CN216938242U - Riveting machine for camera support - Google Patents
Riveting machine for camera support Download PDFInfo
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- CN216938242U CN216938242U CN202122257457.9U CN202122257457U CN216938242U CN 216938242 U CN216938242 U CN 216938242U CN 202122257457 U CN202122257457 U CN 202122257457U CN 216938242 U CN216938242 U CN 216938242U
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- riveting
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- adjusting nut
- camera
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Abstract
The application relates to a riveting machine for a camera bracket, which comprises a frame, wherein the frame is provided with a workbench, the frame is also provided with a riveting device, the riveting device comprises a riveting head and a control component for controlling the operation of the riveting head, the control component is arranged on the frame, the riveting device is provided with an abutting component, the abutting component comprises a mounting plate, an abutting plate used for abutting against the camera bracket and a plurality of sliding rods, the mounting plate is fixed on the riveting head, the sliding rods are fixedly connected with the abutting plate, the sliding rods are penetrated and connected with the mounting plate in a sliding way, the abutting component also comprises a plurality of pushing springs used for controlling the abutting plate to slide towards the camera bracket, the pushing springs are respectively coaxially sleeved on the sliding rods in a one-to-one correspondence way, the sliding rod is sleeved with a first adjusting nut in threaded connection, and two ends of the pushing spring are connected to the mounting plate and the first adjusting nut respectively. This application has the effect that improves camera support stability at the riveting in-process.
Description
Technical Field
The application relates to the field of riveting machines, in particular to a riveting machine for a camera support.
Background
The riveting machine is also called a spin riveting machine and refers to mechanical equipment for riveting articles by rivets. Generally, a riveting machine is used for riveting a plurality of riveting points on a camera support, the riveting machine comprises a rack, a riveting device and a workbench, the riveting device comprises a riveting head for riveting the camera support and a control assembly for driving and controlling the riveting head to work, and the control assembly is mounted on the rack; the workstation sets up to discoid structure, and the workstation rotates to be connected in the frame.
During the use, place a plurality of camera supports in the workstation for the workstation can rotate, in order to carry a plurality of camera supports to riveting set department in proper order, and rivet camera support through riveting subassembly control riveting head afterwards.
However, in the process of riveting the camera support by the riveting head, the camera support is susceptible to the influence of the rotating riveting head and swings, so that the riveting quality of the camera support is relatively poor.
SUMMERY OF THE UTILITY MODEL
In order to improve the stability of camera support in the riveting process, the application provides a camera is riveter for camera support.
The application provides a riveter for camera support adopts following technical scheme:
a riveting machine for a camera bracket comprises a frame, wherein the frame is provided with a workbench and a riveting device, the riveting device comprises a riveting head and a control component for controlling the operation of the riveting head, the control component is arranged on the frame, the riveting device is provided with an abutting assembly, the abutting assembly comprises a mounting plate, an abutting plate used for abutting against the camera bracket and a plurality of sliding rods, the mounting plate is fixed on the riveting head, the sliding rods are fixedly connected with the abutting plate, the sliding rods are penetrated and connected with the mounting plate in a sliding way, the abutting component also comprises a plurality of pushing springs used for controlling the abutting plate to slide towards the camera bracket, the pushing springs are respectively coaxially sleeved on the sliding rods in a one-to-one correspondence way, the sliding rod is sleeved with a first adjusting nut in threaded connection, and two ends of the pushing spring are connected to the mounting plate and the first adjusting nut respectively.
By adopting the technical scheme, when the camera support is used, the camera support is placed on the workbench, then the camera support is conveyed to the riveting device through the workbench, and the riveting head is controlled to move towards the camera support through the control assembly; at the moment, the abutting plate abuts against the camera support, then the riveting head is continuously controlled to slide towards the camera support, the abutting plate is driven to slide towards the mounting plate, and the pushing spring is compressed; simultaneously, before using, rotatory first adjusting nut can compress the pushing spring to make when the butt joint board butt in camera support, increase the compression capacity of pushing spring, and then increase the clamp force of butt joint board butt when camera support, in order to improve camera support stability at the riveting in-process.
Optionally, the end face of the first adjusting nut facing the mounting plate is clamped and rotatably connected with a fixed rotating ring, the fixed rotating ring and the first adjusting nut are coaxially arranged, and two ends of the pushing spring are respectively and fixedly connected to the mounting plate and the fixed rotating ring.
Through adopting above-mentioned technical scheme, when rotating first adjusting nut, fixed swivel can rotate first adjusting nut relatively to reduce and promote the spring and take place self and twist reverse and the possibility of damage.
Optionally, first adjusting nut is provided with locking Assembly, locking Assembly includes the lantern ring and locking bolt, the slide bar is located to the lantern ring cover, just the lantern ring card is established and is rotated and connect in the terminal surface that first adjusting nut deviates from fixed swivel one side, locking bolt radially wears to establish and threaded connection in the lantern ring along the lantern ring, the slide bar is seted up along its axially extended spout, spout diapire shaping is equipped with the rack, the card is established and is slided in the spout and be connected with be used for with rack toothing's tooth piece, the tooth piece rotates to be connected in locking bolt.
Through adopting above-mentioned technical scheme, after adjusting first adjusting nut, rotatory locking bolt to order about the tooth piece and slide towards the rack, and make tooth piece and rack mesh mutually, the relative slide bar of restriction lantern ring slides, thereby restrict first adjusting nut and take place to rotate and the possibility that resets along the trend of slide bar axial shake, and then restriction first adjusting nut increases the stability when using.
Optionally, the lantern ring inner wall is fixedly connected with a reinforcing pin, the reinforcing pin penetrates through the sliding rod and is connected to the sliding rod in a sliding mode along the axial direction of the sliding rod.
Through adopting above-mentioned technical scheme, strengthen the round pin and can increase when adjusting first adjusting nut, the steadiness of slide bar is located to the lantern ring card.
Optionally, the butt plate is provided with the touching subassembly, the touching subassembly is including sliding the butt head of connecting in the butt plate, the butt head is tubulose and sets up towards the rivet joint opening, the touching subassembly still includes a plurality of regulating parts that are used for adjusting the relative position between butt head and the butt plate.
Through adopting above-mentioned technical scheme, the relative position between butt head and the butt plate can be adjusted to the regulating part to adjust the butt head when contacting with the camera support, promote the decrement of spring, and then adjust the clamp force to the camera support.
Optionally, the regulating part includes the control tube, adjusts pole and second adjusting nut, control tube one end is fixed in the butt board, and the other end extends towards one side at camera support place, second adjusting nut card is established and rotate to be connected in the control tube, wear to establish and threaded connection in second adjusting nut adjusting rod, adjust pole fixed connection in butt head.
Through adopting above-mentioned technical scheme, during the use, rotatory second adjusting nut to change the distance between regulation pole and the regulation pipe, and then change the overall length of regulating part, thereby adjust the distance between butt head and the butt plate.
Optionally, one end of the abutting head facing the camera support is fixedly connected with a backing ring made of an elastic material.
Through adopting above-mentioned technical scheme, the backing ring can reduce when butt head and camera support contact, causes the possibility of harm to camera support.
In summary, the present application includes at least one of the following beneficial technical effects:
before the camera support is used, the pushing spring can be compressed by rotating the first adjusting nut, so that when the abutting plate abuts against the camera support, the compression amount of the pushing spring is increased, the clamping force of the abutting plate abutting against the camera support is increased, and the stability of the camera support in the riveting process is improved;
rotatory first adjusting nut can compress the promotion spring to make when the butt of butt plate in camera support, increase the compression volume that promotes the spring, and then increase the clamp force of butt plate butt when camera support, with the stability of further improvement camera support at the riveting in-process.
Drawings
FIG. 1 is a schematic structural diagram of an embodiment of the present application;
FIG. 2 is an enlarged schematic view of portion A of FIG. 1;
FIG. 3 is a schematic structural view of a butt plate according to an embodiment of the present application;
FIG. 4 is an exploded view of a first adjusting nut according to an embodiment of the present application;
FIG. 5 is a schematic structural diagram of a touch assembly according to an embodiment of the present disclosure.
Description of reference numerals: 1. a frame; 2. a work table; 3. a riveting device; 31. riveting a joint; 32. a control component; 4. an abutment assembly; 41. mounting a plate; 42. a butt joint plate; 43. a slide bar; 431. a chute; 432. a rack; 433. a tooth block; 434. a limiting block; 44. a push spring; 5. a first adjusting nut; 51. fixing the swivel; 6. a locking assembly; 61. a collar; 611. a reinforcement pin; 62. locking the bolt; 7. a touch component; 71. a butting head; 72. an adjustment member; 721. an adjusting tube; 722. adjusting a rod; 723. a second adjusting nut; 8. a backing ring.
Detailed Description
The present application is described in further detail below with reference to figures 1-5.
The embodiment of the application discloses a riveting machine for a camera support. Referring to fig. 1, the riveting machine for the camera mount includes a frame 1 and a worktable 2 installed on the frame 1, the worktable 2 is in a disc-shaped structure, and the worktable 2 is rotatably connected to the frame 1. The frame 1 is provided with the riveting set 3, and the riveting set 3 includes riveting head 31 and control assembly 32, and control assembly 32 installs in frame 1, and riveting head 31 installs in control assembly 32 for control assembly 32 can control the operation of riveting head 31, thereby rivets the camera support on workstation 2.
With reference to fig. 2 and 3, the riveting device 3 is provided with an abutment assembly 4, the abutment assembly 4 comprising a mounting plate 41, an abutment plate 42, a plurality of sliding bars 43 and a plurality of pushing springs 44. The mounting plate 41 is fixedly connected to the rivet head 31, the abutting plate 42 is disposed on one side of the mounting plate 41 facing the camera support, the abutting plate 42 is provided with the touch component 7, the touch component 7 comprises an abutting head 71 connected to the abutting plate 42, the abutting head 71 is tubular and is disposed facing the opening of the rivet head 31, and the abutting head 71 extends towards one side where the camera support is located.
The sliding rod 43 is fixedly connected to the abutting plate 42, the sliding rod 43 penetrates through and is connected to the mounting plate 41 in a sliding mode, the sliding rod 43 is formed into a limiting block 434, and the limiting block 434 is located on one side, away from the abutting plate 42, of the mounting plate 41 so as to reduce the possibility that the sliding rod 43 falls off the mounting plate 41.
Referring to fig. 2 and 3, the plurality of pushing springs 44 are coaxially sleeved on the plurality of sliding rods 43 in a one-to-one correspondence manner, the sliding rods 43 are sleeved and threadedly connected with the first adjusting nuts 5, and the first adjusting nuts 5 are located between the mounting plate 41 and the abutting plate 42. The end face of the first adjusting nut 5 facing one side of the mounting plate 41 is clamped and rotatably connected with a fixed rotating ring 51, and the fixed rotating ring 51 and the first adjusting nut 5 are coaxially arranged. Both ends of the push spring 44 are fixedly connected to the mounting plate 41 and the fixed swivel 51, respectively.
In use, the camera support is placed on the workbench 2, and then the camera support is conveyed to the riveting device 3 through the workbench 2, and the riveting head 31 is controlled to move towards the camera support through the control component 32. At this time, the abutting head 71 abuts against the camera bracket first, and then the rivet joint 31 is continuously controlled to slide towards the camera bracket, so that the abutting plate 42 is driven to slide towards the mounting plate 41, and the pushing spring 44 is further compressed, so that the abutting head 71 is controlled by the pushing spring 44 to abut against the camera bracket, and the stability of the camera bracket in the riveting process is improved.
Meanwhile, the first adjusting nut 5 can be rotated to displace the first adjusting nut 5 towards the mounting plate 41, so that the pushing spring 44 is compressed, when the abutting head 71 abuts against the camera support, the compression amount of the pushing spring 44 can be increased, the load applied by the pushing spring 44 to the abutting head 71 is increased, the clamping force of the abutting head 71 abutting against the camera support is increased, and the stability of the camera support in the riveting process is further improved.
Referring to fig. 4, in order to reduce the possibility that the first adjusting nut 5 will loosen and reset due to the continuous swinging of the slide bar 43 after the first adjusting nut 5 is adjusted during use, the first adjusting nut 5 is provided with a locking assembly 6. Locking Assembly 6 includes lantern ring 61 and lock bolt 62, and the lantern ring 61 card is established and is rotated and connect in the terminal surface that first adjusting nut 5 deviates from fixed swivel 51 one side, and the lantern ring 61 cover is located slide bar 43, and is preferred, and lantern ring 61 inner wall and slide bar 43 clearance setting. The sliding rod 43 is provided with a sliding groove 431 extending along the axial direction of the sliding rod, the bottom wall of the sliding groove 431 is formed into a rack 432, a tooth block 433 is clamped in the sliding groove 431 and connected with the sliding groove in a sliding manner, the locking bolt 62 penetrates through the radial direction of the lantern ring 61 and is connected with the lantern ring 61 in a threaded manner, and the locking bolt 62 is connected with the tooth block 433 in a rotating manner.
The inner wall of the collar 61 is further fixedly connected with a reinforcing pin 611, and the reinforcing pin 611 penetrates through the sliding rod 43 and is connected to the sliding rod 43 in a sliding manner along the axial direction of the sliding rod 43.
After the first adjusting nut 5 is adjusted, the locking bolt 62 is rotated to drive the toothed block 433 to slide towards the rack 432, and the toothed block 433 is meshed with the rack 432, so that the sliding of the collar 61 relative to the sliding rod 43 is limited, the tendency of the first adjusting nut 5 to shake axially along the sliding rod 43 is limited, the possibility of the first adjusting nut 5 being reset due to rotation is further limited, and the stability in use is improved. Meanwhile, the reinforcing pin 611 can increase the stability of the collar 61 clamped on the sliding rod 43 when the first adjusting nut 5 is adjusted.
Referring to fig. 5, the touch assembly 7 further includes a plurality of adjusting members 72, such that the adjusting members 72 can adjust the relative position between the abutting head 71 and the abutting plate 42, thereby adjusting the compression amount of the pushing spring 44 when the abutting head 71 is in contact with the camera stand, and further adjusting the clamping force on the camera stand.
In this embodiment, the number of the adjusting members 72 is three, but may be two, four or other numbers. The adjusting member 72 includes an adjusting tube 721, an adjusting rod 722 and a second adjusting nut 723, one end of the adjusting tube 721 is fixed to the abutting plate 42, the other end extends toward one side where the camera support is located, the second adjusting nut 723 is coaxially clamped and rotatably connected to one end of the adjusting tube 721 far away from the abutting plate 42, the adjusting rod 722 is inserted through and threadedly connected to the second adjusting nut 723, one end of the adjusting rod 722 is inserted through the adjusting tube 721, and the other end of the adjusting rod 722 is fixedly connected to the abutting head 71.
In use, the second adjusting nut 723 is rotated to change the distance between the adjusting rod 722 and the adjusting tube 721, and thus the overall length of the adjusting member 72, and thus the distance between the abutment head 71 and the abutment plate 42.
In other embodiments, the adjuster 72 may also be provided as a control cylinder for controlling the relative position between the abutment head 71 and the abutment plate 42.
Referring to fig. 5, in order to reduce the possibility of damage to the camera mount when the abutment head 71 is in contact with the camera mount, a grommet 8 is fixedly connected to an end of the abutment head 71 facing the camera mount, and the grommet 8 is made of an elastic material, such as rubber or silicone.
The implementation principle of the riveting machine for the camera support in the embodiment of the application is as follows: in use, the camera support is placed on the workbench 2, and then the camera support is conveyed to the riveting device 3 through the workbench 2, and the riveting head 31 is controlled to move towards the camera support through the control component 32. At this time, the abutting head 71 abuts against the camera bracket first, and then the riveting head 31 is continuously controlled to slide towards the camera bracket, so that the abutting plate 42 is driven to slide towards the mounting plate 41, and the pushing spring 44 is further compressed, so that the abutting head 71 is controlled by the pushing spring 44 to abut against the camera bracket, and the stability of the camera bracket in the riveting process is improved.
Meanwhile, the pushing spring 44 can be compressed by rotating the first adjusting nut 5, so that when the abutting head 71 abuts against the camera support, the compression amount of the pushing spring 44 can be increased, and the clamping force of the abutting head 71 abutting against the camera support is increased, so that the stability of the camera support in the riveting process is further improved.
The second adjusting nut 723 may also be rotated to change the overall length of the adjuster 72, thereby adjusting the distance between the abutment head 71 and the abutment plate 42, further adjusting the amount of compression of the push spring 44, and adjusting the clamping force when the abutment head 71 abuts the camera mount.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (7)
1. The utility model provides a camera is riveter for support, includes frame (1), workstation (2) are installed in frame (1), frame (1) still is provided with riveting set (3), riveting set (3) include rivet head (31) and be used for controlling rivet head (31) moving control assembly (32), control assembly (32) are installed in frame (1), its characterized in that: riveting set (3) are provided with butt subassembly (4), butt subassembly (4) include mounting panel (41), butt plate (42) and a plurality of slide bar (43) that are used for butt camera support, mounting panel (41) are fixed in rivet head (31), slide bar (43) fixed connection is in butt plate (42), just slide bar (43) are worn to establish and are slided and connect in mounting panel (41), butt subassembly (4) still include a plurality of push spring (44) that are used for controlling butt plate (42) to slide towards camera support, and is a plurality of push spring (44) are respectively the coaxial cover of one-to-one and are located a plurality of slide bars (43), slide bar (43) cover is established and threaded connection has first adjusting nut (5), push spring (44) both ends are connected in mounting panel (41) and first adjusting nut (5) respectively.
2. The riveting machine for camera stands according to claim 1, characterized in that: first adjusting nut (5) are established and are rotated towards the terminal surface card of mounting panel (41) and be connected with fixed swivel (51), and fixed swivel (51) and the coaxial setting of first adjusting nut (5), the both ends difference fixed connection in mounting panel (41) and fixed swivel (51) of promotion spring (44).
3. The riveting machine for camera stands according to claim 2, characterized in that: first adjusting nut (5) are provided with locking Assembly (6), locking Assembly (6) are including the lantern ring (61) and locking bolt (62), slide bar (43) are located to lantern ring (61) cover, just lantern ring (61) card is established and rotate and is connected in first adjusting nut (5) and deviates from the terminal surface of fixed swivel (51) one side, radial wear to establish and threaded connection in lantern ring (61) of locking bolt (62) along the lantern ring (61), spout (431) along its axial extension are seted up in slide bar (43), spout (431) diapire shaping has rack (432), the card is established and is slided in spout (431) and be connected with tooth piece (433) that are used for with rack (432) meshing, tooth piece (433) rotate to be connected in locking bolt (62).
4. The riveting machine for camera stands according to claim 3, characterized in that: the inner wall of the lantern ring (61) is further fixedly connected with a reinforcing pin (611), the reinforcing pin (611) penetrates through the sliding rod (43) and is connected to the sliding rod (43) in a sliding mode along the axial direction of the sliding rod (43).
5. The riveting machine for camera stands according to claim 1, characterized in that: the butt joint board (42) is provided with touching subassembly (7), touching subassembly (7) are including sliding connection in butt joint head (71) of butt joint board (42), butt joint head (71) are tubulose and set up towards rivet head (31) opening, touching subassembly (7) still include a plurality of regulating parts (72) that are used for adjusting relative position between butt joint head (71) and butt joint board (42).
6. The riveting machine for a camera stand according to claim 5, characterized in that: the adjusting piece (72) comprises an adjusting pipe (721), an adjusting rod (722) and a second adjusting nut (723), one end of the adjusting pipe (721) is fixed to the abutting plate (42), the other end of the adjusting pipe extends towards one side where the camera support is located, the second adjusting nut (723) is clamped and rotatably connected to the adjusting pipe (721), the adjusting rod (722) penetrates through the second adjusting nut (723) in a threaded mode, and the adjusting rod (722) is fixedly connected to the abutting head (71).
7. The riveting machine for camera stands according to claim 5, characterized in that: one end of the abutting joint (71) facing the camera support is fixedly connected with a backing ring (8) made of elastic materials.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122257457.9U CN216938242U (en) | 2021-09-17 | 2021-09-17 | Riveting machine for camera support |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122257457.9U CN216938242U (en) | 2021-09-17 | 2021-09-17 | Riveting machine for camera support |
Publications (1)
Publication Number | Publication Date |
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CN216938242U true CN216938242U (en) | 2022-07-12 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202122257457.9U Active CN216938242U (en) | 2021-09-17 | 2021-09-17 | Riveting machine for camera support |
Country Status (1)
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CN (1) | CN216938242U (en) |
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2021
- 2021-09-17 CN CN202122257457.9U patent/CN216938242U/en active Active
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