CN211165938U - Printing rubber wheel cleaning mechanism of injector roll printing machine - Google Patents

Abstract

The lower end of the printing rubber wheel shaft of the injector roll printing machine is connected with the small bedplate fixed shaft in a rolling way. The cleaning mechanism is positioned behind the printing rubber wheel. The cleaning wheel assembly comprises a cleaning wheel, a bearing and a cleaning wheel shaft. The cleaning wheel assembly comprises three cleaning wheel assemblies, two slide block guide rail pairs and two guide rail mounting plates. The lower ends of the two guide rail mounting plates which are separated from the left and the right are fixedly connected with the mounting plate base plate respectively. The upper end of the guide rail mounting plate is fixedly connected with a guide rail of the slide block guide rail pair, and the left end and the right end of the mounting bottom plate are fixedly connected with a slide block of the slide block guide rail pair respectively. The thrust plate is arranged between the left guide rail mounting plate and the right guide rail mounting plate, and the upper end of the thrust plate is fixedly connected with the mounting bottom plate. The rear end of the piston of the air cylinder is fixedly connected with the thrust plate, the front end of the cylinder body of the air cylinder is fixedly connected with the air cylinder mounting plate, and the air cylinder mounting plate is fixedly connected with the small mounting bracket. The three component mounting plates are fixedly connected with the left, middle and right parts of the upper plate surface of the mounting bottom plate respectively, and the surfaces of the three cleaning wheels are tightly attached to the surface of the printing rubber wheel body under the action of the air cylinder during printing.

Description

Printing rubber wheel cleaning mechanism of injector roll printing machine

Technical Field

The utility model relates to an automatic roll printing device of syringe, concretely relates to wash syringe roll printing machine printing offset ring printing back and remain printing ink mark so that carry out the printing offset ring wiper mechanism of next round of printing.

Background

Printing (Printing) is a technique of transferring ink to the surface of a material such as paper, fabric, plastic, or leather by Printing, applying ink, and pressing a document such as characters, pictures, photographs, or forgery prevention, and copying the contents of the document in bulk.

Patent document No. 201721111104.5, No. CN 207496251U, entitled "a pneumatic cleaning wheel" discloses a syringe roller printer cleaning device: "including the cylinder, and set up the washing wheel subassembly on the cylinder, and set up in the anterior rubber tyer of washing wheel subassembly, its characterized in that: the cylinder is including cylinder, piston rod and propulsion seat, cylinder, piston rod and propulsion seat connect gradually, wash the wheel subassembly and install in propulsion seat top, wash the wheel subassembly including fixed bolt, washing pole and washing wheel, it installs in the dead lever front end to wash the wheel, it is equipped with a bar fretwork hole to wash the pole middle part, fixed bolt penetrates to propulsion seat internal fixation from bar fretwork hole top. "there are problems: the cleaning rod and the pushing seat are fixedly connected by a single bolt, so that the cleaning rod is easy to loosen and deviate in long-term operation.

Disclosure of Invention

The main purpose of the present invention is to provide a printing rubber wheel cleaning mechanism for cleaning the residual printing ink marks after the printing rubber wheel of the injector roller printing machine is printed so as to perform the next printing.

The utility model discloses used technical scheme is: a cleaning mechanism for printing rubber wheels of injector rotary printing machines comprises a printing rubber wheel, wherein the lower end of a wheel shaft of the printing rubber wheel is connected with a small platen fixed shaft at the upper end of a small mounting bracket fixed on a platen of a rotary printing machine frame in a rolling way. The cleaning mechanism comprises a cleaning wheel assembly, an assembly mounting block, a mounting base plate, a slide block guide rail pair, a cylinder mounting plate, a guide rail mounting plate, a mounting plate substrate and a thrust plate. The cleaning mechanism is positioned behind the printing rubber wheel; the cleaning wheel assembly comprises a cleaning wheel, a bearing and a cleaning wheel shaft. The inner ring of the bearing is fixedly connected with the cleaning wheel shaft, and the outer ring of the bearing is fixedly connected with the cleaning wheel. The cleaning wheel assembly comprises three cleaning wheel assemblies, two slide block guide rail pairs and two guide rail mounting plates. The two guide rail mounting plates are separated from the left and right, and the lower ends of the two guide rail mounting plates are fixedly connected with the mounting plate base plate respectively. The upper ends of the two guide rail mounting plates are fixedly connected with a guide rail of a slide block guide rail pair respectively, and the left end and the right end of the mounting bottom plate are fixedly connected with a slide block of the slide block guide rail pair respectively. The thrust plate is arranged between the left guide rail mounting plate and the right guide rail mounting plate, and the upper end of the thrust plate is fixedly connected with the lower plate surface of the mounting bottom plate. The rear end of the piston of the air cylinder is fixedly connected with the thrust plate, the front end of the cylinder body of the air cylinder is fixedly connected with the air cylinder mounting plate, and the air cylinder mounting plate is fixedly connected with the small mounting bracket. The three component mounting plates are fixedly connected with the left, middle and right parts of the upper plate surface of the mounting bottom plate respectively through two bolts, the fixedly connected positions are adjustable front and back, and the surfaces of the three cleaning wheels are tightly attached to the surface of the printing rubber wheel body under the action of the air cylinder during printing. The cylinder is connected with a control system of the injector rolling printing machine, automatic control is realized by controlling the action of the cylinder, when the equipment normally operates, the cleaning wheel automatically clings to the printing rubber wheel, and the cleaning wheel is automatically withdrawn when the equipment stops, so that the defect that the cleaning wheel can only be manually operated in the past is overcome, and the phenomenon that the cleaning wheel is pressed out of a pit and cannot be used due to the fact that a worker forgets to withdraw the cleaning wheel after stopping the machine for a long time on the surface of the printing rubber wheel is also solved. When the cleaning wheel assembly works, the cleaning wheels in the three cleaning wheel assemblies are attached to the surface of the printing rubber wheel body under the action of the same air cylinder, ink marks on the printing rubber wheel body after printing is finished are cleaned and leveled, and therefore ink can be applied again to perform subsequent printing operation.

Preferably, the cleaning mechanism is further provided with two buffer springs, two guide shafts I, a guide plate I, two linear bearings, two guide shafts II, two limiting wheels, a hand wheel I, a screw rod I, a guide plate II, a screw rod II, a hand wheel II, a limiting pipe and a support plate;

the lower end of the bracket plate is fixedly connected with the rear end of the mounting plate substrate;

the lower end of the guide plate II is fixedly connected with the upper end of the support plate;

the upper end of the bracket plate is provided with a through hole for the screw II to pass through, and the front end of the screw II is fixedly connected with the lower end of the thrust plate after passing through the through hole; the limiting pipe is sleeved on the rear end of the screw rod II, and the hand wheel II and the rear end of the screw rod II are in threaded connection outside the rear end of the limiting pipe;

the left end and the right end of the guide plate II are respectively provided with a bearing fixing hole for fixing a linear bearing; the front ends of the two guide shafts II respectively penetrate through a linear bearing and then are fixedly connected with the guide plate I; the rear ends of the two guide shafts II are fixedly connected with a limiting wheel respectively; a threaded hole matched with the screw I is formed between the two bearing fixing holes, a guide shaft rear guide hole matched with the guide shaft I in a sliding mode is formed between the threaded hole and the bearing fixing holes on the left side and the right side of the threaded hole, and a guide shaft front guide hole coaxial with the guide shaft rear guide hole is formed in the corresponding guide plate I;

the front end of the screw I is fixedly connected with the guide plate I, and the rear end of the screw I is positioned behind the guide plate II and fixedly connected with the hand wheel I;

the front ends of the two guide shafts I are fixedly connected with the rear end of the mounting bottom plate, and the rear ends of the two guide shafts I sequentially penetrate through a buffer spring, a guide shaft front guide hole and a guide shaft rear guide hole and then extend behind the guide plate II; the guide shaft I is in sliding fit with the guide shaft front guide hole and the guide shaft rear guide hole. Here, hand wheel I mainly plays the regulation buffer spring pretightning force in order to adjust the pressure of washing wheel to printing rubber tyer. The hand wheel II is used for manual operation, and when the air cylinder is closed and does not work, the cleaning wheel can be retracted through the hand wheel II. Utilize this preferred scheme, can make the cleaning wheel paste and lean on the surface at printing rubber tyer body in order to remove mounting plate at the start-up cylinder and wave hand wheel I earlier and promote mounting plate before making three cleaning wheel be close to the surface of printing rubber tyer body, can reduce the impact of cleaning wheel pair printing rubber tyer body after the start-up cylinder like this, thereby improve the stability of printing operation and the life-span of system, buffer spring's setting, both can slow down the speed when starting the cylinder and make the cleaning wheel break away from and the contact of printing rubber tyer body surface, be favorable to reducing the noise at work, the life of improvement system, can make the pressure of cleaning wheel pair printing rubber tyer keep suitable size again.

Preferably, a plane defined by the axes of the rear guide holes of the left and right guide shafts is located above a plane defined by the two guide shafts ii. This preferred scheme is favorable to increasing the size of guiding axle I and guiding axle II to improve the rigidity and the job stabilization nature of system.

Preferably, the printing-proof rubber wheel axle bending mechanism is further included; the printing-resistant rubber wheel shaft bending mechanism comprises a bearing II and a bending-resistant support; the anti-bending support comprises an anti-bending bottom plate, an anti-bending vertical plate, a second slide block track pair and a bearing mounting frame; the anti-bending bottom plate is fixed on the bedplate, the fixed position of the anti-bending bottom plate can be adjusted front and back and is positioned at the front lower part of the printing rubber wheel; the lower extreme and the anti-bending bottom plate of anti-bending riser link firmly, and the guide rail of second slider track pair is fixed on the back face of the upper end of anti-bending riser with moving towards the ground about, and the front end of bearing mounting bracket and the slider of second slider track pair link firmly, and bearing II establishes the rear end at bearing mounting bracket, and the hole cover of bearing II is epaxial at the printing rubber tyer wheel. Therefore, in the working process, the inner ring of the bearing II rotates along with the printing rubber wheel shaft, so that the bus of the cylindrical surface of the printing rubber wheel body can be ensured to be in a vertical state, and further good printing quality is obtained. Further preferably, the device also comprises a vertical plate bending prevention reinforcing plate; the lower end of the anti-bending vertical plate is connected with the rear end of the anti-bending bottom plate; the rear end of the anti-vertical plate bending reinforcing plate is fixedly connected with the front plate surface of the anti-vertical plate, and the lower end of the anti-vertical plate bending reinforcing plate is fixedly connected with the upper plate surface of the anti-bending bottom plate. This preferred scheme can further guarantee that the generating line of the face of cylinder of printing rubber tyer body is in vertical state to guarantee printing quality and wash the cleaning performance on printing rubber tyer body surface.

In conclusion, utilize the utility model discloses, can effectively wash the remaining ink mark after printing rubber tyer body surface printing and float to inking carries out the printing of next round again.

Drawings

FIG. 1: a schematic top view of the syringe roller printer;

FIG. 2: a front view schematic diagram of the injector roll printing machine;

FIG. 3: a rear perspective view schematic diagram of the injector roll printing machine;

FIG. 4: an explosion schematic diagram of a cleaning mechanism;

FIG. 5: the structural diagram of an anti-bending bracket of the anti-bending mechanism is shown;

in the figure: printing rubber wheel 1, printing rubber wheel axle 1.1, rolling machine frame 2, bedplate 2.1, small bedplate 2.2, cleaning mechanism 3, cleaning wheel component 3,1, cleaning wheel 3.1.1, bearing 3.1.2, cleaning wheel axle 3.1.3, component mounting block 3.2, mounting bottom plate 3.3, slide block guide rail pair 3.4, guide rail 3.4.1, slide block 3.4.2, cylinder 3.5, piston 3.5.1, cylinder body 3.5.2, cylinder mounting plate 3.6, guide rail mounting plate 3.7, mounting plate base plate 3.8 and thrust plate 3.9, 3.10 parts of buffer spring, 3.11 parts of guide shaft I, 3.12 parts of guide plate I, 3.13 parts of linear bearing, 3.14 parts of guide shaft II, 3.15 parts of limiting wheel, 3.16 parts of hand wheel I, 3.17 parts of screw rod I, 3.18 parts of guide plate II, 3.19 parts of screw rod II, 3.20 parts of hand wheel II, 3.21 parts of limiting pipe, 3.22 parts of support plate, 4 parts of printing-proof rubber wheel shaft bending mechanism, 4.1 parts of bearing II, 4.2 parts of bending-proof support, 4.2.1 parts of bending-proof bottom plate, 4.2.2 parts of bending-proof vertical plate, 4.2.3 parts of second slide block rail pair, 4.2.4 parts of bearing mounting rack and 4.2.5 parts of bending-proof vertical plate reinforcing.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings. The left, right, front and rear descriptions in the following description are based on a schematic plan view of a syringe roll printing machine. The specific structure of the frame 2 of the roll printing machine is a simple technology and will not be described herein.

As shown in fig. 1-5, the utility model comprises a printing rubber wheel 1, a frame 2 of the rotary printing machine, a cleaning mechanism 3 and a wheel axle bending prevention mechanism 4.

The lower end of the printing rubber wheel shaft 1.1 is connected with a small bedplate 2.2 fixed at the upper end of a small mounting bracket fixed on the bedplate 2.1 of the roller printing machine frame 2 in a fixed-shaft rolling way through a bearing not shown in the figure. The cleaning mechanism 3 comprises a cleaning wheel assembly 3,1, an assembly mounting block 3.2, a mounting base plate 3.3, a slider guide rail pair 3.4, a cylinder 3.5, a cylinder mounting plate 3.6, a guide rail mounting plate 3.7, a mounting plate base plate 3.8, a thrust plate 3.9, a buffer spring 3.10, a guide shaft I3.11, a guide plate I3.12, a linear bearing 3.13, a guide shaft II 3.14, a limiting wheel 3.15, a hand wheel I3.16, a screw rod I3.17, a guide plate II 3.18, a screw rod II 3.19, a hand wheel II 3.20, a limiting pipe 3.21 and a support plate 3.22. The cleaning mechanism 3 is positioned behind the printing rubber wheel 1. The cleaning wheel assembly 3,1 comprises a cleaning wheel 3.1.1, a bearing 3.1.2 and a cleaning wheel shaft 3.1.3. The inner ring of the bearing 3.1.2 is fixedly connected with the cleaning wheel shaft 3.1.3, and the outer ring of the bearing 3.1.2 is fixedly connected with the cleaning wheel 3.1.1. The cylinders 3.5 are connected to a gas supply and control system which is not shown in the figures because of the simplicity of the technology. The cleaning wheel assembly comprises three cleaning wheel assemblies 3.1, three assembly mounting blocks 3.2, two sliding block guide rail pairs 3.4, two guide rail mounting plates 3.7, two buffer springs 3.10, two guide shafts I3.11, a guide plate I3.12, two linear bearings 3.13, two guide shafts II 3.14 and two limiting wheels 3.15. The component mounting block 3.2 is provided with a long hole moving forwards and backwards, three groups of threaded holes which are not shown in the figure are arranged on the corresponding mounting base plate 3.3, the number of each group of threaded holes is two, the plane determined by the central lines of the two threaded holes is perpendicular to the left and right direction, the three groups of threaded holes are respectively arranged at the left, middle and right parts of the mounting base plate 3.3, the three component mounting plates 3.2 are respectively fixedly connected with two bolts which are not shown in the figure and the left, middle and right parts of the upper plate surface of the mounting base plate 3.3, so that the fixedly connected positions of the component mounting plates 3.2 and the mounting base plate 3.3 can be adjusted forwards and backwards, and the surfaces of the three cleaning wheels 3.1.1 can be tightly attached to the surface of the printing rubber wheel body 1.2 with equal and proper pressure under the action of the air.

The two guide rail mounting plates 3.7 are separated from each other left and right, and the lower ends of the two guide rail mounting plates 3.7 are fixedly connected with the left and right sides of the upper surface of the rectangular mounting plate base plate 3.8 by welding or bolt structures which are not shown in detail in the drawings. The upper ends of the two guide rail mounting plates 3.7 are fixedly connected with the guide rail 3.4.1 of one slide block guide rail pair 3.4 respectively by using a bolt structure which is not shown in the figure, and the left end and the right end of the mounting bottom plate 3.3 are fixedly connected with the slide block 3.4.2 of one slide block guide rail pair 3.4 respectively by using four countersunk hexagon socket head bolts. The thrust plate 3.9 is arranged between the left and right guide rail mounting plates 3.7, and the upper end of the thrust plate is fixedly connected with the lower plate surface of the mounting bottom plate 3.3 by two countersunk hexagon socket head bolts which are not shown in the figure. The rear end of a piston 3.5.1 of the cylinder 3.5 is fixedly connected with a thrust plate 3.9 by a known bolt connecting structure, the front end of a cylinder body 3.5.2 of the cylinder 3.5 is fixedly connected with the rear plate surface of a cylinder mounting plate 3.6 by a known bolt connecting structure, and the cylinder mounting plate 3.6 is fixedly connected with a small mounting bracket by four bolts which are not shown in the figure;

the lower end of the bracket plate 3.22 is fixedly connected with the rear end of the upper plate surface of the mounting plate base plate 3.8 by bolts which are not shown in the figure; the lower end of the guide plate II 3.18 and the upper end of the support plate 3.22 are positioned by positioning pins (not shown in the drawing) (positioning pin connecting holes on the support plate 3.22 are shown in the support plate 3.22), and the left end and the right end of the lower end of the guide plate II 3.18 and the left end and the right end of the upper end of the support plate 3.22 are fixedly connected together by bolts which are not shown in the drawing respectively; the upper end of the support plate 3.22 is provided with a through hole for the screw II 3.19 to pass through, and the front end of the screw II 3.19 is fixedly connected with the lower end of the thrust plate 3.9 after passing through the through hole. The limiting pipe 3.21 is sleeved on the rear end of the screw rod II 3.19, and the hand wheel II 3.20 and the rear end of the screw rod II 3.19 are in threaded connection outside the rear end of the limiting pipe 3.21. The left end and the right end of the guide plate II 3.18 are respectively provided with a bearing fixing hole for fixing the linear bearing 3.13; the front ends of the two guide shafts II 3.14 are fixedly connected with the guide plates I3.12 by a known structure after respectively penetrating through a linear bearing 3.13; the rear ends of the two guide shafts II 3.14 are fixedly connected with a limiting wheel 3.15 by a known structure respectively; be equipped with a screw hole with I3.17 adaptation of screw rod between two bearing fixed orificess, respectively be equipped with one with I3.11 slip adaptation's of guiding axle behind the guiding axle guiding hole between the bearing fixed orifices of this screw hole and its left and right sides, be equipped with the coaxial leading guiding hole of guiding axle with guiding axle rear guiding hole on the corresponding deflector I3.12, guiding axle front guiding hole also with I slip adaptation of guiding axle. The front end of the screw I3.17 is fixedly connected with the guide plate I3.12 by a known structure which is not shown in the drawing, and the rear end of the screw I3.17 is positioned behind the guide plate II 3.18 and fixedly connected with the hand wheel I3.16 by the known structure; the front ends of the two guide shafts I3.11 are fixedly connected with the rear end of the mounting base plate 3.3 by a known structure, and the rear ends of the two guide shafts I3.11 sequentially penetrate through a buffer spring 3.10, a guide shaft front guide hole and a guide shaft rear guide hole and then extend behind the guide plate II 3.18; the guide shaft I is in sliding fit with the guide shaft front guide hole and the guide shaft rear guide hole. Preferably, the horizontal plane defined by the axes of the rear guide holes of the left guide shaft and the right guide shaft is located above the plane defined by the two guide shafts II 3.14, and the axis of the screw I3.17 is located on the plane defined by the two guide shafts II 3.14.

The printing-prevention rubber wheel axle bending mechanism 4 comprises a bearing II 4.1 and a bending-prevention support 4.2. The anti-bending support 4.2 comprises an anti-bending bottom plate 4.2.1, an anti-bending vertical plate 4.2.2, a second slider rail pair 4.2.3, a bearing mounting frame 4.2.4 and an anti-bending vertical plate reinforcing plate 4.2.5. The lower end of the anti-bending vertical plate 4.2.2 is fixedly connected with the upper plate surface at the rear end of the anti-bending bottom plate 4.2.1 by a countersunk head bolt structure which is not shown in the figure. The left side and the right side of the anti-bending bottom plate 4.2.1 are respectively provided with two long holes, the anti-bending bottom plate 4.2.1 is fixedly connected with the upper plate surface of the bedplate 2.1 through bolts penetrating through the long holes, so that the fixing position between the anti-bending bottom plate 4.2.1 and the bedplate 2.1 can be adjusted front and back, and the anti-bending bottom plate 4.2.1 is positioned below the front part of the printing rubber wheel 1. The rear end of the anti-vertical plate bending reinforcing plate 4.2.5 is fixedly connected with the middle part of the front plate surface of the anti-vertical plate 4.2.2 by using a countersunk head bolt not shown in the figure, and the lower end of the anti-vertical plate bending reinforcing plate 4.2.5 is fixedly connected with the upper plate surface of the anti-vertical plate 4.2.1 by using a countersunk head bolt not shown in the figure. The guide rail of the second slide block track pair 4.2.3 is fixed on the rear plate surface of the upper end of the anti-bending vertical plate 4.2.2 in a left-right direction, the front end of the bearing mounting frame 4.2.4 is fixedly connected with the slide block of the second slide block track pair 4.2.3, the bearing II 4.1 is arranged at the rear end of the bearing mounting frame 4.2.4, and the inner hole of the bearing II is sleeved on a printing rubber wheel shaft. The above-described embodiments are merely preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Indeed, many equivalent variations in the shapes, constructions and design objectives of the devices according to the present invention are possible. Therefore, all equivalent changes made in the shape, structure and design objectives of the present invention should be considered within the scope of the present invention, i.e. all equivalent changes should be protected by the present invention.

Claims (5)

1. A cleaning mechanism for printing rubber wheels of syringe roller printing machines is characterized in that: comprises a printing rubber wheel (1), the lower end of a wheel shaft (1.1) of the printing rubber wheel is connected with a small bedplate (2.2) fixed on the upper end of a small mounting bracket on the bedplate (2.1) of a frame (2) of the rotary printing machine in a fixed-shaft rolling way; the cleaning mechanism (3) comprises cleaning wheel assemblies (3, 1), an assembly mounting block (3.2), a mounting base plate (3.3), a slide block guide rail pair (3.4), a cylinder (3.5), a cylinder mounting plate (3.6), a guide rail mounting plate (3.7), a mounting plate base plate (3.8) and a thrust plate (3.9); the cleaning mechanism is positioned behind the printing rubber wheel; the cleaning wheel assembly comprises a cleaning wheel (3.1.1), a bearing (3.1.2) and a cleaning wheel shaft (3.1.3); the inner ring of the bearing is fixedly connected with the cleaning wheel shaft, and the outer ring of the bearing is fixedly connected with the cleaning wheel; the cleaning wheel assembly comprises three cleaning wheel assemblies, two slide block guide rail pairs and two guide rail mounting plates; the two guide rail mounting plates are separated from the left and right, and the lower ends of the two guide rail mounting plates are fixedly connected with the mounting plate base plate respectively; the upper ends of the two guide rail mounting plates are fixedly connected with a guide rail (3.4.1) of a slide block guide rail pair respectively, and the left end and the right end of the mounting bottom plate are fixedly connected with a slide block (3.4.2) of the slide block guide rail pair respectively; the thrust plate is arranged between the left guide rail mounting plate and the right guide rail mounting plate, and the upper end of the thrust plate is fixedly connected with the lower plate surface of the mounting bottom plate; the rear end of a piston (3.5.1) of the cylinder is fixedly connected with the thrust plate, the front end of a cylinder body (3.5.2) of the cylinder is fixedly connected with a cylinder mounting plate, and the cylinder mounting plate is fixedly connected with the small mounting bracket; the three component mounting plates are fixedly connected with the left, middle and right parts of the upper plate surface of the mounting bottom plate respectively, the fixedly connected positions are adjustable front and back, and the surfaces of the three cleaning wheels are tightly attached to the surface of the printing rubber wheel body (1.2) under the action of the air cylinder during printing.

2. The syringe roller printer blanket wheel cleaning mechanism of claim 1 further comprising: the cleaning mechanism (3) is also provided with two buffer springs (3.10), two guide shafts I (3.11), a guide plate I (3.12), two linear bearings (3.13), two guide shafts II (3.14), two limiting wheels (3.15), a hand wheel I (3.16), a screw rod I (3.17), a guide plate II (3.18), a screw rod II (3.19), a hand wheel II (3.20), a limiting pipe (3.21) and a support plate (3.22);

the lower end of the support plate (3.22) is fixedly connected with the rear end of the mounting plate base plate (3.8);

the lower end of the guide plate II (3.18) is fixedly connected with the upper end of the support plate (3.22);

the upper end of the bracket plate (3.22) is provided with a through hole for the screw II (3.19) to pass through, and the front end of the screw II (3.19) is fixedly connected with the lower end of the thrust plate (3.9) after passing through the through hole; the limiting pipe (3.21) is sleeved on the rear end of the screw II (3.19), and the rear ends of the hand wheel II (3.20) and the screw II (3.19) are in threaded connection with the outside of the rear end of the limiting pipe (3.21);

the left end and the right end of the guide plate II (3.18) are respectively provided with a bearing fixing hole for fixing the linear bearing (3.13); the front ends of the two guide shafts II (3.14) respectively penetrate through a linear bearing (3.13) and then are fixedly connected with the guide plate I (3.12); the rear ends of the two guide shafts II (3.14) are fixedly connected with a limiting wheel (3.15) respectively; a threaded hole matched with the screw I (3.17) is formed between the two bearing fixing holes, a guide shaft rear guide hole matched with the guide shaft I (3.11) in a sliding mode is formed between the threaded hole and the bearing fixing holes on the left side and the right side of the threaded hole, and a guide shaft front guide hole coaxial with the guide shaft rear guide hole is formed in the corresponding guide plate I (3.12);

the front end of the screw I (3.17) is fixedly connected with the guide plate I (3.12), and the rear end of the screw I (3.17) is positioned behind the guide plate II (3.18) and fixedly connected with the hand wheel I (3.16);

the front ends of the two guide shafts I (3.11) are fixedly connected with the rear end of the mounting base plate (3.3), and the rear ends of the two guide shafts I (3.11) sequentially penetrate through a buffer spring (3.10), a guide shaft front guide hole and a guide shaft rear guide hole and then extend behind the guide plate II (3.18); the guide shaft I is in sliding fit with the guide shaft front guide hole and the guide shaft rear guide hole.

3. The syringe roller printer blanket wheel cleaning mechanism of claim 1 further comprising: the plane defined by the axes of the rear guide holes of the left guide shaft and the right guide shaft is positioned above the plane defined by the two guide shafts II (3.14).

4. The syringe roller printer blanket wheel cleaning mechanism of claim 1 further comprising: also comprises a printing-resistant rubber wheel axle bending mechanism (4);

the printing-proof rubber wheel axle bending mechanism (4) comprises a bearing II (4.1) and a bending-proof support (4.2);

the anti-bending bracket (4.2) comprises an anti-bending bottom plate (4.2.1), an anti-bending vertical plate (4.2.2), a second slide block track pair (4.2.3) and a bearing mounting rack (4.2.4);

the anti-bending bottom plate (4.2.1) is fixed on the bedplate (2.1), the fixed position is adjustable in front and back and is positioned at the front lower part of the printing rubber wheel (1);

the lower extreme and the anti-bending bottom plate (4.2.1) of anti-bending riser (4.2.2) link firmly, move towards ground about the guide rail of second slider track pair (4.2.3) and fix on the back face of the upper end of anti-bending riser (4.2.2), the front end of bearing mounting bracket (4.2.4) links firmly with the slider of second slider track pair (4.2.3), the rear end at bearing mounting bracket (4.2.4) is established in bearing II (4.1), the hole cover of bearing II is epaxial at the printing rubber tyer.

5. The syringe roller printer blanket wheel cleaning mechanism of claim 4 further comprising: also comprises a vertical plate bending prevention reinforcing plate (4.2.5); the lower end of the anti-bending vertical plate (4.2.2) is connected with the rear end of the anti-bending bottom plate (4.2.1); the rear end of the anti-vertical plate bending reinforcing plate (4.2.5) is fixedly connected with the front plate surface of the anti-vertical plate (4.2.2), and the lower end of the anti-vertical plate bending reinforcing plate (4.2.2) is fixedly connected with the upper plate surface of the anti-bending bottom plate (4.2.1).

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