CN115431630A - Circular screen printer bar magnet winding and unwinding devices - Google Patents

Abstract

The invention provides a magnetic rod winding and unwinding device of a rotary screen printing machine. The cover plate is arranged on the side face of the rotary screen roller, and the rotary screen roller is arranged on the top of the workbench. The electromagnet is arranged in the workbench, and the pulp conveying roller is arranged in the rotary screen roller. The pulp conveying roller is transversely pivoted on the inner side of the cover plate. The circular screen printer magnetic rod winding and unwinding device is matched with a magnetic rod through a workbench, a cover plate, a circular screen roller, a pulp conveying roller, a dye spraying mechanism, an electromagnet and the magnetic rod. The magnetic pole of the electromagnet used for controlling the magnetic bar to extrude the cylinder roller can be changed, the original attraction magnetic bar is changed into the repulsion magnetic bar, the repulsion force is used as the driving force, the operation of moving the magnetic bar out of the cylinder roller is completed, and compared with the traditional manual carrying, the magnetic pole type rotary screen roller is quicker and more labor-saving.

Description

Circular screen printer bar magnet winding and unwinding devices

Technical Field

The invention relates to the technical field of rotary screen printing machine equipment, in particular to a magnetic rod retracting device of a rotary screen printing machine.

Background

Rotary screen printing is a printing mode for printing color paste in a rotary screen onto a fabric under the driving of pressure by utilizing a scraper. The operation mode is that the magnetic bar is used for extrusion, the pulp conveying roller is arranged in the nickel screen roller, the color paste of the pulp conveying roller is discharged from the pulp outlet and then is discharged from the magnetic bar along the guide plate, and the color paste is pressed on the cloth through the nickel screen by the rotation of the magnetic bar and the nickel screen roller.

However, the magnetic rod installed in the large rotary screen printing is large in size and weight, and meanwhile, in order to prevent the liquid leakage condition when the magnetic rod is extruded, the magnetic rod is often integrally formed, and the operation of carrying the magnetic rod is too heavy when personnel maintain and replace the magnetic rod. Therefore, the replacement efficiency of the large magnetic rod by personnel is not high.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a magnetic rod retracting device of a rotary screen printing machine.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a magnetic rod winding and unwinding device of a rotary screen printing machine comprises a workbench, a cover plate, a rotary screen roller, a slurry conveying roller, a dye spraying mechanism, an electromagnet and a magnetic rod. The cover plate is arranged on the side face of the rotary screen roller, and the rotary screen roller is arranged on the top of the workbench. The electromagnet is arranged in the workbench, and the pulp conveying roller is arranged in the rotary screen roller. The pulp conveying roller is transversely pivoted on the inner side of the cover plate, the dye spraying mechanism is hinged on the pulp conveying roller, and the magnetic rod is arranged on the inner wall of the rotary screen roller. The dye spraying mechanism corresponds to the magnetic bar, and the magnetic bar and the electromagnet attract each other. The multifunctional cover plate is characterized by further comprising a plurality of grabbing and moving mechanisms, a guide assembly and an auxiliary slide way assembly, wherein the auxiliary slide way assembly is detachably inserted into the side face of the cover plate. The guide assembly is in sliding fit with the pulp conveying roller, the grabbing and moving mechanism is in sliding fit with the guide assembly, and the auxiliary slide way assembly corresponds to the grabbing and moving mechanism. The grabbing and moving mechanism is in linkage connection with the magnetic bar.

Preferably, the jet dyeing mechanism comprises an ink-jet head, and the ink-jet head is hinged on the slurry conveying roller. The ink gun is communicated with the slurry conveying roller, and the output end of the ink gun corresponds to the magnetic rod.

Preferably, the auxiliary chute assembly comprises a main chute seat and two insertion chutes. The two inserting slide ways are matched on the main slide way seat in a sliding way, and are symmetrical with the main slide way seat. The splicing slide way is detachably spliced with the cover plate. The grabbing and moving mechanism is in sliding fit in the auxiliary slideway component.

Preferably, the pulp conveying roller is provided with two sliding chutes, and the grabbing and moving mechanism is in sliding fit with the sliding chutes. The telescopic rod further comprises two auxiliary sliding blocks and an auxiliary telescopic rod, and the auxiliary sliding blocks are in sliding fit with the other sliding groove. The auxiliary telescopic rod is arranged at the bottom of the auxiliary sliding block, and the movable end of the auxiliary telescopic rod is connected with the guide assembly.

Preferably, the guide assembly comprises a first sliding groove seat, a second sliding groove seat, a plurality of first top plates and a plurality of second top plates. The first sliding groove seat and the second sliding groove seat are connected in parallel in a beating mode, and the top plates are arranged in the first sliding groove seat at equal intervals. The top plates are arranged in the sliding groove seat II at equal intervals, and the positions of the top plates II and the positions of the top plates are mutually staggered.

And the first sliding groove seat and the second sliding groove seat are both connected with the movable end of the auxiliary telescopic rod.

Preferably, the grabbing and moving mechanism comprises a main sliding block, a main telescopic rod and a clamp. The main sliding block is in sliding fit in the sliding groove, and the main telescopic rod is vertically arranged at the bottom of the main sliding block. The clamp is arranged at the movable end of the main telescopic rod and is matched with the magnetic rod.

Preferably, the grabbing and moving mechanism further comprises a moving slide block, two ratchet wheel assemblies, an L-shaped plate and a plurality of insections. The L-shaped plate is arranged at the movable end of the main telescopic rod, and the movable sliding block is in sliding fit with the bottom of the sliding groove seat II. The two ratchet wheel assemblies are symmetrical by taking the L-shaped plate as a center of a circle, and the two ratchet wheel assemblies are pivoted with the movable sliding block. A plurality of insections are arranged on the inner side of the L-shaped plate at equal intervals, and the insections are connected with the ratchet wheel assembly in a linkage mode.

Preferably, the ratchet assembly comprises a rotating wheel, a rotating cylinder, a rotating rod, a rotating seat, a plurality of contact rods and a limiting block. The rotating rod is pivoted on the movable sliding block, the rotating seat is pivoted on the movable sliding block, and the rotating seat is coaxially connected with one end of the rotating rod. A plurality of stoppers are cup jointed outside the rotating seat, and a plurality of stoppers are arranged on the rotating seat at equal angles by taking the rotating rod as the circle center. The contact rods are hinged to the outer side of the rotating cylinder at equal angles by taking the rotating rod as a circle center, and the part of the contact rods positioned on the inner side of the rotating cylinder is in contact with the limiting block. The rotating wheel is coaxially connected with the outer side of the rotating cylinder, and the insections are meshed with the contact rod. The two rotating wheels are respectively contacted with a first top plate and a second top plate on the first sliding groove seat and the second sliding groove seat.

Preferably, the device also comprises a movable pulling plate which is in sliding fit in the workbench.

(III) advantageous effects

The invention provides a magnetic rod retracting device of a rotary screen printing machine. The method has the following beneficial effects:

1. this circular screen printer bar magnet winding and unwinding devices is through workstation, apron, circular screen roller, defeated thick liquid roller, the dyestuff mechanism that spouts, electro-magnet and the bar magnet of setting mutually support. The magnetic pole of the electromagnet used for controlling the magnetic bar to extrude the cylinder roller can be changed, the original attraction magnetic bar is changed into the repulsion magnetic bar, the repulsion force is used as the driving force, the operation of moving the magnetic bar out of the cylinder roller is completed, and compared with the traditional manual carrying, the magnetic pole type rotary screen roller is quicker and more labor-saving.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a first elevational cross-sectional view of the present invention;

FIG. 5 is a second elevational cross-sectional view of the present invention;

FIG. 6 is a perspective view of a first partial component of the present invention;

FIG. 7 is a perspective view of a second partial component of the present invention;

FIG. 8 is a perspective view of a third partial component of the present invention;

fig. 9 is a perspective view of a fourth partial component of the present invention.

In the figure: the automatic ink jet printing machine comprises a workbench 1, a cover plate 2, a rotary screen roller 3, a pulp conveying roller 4, a dye spraying mechanism 5, a movable pull plate 6, an electromagnet 7, a magnetic rod 8, a grabbing and moving mechanism 9, an auxiliary slide way assembly 10, an ink jet head 11, a guide assembly 12, a clamp 13, a contact rod 14, a main telescopic rod 15, a main slide block 16, an auxiliary slide block 17, a sliding chute 18, an auxiliary telescopic rod 19, a sliding chute seat I20, a top plate I21, a top plate II 22, a sliding chute seat II 23, a 24L-shaped plate, a ratchet assembly 25, a movable slide block 26, a rotating wheel 27, a main slide way seat 28, an inserting slide way 29, a insection 30, a rotating rod 31, a rotating seat 32, a limiting block 33 and a rotating cylinder 34.

Detailed Description

The embodiment of the invention provides a magnetic rod retracting device of a rotary screen printing machine, which comprises a workbench 1, a cover plate 2, a rotary screen roller 3, a pulp conveying roller 4, a spray dyeing mechanism 5, an electromagnet 7 and a magnetic rod 8, as shown in figures 1-9. The cover plate 2 is arranged on the side surface of the cylinder mould roller 3, and the cylinder mould roller 3 is arranged on the top of the workbench 1. The electromagnet 7 is arranged in the workbench 1, and the pulp conveying roller 4 is arranged in the cylinder drum 3. The slurry conveying roller 4 is transversely pivoted on the inner side of the cover plate 2, the spray dyeing mechanism 5 is hinged on the slurry conveying roller 4, and the magnetic rod 8 is arranged on the inner wall of the rotary screen roller 3. The dye spraying mechanism 5 corresponds to the magnetic rod 8, and the magnetic rod 8 and the electromagnet 7 are mutually attracted. The device also comprises a plurality of grabbing and moving mechanisms 9, a guide assembly 12 and an auxiliary slide assembly 10, wherein the auxiliary slide assembly 10 is detachably inserted on the side surface of the cover plate 2. The guide component 12 is in sliding fit with the pulp conveying roller 4, the grabbing and moving mechanism 9 is in sliding fit with the guide component 12, and the auxiliary slideway component 10 corresponds to the grabbing and moving mechanism 9. The grabbing and moving mechanism 9 is in linkage connection with the magnetic rod 8.

By utilizing the magnetic force relationship between the magnetic rod 8 and the electromagnet 7, the invention further generates the vertical force, and the invention takes the changed force as the driving source, thereby assisting the personnel to move the magnetic rod 8 transversely. Is convenient for people to use.

The dye-jet mechanism 5 comprises an ink-jet head 11, the ink-jet head 11 is hinged on the slurry-conveying roller 4. The ink-jet head 11 is communicated with the slurry conveying roller 4, and the output end of the ink-jet head 11 corresponds to the magnetic bar 8.

The auxiliary runner assembly 10 includes a main runner housing 28 and two plug runners 29. The two insertion slideways 29 are both in sliding fit on the main slideway seat 28, and the two insertion slideways 29 are symmetrical with the main slideway seat 28. The inserting slide way 29 is detachably inserted with the cover plate 2. The grabbing and moving mechanism 9 is slidably fitted in the auxiliary chute assembly 10.

Through the mutual cooperation of the main chute seat 28 and the two insertion chutes 29, the insertion chutes 29 can be pulled when the cover plate 2 is detached, so that the transverse movement of the grabbing and moving mechanism 9 is convenient, and the use of personnel is facilitated.

The pulp conveying roller 4 is provided with two sliding chutes 18, and the grabbing and moving mechanism 9 is in sliding fit with the sliding chutes 18. The telescopic rod further comprises two auxiliary sliding blocks 17 and an auxiliary telescopic rod 19, wherein the auxiliary sliding blocks 17 are in sliding fit with the other sliding groove 18. The auxiliary telescopic rod 19 is arranged at the bottom of the auxiliary sliding block 17, and the movable end of the auxiliary telescopic rod 19 is connected with the guide component 12.

The guide assembly 12 includes a first chute seat 20, a second chute seat 23, a plurality of first top plates 21 and a plurality of second top plates 22. The first sliding groove seat 20 and the second sliding groove seat 23 are connected in parallel, and the first top plates 21 are arranged in the first sliding groove seat 20 at equal intervals. The second top plates 22 are arranged in the second chute seats 23 at equal intervals, and the positions of the second top plates 22 and the positions of the first top plates 21 are staggered. The first chute seat 20 and the second chute seat 23 are connected with the movable end of the auxiliary telescopic rod 19.

The grabbing and moving mechanism 9 comprises a main sliding block 16, a main telescopic rod 15 and a clamp 13. The main sliding block 16 is in sliding fit in the sliding groove 18, and the main telescopic rod 15 is vertically arranged at the bottom of the main sliding block 16. The clamp 13 is arranged at the movable end of the main telescopic rod 15, and the clamp 13 is matched with the magnetic rod 8.

The grip moving mechanism 9 further includes a moving slider 26, two ratchet assemblies 25, an L-shaped plate 24, and a plurality of insections 30. The L-shaped plate 24 is arranged at the movable end of the main telescopic rod 15, and the movable sliding block 26 is in sliding fit with the bottom of the second sliding groove seat 23. The two ratchet assemblies 25 are symmetrical around the L-shaped plate 24 as a center, and the two ratchet assemblies 25 are pivoted with the movable sliding block 26. A plurality of insections 30 are arranged on the inner side of the L-shaped plate 24 at equal intervals, and the insections 30 are in linkage connection with the ratchet wheel assembly 25.

Through the mutual cooperation of two ratchet wheel assemblies 25 that set up, the up-and-down movement of bar magnet 8 all can let it produce horizontal drive power like this, raises the efficiency as far as possible. Is convenient for people to use.

The ratchet assembly 25 includes a rotary wheel 27, a rotary cylinder 34, a rotary rod 31, a rotary seat 32, a plurality of contact rods 14, and a stopper 33. The rotating rod 31 is pivoted on the moving slide block 26, the rotating seat 32 is pivoted on the moving slide block 26, and the rotating seat 32 is coaxially connected with one end of the rotating rod 31. A plurality of stoppers 33 cup joint and rotate the seat 32 outside, and a plurality of stoppers 33 use bull stick 31 to set up on rotating seat 32 for the equidistance as the centre of a circle. The contact rods 14 are hinged outside the rotating cylinder 34 at equal angles by taking the rotating rod 31 as a circle center, and the part of the contact rods 14 positioned inside the rotating cylinder 34 is contacted with the limiting block 33. The rotary wheel 27 is coaxially connected to the outside of the rotary cylinder 34, and the insections 30 are engaged with the contact rod 14. The two rotating wheels 27 are respectively contacted with the first top plate 21 and the second top plate 22 on the first chute seat 20 and the second chute seat 23.

The device also comprises a movable pulling plate 6, and the movable pulling plate 6 is in sliding fit in the workbench 1.

The working principle is as follows: during the use, at first rotate through mould roller 3, on ink jet 11 inhales the dyestuff and send magnetic rod 8 to from defeated thick liquid roller 4, control electro-magnet 7 attracts magnetic rod 8 after that, with the dyestuff extrusion mould roller 3 outside between magnetic rod 8 and the mould roller 3 to cloth to workstation 1 is printed and dyed, when personnel need carry and change magnetic rod 8, stretches out through main telescopic link 15 earlier. Then the clamp 13 is contracted to clamp the magnetic rod 8, then the electromagnet 7 generates repulsive force to force the magnetic rod 8 to move upwards to drive the L-shaped plate 24 to move upwards, the inner teeth of the insection 30 are simultaneously contacted with the contact rods 14 on the two rotating cylinders 34, because the two rotating cylinders 34 are in circular symmetry, the contact rod 14 on one rotating cylinder 34 is necessarily separated from the insection 30, the other contact rod 14 normally works to drive the rotating rod 31 to rotate, the rotating wheel 27 on the rotating rod is forced to rotate, meanwhile, the rotating wheel 27 is just contacted with the first top plate 21 or the second top plate 22, the transverse movement of the moving slide block 26 is completed, and because the second top plate 22 and the first top plate 21 are arranged in a crossed mode, the other rotating rod 31 does not be forced to rotate due to the contact with the second top plate 22 or the first top plate 21 although the other rotating rod 31 transversely moves. The electromagnet 7 is then de-energized and the L-shaped plate 24 is moved downwards and the other wheel 27 is operated and then moved transversely. And repeating the power-off and the power-on of the electromagnet 7 to finish the auxiliary transportation and replacement of the magnetic rod 8.

In conclusion, the magnetic rod winding and unwinding device of the rotary screen printing machine is matched with a magnetic rod 8 through the arranged workbench 1, the cover plate 2, the rotary screen roller 3, the slurry conveying roller 4, the spray dyeing mechanism 5, the electromagnet 7 and the magnetic rod. The magnetic pole of the electromagnet 7 which is originally used for controlling the magnetic rod 8 to extrude the cylinder roller 3 can be changed, the original attraction magnetic rod 8 is changed into the repulsion magnetic rod 8, the repulsion force is used as driving force, the operation that the magnetic rod 8 moves out of the cylinder roller 3 is completed, and compared with the traditional manual carrying, the magnetic pole type rotary screen is quicker and more labor-saving.

Claims (9)

1. The utility model provides a circular screen printer bar magnet winding and unwinding devices which characterized in that: comprises a workbench (1), a cover plate (2), a rotary screen roller (3), a slurry conveying roller (4), a spray dyeing mechanism (5), an electromagnet (7) and a magnetic bar (8), the cover plate (2) is arranged on the side surface of the cylinder drum (3), the cylinder drum (3) is arranged on the top of the workbench (1), the electromagnet (7) is arranged in the workbench (1), the pulp conveying roller (4) is arranged in the rotary screen roller (3), the pulp conveying roller (4) is transversely pivoted on the inner side of the cover plate (2), the dye spraying mechanism (5) is hinged on the pulp conveying roller (4), the magnetic bar (8) is arranged on the inner wall of the cylinder (3), the dye spraying mechanism (5) corresponds to the magnetic bar (8), the magnetic bar (8) and the electromagnet (7) are mutually attracted, the dye spraying device also comprises a plurality of grabbing and moving mechanisms (9), a guide assembly (12) and an auxiliary slideway assembly (10), the auxiliary slideway component (10) is detachably inserted on the side surface of the cover plate (2), the guide component (12) is in sliding fit with the pulp conveying roller (4), the grabbing and moving mechanism (9) is in sliding fit with the guide component (12), the auxiliary slideway component (10) corresponds to the grabbing and moving mechanism (9), the grabbing moving mechanism (9) is in linkage connection with the magnetic rod (8).

2. The circular screen printer magnetic rod winding and unwinding device of claim 1, characterized in that: the dye spraying mechanism (5) comprises an ink-jet head (11), the ink-jet head (11) is hinged on the slurry conveying roller (4), the ink-jet head (11) is communicated with the slurry conveying roller (4), and the output end of the ink-jet head (11) corresponds to the magnetic rod (8).

3. The cylinder printing machine magnetic rod winding and unwinding device of claim 2, characterized in that: supplementary slide subassembly (10) are including main slide seat (28) and two grafting slides (29), and two equal sliding fit of grafting slide (29) are on main slide seat (28), and two grafting slides (29) are symmetrical with main slide seat (28), grafting slide (29) are detachable grafting with apron (2), snatch moving mechanism (9) sliding fit in supplementary slide subassembly (10).

4. The cylinder printing machine magnetic rod winding and unwinding device of claim 3, characterized in that: the slurry conveying roller (4) is provided with two sliding grooves (18), the grabbing and moving mechanism (9) is in sliding fit with the sliding grooves (18), the slurry conveying roller further comprises two auxiliary sliding blocks (17) and an auxiliary telescopic rod (19), the auxiliary sliding blocks (17) are in sliding fit with the other sliding grooves (18), the auxiliary telescopic rod (19) is arranged at the bottom of the auxiliary sliding blocks (17), and the movable end of the auxiliary telescopic rod (19) is connected with the guide assembly (12).

5. The cylinder printing machine magnetic rod winding and unwinding device of claim 4, characterized in that: the guide assembly (12) comprises a first sliding groove seat (20), a second sliding groove seat (23), a plurality of first top plates (21) and a second top plate (22), wherein the first sliding groove seat (20) and the second sliding groove seat (23) are connected in a beating mode, the first top plates (21) are arranged in the first sliding groove seat (20) at equal intervals, the second top plates (22) are arranged in the second sliding groove seat (23) at equal intervals, the second top plates (22) and the first top plates (21) are staggered with each other, and the first sliding groove seat (20) and the second sliding groove seat (23) are connected with the movable end of the auxiliary telescopic rod (19).

6. The circular screen printer magnetic rod winding and unwinding device of claim 5, characterized in that: snatch moving mechanism (9) and include main slider (16), main telescopic link (15) and anchor clamps (13), main slider (16) sliding fit is in spout (18), the vertical bottom that sets up at main slider (16) of main telescopic link (15), anchor clamps (13) set up the expansion end at main telescopic link (15), anchor clamps (13) and bar magnet (8) looks adaptation.

7. The cylinder printing machine magnetic rod winding and unwinding device of claim 6, characterized in that: snatch moving mechanism (9) and still including removing slider (26), two ratchet subassemblies (25), L template (24) and a plurality of insection (30), L template (24) set up on the activity end of main telescopic link (15), remove slider (26) sliding fit in the bottom of spout seat two (23), two ratchet subassemblies (25) use L template (24) as centre of a circle symmetry, two ratchet subassemblies (25) and remove slider (26) pin joint, a plurality of insections (30) equidistant setting is on the inboard of L template (24), insection (30) and ratchet subassembly (25) linkage are connected.

8. The cylinder printing machine magnetic rod winding and unwinding device of claim 7, characterized in that: the ratchet assembly (25) comprises a rotating wheel (27), a rotating cylinder (34), a rotating rod (31), a rotating seat (32), a plurality of contact rods (14) and limiting blocks (33), wherein the rotating rod (31) is pivoted on a moving sliding block (26), the rotating seat (32) is pivoted on the moving sliding block (26), the rotating seat (32) is coaxially connected with one end of the rotating rod (31), the limiting blocks (33) are sleeved on the outer side of the rotating seat (32), the limiting blocks (33) are arranged on the rotating seat (32) at equal angles by taking the rotating rod (31) as the circle center, the contact rods (14) are hinged on the outer side of the rotating cylinder (34) at equal angles by taking the rotating rod (31) as the circle center, part of the contact rods (14) positioned on the inner side of the rotating cylinder (34) is contacted with the limiting blocks (33), the rotating wheel (27) is connected with the outer side of the rotating cylinder (34) at the same axis, the tooth patterns (30) are meshed with the contact rods (14), and the two rotating wheels (27) are respectively contacted with a first sliding groove seat (20) and a first top plate (22) and a second top plate (21) and a second top plate (22) on the sliding groove seat (23).

9. The cylinder printing machine magnetic rod winding and unwinding device of claim 8, characterized in that: the workbench is characterized by further comprising a movable pulling plate (6), wherein the movable pulling plate (6) is in sliding fit in the workbench (1).

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