CN215512837U - Cooling integral type draw gear that rectifies after satellite type printing machine seal - Google Patents

Abstract

The utility model discloses a post-printing cooling and deviation rectifying integrated traction device of a satellite type printing machine, wherein a strip is subjected to printing quality detection through a visual detection mechanism in the input process, then the strip in the conveying process is pressed onto a first water-cooling traction roller through a pressing mechanism to avoid the influence of the slippage of the strip in the conveying process on the cooling effect, a driving mechanism drives the first water-cooling traction roller and a second water-cooling traction roller to synchronously rotate so as to realize the double-layer operation of traction and cooling on the strip, the cooled strip is subjected to deviation rectifying treatment through a deviation rectifying mechanism, and finally a printing finished product meeting the printing quality requirement is output The operation processes of traction cooling, deviation correction and the like are simple and compact in structure.

Description

Cooling integral type draw gear that rectifies after satellite type printing machine seal

Technical Field

The utility model relates to the technical field of printing machines, in particular to a post-printing cooling and deviation rectifying integrated traction device of a satellite type printing machine.

Background

The satellite printer includes an unwinding and input section, a printing section, a drying section (inter-color drying and final drying), a cooling section, an output and winding section or a link processing section, and a main transmission and control section, etc.

The existing satellite type printing machine respectively enters a cooling process and a deviation rectifying output process after being subjected to printing, generally, the traction is realized by arranging a plurality of guide rollers on a conveying route so as to sequentially input materials into a cooling mechanism and a deviation rectifying mechanism for respective operation, the cooling mechanism is usually an air cooling mechanism, the cooling of a strip material is realized through convection, the efficiency is lower for diffusion type cooling, and meanwhile, as the number of the printing machine processes is large, the operating mechanisms corresponding to the processes are respectively arranged, so that the printing machine is complex in structure and large in occupied space.

Disclosure of Invention

The utility model aims to provide a post-printing cooling and deviation rectifying integrated traction device of a satellite type printing machine, and the device is used for solving the problems that the existing printing machine is complex in structure and large in occupied space.

In order to solve the problems, the utility model provides a post-printing cooling and deviation rectifying integrated traction device of a satellite type printing machine, which comprises a frame body, a guide mechanism, a traction cooling mechanism and a deviation rectifying mechanism, wherein the frame body comprises a base and wall plates arranged on two sides of the base, the guide mechanism, the traction cooling mechanism and the deviation rectifying mechanism are arranged between the two wall plates, the front end of the traction cooling mechanism is also provided with a visual detection mechanism for visually detecting the printing quality of a strip, and one side of the traction cooling mechanism is provided with a pressing mechanism for pressing the strip;

the guide mechanism comprises a plurality of guide rollers which are arranged at intervals along the conveying direction of the strip, and the traction cooling mechanism comprises a first water-cooling traction roller, a second water-cooling traction roller and a driving mechanism for driving the first water-cooling traction roller and the second water-cooling traction roller to synchronously link; the deviation rectifying mechanism comprises a movable support, an adjusting mechanism, two deviation rectifying guide rollers and two deviation rectifying sensors, wherein the deviation rectifying guide rollers are respectively arranged on the top and the bottom of the movable support in parallel, the deviation rectifying sensors are respectively arranged on the two sides of the movable support, and the adjusting mechanism is connected with the wall plate and the movable support and is used for adjusting the position of the movable support.

Furthermore, the adjusting mechanism comprises a fixed support, a deviation correcting actuator, a connecting seat and a mounting seat, the fixed support is connected with the wallboard, the deviation correcting actuator is arranged on the fixed support, the execution end of the deviation correcting actuator is connected with the movable support through the connecting seat, the mounting seat is arranged on the fixed support, a deviation correcting guide rail is arranged on the mounting seat, a deviation correcting sliding block is arranged on the deviation correcting guide rail in a sliding mode, and the deviation correcting sliding block is connected with the movable support.

Furthermore, the movable support comprises a cross rod, an adjusting seat is arranged on the cross rod, and the deviation rectifying sensor is arranged on the adjusting seat.

Further, visual detection mechanism includes connecting block, line rail and slides and locates camera on the line rail, the connecting block is equipped with two, locates two respectively on the wallboard, the line rail erects two between the connecting block.

Further, hold-down mechanism includes cylinder, swing arm and pinch roller, the one end of cylinder is located on the wallboard, the output of cylinder with the one end of swing arm is articulated, the middle part of swing arm through the pivot with the wallboard is articulated, the other end of swing arm is equipped with the last pressure shaft, be parallel on the pressure shaft and be equipped with a plurality of at interval the pinch roller.

Furthermore, the driving mechanism comprises a servo motor, a speed reducer connected to the output end of the servo motor, and a synchronous belt transmission mechanism connected to the same side of the first water-cooling traction roller and the second water-cooling traction roller, and the output end of the speed reducer is connected with the first water-cooling traction roller.

Furthermore, one end parts of the first water-cooling drawing roller and the second water-cooling drawing roller are respectively provided with a rotary joint.

The utility model provides a post-printing cooling and deviation rectifying integrated traction device of a satellite printing machine, wherein a printed strip is guided and conveyed through a plurality of guide rollers arranged on a frame body, firstly, the printing quality of the strip is detected through a visual detection mechanism in the input process so as to ensure the printing quality, then the strip in the conveying process is pressed onto a first water-cooling traction roller through a pressing mechanism so as to avoid the influence of the slippage of the strip in the conveying process on the cooling effect, the traction water-cooling mechanism comprises a first water-cooling traction roller, a second water-cooling traction roller and a driving mechanism for driving the first water-cooling traction roller and the second water-cooling traction roller to be synchronously linked, the driving mechanism drives the first water-cooling traction roller and the second water-cooling traction roller to synchronously rotate so as to realize the traction and cooling double-layer operation of the strip, the cooled strip is subjected to deviation rectifying treatment through the deviation rectifying mechanism, and finally a printed finished product meeting the printing quality requirement is output, according to the integrated traction device for cooling and rectifying after printing of the satellite type printing machine, the visual detection mechanism, the traction water cooling mechanism and the rectifying mechanism are all arranged on one frame body, and the belt material is guided by the guide mechanism to be conveyed forwards, so that the operation procedures of quality detection, traction cooling, rectifying and the like are completed, and the structure is simple and compact.

Drawings

Fig. 1 is a schematic structural diagram of a post-press cooling and deviation rectifying integrated traction device of a satellite printing machine in the embodiment of the utility model.

Fig. 2 is a schematic structural diagram of another view angle of the post-press cooling and deviation rectifying integrated traction device of the satellite printing machine in the embodiment of the utility model.

FIG. 3 is a schematic structural diagram of a detached side wall plate of the post-press cooling and deviation rectifying integrated traction device of the satellite printing machine in the embodiment of the utility model.

Fig. 4 is a schematic top view of the integrated cooling and deviation rectifying traction device after printing of the satellite printing machine in the embodiment of the utility model.

Fig. 5 is a schematic sectional view taken along line a-a in fig. 4.

In the figure, A, strip; 1. a frame body; 2. a guide mechanism; 3. a traction cooling mechanism; 4. a deviation rectifying mechanism; 5. a visual detection mechanism; 6. a hold-down mechanism; 101. a base; 102. a wallboard; 301. a first water-cooled pull roll; 302. a second water-cooled traction roller; 303. a servo motor; 304. a speed reducer; 305. a synchronous belt transmission mechanism; 306. a rotary joint; 401. a movable support; 402. a deviation rectifying guide roller; 403. a deviation rectifying sensor; 404. fixing a bracket; 405. a deviation correcting actuator; 406. a connecting seat; 407. a mounting seat; 408. a deviation rectifying guide rail; 409. a deviation rectifying slide block; 410. a cross bar; 411. an adjusting seat; 501. connecting blocks; 502. a wire track; 503. a camera; 601. a cylinder; 602. swinging arms; 603. a pinch roller; 604. a rotating shaft; 605. and (5) pressing the shaft.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "left", "right", "top", "bottom", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The satellite type printer post-printing cooling and deviation rectifying integrated traction device is arranged at the rear end of a drying box of a printer, and a printing belt material dried by the drying box is guided by a guide mechanism to be conveyed to sequentially carry out visual quality detection, water cooling and deviation rectifying operations, and then a finished printing belt material is output. As shown in fig. 1 to 5, the post-press cooling and deviation rectifying integrated traction device for a satellite printing machine according to the embodiment of the present invention is schematically shown, and includes a frame body 1, a guide mechanism 2, a traction cooling mechanism 3, and a deviation rectifying mechanism 4, where the frame body 1 includes a base 101 and wall plates 102 disposed on both sides of the base 101, the guide mechanism 2, the traction cooling mechanism 3, and the deviation rectifying mechanism 4 are disposed between the two wall plates 102, the front end of the traction cooling mechanism 3 is further provided with a visual detection mechanism 5 for visually detecting the printing quality of a strip, one side of the traction cooling mechanism 3 is provided with a pressing mechanism 6 for pressing the strip, the strip is pressed against a first water-cooling traction roller by the pressing mechanism 6, and the cooling effect is enhanced while ensuring that the strip does not slip during the conveying process; the guiding mechanism 2 comprises a plurality of guide rollers which are arranged at intervals along the conveying direction of the strip, and the traction cooling mechanism 3 comprises a first water-cooling traction roller 301, a second water-cooling traction roller 302 and a driving mechanism for driving the first water-cooling traction roller 301 and the second water-cooling traction roller 302 to synchronously link; the deviation rectifying mechanism 4 comprises a movable support 401, an adjusting mechanism, two deviation rectifying guide rollers 402 and two deviation rectifying sensors 403, wherein the two deviation rectifying guide rollers 402 are respectively arranged at the top and the bottom of the movable support 401 in parallel, the two deviation rectifying sensors 403 are respectively arranged at two sides of the movable support 401, the adjusting mechanism is connected between the wall plate 102 and the movable support 401 and is used for adjusting the position of the movable support 401, two side edges of the strip are respectively located in the two deviation rectifying sensors 403, when the deviation rectifying sensors 403 detect the deviation of the strip, the position of the movable support 401 is adjusted through the adjusting mechanism, and then the deviation rectifying guide rollers 402 on the movable support 401 are driven to move to offset the deviation distance, so that the output strip is guaranteed to be neatly scribed.

Specifically, a printed strip is guided and conveyed through a plurality of guide rollers arranged on a frame body 1, firstly, the strip is subjected to printing quality detection through a visual detection mechanism 5 in the input process to ensure the printing quality, then the strip in the conveying process is pressed onto a first water-cooling traction roller 301 through a pressing mechanism 6 to avoid the influence of the slippage of the strip in the conveying process on the cooling effect, the traction water-cooling mechanism comprises a first water-cooling traction roller 301, a second water-cooling traction roller 302 and a driving mechanism used for driving the first water-cooling traction roller 301 and the second water-cooling traction roller 302 to be synchronously linked, the driving mechanism drives the first water-cooling traction roller 301 and the second water-cooling traction roller 302 to synchronously rotate so as to realize the traction and cooling double-layer operation of the strip, the cooled strip is subjected to deviation rectification processing through a deviation rectification mechanism 4, and finally, a printed finished product meeting the printing quality requirement is output, according to the integrated traction device for cooling and rectifying after printing of the satellite type printing machine, the visual detection mechanism 5, the traction water cooling mechanism and the rectifying mechanism 4 are all arranged on the frame body 1, and the operation processes of quality detection, traction cooling, rectifying and the like are completed in the process that the strip is guided to be conveyed forwards by the guide mechanism 2, so that the traction device is simple and compact in structure.

Further, the adjusting mechanism includes a fixed bracket 404, a deviation correcting actuator 405, a connecting seat 406 and a mounting seat 407, the fixed bracket 404 is connected with the wall panel 102, the deviation correcting actuator 405 is disposed on the fixed bracket 404, and an execution end of the deviation correcting actuator is connected with the movable bracket 401 through the connecting seat 406, the mounting seat 407 is disposed on the fixed bracket 404, a deviation correcting guide rail 408 is disposed on the mounting seat 407, a deviation correcting slider 409 is slidably disposed on the deviation correcting guide rail 408, the deviation correcting slider 409 is connected with the movable bracket 401, generally, the deviation correcting sensor 403 is electrically connected with the deviation correcting actuator 405, when the deviation correcting sensor 403 detects the deviation of the position of the strip material, the deviation correcting actuator 405 operates to drive the deviation correcting slider 409 of the movable bracket 401 to move along the deviation correcting guide rail 408 to cancel the deviation of the strip material until the deviation correcting sensor 403 detects the normal position of the strip material and then stops. Further, the movable support 401 comprises a cross bar 410, an adjusting seat 411 is arranged on the cross bar 410, the deviation-correcting sensor 403 is arranged on the adjusting seat 411, and the position of the deviation-correcting sensor 403 can be conveniently adjusted through the adjusting seat 411 so as to adapt to the strips with different sizes.

Visual inspection mechanism 5 in this embodiment includes connecting block 501, line rail 502 and the slip camera 503 of locating on line rail 502, connecting block 501 is equipped with two, locate respectively on two wallboards 102, line rail 502 erects between two connecting blocks 501, the camera is through making a video recording so that detect the printing quality of strip to the strip of guide transportation in-process, in time reject the strip that does not conform to the printing requirement, camera 503 slides and sets up on line rail 502, the accessible is adjusted the position of camera 503 and is in order to match the different strip of adaptation, adaptability is enhanced.

Further, hold-down mechanism 6 includes cylinder 601, swing arm 602 and pinch roller 603, the one end of cylinder 601 is located on wallboard 102, the output of cylinder 601 is articulated with the one end of swing arm 602, the middle part of swing arm 602 is articulated with wallboard 102 through pivot 604, the other end of swing arm 602 is equipped with last pressure shaft 605, be equipped with a plurality of pinch roller 603 on the pressure shaft 605 parallelly and at intervals, cylinder 601 action drives the middle part pivot 604 rotation of swing arm 602, make each pinch roller 603 on the pressure shaft 605 be close to the butt on first water-cooling carry over pinch rolls 301, in order to compress tightly the strip of carrying on it, further improve cooling quality under the prerequisite of guaranteeing transport stability. Preferably, the guide rollers near the first water-cooled drawing roller 301 and the second water-cooled drawing roller 302 are arranged in the embodiment to wrap the strip on the first water-cooled drawing roller 301 and the second water-cooled drawing roller 302 to a large extent, so as to ensure that the strip can be fully contacted with the first water-cooled drawing roller 301 and the second water-cooled drawing roller 302 to improve the cooling effect.

In order to ensure the synchronous rotation of the first horizontal drawing roller and the second water-cooling drawing roller 302, the driving mechanism comprises a servo motor 303, a speed reducer 304 connected to the output end of the servo motor 303, and a synchronous belt transmission mechanism 305 connected to the same side of the first water-cooling drawing roller 301 and the second water-cooling drawing roller 302, and the output end of the speed reducer 304 is connected with the first water-cooling drawing roller 301.

In this embodiment, the first water-cooled traction roller 301 and the second water-cooled traction roller 302 are respectively provided with a rotary joint 306 at one end, and cooling water is introduced into the first water-cooled traction roller 301 and the second water-cooled traction roller 302 through the rotary joint 306 to cool the strip.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, which are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (7)

1. The post-printing cooling and deviation rectifying integrated traction device of the satellite type printing machine is characterized by comprising a frame body, a guide mechanism, a traction cooling mechanism and a deviation rectifying mechanism, wherein the frame body comprises a base and wall plates arranged on two sides of the base;

the guide mechanism comprises a plurality of guide rollers which are arranged at intervals along the conveying direction of the strip, and the traction cooling mechanism comprises a first water-cooling traction roller, a second water-cooling traction roller and a driving mechanism for driving the first water-cooling traction roller and the second water-cooling traction roller to synchronously link; the deviation rectifying mechanism comprises a movable support, an adjusting mechanism, two deviation rectifying guide rollers and two deviation rectifying sensors, wherein the deviation rectifying guide rollers are respectively arranged on the top and the bottom of the movable support in parallel, the deviation rectifying sensors are respectively arranged on the two sides of the movable support, and the adjusting mechanism is connected with the wall plate and the movable support and is used for adjusting the position of the movable support.

2. The post-press cooling and deviation rectifying integrated traction device of a satellite printing machine as claimed in claim 1, wherein said adjusting mechanism comprises a fixed bracket, a deviation rectifying actuator, a connecting seat and a mounting seat, said fixed bracket is connected with said wall plate, said deviation rectifying actuator is disposed on said fixed bracket, and its actuating end is connected with said movable bracket through said connecting seat, said mounting seat is disposed on said fixed bracket, said mounting seat is provided with a deviation rectifying guide rail, said deviation rectifying guide rail is slidably provided with a deviation rectifying slider, and said deviation rectifying slider is connected with said movable bracket.

3. The integrated post-press cooling and deviation rectifying traction device for a satellite printing machine as claimed in claim 2, wherein said movable support comprises a cross bar, said cross bar is provided with an adjusting seat, and said deviation rectifying sensor is arranged on said adjusting seat.

4. The integrated post-press cooling and deviation rectifying traction device for a satellite printing machine according to claim 3, wherein said vision inspection mechanism comprises two connecting blocks, two linear rails and a camera head slidably mounted on said linear rails, said two connecting blocks are respectively mounted on two said wall plates, and said linear rails are mounted between said two connecting blocks.

5. The satellite type printer post-press cooling and deviation rectifying integrated traction device as claimed in claim 4, wherein said pressing mechanism comprises a cylinder, a swing arm and a pressing wheel, one end of said cylinder is disposed on said wall plate, an output end of said cylinder is hinged with one end of said swing arm, a middle portion of said swing arm is hinged with said wall plate through a rotating shaft, another end of said swing arm is provided with a pressing shaft, and a plurality of said pressing wheels are disposed on said pressing shaft in parallel and at intervals.

6. The post-press cooling and deviation rectifying integrated traction device of a satellite printing machine as claimed in claim 5, wherein said driving mechanism comprises a servo motor, a speed reducer connected to an output end of said servo motor, and a synchronous belt transmission mechanism connected to the same side of said first water-cooled traction roller and said second water-cooled traction roller, an output end of said speed reducer being connected to said first water-cooled traction roller.

7. The post-press cooling and deviation rectifying integrated traction device of a satellite printing machine as claimed in claim 6, wherein one end of each of said first water-cooled traction roller and said second water-cooled traction roller is provided with a rotary joint.

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