drives a connecting frame to slide on the inner side of a mounting seat, and the connecting frame drives a lens in a lens to adjust the use position; through two kinds of operation modes that can manual and automatic focusing, reduce the operation degree of difficulty that the device was focused, satisfy the user requirement simultaneously, increase the practicality.

In the scheme, the position of the lens is adjusted through the matched use of the motor and the screw rod, so that the regulation and control of the linear distance of the lens are mainly realized; above-mentioned scheme and prior art also can appear colliding the lens skew that causes in the camera use, and its angle appears the deviation promptly, causes the lens slope, and the normal shooting to the camera causes the influence, can not satisfy the in-service use demand, needs to improve and optimize.

Therefore, the invention provides an automatic correction structure for an intelligent camera and a use method thereof for solving the problems.

Disclosure of Invention

The invention aims to provide an automatic correction structure for an intelligent camera and a use method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: an automatic correction structure for an intelligent camera comprises a camera body, a mounting seat, a lens, a fixed clamping ring, a correction component and an auxiliary component; the camera comprises a camera body, and is characterized in that an installation seat is connected to the camera body, a lens is connected to the installation seat, a lens is arranged in the lens in a connected mode, a fixing clamping ring is fixedly arranged on the outer side wall of the lens and is connected with a correction assembly in a set mode, and an auxiliary assembly is connected to the correction assembly in a connected mode.

Preferably, the correction assembly comprises a correction control motor, a driving screw, a locking clamping groove, a connecting body, an extension body, a movable cavity groove, a movable transmission plate, an auxiliary spring I, a regulating groove, an auxiliary spring II and a fixed connecting block; the correction control motor equidistance is fixed to be set up on the mount pad, and the connection is provided with the drive screw on the correction control motor, threaded connection is provided with the connector on the drive screw, and the lateral wall equidistance of drive screw is provided with the locking draw-in groove, one side of connector is fixed to be provided with the extension body, be provided with movable cavity groove in the extension body, and the activity is provided with movable drive plate in the movable cavity groove, the one end of movable drive plate extends to in the movable cavity groove, and the fixed auxiliary spring that is provided with of tip symmetry, the other end of movable drive plate extends to in the regulation and control groove, and the fixed auxiliary spring second that is provided with of upper and lower bilateral symmetry of movable drive plate, the one end fixed setting of auxiliary spring second is in the regulation and control groove, set up in fixed connecting block in the regulation and control groove, fixed connecting block equidistance is fixed to be set up on the lateral wall of fixed snap ring, the connection is provided with auxiliary assembly in the connector, auxiliary assembly carries out auxiliary positioning to the connector position.

Preferably, the fixed connecting block corresponds to the movable transmission plate and the extension body in arrangement position, has the same arrangement group number and is provided with four groups in total; the end part of the movable transmission plate extending into the regulating groove is provided with an arc-shaped surface and is contacted with the inner side wall of the regulating groove.

Preferably, the width of the movable transmission plate is equal to the width of the notch of the regulating groove.

Preferably, the auxiliary assembly comprises a rotation control motor, a connecting shaft, a driving fluted disc, a transmission outer toothed ring, an arc transmission chute, a transmission bar, a clamping pressing block, a placing groove, a reset spring, a locking clamping block, a connecting spring and an auxiliary inclined plane; the rotary control motor is fixedly arranged on the connecting body, one end of the rotary control motor is fixedly provided with a connecting shaft, the connecting shaft is inserted and arranged in the connecting body, the end part of the connecting shaft is fixedly provided with a driving fluted disc, the driving fluted disc is movably arranged in the connecting body, the driving fluted disc is connected with an outer gear ring in an adaptive engagement manner, the outer gear ring is movably arranged in the connecting body, the inner side wall of the outer gear ring is equidistantly provided with an arc-shaped transmission chute, the transmission strip is movably arranged in the connecting body, one end of the transmission strip extends into the arc-shaped transmission chute, the other end of the transmission strip extends into a placing groove, the end part of the transmission strip is fixedly provided with a clamping pressing block, the placing groove is equidistantly arranged in the connecting body, the clamping pressing block is fixedly provided with a reset spring at one end of the connecting strip, the clamping surface of the clamping pressing block is arranged into an arc-shaped concave surface, the arc-shaped concave surface is equidistantly provided with a connecting slot, one end of the locking clamping block is extended to the outer side of the connecting slot, two sides of the end of the locking clamping block are symmetrically provided with auxiliary inclined surfaces, the other end of the locking clamping block is fixedly provided with a clamping block, and one end of the clamping block is fixedly connected with a reset spring, and one end of the clamping block is fixedly connected in the placing slot and fixedly arranged in the placing slot.

Preferably, the clamping press block corresponds to the transmission bar and the arc-shaped transmission chute in arrangement position, the arrangement groups are the same, and the end part of the transmission bar extending into the arc-shaped transmission chute is provided with an arc-shaped surface.

Preferably, the locking clamping block corresponds to the setting position of the locking clamping groove.

Preferably, the locking clamping blocks are arranged on the arc-shaped concave surface at one end of the clamping pressing block at equal intervals.

The application method of the automatic correction structure for the intelligent camera comprises the following steps:

the lens in the camera is adjusted in position through the matching adaptation of the correction control motor and the driving screw in the lens, the correction control motor and the driving screw are provided with four groups of lenses to be adjusted, and when the lens is inclined and offset, the correction control motor and the driving screw at corresponding offset positions are driven to perform inclination correction on the lens, and the stability of the lens position after the correction work is improved through the locking clamping groove on the auxiliary assembly and the driving screw.

Compared with the prior art, the invention has the beneficial effects that:

the invention designs an automatic correction structure for an intelligent camera, which mainly adjusts the position of a lens in the camera through the matching of a correction control motor and a driving screw arranged in the lens, wherein the correction control motor and the driving screw are provided with four groups, and when the position of the lens in the lens needs to be subjected to integral regulation and control correction work, the four groups of correction control motors and the driving screw are simultaneously started to correct and adjust the position of the lens; when the lens needs to be subjected to inclination correction work, a correction control motor and a driving screw at corresponding positions are started aiming at the inclination positions; and the connector is further locked in position through the auxiliary assembly after the position of the lens is adjusted, so that the stability of the lens after correction and regulation is ensured, and the actual use requirement is met.

Drawings

FIG. 1 is a schematic diagram of the connection of a smart camera structure according to the present invention;

FIG. 2 is a partial cross-sectional view of the connection of the mount to the internal structure of the lens barrel of the present invention;

FIG. 3 is a partial cross-sectional view of the connection of an extension body to a fixed connection block structure of the alignment assembly of the present invention;

FIG. 4 is a top view, partially in section, of the connection of an extension body to a fixed connection block structure in a calibration assembly of the present invention;

FIG. 5 is a cross-sectional view of the internal auxiliary assembly structure of the connector of the present invention;

FIG. 6 is a schematic diagram of the connection of the driving belt and the clamping press block structure of the present invention.

In the figure: the camera body 1, the mounting base 2, the lens 3, the lens 4, the fixed snap ring 5, the correction component 6, the correction control motor 601, the driving screw 602, the locking clamping groove 603, the connector 604, the extension body 605, the movable cavity groove 606, the movable transmission plate 607, the auxiliary spring one 608, the regulating groove 609, the auxiliary spring two 610, the fixed connection block 611, the auxiliary component 7, the rotation control motor 701, the connection shaft 702, the driving fluted disc 703, the driving outer toothed ring 704, the arc-shaped driving chute 705, the driving strip 706, the clamping pressing block 707, the placing groove 708, the reset spring 709, the locking clamping block 710, the connection spring 711 and the auxiliary inclined surface 712.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. Embodiments of the present invention are intended to be within the scope of the present invention as defined by the appended claims.

Referring to fig. 1-4, an automatic correction structure for an intelligent camera includes a camera body 1, a mounting seat 2, a lens 3, a lens 4, a fixing clamp ring 5, a correction assembly 6 and an auxiliary assembly 7; the camera body 1 is connected with the mounting seat 2, the mounting seat 2 is connected with the lens 3, the lens 3 is internally connected with the lens 4, the outer side wall of the lens 4 is fixedly provided with the fixed clamping ring 5 which is connected with the correction component 6, and the correction component 6 is connected with the auxiliary component 7; the calibration assembly 6 comprises a calibration control motor 601, a driving screw 602, a locking slot 603, a connector 604, an extension 605, a movable cavity 606, a movable transmission plate 607, an auxiliary spring one 608, a regulating slot 609, an auxiliary spring two 610, and a fixed connection block 611; the correction control motor 601 is fixedly arranged on the mounting seat 2 at equal intervals, the correction control motor 601 is connected with a driving screw 602, the driving screw 602 is provided with a connecting body 604 in a threaded connection manner, the outer side wall of the driving screw 602 is provided with a locking clamping groove 603 at equal intervals, one side of the connecting body 604 is fixedly provided with an extending body 605, a movable cavity groove 606 is arranged in the extending body 605, a movable transmission plate 607 is movably arranged in the movable cavity groove 606, one end of the movable transmission plate 607 extends into the movable cavity groove 606, auxiliary springs one 608 are symmetrically and fixedly arranged at the end parts, the other end of the movable transmission plate 607 extends into a regulating groove 609, auxiliary springs two 610 are symmetrically and fixedly arranged at the upper side and the lower side of the movable transmission plate 607, one end of each auxiliary spring two 610 is fixedly arranged in the regulating groove 609, the regulating groove 609 is arranged in a fixed connecting block 611, the fixed connecting block 611 is fixedly arranged on the outer side wall of the fixed clamping ring 5 at equal intervals, an auxiliary assembly 7 is connected in the connecting body 604, and the auxiliary assembly 7 is used for assisting in positioning the position of the connecting body 604; the fixed connection block 611 corresponds to the movable transmission plate 607 and the extension body 605 in arrangement position, and the number of the arrangement groups is the same, and four groups are arranged in total; the end part of the movable transmission plate 607 extending into the regulating groove 609 is provided with an arc surface and is contacted with the inner side wall of the regulating groove 609; the width of the movable transmission plate 607 is equal to the width of the notch of the regulating groove 609; when the integral regulation and control correction work is required to be carried out on the position of the lens 4 in the lens 3, the four groups of correction control motors 601 and the driving screws 602 are simultaneously started, and the correction adjustment is carried out on the position of the lens 4; when the lens 4 needs to be subjected to inclination correction, the correction control motor 601 and the driving screw 602 at corresponding positions are started aiming at the inclination positions, the correction control motor 601 drives the driving screw 602 to rotate, then the connector 604 on the driving screw 602 is driven, the extending body 605 on one side of the connector 604 drives the movable transmission plate 607, and the movable transmission plate 607 corrects and adjusts the inclination positions of the lens 4 through the fixed connecting block 611.

Referring to fig. 4-6, the auxiliary assembly 7 includes a rotation control motor 701, a connecting shaft 702, a driving fluted disc 703, a transmission outer toothed ring 704, an arc transmission chute 705, a transmission bar 706, a clamping press block 707, a placement groove 708, a return spring 709, a locking clamp block 710, a connecting spring 711, and an auxiliary inclined surface 712; the rotary control motor 701 is fixedly arranged on the connecting body 604, one end of the rotary control motor 701 is fixedly provided with a connecting shaft 702, the connecting shaft 702 is spliced in the connecting body 604, the end part is fixedly provided with a driving fluted disc 703, the driving fluted disc 703 is movably arranged in the connecting body 604, the driving fluted disc 703 is in adaptive meshing connection with the transmission outer toothed ring 704, the transmission outer toothed ring 704 is movably arranged in the connecting body 604, the inner side wall of the transmission outer toothed ring 704 is equidistantly provided with an arc-shaped transmission chute 705, the transmission strip 706 is equidistantly and movably arranged in the connecting body 604, one end of the transmission strip 706 extends into the arc-shaped transmission chute 705, the other end extends into the placing groove 708, the end part is fixedly provided with a clamping press block, the placing groove 708 is equidistantly arranged in the connecting body 604, the clamping press block 707 is fixedly provided with a reset spring 709 at the end connected with the transmission strip 706, one end of the reset spring 709 is fixedly arranged in the placing groove 708, the clamping face of the clamping press block 707 is provided with an arc-shaped concave surface, the equidistant connecting slot is movably spliced in the connecting slot is provided with a locking clamp block 710, one end of the locking clamp block 710 extends to the outer side of the connecting slot, the other end of the locking clamp block 710 is symmetrically provided with an auxiliary bevel, and the other end of the locking clamp spring is fixedly connected with the fixing clamp spring 711, and the fixing clamp block is fixedly connected with the other end of the clamp slot 711; the clamping pressing blocks 707 correspond to the transmission strips 706 and the arc-shaped transmission chute 705 in arrangement positions, the arrangement groups are the same, and the end parts of the transmission strips 706 extending into the arc-shaped transmission chute 705 are arc-shaped surfaces; the locking clamping block 710 corresponds to the setting position of the locking clamping groove 603; the locking fixture blocks 710 are equidistantly arranged on the arc-shaped concave surface at one end of the clamping press block 707; after the position of the lens 4 is adjusted, the connecting body 604 is further locked through the auxiliary assembly 7, the driving fluted disc 703 is driven to be meshed with the driving outer toothed ring 704 through the rotary control motor 701, the arc-shaped driving chute 705 on the inner side of the driving outer toothed ring 704 is driven to extrude the driving strip 706, the driving strip 706 pushes the clamping pressing block 707 to extrude the side wall of the driving screw 602, the clamping surface of the clamping pressing block 707 is set to be an arc-shaped concave surface, locking clamping blocks 710 are equidistantly arranged on the arc-shaped concave surface, when the locking clamping blocks 710 are aligned with the locking clamping grooves 603 on the outer side wall of the driving screw 602, the locking clamping blocks 710 are inserted into the locking clamping grooves 603 to enable the connecting body 604 to be locked and fixed, the locking clamping blocks 710 which are not aligned with the locking clamping grooves 603 are pressed into the connecting slots, and the clamping pressing block 707 also extrudes the side wall of the driving screw 602, so that the stability after correction and regulation of the locking clamping blocks is ensured.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. An automatic correction structure for intelligent camera, its characterized in that: the camera comprises a camera body (1), a mounting seat (2), a lens (3), a lens (4), a fixed clamping ring (5), a correction component (6) and an auxiliary component (7); the camera is characterized in that the camera body (1) is connected with the mounting seat (2), the mounting seat (2) is connected with the lens (3), the lens (3) is internally connected with the lens (4), the outer side wall of the lens (4) is fixedly provided with the fixing clamp ring (5) to be connected with the correction component (6), and the correction component (6) is connected with the auxiliary component (7).

2. The automatic correction structure for an intelligent camera according to claim 1, wherein: the correction component (6) comprises a correction control motor (601), a driving screw (602), a locking clamping groove (603), a connecting body (604), an extending body (605), a movable cavity groove (606), a movable transmission plate (607), an auxiliary spring I (608), a regulating groove (609), an auxiliary spring II (610) and a fixed connecting block (611); correction control motor (601) equidistance is fixed to be set up on mount pad (2), and correction is provided with drive screw (602) on control motor (601) connection, threaded connection is provided with connector (604) on drive screw (602), and the lateral wall equidistance of drive screw (602) is provided with locking draw-in groove (603), one side of connector (604) is fixed to be provided with extension body (605), be provided with movable cavity groove (606) in extension body (605), and the activity is provided with movable drive plate (607) in movable cavity groove (606), the one end of movable drive plate (607) extends to in movable cavity groove (606), and the tip symmetry is fixed to be provided with auxiliary spring one (608), and the other end of movable drive plate (607) extends to in regulation and control groove (609), and the upper and lower both sides symmetry of movable drive plate (607) is fixed to be provided with auxiliary spring two (610), the one end of auxiliary spring two (610) is fixed to be set up in regulation and control groove (609), set up in fixed (611), set up in fixed connection block (7) are connected in fixed position (7) in auxiliary connection block (7) equidistance.

3. The automatic correction structure for an intelligent camera according to claim 2, wherein: the fixed connecting blocks (611) correspond to the movable transmission plate (607) and the extension body (605) in arrangement positions, and the number of the arrangement groups is the same, so that four groups are arranged in total; the end part of the movable transmission plate (607) extending into the regulating groove (609) is provided with an arc surface and is contacted with the inner side wall of the regulating groove (609).

4. The automatic correction structure for an intelligent camera according to claim 2, wherein: the width of the movable transmission plate (607) is equal to the width of the notch of the regulating groove (609).

5. The automatic correction structure for an intelligent camera according to claim 1, wherein: the auxiliary assembly (7) comprises a rotation control motor (701), a connecting shaft (702), a driving fluted disc (703), a transmission outer toothed ring (704), an arc transmission chute (705), a transmission strip (706), a clamping press block (707), a placing groove (708), a reset spring (709), a locking fixture block (710), a connecting spring (711) and an auxiliary inclined plane (712); the rotary control motor (701) is fixedly arranged on the connecting body (604), one end of the rotary control motor (701) is fixedly provided with the connecting shaft (702), the connecting shaft (702) is spliced in the connecting body (604), the end part of the connecting shaft is fixedly provided with the driving fluted disc (703), the driving fluted disc (703) is movably arranged in the connecting body (604), the driving fluted disc (703) is in adaptive engagement connection with the transmission outer toothed ring (704), the transmission outer toothed ring (704) is movably arranged in the connecting body (604), the inner side wall of the transmission outer toothed ring (704) is equidistantly provided with an arc-shaped transmission chute (705), one end of the transmission strip (706) is movably arranged in the connecting body (604), the other end of the transmission strip (706) is extended into the arc-shaped transmission chute (705), the end of the transmission strip (706) is fixedly provided with a clamping pressing block (707), the end part of the transmission fluted disc (708) is fixedly arranged in the connecting body (604), the end of the transmission strip (706) is fixedly provided with a reset spring (709), the reset spring (709) is fixedly arranged in the arc-shaped transmission chute (707), the clamping block (707) is fixedly arranged in the arc-shaped concave surface, the concave surface is fixedly arranged in the arc-shaped concave surface of the arc-shaped transmission chute (707), one end of the locking clamping block (710) extends to the outer side of the connecting slot, auxiliary inclined planes (712) are symmetrically arranged on two sides of the end portion, a connecting spring (711) is fixedly arranged at the other end of the locking clamping block (710), and one end of the connecting spring (711) is fixedly arranged in the connecting slot.

6. The automatic correction structure for a smart camera according to claim 5, wherein: the clamping press blocks (707) correspond to the transmission strips (706) and the arc-shaped transmission chute (705) in arrangement positions, the arrangement groups are the same, and the end parts of the transmission strips (706) extending into the arc-shaped transmission chute (705) are arc-shaped surfaces.

7. The automatic correction structure for a smart camera according to claim 5, wherein: the locking clamping block (710) corresponds to the setting position of the locking clamping groove (603).

8. The automatic correction structure for a smart camera according to claim 5, wherein: the locking clamping blocks (710) are equidistantly arranged on the arc-shaped concave surface at one end of the clamping pressing block (707).

9. A method of using the automatic correction structure for a smart camera according to any one of claims 1 to 8, characterized in that the method of using is:

the lens (4) in the camera is adjusted in position through the matching adaptation of the correction control motor (601) and the driving screw (602) in the lens (3), and the correction control motor (601) and the driving screw (602) are provided with four groups to adjust the lens (4), and through connecting the connecting body (604), the extending body (605), the movable cavity groove (606) and the movable transmission plate (607) which are arranged, when the lens (4) is inclined and offset, the lens (4) is inclined and corrected through the correction control motor (601) and the driving screw (602) which are used for driving the corresponding offset position, and the stability of the position of the lens (4) after the correction work is improved through the auxiliary assembly (7) and the locking clamping groove (603) on the driving screw (602) which are arranged.