CN220419782U - Camera fastening device and lamination device - Google Patents

Abstract

The utility model relates to a camera fastener and lamination equipment, this camera fastener includes mounting base, first enclasping structure and second enclasping structure, and mounting base is used for supplying the camera body to install and connects, and first enclasping structure connects in mounting base, and first enclasping structure can carry out the centre gripping fastening to installing in mounting base's camera body, and the second enclasping structure is connected in mounting base, and the second enclasping structure can carry out the centre gripping fastening to the camera lens that is used for with camera body coupling. The camera lens can be clamped and fastened by the first enclasping structure, and can be clamped and fastened by the second enclasping structure, so that stable installation of the camera body and the camera lens is realized, looseness of the camera body and the camera lens is avoided, and accuracy of camera identification is guaranteed.

Description

Camera fastening device and lamination device

Technical Field

The present disclosure relates to the field of camera technology, and in particular, to a camera fastening device and lamination equipment.

Background

Because of lamination process requirement, the lamination equipment is required to be provided with an appearance detection CCD (charge coupled device) camera, a foreign matter detection CCD camera and a size detection CCD camera (comprising pole piece product detection and pole core product detection), and in the operation process of the lamination equipment, the equipment vibrates to cause loosening of an industrial camera, so that inaccurate identification is caused, and the production capacity is influenced.

Disclosure of Invention

An object of the present disclosure is to provide a camera fastening device and a lamination apparatus to solve technical problems existing in the related art.

In order to achieve the above-mentioned purpose, the present disclosure provides a camera fastener, camera fastener includes mounting base, first enclasping structure and second enclasping structure, mounting base is used for supplying the camera body to install and connect, first enclasping structure connect in mounting base, just first enclasping structure can to install in mounting base's camera body carries out the centre gripping fastening, second enclasping structure connect in mounting base, just second enclasping structure can to be used for carrying out the centre gripping fastening with camera body coupling's camera lens.

Optionally, the first holding structure includes first holding plate and first fastener, first holding plate with the mounting base is connected and encloses jointly and establish the first installation opening that is used for supplying the camera body to wear to establish, just first holding plate is formed with first fastening hole, first fastener wear to establish first fastening hole is used for with the camera body to support the top.

Optionally, the first enclasping plate includes a first frame beam, a second frame beam, and a third frame beam; the first frame beam and the third frame beam extend along a first direction, the first frame beam and the third frame beam are opposite and are arranged at intervals along a second direction, the second frame beam extends along the second direction and is connected with the first frame beam and the third frame beam, the first frame beam and the third frame beam are connected with the mounting base, and the first frame beam, the second frame beam, the third frame beam and the mounting base jointly enclose a first mounting opening; wherein the first direction and the second direction are arranged in an intersecting manner.

Optionally, the first frame beam and the third frame beam are each formed with a first fastening hole extending along the second direction, the first fasteners are correspondingly arranged in two, and the first fasteners penetrate through the corresponding first fastening holes for abutting against the camera body; and the mounting base and the second frame beam are used for propping against the camera body along the first direction.

Optionally, the first fastener includes a first fastener body and a first elastic pad, and the first elastic pad is connected to the first fastener body and is used for abutting against the camera body; and/or the mounting base and/or the second frame beam are/is provided with a second elastic pad for propping against the camera body.

Optionally, the mounting base is formed with two second fastening holes, the second fastening holes extend along the first direction, the first frame beam is formed with a third fastening hole extending along the first direction, and the third frame beam is formed with a fourth fastening hole extending along the first direction;

the camera fastening device further comprises two second fastening pieces, wherein one second fastening piece penetrates through the corresponding second fastening hole and the third fastening hole so as to connect the first frame beam and the mounting base; and the other second fastening piece penetrates through the corresponding second fastening hole and the fourth fastening hole so as to connect the third frame beam and the mounting base.

Optionally, the second holding structure includes second holding plate and third fastener, the second holding plate includes first half and second half, first half with the second half encloses to establish and forms the second installation opening that is used for supplying the camera lens to wear to establish, the third fastener is used for fastening connection first half with the second half.

Optionally, the camera fastening device further comprises a third elastic pad disposed at the second mounting opening for abutting against a camera lens.

Optionally, the camera fastening device further comprises an anti-loosening assembly, wherein the anti-loosening assembly comprises an anti-loosening seat, an elastic gasket and an anti-loosening rod, the anti-loosening seat is used for propping against the camera lens, and the anti-loosening rod penetrates through the elastic gasket and the anti-loosening seat to be inserted into an anti-loosening hole of the camera lens.

The present disclosure also provides a lamination apparatus including the camera fastening device.

In the technical scheme, the mounting base can provide a mounting foundation for the camera body and ensure the mounting of the camera body. The first enclasping structure and the second enclasping structure are both connected to the mounting base, and the first enclasping structure can clamp and fasten the camera body, and the second enclasping structure can clamp and fasten the camera lens, so that stable installation of the camera body and the camera lens is realized, looseness of the camera body and the camera lens is avoided, and accuracy of camera identification is guaranteed. In addition, when the camera fastening device of the present disclosure is applied to the scene of lamination equipment, even if vibration is generated in the operation process of lamination equipment, the camera body and the camera lens of the camera are not loose due to the arrangement of the first enclasping structure and the second enclasping structure, so that the camera can be accurately identified, and the normal operation of the camera is ensured.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

fig. 1 and 2 are schematic structural views of a camera fastening device according to an embodiment of the present disclosure.

Description of the reference numerals

1. First enclasping structure 11 first enclasping plate

111. First frame beam 112 second frame beam

113. First mounting opening of third frame beam 110

12. First fastener 121 first fastener body

2. Second enclasping structure 21 second enclasping plate

210. Second mounting opening 211 first half

212. Third fastener of second half 22

3. Second elastic pad 4 second fastener

5. Anti-loosening seat of anti-loosening assembly 51

52. Elastic spacer 53 locking rod

6. Third elastic pad 10 mounting base

101. Second fastening hole 100 camera body

200. Non-rotation area of camera lens 2001

2002. Rotation area 213 mounting notch

2003. First silica gel pad 2004 second silica gel pad

Detailed Description

Specific embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

In the present disclosure, unless otherwise stated, terms such as "first direction" and "second direction" used specifically refer to fig. 1; the use of terms such as "first," "second," and the like, are used merely to distinguish one element from another element and do not have order or importance.

Referring to fig. 1 and 2, the present disclosure provides a camera fastening device, the camera fastening device includes a mounting base 10, a first enclasping structure 1 and a second enclasping structure 2, the mounting base 10 is used for the camera body 100 to install and connect, the first enclasping structure 1 is connected to the mounting base 10, and the first enclasping structure 1 can clamp and fasten the camera body 100 installed to the mounting base 10, the second enclasping structure 2 is connected to the mounting base 10, and the second enclasping structure 2 can clamp and fasten the camera lens 200 used for being connected with the camera body 100.

In the above technical solution, the mounting base 10 can provide a mounting base for the camera body 100, and ensure the mounting of the camera body 100. The first enclasping structure 1 and the second enclasping structure 2 are both connected to the mounting base 10, and the first enclasping structure 1 can clamp and fasten the camera body 100, and the second enclasping structure 2 can clamp and fasten the camera lens 200, so that stable mounting of the camera body 100 and the camera lens 200 is realized, looseness of the camera body 100 and the camera lens 200 is avoided, and accuracy of camera identification is guaranteed. In addition, when the camera fastening device of the present disclosure is applied to the scene of lamination equipment, even if vibration is generated in the operation process of lamination equipment, the camera body 100 and the camera lens 200 of the camera cannot be loosened due to the arrangement of the first enclasping structure 1 and the second enclasping structure 2, so that the camera can be accurately identified, and the normal operation of the camera is ensured.

In one embodiment, referring to fig. 1 and 2, the first enclasping structure 1 includes a first enclasping plate 11 and a first fastener 12, where the first enclasping plate 11 is connected with the mounting base 10 and encloses a first mounting opening 110 for the camera body 100 to penetrate therethrough, and the first enclasping plate 11 is formed with a first fastening hole, and the first fastener 12 penetrates through the first fastening hole to be abutted against the camera body 100.

In this embodiment, the first mounting opening 110 on the first enclasping plate 11 is used for enclosing the camera body 100, and is clamped by the first fastener 12, so as to improve the firmness of the camera body 100 connected to the mounting base 10. However, the present disclosure is not limited to the specific configuration of the first clasping structure 1, and the camera body 100 may be stably attached to the mounting base 10.

In other embodiments, referring to fig. 1 and 2, the first hug plate 11 includes a first frame beam 111, a second frame beam 112, and a third frame beam 113; the first frame beam 111 and the third frame beam 113 extend along the first direction a, the first frame beam 111 and the third frame beam 113 are opposite and are arranged at intervals along the second direction B, the second frame beam 112 extends along the second direction B and is connected with the first frame beam 111 and the third frame beam 113, the first frame beam 111 and the third frame beam 113 are connected with the mounting base 10, and the first frame beam 111, the second frame beam 112, the third frame beam 113 and the mounting base 10 jointly enclose a first mounting opening 110; the first direction A and the second direction B are intersected. By setting the first enclasping plate 11 to be a frame beam structure, the camera body 100 can be effectively enclosed, and the structure is simple and convenient to manufacture.

In an alternative embodiment, referring to fig. 1 and 2, the first frame beam 111 and the third frame beam 113 are each formed with a first fastening hole extending in the second direction B, two first fasteners 12 are provided correspondingly, and the first fasteners 12 penetrate the corresponding first fastening holes for abutting against the camera body 100; and the mounting base 10 and the second frame beam 112 are for abutting against the camera body 100 in the first direction a. The camera body 100 is abutted against the second direction B by the two first fasteners 12, so that the stability of the camera body 100 in the second direction B can be effectively ensured. In addition, the mounting base 10 and the second frame beam 112 are used to abut against the camera body 100 in the first direction a, thereby ensuring the stability of the mounting of the camera body 100 to the mounting base 10 in the first direction a. The first fastening member described above may be configured as a fastening bolt, and the first fastening hole may be configured as a screw hole.

Alternatively, the first fastener 12 may include a first fastener body 121 and a first elastic pad (not shown) connected to the first fastener body 121 and for abutting against the camera body 100; and/or the mounting base 10 and/or the second frame beam 112 are provided with a second elastic pad 3 for abutting against the camera body 100.

In this embodiment, the first elastic pad and/or the second elastic pad 3 can play a role of effective buffering, avoiding damage to the camera body 100. The first and second elastic pads 3 may be constructed in any suitable elastic structure, for example, the first and second elastic pads 3 may be constructed as rubber pads, thereby effectively protecting the camera body 100 and extending the service life of the camera body 100.

Referring to fig. 1 and 2, the mounting base 10 is formed with two second fastening holes 101, the second fastening holes 101 extending in the first direction a, the first frame beam 111 is formed with a third fastening hole extending in the first direction a, and the third frame beam 113 is formed with a fourth fastening hole extending in the first direction a. The camera fastening device further comprises two second fastening members 4, wherein one second fastening member 4 is penetrated through the corresponding second fastening hole 101 and third fastening hole to connect the first frame beam 111 and the mounting base 10; the other second fastening member 4 penetrates the corresponding second fastening hole 101 and fourth fastening hole to connect the third frame beam 113 and the mounting base 10, thereby connecting the first enclasping plate 11 to the mounting base 10 by means of fastening members, but the specific manner in which the first enclasping plate 11 is connected to the mounting base 10 is not limited in this disclosure.

In one embodiment, referring to fig. 1, the second enclasping structure 2 includes a second enclasping plate 21 and a third fastener 22, where the second enclasping plate 21 includes a first half 211 and a second half 212, the first half 211 and the second half 212 enclose a second mounting opening 210 formed for the camera lens 200 to pass through, and the third fastener 22 is used for fastening the first half 211 and the second half 212. When the camera lens 200 is inserted into the second mounting opening 210, the third fastener 22 is not required to fasten the first half 211 and the second half 212, and after the camera lens 200 is inserted into place and connected with the camera body 100, the first half 211 and the second half 212 can be connected through the third fastener 22, so that the camera lens 200 is clamped, shake of the camera lens 200 is avoided, and mounting stability of the camera lens 200 is ensured.

Alternatively, the first half 211 and the second half 212 may be separated from each other and have no connection relationship, and the third fasteners 22 may be provided in two, and the two third fasteners 22 are respectively disposed at two sides of the second mounting opening 210 and both connect the first half 211 and the second half 212. For example, the third fastener 22 may be configured as a bolt, with the first and second screw holes formed at both sides of the first half 211, and the third and fourth screw holes formed at both sides of the second half 212, respectively. One bolt is used for penetrating through the first threaded hole and the third threaded hole, and the other bolt is used for penetrating through the second threaded hole and the fourth threaded hole, so that the first half body 211 and the second half body 212 are connected.

Alternatively, the first half 211 and the second half 212 are coupled to each other and define a mounting notch 213, and the third fastener 22 is provided as one and couples the first half 211 and the second half 212 at the mounting notch 213. For example, the third fastener 22 may be configured as a bolt, the first half 211 is formed with a fifth screw hole disposed opposite the mounting notch 213, the second half 212 is formed with a sixth screw hole disposed opposite the mounting notch 213, and the bolt passes through the fifth screw hole and the sixth screw hole to connect the first half 211 and the second half 212.

Optionally, the camera fastening device further comprises a third elastic pad 6, the third elastic pad 6 being disposed at the second mounting opening 210 for abutting against the camera lens 200. By arranging the third elastic pad 6, the camera lens 200 can be effectively protected, damage to the camera lens 200 is avoided, and normal use of the camera lens 200 is ensured. The third elastic pad 6 may be constructed in an arbitrary elastic structure, for example, the third elastic pad 6 may be constructed as a rubber pad.

Referring to fig. 1 and 2, the camera fastening device further includes an anti-loosening assembly 5, the anti-loosening assembly 5 includes an anti-loosening seat 51, an elastic spacer 52 and an anti-loosening rod 53, the anti-loosening seat 51 is used for propping against the camera lens 200, the anti-loosening rod 53 passes through the elastic spacer 52 and the anti-loosening seat 51 to be inserted into an anti-loosening hole of the camera lens 200 so as to prop against the inner wall of the camera lens 200, and a focusing position is determined, namely, a focal length is fixed. The anti-loosening seat 51 provides a mounting base for the anti-loosening rod 53, and the elastic gasket 52 can have an anti-loosening effect.

For example, the locking lever 53 may be configured as a locking bolt, and the locking seat 51 may be configured as a U-shaped seat, one end of which abuts against the rotation area 2002 and the other end abuts against the non-rotation area 2001, but the specific structures of the locking lever 53 and the locking seat 51 are not limited in the present disclosure. In addition, a first silica gel pad 2003 may be disposed on the surface of the rotation area 2002, a second silica gel pad 2004 may be disposed on the surface of the non-rotation area 2002, and two ends of the anti-loosening seat 51 respectively abut against the first silica gel pad 2003 and the second silica gel pad 2004, so as to protect the lens housing from damage.

The present disclosure additionally provides a lamination apparatus including a camera including the camera body 100 and the camera lens 200 described above, and the above-described camera fastening device.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the foregoing embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, the present disclosure does not further describe various possible combinations.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims (10)

1. The utility model provides a camera fastener, its characterized in that, camera fastener includes mounting base, first enclasping structure and second enclasping structure, mounting base is used for supplying the camera body to install and connects, first enclasping structure connect in mounting base, just first enclasping structure can to install in mounting base's camera body carries out the centre gripping fastening, second enclasping structure connect in mounting base, just second enclasping structure can to be used for carrying out the centre gripping fastening with camera lens that the camera body is connected.

2. The camera fastening device according to claim 1, wherein the first holding structure includes a first holding plate and a first fastening member, the first holding plate is connected with the mounting base and encloses together a first mounting opening for the camera body to pass through, and the first holding plate is formed with a first fastening hole, and the first fastening member passes through the first fastening hole for abutting against the camera body.

3. The camera fastening device of claim 2, wherein the first hug plate comprises a first frame beam, a second frame beam, and a third frame beam; the first frame beam and the third frame beam extend along a first direction, the first frame beam and the third frame beam are opposite and are arranged at intervals along a second direction, the second frame beam extends along the second direction and is connected with the first frame beam and the third frame beam, the first frame beam and the third frame beam are connected with the mounting base, and the first frame beam, the second frame beam, the third frame beam and the mounting base jointly enclose a first mounting opening; wherein the first direction and the second direction are arranged in an intersecting manner.

4. A camera fastening device according to claim 3, wherein the first frame beam and the third frame beam are each formed with first fastening holes extending in the second direction, the first fasteners are provided in two in correspondence, and the first fasteners penetrate the corresponding first fastening holes for abutting against a camera body; and the mounting base and the second frame beam are used for propping against the camera body along the first direction.

5. The camera fastening device of claim 4, wherein the first fastener comprises a first fastener body and a first resilient pad connected to the first fastener body and adapted to bear against the camera body; and/or the mounting base and/or the second frame beam are/is provided with a second elastic pad for propping against the camera body.

6. A camera fastening device according to claim 3, wherein the mounting base is formed with two second fastening holes extending in the first direction, the first frame beam is formed with a third fastening hole extending in the first direction, and the third frame beam is formed with a fourth fastening hole extending in the first direction;

the camera fastening device further comprises two second fastening pieces, wherein one second fastening piece penetrates through the corresponding second fastening hole and the third fastening hole so as to connect the first frame beam and the mounting base; and the other second fastening piece penetrates through the corresponding second fastening hole and the fourth fastening hole so as to connect the third frame beam and the mounting base.

7. The camera fastening device of claim 1, wherein the second clasping structure comprises a second clasping plate and a third fastener, the second clasping plate comprises a first half and a second half, the first half and the second half enclose a second mounting opening for a camera lens to pass through, and the third fastener is used for fastening the first half and the second half.

8. The camera fastening device of claim 7, further comprising a third resilient pad disposed at the second mounting opening for abutment with a camera lens.

9. The camera fastening device of claim 1, further comprising a locking assembly comprising a locking seat, an elastic spacer, and a locking rod, the locking seat being configured to abut against the camera lens, the locking rod passing through the elastic spacer and the locking seat for insertion into a locking hole of the camera lens.

10. Lamination device characterized in that it comprises a camera and a camera fastening device according to any one of claims 1-9.