CN219747717U - Multi-size clamping device for organic photoconductor drum production - Google Patents
Multi-size clamping device for organic photoconductor drum production Download PDFInfo
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- CN219747717U CN219747717U CN202321260219.6U CN202321260219U CN219747717U CN 219747717 U CN219747717 U CN 219747717U CN 202321260219 U CN202321260219 U CN 202321260219U CN 219747717 U CN219747717 U CN 219747717U
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- 230000003044 adaptive effect Effects 0.000 description 7
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- 238000000034 method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
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Abstract
The utility model relates to the technical field of organic photoconductor drum production, in particular to a multi-size clamping device for organic photoconductor drum production, which comprises the following components: the surface of the conveying frame is connected with a lifting plate in a sliding manner, the top of the lifting plate is rotationally connected with a plurality of rollers, and the surface of the conveying frame is provided with a working plate; the self-adaptive mechanism is used for clamping drums and drum shafts with different sizes and is arranged on the surface of the conveying frame; wherein the self-adapting mechanism comprises a self-adapting component arranged on the surface of the conveying frame; the device is middle, and two support frames of movable plate removal drive are close to each other to certain position, make two sets of gyro wheels carry out centre gripping location to the drum, can adjust the interval between two sets of gyro wheels according to the size of drum, and the output shaft rotation of second servo motor drives two sets of grip blocks and is close to each other and carries out centre gripping location to the drum axle, but centre gripping location not unidimensional drum axle.
Description
Technical Field
The utility model relates to the technical field of organic photoconductor drum production, in particular to a multi-size clamping device for organic photoconductor drum production.
Background
The organic photoconductor drum is a core part of modern office equipment such as a copier, a laser printer, a laser facsimile machine, a multifunctional integrated machine and the like, and imaging is realized mainly by utilizing photoelectric conversion performance; the organic photoconductor drum is divided into a drum shaft and a drum barrel, wherein the drum shaft and the drum barrel are connected through conductive materials, and when the organic photoconductor drum works, the drum barrel rotates around the drum shaft; the existing drum shaft and drum barrel are different according to the type of the printer, and the outer diameters of the drum shaft and the drum barrel are different, so that the clamping of the drum shaft and the drum barrel with different sizes by the organic photoconductor drum production device is not facilitated.
Therefore, a multi-size clamping device for producing the organic photoconductor drum is provided to solve the above problems.
Disclosure of Invention
The utility model aims to solve the problems and provide the multi-size clamping device for the production of the organic photoconductor drums, which solves the problem that the clamping of drum shafts and drums with different sizes by the organic photoconductor drum production device is not facilitated.
The utility model realizes the aim through the following technical scheme, and the multi-size clamping device for producing the organic photoconductor drum comprises the following components: the surface of the conveying frame is connected with a lifting plate in a sliding manner, the top of the lifting plate is rotationally connected with a plurality of rollers, and the surface of the conveying frame is provided with a working plate; the self-adaptive mechanism is used for clamping drums and drum shafts with different sizes and is arranged on the surface of the conveying frame; the self-adapting mechanism comprises a self-adapting component arranged on the surface of the conveying frame, and a driving assembly is arranged on the surface of the self-adapting component.
Preferably, the self-adaptation part is including seting up in the inside movable groove of lifter plate, the inside sliding connection of movable groove has the movable plate, the movable hole has all been seted up to the both sides of movable plate, the inside sliding connection of movable hole has the movable rod, the top fixedly connected with movable block of movable rod, the top fixedly connected with support frame of movable block, the surface rotation of support frame is connected with the connecting rod, the surface fixed connection of connecting rod is in the inside of gyro wheel, the slide hole has all been seted up to the top both sides of lifter plate, the slide hole is linked together with the movable groove, the surface sliding connection of movable block is in the inside of slide hole, the surface fixed connection of lifter plate has electric putter, electric putter's one end fixed connection is in the surface of movable plate, and electric putter's one end removes the promotion movable plate and removes, and moves through movable hole, movable rod and movable block and moves two support frames and be close to each other or keep away from each other, can adjust the interval between two sets of gyro wheels according to the size of drum, guarantee that two sets of can centre gripping rolls different sizes drum.
Preferably, the working groove is formed in the working plate, two working blocks are slidably connected in the working groove, a bidirectional screw is rotatably connected in the working groove, internal threads of the working blocks are connected to the surface of the bidirectional screw, a driving frame is fixedly connected to the surface of the working blocks, clamping blocks are fixedly connected to the surface of the driving frame, a second servo motor is fixedly connected to the top of the working plate, an output shaft of the second servo motor is fixedly connected to the top end of the bidirectional screw, and the output shaft of the second servo motor drives the two clamping blocks to be close to or far away from each other through the bidirectional screw, so that the two clamping blocks can clamp and position drum shafts of different sizes.
Preferably, the drive assembly includes the first conical gear of fixed connection in connecting rod one end, the surface engagement of first conical gear is connected with the second conical gear, the inside sliding connection of second conical gear has the gag lever post, the first servo motor of top fixedly connected with of lifter plate, the output shaft fixed connection of first servo motor is in the one end of gag lever post, and the gag lever post is used for making two sets of gyro wheels remove to different positions department when, and the gag lever post can both drive two sets of gyro wheels and rotate.
Preferably, the equal fixedly connected with stopper in top both sides of lifter plate, the one end of gag lever post rotates to be connected in the inside of stopper, and the stopper is used for supporting spacingly the gag lever post, guarantees that second bevel gear can with first bevel gear meshing pivoted stability.
The beneficial effects of the utility model are as follows:
1. through the arrangement of the self-adaptive mechanism, one end of the electric push rod moves to drive the two supporting frames to be close to each other to a certain position through the moving plate, the moving hole, the moving rod and the moving block, so that the two groups of rollers clamp and position the drum, the distance between the two groups of rollers can be adjusted according to the size of the drum, the output shaft of the second servo motor rotates to drive the two groups of clamping blocks to be close to each other through the bidirectional screw rod, the working block and the driving frame and clamp and position the drum shaft, the drum shafts with different sizes can be clamped and positioned, and the self-adaptability of the production device using the organic photoconductor drum is improved;
2. through setting up adaptive part, the stopper is used for supporting spacingly the gag lever post, guarantees that second bevel gear can with first bevel gear meshing pivoted stability.
Drawings
FIG. 1 is a schematic diagram of the overall structure of the present utility model;
FIG. 2 is a schematic diagram of the structure of the lifting plate, the rollers and the self-adaptive mechanism of the present utility model;
FIG. 3 is a cross-sectional view of a work plate of the present utility model;
fig. 4 is a cross-sectional view of the lifter plate of the present utility model.
In the figure: 1. a carriage; 2. a lifting plate; 3. a roller; 4. a work plate; 5. an adaptive mechanism; 501. an adaptive component; 5011. a support frame; 5012. a moving block; 5013. a slide hole; 5014. a moving groove; 5015. a moving plate; 5016. a moving hole; 5017. a moving rod; 5018. an electric push rod; 5019. a working groove; 50110. a working block; 50111. a bidirectional screw rod; 50112. a driving frame; 50113. a clamping block; 50114. a connecting rod; 502. a drive assembly; 5021. a first bevel gear; 5022. a second bevel gear; 5023. a limit rod; 5024. a limiting block; 5025. a first servo motor; 5026. and a second servo motor.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
The specific implementation method comprises the following steps: as shown in fig. 1 to 4, a multi-size clamping device for producing an organic photoconductor drum comprises: the conveying device comprises a conveying frame 1, wherein the surface of the conveying frame 1 is connected with a lifting plate 2 in a sliding manner, the top of the lifting plate 2 is rotationally connected with a plurality of rollers 3, and the surface of the conveying frame 1 is provided with a working plate 4; the self-adapting mechanism 5 is used for clamping drums and drum shafts with different sizes, and the self-adapting mechanism 5 is arranged on the surface of the conveying frame 1; wherein the adaptive mechanism 5 comprises an adaptive component 501 arranged on the surface of the conveying frame 1, and a driving assembly 502 is arranged on the surface of the adaptive component 501.
As shown in fig. 2-4, the adaptive component 501 comprises a moving slot 5014 arranged in the lifting plate 2, the moving slot 5014 is connected with a moving plate 5015 in a sliding manner, moving holes 5016 are arranged on two sides of the moving plate 5015, a moving rod 5017 is connected in a sliding manner in the moving hole 5016, a moving block 5012 is fixedly connected to the top end of the moving rod 5017, a supporting frame 5011 is fixedly connected to the top of the moving block 5012, a connecting rod 50114 is rotatably connected to the surface of the supporting frame 5011, the surface of the connecting rod 50114 is fixedly connected to the inside of the roller 3, sliding holes 5013 are arranged on two sides of the top of the lifting plate 2, the sliding holes 5013 are communicated with the moving slot 5014, the surface of the moving block 5012 is connected to the inside of the sliding holes 5013, an electric push rod 5018 is fixedly connected to the surface of the moving plate 5015, a working slot 5019 is arranged in the inside of the working plate 4, the inside sliding connection of the working groove 5019 has two working blocks 50110, the inside rotation of the working groove 5019 has a bi-directional screw 50111, the inside thread connection of the working block 50110 has a surface of the bi-directional screw 50111, the surface of the working block 50110 has a driving frame 50112 fixedly connected with a clamping block 50113 fixedly connected with the surface of the driving frame 50112, the driving component 502 includes a first conical gear 5021 fixedly connected with one end of a connecting rod 50114, the surface of the first conical gear 5021 is connected with a second conical gear 5022 in a meshing manner, the inside sliding connection of the second conical gear 5022 has a limit rod 5023, the top of the lifting plate 2 is fixedly connected with a first servo motor 5025, the output shaft of the first servo motor 5025 is fixedly connected with one end of the limit rod 5023, the top of the working plate 4 is fixedly connected with a second servo motor 5026, the output shaft of the second servo motor 5026 is fixedly connected with the top end of the bi-directional screw 50111, the process video (https:// v.you ku.com/v_show/id_xmtcwty5nti5nt5n=. Html) of the automatic clamping device for producing the organic photoconductor drum is searched by hundred degrees, so the upward movement of the lifting plate 2, the turning movement of the working plate 4, the feeding of the drum shaft and the like are not described in detail herein;
when the organic photoconductor drum is required to be produced, the drum barrel moves on the conveying frame 1, the drum shaft is conveyed to the position of the working plate 4 through the conveying frame, the working plate 4 is turned over to the upper part of the drum shaft, the second servo motor 5026 is started, the output shaft of the second servo motor 5026 rotates to drive the bidirectional screw rod 50111 to rotate, the bidirectional screw rod 50111 rotates to drive the two working blocks 50110 to approach each other, the working blocks 50110 move to drive the clamping blocks 50113 to move through the driving frame 50112, the two clamping blocks 50113 approach each other and clamp and position the drum shaft, the drum shafts with different sizes can be clamped and positioned, the working plate 4 drives the drum shafts with the clamping and positioning to turn over to return to the original position, when the corresponding drum barrel moves to the lifting plate 2, the electric push rod 5018 is started, one end of the electric push rod 5015 is pushed to move in the moving groove 5014, the moving plate 5015 moves to drive the two moving holes 5016 to move simultaneously, the moving hole 5016 moves to drive the moving rod 5017 to move, the moving rod 5017 moves to drive the supporting frames 5011 to move through the moving block 5012, so that the two supporting frames 5011 are close to each other to a certain position, the lifting plate 2 is started to move upwards, the lifting plate 2 moves upwards to drive the rollers 3 to move upwards, the two groups of rollers 3 clamp and position the drums and drive the drums to move upwards to a proper position, the distance between the two groups of rollers 3 can be adjusted according to the sizes of the drums, the two groups of rollers 3 can clamp and roll drums with different sizes, at the moment, the working plate 4 moves to drive the clamped and positioned drum shafts to move onto the drums, the first servo motor 5025 is started, the output shaft of the first servo motor 5025 rotates to drive the limiting rod 5023 to rotate, the limiting rod 5023 rotates to drive the first conical gear 5021 to rotate through the second conical gear 5022, the first conical gear 5021 rotates to drive the connecting rod 50114 to rotate, the connecting rod 50114 rotates to drive the rollers 3 to rotate, the two groups of rollers 3 are rotated to drive the drum to rotate and automatically clamp the drum and the drum shaft, so that the self-adaptability of the production device using the organic photoconductor drum is improved.
As shown in fig. 2, the two sides of the top of the lifting plate 2 are fixedly connected with limiting blocks 5024, one end of each limiting rod 5023 is rotationally connected to the inside of each limiting block 5024, each limiting block 5024 is used for supporting and limiting each limiting rod 5023, and the second conical gear 5022 is guaranteed to be capable of being meshed with the first conical gear 5021 to be stable in rotation.
When the utility model is used, when the organic photoconductor drum is required to be produced, the drum barrel moves on the conveying frame 1, the drum shaft is conveyed to the position of the working plate 4 through the conveying frame, the working plate 4 is overturned to the upper part of the drum shaft, the second servo motor 5026 is started, the output shaft of the second servo motor 5026 rotates to drive the two working blocks 50110 to approach each other through the bidirectional screw 50111, the working blocks 50110 move to drive the clamping blocks 50113 to move through the driving frame 50112, the two clamping blocks 50113 approach each other and clamp and position the drum shaft, the drum shafts with different sizes can be clamped and positioned, the working plate 4 drives the clamped and positioned drum shaft to overturned to return to the original position, when the corresponding drum barrel moves to the lifting plate 2, the electric push rod 5018 is started, one end of the electric push rod 5015 is pushed to move in the moving groove 5014, the moving plate 5015 is driven to simultaneously move the two moving holes 5016, the moving hole 5016 moves to drive the moving rod 5017 to move, the moving rod 5017 moves to drive the supporting frames 5011 to move through the moving block 5012, so that the two supporting frames 5011 are close to each other to a certain position, the lifting plate 2 is started to move upwards, the lifting plate 2 moves upwards to drive the rollers 3 to move upwards, the two groups of rollers 3 clamp and position the drums and drive the drums to move upwards to a proper position, the distance between the two groups of rollers 3 can be adjusted according to the sizes of the drums, the two groups of rollers 3 can clamp and roll drums with different sizes, at the moment, the working plate 4 moves to drive the clamped and positioned drum shafts to move onto the drums, the first servo motor 5025 is started, the output shaft of the first servo motor 5025 rotates to drive the limiting rod 5023 to rotate, the limiting rod 5023 rotates to drive the first conical gear 5021 to rotate through the second conical gear 5022, the first conical gear 5021 rotates to drive the connecting rod 50114 to rotate, the connecting rod 50114 rotates to drive the rollers 3 to rotate, the two groups of rollers 3 are rotated to drive the drum to rotate and automatically clamp the drum and the drum shaft, so that the self-adaptability of the production device using the organic photoconductor drum is improved.
Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.
Claims (8)
1. The utility model provides a but organic photoconductor drum production is with multisize clamping device which characterized in that includes:
the conveying device comprises a conveying frame (1), wherein the surface of the conveying frame (1) is connected with a lifting plate (2) in a sliding manner, the top of the lifting plate (2) is rotationally connected with a plurality of rollers (3), and the surface of the conveying frame (1) is provided with a working plate (4);
the self-adapting mechanism (5) is used for clamping drums and drum shafts with different sizes, and the self-adapting mechanism (5) is arranged on the surface of the conveying frame (1);
wherein, self-adaptation mechanism (5) are including setting up self-adaptation part (501) on carriage (1) surface, the surface of self-adaptation part (501) is provided with drive assembly (502).
2. The multi-size clamping device for producing an organic photoconductor drum according to claim 1, wherein: the self-adaptive part (501) comprises a moving groove (5014) formed in the lifting plate (2), the moving plate (5015) is connected to the moving groove (5014) in a sliding mode, moving holes (5016) are formed in two sides of the moving plate (5015), moving rods (5017) are connected to the moving holes (5016) in a sliding mode, moving blocks (5012) are fixedly connected to the top ends of the moving rods (5017), supporting frames (5011) are fixedly connected to the top of the moving blocks (5012), connecting rods (50114) are connected to the surfaces of the supporting frames (5011) in a rotating mode, and the surfaces of the connecting rods (50114) are fixedly connected to the inside of the idler wheels (3).
3. The multi-size clamping device for producing an organic photoconductor drum according to claim 2, wherein: slide holes (5013) are formed in two sides of the top of the lifting plate (2), the slide holes (5013) are communicated with the movable grooves (5014), and the surfaces of the movable blocks (5012) are slidably connected to the insides of the slide holes (5013).
4. The multi-size clamping device for producing an organic photoconductor drum according to claim 2, wherein: the surface of lifting plate (2) fixedly connected with electric putter (5018), the one end fixed connection of electric putter (5018) is in the surface of movable plate (5015).
5. The multi-size clamping device for producing an organic photoconductor drum according to claim 1, wherein: working grooves (5019) are formed in the working plate (4), two working blocks (50110) are connected to the working grooves (5019) in a sliding mode, bi-directional screws (50111) are connected to the working grooves (5019) in a rotating mode, internal threads of the working blocks (50110) are connected to the surfaces of the bi-directional screws (50111), active frames (50112) are fixedly connected to the surfaces of the working blocks (50110), and clamping blocks (50113) are fixedly connected to the surfaces of the active frames (50112).
6. The multi-size clamping device for producing an organic photoconductor drum according to claim 2, wherein: the driving assembly (502) comprises a first conical gear (5021) fixedly connected to one end of a connecting rod (50114), a second conical gear (5022) is connected to the surface of the first conical gear (5021) in a meshed mode, a limiting rod (5023) is connected to the second conical gear (5022) in a sliding mode, a first servo motor (5025) is fixedly connected to the top of the lifting plate (2), and an output shaft of the first servo motor (5025) is fixedly connected to one end of the limiting rod (5023).
7. The multi-size clamping device for producing an organic photoconductor drum according to claim 6, wherein: both sides of the top of the lifting plate (2) are fixedly connected with limiting blocks (5024), and one end of a limiting rod (5023) is rotationally connected to the inside of each limiting block (5024).
8. The multi-size clamping device for producing an organic photoconductor drum according to claim 5, wherein: the top fixedly connected with second servo motor (5026) of working plate (4), the output shaft of second servo motor (5026) is fixedly connected with the top of bi-directional lead screw (50111).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321260219.6U CN219747717U (en) | 2023-05-23 | 2023-05-23 | Multi-size clamping device for organic photoconductor drum production |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321260219.6U CN219747717U (en) | 2023-05-23 | 2023-05-23 | Multi-size clamping device for organic photoconductor drum production |
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CN219747717U true CN219747717U (en) | 2023-09-26 |
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CN202321260219.6U Active CN219747717U (en) | 2023-05-23 | 2023-05-23 | Multi-size clamping device for organic photoconductor drum production |
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2023
- 2023-05-23 CN CN202321260219.6U patent/CN219747717U/en active Active
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