CN219971022U - CTP plate oxidation working box - Google Patents

Abstract

The utility model relates to the technical field of image plate processing equipment, and discloses a CTP plate oxidation working box which solves the problem of low plate turnover efficiency in the prior art. According to the utility model, the plate can be fed into the working box body through the input belt, after the single-sided oxidization of the plate is finished, the plate is fed into the steering roller by the conveying roller for turning over, the plate carried by the conveying belt is lifted between the conveying rollers for secondary oxidization, and the plate subjected to double-sided oxidization is fed onto the output belt by the conveying belt, so that the production efficiency is improved.

Description

CTP plate oxidation working box

Technical Field

The utility model relates to the technical field of image plate processing equipment, in particular to a CTP plate oxidation working box.

Background

CTP is an abbreviation of Computer to Plate, belonging to computer-to-plate pre-press devices; CTP technology refers to a technological process of directly outputting pictures and texts to a plate material through a computer, and the process can avoid the action of taking a film as an intermediate link.

The plate needs to be oxidized in the production process, and an oxidation working box exists in the prior art and comprises a conveying belt and a working box body, wherein a UV (ultraviolet) lamp tube is arranged in the working box body, the conveying belt conveys the plate into the working box body, the plate is oxidized by the UV lamp tube, the plate is conveyed out of the working box body, and an operator turns over the plate subjected to single-sided treatment and conveys the plate into the conveying belt for secondary oxidation.

Aiming at the related technology, the prior art has low efficiency by manually turning the plate.

Disclosure of Invention

In order to overcome the defect of low plate turnover efficiency in the prior art, the utility model provides a CTP plate oxidation working box.

The following technical scheme is adopted:

the utility model provides a CTP edition material oxidation work box, includes input area, output area and work box body, be provided with in the work box body and be used for accepting two transfer rollers and the drive of edition material that the input area carried transfer roller pivoted first driving piece, be provided with in the work box body with accept the opposite transfer belt of roller conveying direction and drive the second driving piece of transfer belt motion, transfer belt one side is provided with and is used for the lifting the transfer belt to two promote the subassembly between the transfer roller, the work box body is provided with the slidable between two transfer rollers in order to be two accept rollers that the transfer belt was stepped down, transfer roller one end is provided with the drive accept roller together pivoted synchro assembly, be provided with in the work box the drive accept roller gliding third driving piece, work box body one side is provided with and is used for with the panel by accept the transfer roller to the transfer roller on the transfer belt and drive turn to roller pivoted fourth driving piece, baffle one side interval is provided with the turn to the baffle.

Through adopting above-mentioned technical scheme, the edition is sent into the work box body through the input area, support the edition through transfer roller and accepting roller, so that the work box body oxidizes the edition, after the oxidation of edition single face is accomplished, the transfer roller sends the edition into the steering roller, turn over, the edition after the upset is sent to the conveyer belt on, accepting roller withdraw the original position this moment, the conveyer belt carries edition to rise between the transfer roller, carry out secondary oxidation, the edition after the double-sided oxidation descends to with the output area position correspondence along with the conveyer belt, on carrying the edition to the output area by the conveyer belt, with the double-sided oxidation of accomplishing the edition, improve production efficiency.

Optionally, the lifting unit includes chassis, first branch and second branch, first branch with second branch articulates and forms X type structure, first branch one end with the conveyer belt articulates, the other end rotate connect in on the chassis, just the spout has been seted up to the chassis level, first branch one end can in slide in the spout, second branch one end articulates the conveyer belt, the other end articulates the chassis, be provided with on the chassis and promote first branch pivoted starting piece, starting piece one end with the chassis articulates, the other end articulates first branch.

By adopting the technical scheme, the starting piece stretches to push the first supporting rod to move, so that the second supporting rod hinged with the starting piece is driven to rotate, and the conveyor belt is pushed to move due to the support of the chassis so as to lift the conveyor belt to move between the conveyor rollers.

Optionally, the starting member is a telescopic cylinder.

Through adopting above-mentioned technical scheme, can comparatively stable promote the conveyer belt.

Optionally, the work box body is connected with a plurality of first transition rollers that are used for transmitting the version material that the turning roll sent to on the conveyer belt in the rotation.

Through adopting above-mentioned technical scheme, through first transition roller, make the edition material can be more stable when transferring between steering roll and conveyer belt.

Optionally, a second transition roller for receiving the conveyor belt and delivering the conveyor belt to the output belt is rotationally connected to the working box body.

Through adopting above-mentioned technical scheme, through the second transition roller, make the edition material can be more stable when conveying between conveyer belt and output area.

Optionally, the inner wall of the working box body is provided with a limit groove for sliding the receiving roller, the limit groove is an arc groove concentric with the conveying roller, and one end of the receiving roller is connected with one end of the conveying roller through a supporting rod.

Through adopting above-mentioned technical scheme, limit the range of motion of accepting the roller through spacing groove and branch to make the motion of accepting the roller more stable.

Optionally, the synchronous assembly includes action wheel, follow driving wheel and drive belt, the action wheel connect in the one end of driving roller, follow driving wheel connect in the uptake roller with the one end that the action wheel corresponds, the drive belt is connected the action wheel with follow the driving wheel.

Through adopting above-mentioned technical scheme, the drive belt is used for transmitting the momentum of action wheel to follow the driving wheel for first driving piece can drive the uptake roller and rotate.

Optionally, the baffle is an arc corresponding to the radian of the steering roller.

By adopting the technical scheme, the deformation of the plate is kept to be minimum when passing through the steering roller, and the gap between the baffle plate and the steering roller is reduced, so that the stability of the plate during conveying is improved.

In summary, the present utility model includes at least one of the following beneficial effects:

1. through the cooperation of the steering roller, the conveyor belt and the lifting assembly, after the single-sided oxidation of the plate is performed, the plate can be turned over, so that the back surface of the plate is processed, and the working box capable of performing double-sided oxidation on the plate is provided, so that the production efficiency of the plate is improved;

2. the receiving roller moves to make enough space for the conveyor belt to pass through, so that the conveyor belt drives the plate to rise to a proper position to oxidize the plate, thereby realizing the purpose.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is a schematic diagram of the structure of a transfer roller and a receiving roller;

fig. 3 is a schematic view of a lifting assembly.

Reference numerals illustrate: 1. an input belt; 2. an output belt; 3. a work box body; 31. a limit groove; 4. a conveying roller; 41. a first driving member; 42. a receiving roller; 421. a convex column; 422. driven wheel; 423. a support rod; 424. a third driving member; 43. a driving wheel; 431. a transmission belt; 5. a steering roller; 51. a baffle; 6. a conveyor belt; 61. a lifting assembly; 611. a chassis; 612. a chute; 62. a first strut; 621. a starting block; 63. a second strut; 64. a starting member; 65. a second driving member; 7. a first transition roller; 8. and a second transition roller.

Detailed Description

The present utility model will be described in further detail with reference to fig. 1 to 3.

Referring to fig. 1 to 3, an embodiment of the present utility model discloses a CTP plate oxidation working box, which comprises an input belt 1, an output belt 2 and a working box body 3, wherein two transfer rollers 4 for receiving a plate material conveyed by the input belt 1 and a first driving member 41 for driving the transfer rollers 4 to rotate are arranged in the working box body 3, the first driving member 41 is a motor, a transfer belt 6 with a direction opposite to the transfer direction of the transfer rollers 42 and a second driving member 65 for driving the transfer belt 6 to move are arranged in the working box body 3, the second driving member 65 is a motor, a lifting assembly 61 for lifting the transfer belt 6 to the transfer rollers 4 is arranged at one side of the transfer belt 6, two transfer rollers 42 capable of sliding to give way to the transfer belt 6 are arranged between the two transfer rollers 4, a third driving member 424 for driving the transfer rollers 42 to slide is arranged in the working box, one end of each transfer roller 4 is provided with a synchronizing assembly for driving the transfer rollers 42 to rotate together, a steering roller 5 and a fourth driving member for driving the transfer roller 5 to rotate on the transfer belt 6 are arranged at one side of the working box body 3, and a fourth driving member 51 is arranged at one side of the steering member for driving the plate material 5.

Referring to fig. 3, the lifting assembly 61 includes a chassis 611, a first supporting rod 62 and a second supporting rod 63, the first supporting rod 62 and the second supporting rod 63 are hinged to form an X-shaped structure, one end of the first supporting rod 62 is hinged to the conveyor belt 6, the other end of the first supporting rod 62 is rotatably connected to the chassis 611, a sliding groove 612 is horizontally formed in the chassis 611, one end of the first supporting rod 62 can slide in the sliding groove 612, one end of the second supporting rod 63 is hinged to the conveyor belt 6, the other end of the second supporting rod 63 is hinged to the chassis 611, a starting piece 64 capable of pushing the first supporting rod 62 to rotate is arranged on the chassis 611, the starting piece 64 is a telescopic cylinder, a starting block 621 is arranged in the middle of the first supporting rod 62, one end of the starting piece 64 is hinged to the chassis 611, and the other end of the starting piece 64 is hinged to the starting block 621. The actuating member 64 is extended to push the first supporting rod 62 to move, thereby rotating the second supporting rod 63 hinged thereto, and the conveyor belt 6 is pushed to move due to the support of the chassis 611 to lift the conveyor belt 6 between the conveyor rollers 4.

Referring to fig. 1, a plurality of first transition rollers 7 for transferring the plate material fed out from the steering roller 5 onto the conveyor belt 6 are rotatably connected to the work box body 3, and the plurality of first transition rollers 7 are disposed along a straight line and inclined in a tangential direction of the steering roller 5. The first transition roller 7 makes the plate material more stable when transferring between the turning roller 5 and the conveyor belt 6.

Referring to fig. 1, a second transition roller 8 for receiving the conveyor belt 6 and delivering the conveyor belt 6 onto the output belt 2 is rotatably connected to the working box body 3, the height of the second transition roller 8 is slightly lower than the upper surface of the conveyor belt 6 at the lowest position, and the upper surface of the output belt 2 is slightly lower than the surface for receiving the printing plate material through the second transition. The second transition roller 8 makes the plate material more stable when transferring between the conveyor belt 6 and the output belt 2.

Referring to fig. 1, a limit groove 31 for sliding the receiving roller 42 is formed in the inner wall of the working box body 3, the limit groove 31 is an arc groove concentric with the conveying roller 4, a protruding column 421 capable of sliding in the limit groove 31 is arranged at one end of the receiving roller 42, one end of the receiving roller 42 is connected with one end of the conveying roller 4 through a supporting rod 423, the supporting rod 423 is rotationally connected with both the receiving roller 42 and the conveying roller 4, and the third driving member 424 is a telescopic cylinder. The movement range of the receiving roller 42 is limited by the limiting groove 31 and the supporting rod 423, so that the movement of the receiving roller 42 is more stable.

Referring to fig. 1 and 2, the synchronizing assembly includes a driving wheel 43, a driven wheel 422, and a driving belt 431, the driving wheel 43 is connected to one end of the driving roller, the driven wheel 422 is connected to one end of the receiving roller 42 corresponding to the driving wheel 43, and the driving belt 431 is connected to the driving wheel 43 and the driven wheel 422. The driving belt 431 is used for transmitting momentum of the driving wheel 43 to the driven wheel 422, so that the first driving member 41 can drive the receiving roller 42 to rotate.

The baffle 51 is arc-shaped corresponding to the arc of the steering roller 5. Deformation of the plate material is kept to be minimum when passing through the turning roll 5, and a gap between the baffle plate 51 and the turning roll 5 is reduced, so that stability of the plate material during conveying is improved.

The implementation principle of the CTP plate oxidation working box provided by the embodiment of the utility model is as follows:

the printing plate material is sent into the working box body 3 through the input belt 1, the printing plate material is supported through the conveying roller 4 and the receiving roller 42, so that the working box body 3 oxidizes the printing plate material, after single-sided oxidization of the printing plate material is finished, the conveying roller 4 sends the printing plate material into the turning roller 5 to turn over, the turned printing plate material is sent onto the conveying belt 6, at the moment, the receiving roller 42 withdraws from the original position, the conveying belt 6 carries the printing plate material to rise between the conveying rollers 4 to perform secondary oxidization, the printing plate material subjected to double-sided oxidization descends to correspond to the position of the output belt 2 along with the conveying belt 6, and the printing plate material is sent onto the output belt 2 through the conveying belt 6, so that double-sided oxidization of the printing plate material is finished, and the production efficiency is improved.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. CTP edition material oxidation work box, its characterized in that: the plate material conveying device comprises an input belt (1), an output belt (2) and a working box body (3), wherein two conveying rollers (4) for bearing plate materials conveyed by the input belt (1) and a first driving piece (41) for driving the conveying rollers (4) to rotate are arranged in the working box body (3), a conveying belt (6) opposite to the conveying direction of the conveying rollers (4) and a second driving piece (65) for driving the conveying belt (6) to move are arranged in the working box body (3), a lifting assembly (61) for lifting the conveying belt (6) to the position between the two conveying rollers (4) is arranged on one side of the conveying belt (6), two bearing rollers (42) capable of sliding for the conveying belt (6) are arranged between the two conveying rollers (4) of the working box body (3), one end of each conveying roller (4) is provided with a synchronous component for driving the bearing rollers (42) to rotate together, a third driving piece (424) for driving the bearing rollers (42) to slide to the conveying belt (4) is arranged in the working box, the driving piece (5) is used for turning the conveying rollers (5) to one side of the conveying belt (5), baffle plates (51) are arranged at one side of the steering roller (5) at intervals.

2. The CTP plate oxidation working box according to claim 1, wherein: the lifting assembly (61) comprises a chassis (611), a first supporting rod (62) and a second supporting rod (63), wherein the first supporting rod (62) is hinged with the second supporting rod (63) to form an X-shaped structure, one end of the first supporting rod (62) is hinged with the conveying belt (6), the other end of the first supporting rod is rotatably connected to the chassis (611), the chassis (611) is horizontally provided with a sliding groove (612), one end of the first supporting rod (62) can slide in the sliding groove (612), one end of the second supporting rod (63) is hinged with the conveying belt (6), the other end of the second supporting rod is hinged with the chassis (611), a starting piece (64) capable of pushing the first supporting rod (62) to rotate is arranged on the chassis (611), one end of the starting piece (64) is hinged with the chassis (611), and the other end of the starting piece is hinged with the first supporting rod (62).

3. The CTP plate oxidation working box according to claim 2, wherein: the starting piece (64) is a telescopic cylinder.

4. The CTP plate oxidation working box according to claim 1, wherein: the working box body (3) is rotationally connected with a plurality of first transition rollers (7) which are used for transmitting the plate sent out by the steering rollers (5) to the conveyor belt (6).

5. The CTP plate oxidation working box according to claim 1, wherein: the working box body (3) is rotationally connected with a second transition roller (8) for receiving the conveying belt (6) and conveying the conveying belt onto the output belt (2).

6. The CTP plate oxidation working box according to claim 1, wherein: the utility model discloses a work box, including work box body (3), work box body (3) inner wall has seted up uptake roller (42) gliding spacing groove (31), spacing groove (31) with conveying roller (4) endocentric arc groove, uptake roller (42) one end pass through branch (423) with conveying roller (4) one end is connected.

7. The CTP plate oxidation working box according to claim 6, wherein: the synchronous assembly comprises a driving wheel (43), a driven wheel (422) and a transmission belt (431), wherein the driving wheel (43) is connected to one end of the conveying roller (4), the driven wheel (422) is connected to one end, corresponding to the driving wheel (43), of the receiving roller (42), and the transmission belt (431) is connected with the driving wheel (43) and the driven wheel (422).

8. The CTP plate oxidation working box according to claim 1, wherein: the baffle (51) is arc-shaped corresponding to the radian of the steering roller (5).