CN216748393U - Multi-dimensional adjusting device for connecting lens and camera - Google Patents

Abstract

The utility model relates to a multi-dimensional adjusting device for connecting a lens and a camera, which comprises an XY axis adjusting component; the XY axis adjusting component comprises a main body frame, an X axis adjusting plate, a Y axis adjusting plate and a cover plate which are sequentially arranged; a first step is arranged in the main body frame; a first sliding groove is arranged in the first step; the X-axis adjusting plate is provided with a second sliding chute; the two oppositely arranged X-axis adjusting screws penetrate through the main body frame to push the X-axis adjusting plate to move in the first sliding groove along the X direction; two Y adjusting screws which are arranged oppositely penetrate through the main body frame and the X-axis adjusting plate, and the Y-axis adjusting plate is pushed to move in the second sliding groove along the Y direction. This multidimension degree adjusting device compact structure can adjust in the X direction alone through XY axle adjusting part, also can adjust in the Y axle direction alone, and both do not influence each other, not only convenient the regulation, and still specific flexibility ratio is high, characteristics that the reliability is high.

Description

Multi-dimensional adjusting device for connecting lens and camera

Technical Field

The utility model relates to the technical field of adjusting devices, in particular to a multi-dimensional adjusting device for connecting a lens and a camera.

Background

The existing lens-connected camera is generally in fixed threaded connection or other interface connection, the connection mode is that the optical axis of the lens is generally coincident with the center of the camera, the light-sensitive surface of the camera is perpendicular to the optical axis of the lens, the alignment precision is generally realized by the precision of a component, due to the limitation of cost and different application requirements, an adjusting mechanism for the lens and the camera cannot be added on the lens generally, and therefore a multi-dimensional adjusting device for connecting the lens and the camera is needed.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a multi-dimensional adjusting device for connecting a lens and a camera, which solves the above-mentioned problems of the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a multi-dimensional adjusting device for connecting a lens and a camera comprises an XY axis adjusting component; the XY axis adjusting component comprises a main body frame, an X axis adjusting plate, a Y axis adjusting plate and a cover plate which are sequentially arranged; a first step for placing the cover plate is arranged in the main body frame; a first sliding groove for the X-axis adjusting plate to slide along the X direction is formed in the main body frame; one surface of the X-axis adjusting plate facing the cover plate is provided with a second sliding chute for the Y-axis adjusting plate to slide along the Y direction; x adjusting screws are respectively arranged at two ends of the X-axis adjusting plate; the two oppositely arranged X-axis adjusting screws penetrate through the main body frame to push the X-axis adjusting plate to move in the first sliding groove along the X direction; two ends of the Y-axis adjusting plate are respectively provided with a Y-axis adjusting screw; the two oppositely arranged Y-axis adjusting screws penetrate through the main body frame and the X-axis adjusting plate to push the Y-axis adjusting plate to move in the second sliding groove along the Y direction;

the utility model relates to a multi-dimensional adjusting device for connecting a lens and a camera, wherein a Z-axis adjusting component is detachably connected to the outer side surface of a main body frame; a support ring is arranged on the Y-axis adjusting plate, and one end of the support ring penetrating through the cover plate is detachably connected with a rotary adjusting assembly; the Z-axis adjusting assembly is arranged corresponding to the rotary adjusting assembly;

the utility model relates to a multi-dimensional adjusting device for connecting a lens and a camera, wherein the Z-axis adjusting component is connected with the lens; the Z-axis adjusting component drives the lens to move back and forth along the Z axis; the rotary adjusting component is connected with a camera; the rotation adjusting component drives the lens to rotate;

the utility model discloses a multi-dimensional adjusting device for connecting a lens and a camera, wherein a Z-axis adjusting component comprises a first adjusting sleeve for connecting the lens, a second adjusting sleeve for connecting an XY-axis adjusting component, and a locking component for fixedly connecting the first adjusting sleeve and the second adjusting sleeve;

the utility model relates to a multi-dimensional adjusting device for connecting a lens and a camera, wherein a first external thread and a positioning surface are arranged on the outer surface of one end, facing the lens, of a first adjusting sleeve, and a first smooth surface for locking, a second external thread for transmission and a second smooth surface connected with a second adjusting sleeve are sequentially arranged on the outer surface of the other end, facing the second adjusting sleeve;

the utility model relates to a multi-dimensional adjusting device for connecting a lens and a camera, wherein a connecting cylinder is arranged on the outer side of one end, facing a first adjusting sleeve, of a second adjusting sleeve, and a positioning cylinder is arranged on the outer side of the other end, facing a main body frame, of the second adjusting sleeve; the inner wall surface of the connecting cylinder is attached to the first smooth surface; a T-shaped groove is formed in the connecting cylinder; a second step and a third step are further arranged on the inner wall of one end, facing the first adjusting sleeve, of the second adjusting sleeve; the second step is provided with an internal thread matched with the second external thread; a third smooth surface matched with the second smooth surface is arranged on the third step; a first V-shaped groove is dug in the outer side surface of the positioning cylinder; a plurality of first screws matched with the first V-shaped grooves penetrate through the main body frame;

the utility model relates to a multi-dimensional adjusting device for connecting a lens and a camera, wherein a rotary adjusting component comprises a connecting ring connected with a bracket ring and a fixing ring for fixing the connecting ring; a second V-shaped groove is dug in the outer side surface of the connecting ring; a plurality of second screws matched with the second V-shaped grooves are arranged on the bracket ring;

the utility model relates to a multi-dimensional adjusting device for connecting a lens and a camera, wherein the height of an X-axis adjusting plate is equal to or less than that of a first step of a main body frame;

the utility model discloses a multi-dimensional adjusting device for connecting a lens and a camera, wherein at least one groove is also dug in a cover plate.

The utility model has the beneficial effects that: this multidimension degree adjusting device compact structure, simple to operate mutually supports through the 3 independently adjustable adjusting part of XY axle adjusting part, Z axle adjusting part, the rotation regulating part that set gradually, can make camera lens and camera multidimension degree adjust, not only conveniently adjusts, still characteristics that concrete flexibility ratio is high, the reliability is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

FIG. 1 is a schematic structural diagram of a multi-dimensional adjusting apparatus for connecting a lens and a camera according to a preferred embodiment of the utility model;

FIG. 2 is a schematic structural view of an XY-axis adjustment assembly according to a preferred embodiment of the present invention;

FIG. 3 is a schematic structural view of a Z-axis adjustment assembly according to a preferred embodiment of the utility model.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

A multi-dimensional adjustment device for connecting a lens (not shown) and a camera according to a preferred embodiment of the present invention, as shown in fig. 1-3, includes an XY axis adjustment assembly 100; the XY-axis adjusting assembly 100 includes a main body frame 101, an X-axis adjusting plate 102, a Y-axis adjusting plate 103, and a cover plate 104, which are sequentially disposed; a first step 105 for placing the cover plate 104 is arranged in the main body frame 101; a first sliding groove 106 for the X-axis adjusting plate 102 to slide along the X direction is arranged in the first step; one surface of the X-axis adjusting plate 102 facing the cover plate 104 is provided with a second chute 107 for the Y-axis adjusting plate 103 to slide along the Y direction; specifically, the height of the X-axis adjusting plate 102 is equal to or less than the height of the first step 105, facilitating installation.

X adjusting screws 108 are respectively arranged at two ends of the X-axis adjusting plate 102; two oppositely arranged X-axis adjusting screws 108 penetrate through the main body frame 101 to push the X-axis adjusting plate 102 to move in the first sliding groove 106 along the X direction; two ends of the Y-axis adjusting plate 103 are respectively provided with a Y-axis adjusting screw 109; two oppositely disposed Y-adjustment screws 109 each penetrate the main body frame 101 and the X-axis adjustment plate 102 to push the Y-axis adjustment plate 103 to move in the Y direction within the second chute 107.

When one X-axis adjusting screw rotates forwards and the other X-axis adjusting screw rotates backwards, the X-axis adjusting plate moves back and forth in the X-axis direction; when one Y-axis adjusting screw rotates forwards and the other Y-axis adjusting screw rotates backwards, the Y-axis adjusting plate moves back and forth in the Y-axis direction; the two do not interfere with each other when moving; high flexibility and convenient adjustment.

This multidimension degree adjusting device compact structure through above structure XY axle adjusting part, can adjust in the X direction alone, also can adjust in the Y axle direction alone, and both do not influence each other, not only convenient regulation, still characteristics that concrete flexibility ratio is high, the reliability is high.

Specifically, the cover plate 104 is fixed on the first step 105 through a bolt 112, and in order to fix the XY-axis adjusting assembly after adjustment, at least one slot 111 is further dug in the cover plate 104; when the bolts 112 are tightened, the cover plate deforms, locking the X-axis adjustment plate 102 and the Y-axis adjustment plate 103.

As shown in fig. 1, a Z-axis adjusting assembly 200 is detachably coupled to an outer side surface of the main body frame 101; a support ring 110 is fixedly arranged on the Y-axis adjusting plate 103, and one end of the support ring 110 penetrating through the cover plate 104 is detachably connected with a rotary adjusting assembly 300; the Z-axis adjustment assembly 200 is disposed in correspondence with the rotation adjustment assembly 300.

Specifically, a lens (not shown) is connected to the Z-axis adjusting assembly 200; the Z-axis adjusting assembly 200 drives the lens (not shown) to move back and forth along the Z-axis; the camera 400 is connected to the rotation adjustment assembly 300; the rotation adjustment assembly 300 rotates a lens (not shown) on the camera 400.

As shown in fig. 3, the Z-axis adjusting assembly 200 includes a first adjusting sleeve 201 for connecting a lens (not shown), a second adjusting sleeve 202 for connecting the XY-axis adjusting assembly 100, and a locking assembly 203 fixedly connecting the first adjusting sleeve 201 and the second adjusting sleeve 202.

The lens (not shown) is connected with the first adjusting sleeve 201 in a matching manner, and the first adjusting sleeve 201 is connected with the second adjusting sleeve 202 in a matching manner to realize the telescopic change of the lens (not shown).

The locking component 203 is a clamping ring and a threaded rod for screwing the clamping ring; the clamping ring is of a circular ring structure with a notch; two ends of the clamping ring are respectively provided with two corresponding through holes; the inner wall of the through hole is provided with an internal thread matched with the threaded rod; the threaded rod sequentially penetrates through the two through holes to connect the first adjusting sleeve 201 with the second adjusting sleeve 202; the threaded rod is tightened to clamp the two ends of the notch, so that the first adjusting sleeve 201 and the second adjusting sleeve 202 are fixedly connected.

The locking assembly can also be other existing locking structures, and the simple transformation based on the locking assembly is within the protection scope of the present application.

Specifically, the first adjusting sleeve 201 is provided with a first external thread 204 and a positioning surface 205 on the outer surface of one end facing the lens (not shown), and is provided with a first smooth surface 206 for locking, a second external thread 207 for transmission, and a second smooth surface 208 connected with the second adjusting sleeve 202 in sequence on the outer surface of the other end facing the second adjusting sleeve 202.

Specifically, the second adjusting sleeve 202 is provided with a connecting cylinder 209 facing the outer side of one end of the first adjusting sleeve 201, and is provided with a positioning cylinder 210 facing the outer side of the other end of the main body frame 101; after the inner wall surface of the connecting cylinder 209 is attached to the first smooth surface 206, the connecting cylinder is fixedly connected with the first smooth surface through the locking assembly 203; the connecting cylinder 209 is provided with a T-shaped groove 211; when stressed, the cable can deform, and is convenient to fixedly connect.

The inner wall of one end of the second adjusting sleeve 202 facing the first adjusting sleeve 201 is further provided with a second step 212 and a third step 213; the second step 212 is provided with an internal thread 214 matched with the second external thread 207; a third smooth surface 215 matched with the second smooth surface 208 is arranged on the third step 213; a first V-shaped groove 216 is dug on the outer side surface of the positioning cylinder 210; the connecting and fixing with the XY axis adjusting component 100 are convenient; a plurality of first screws 217 matched with the first V-shaped grooves 216 are arranged on the main body frame 101 in a penetrating way; the Z-axis adjusting assembly 200 is fixed to the XY-axis adjusting assembly 100 side.

By rotating the second adjustment sleeve 202, the relative position of the second adjustment sleeve 202 in the Z-axis direction changes, and the lens (not shown) can be adjusted in a telescopic manner in the Z-axis direction.

Specifically, as shown in fig. 2, the rotation adjusting assembly 300 includes a connection ring 301 connected to the holder ring 110 and a fixing ring 302 fixing the connection ring 301; when the fixing ring 302 is screwed, the connecting ring 301 can also drive the camera 400 to rotate relative to the XY-axis adjusting assembly 100 by taking the axis of the connecting ring 301 as the center of circle; a second V-shaped groove 303 is dug on the outer side surface of the connecting ring 301; the holder ring 110 is provided with a plurality of second screws 304 engaged with the second V-shaped grooves 303, and when the camera is rotated to a proper angle, the angle of the camera is fixed by tightening the second screws.

This multidimension degree adjusting device compact structure, simple to operate mutually supports through the 3 independently adjustable adjusting part of XY axle adjusting part, Z axle adjusting part, the rotation regulating part that set gradually, can make camera lens and camera multidimension degree adjust, not only conveniently adjusts, still characteristics that concrete flexibility ratio is high, the reliability is high.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the utility model as defined in the appended claims.

Claims (9)

1. A multi-dimensional adjusting device for connecting a lens and a camera is characterized by comprising an XY axis adjusting component; the XY axis adjusting component comprises a main body frame, an X axis adjusting plate, a Y axis adjusting plate and a cover plate which are sequentially arranged; a first step for placing the cover plate is arranged in the main body frame; a first sliding groove for the X-axis adjusting plate to slide along the X direction is formed in the main body frame; one surface of the X-axis adjusting plate, which faces the cover plate, is provided with a second sliding groove for the Y-axis adjusting plate to slide along the Y direction; x adjusting screws are respectively arranged at two ends of the X-axis adjusting plate; the two oppositely arranged X-axis adjusting screws penetrate through the main body frame to push the X-axis adjusting plate to move in the first sliding groove along the X direction; two ends of the Y-axis adjusting plate are respectively provided with a Y-axis adjusting screw; two Y adjusting screw that set up relatively all run through main body frame with X axle regulating plate promotes Y axle regulating plate is in remove along the Y direction in the second spout.

2. The multi-dimensional adjusting apparatus for connecting a lens to a camera according to claim 1, wherein a Z-axis adjusting member is detachably attached to an outer side surface of the main body frame; a support ring is arranged on the Y-axis adjusting plate, and one end of the support ring penetrating through the cover plate is detachably connected with a rotary adjusting assembly; the Z-axis adjusting assembly and the rotation adjusting assembly are arranged correspondingly.

3. The multi-dimensional adjusting device for connecting the lens and the camera as claimed in claim 2, wherein the Z-axis adjusting component is connected with the lens; the Z-axis adjusting component drives the lens to move back and forth along the Z axis; the rotary adjusting component is connected with a camera; the rotation adjusting component drives the lens to rotate.

4. The multi-dimensional adjustment device of claim 3, wherein the Z-axis adjustment assembly comprises a first adjustment sleeve for connecting the lens, a second adjustment sleeve for connecting the XY-axis adjustment assembly, and a locking assembly for fixedly connecting the first adjustment sleeve and the second adjustment sleeve.

5. The multi-dimensional adjusting device for connecting the lens and the camera as claimed in claim 4, wherein the first adjusting sleeve is provided with a first external thread and a positioning surface on the outer surface of one end facing the lens, and a first smooth surface for locking, a second external thread for transmission and a second smooth surface connected with the second adjusting sleeve are sequentially provided on the outer surface of the other end facing the second adjusting sleeve.

6. The multi-dimensional adjusting device for connecting the lens and the camera according to claim 5, wherein the second adjusting sleeve is provided with a connecting cylinder towards the outside of one end of the first adjusting sleeve, and a positioning cylinder towards the outside of the other end of the main body frame; the inner wall surface of the connecting cylinder is attached to the first smooth surface; a T-shaped groove is formed in the connecting cylinder; a second step and a third step are further arranged on the inner wall of one end, facing the first adjusting sleeve, of the second adjusting sleeve; the second step is provided with an internal thread matched with the second external thread; a third smooth surface matched with the second smooth surface is arranged on the third step; a first V-shaped groove is dug in the outer side surface of the positioning cylinder; and a plurality of first screws matched with the first V-shaped grooves are arranged on the main body frame in a penetrating manner.

7. The multi-dimensional adjustment device for connecting a lens and a camera according to claim 2, wherein the rotation adjustment assembly comprises a connection ring connected with the mount ring and a fixing ring fixing the connection ring; a second V-shaped groove is dug in the outer side surface of the connecting ring; and a plurality of second screws matched with the second V-shaped grooves are arranged on the support ring.

8. A multi-dimensional adjusting apparatus for connecting a lens barrel to a camera according to any one of claims 1 to 7, wherein the height of the X-axis adjusting plate is equal to or less than the height of the first step of the main body frame.

9. A multi-dimensional adjustment device for connecting a lens and a camera according to claim 8, wherein the cover plate is further dug with at least one slot.

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