CN210551439U - Roller cutting and pull out first all-in-one charges - Google Patents

Abstract

The utility model relates to a printing apparatus assembles technical field, especially relates to a roller cutting and pull out first all-in-one charges. Among the prior art, cut and pull out the head all through manual operation, inefficiency and precision low charging roller both ends. In order to solve the problems, the technical scheme is as follows: be equipped with the roller pay-off station that charges on the workstation, the roller cutting station that charges, the roller that charges who carries out the pulling head to the roller both ends after the cutting pulls out the control box of the first station of roller pulling head station and each station action of control, still include the collecting box and locate the collecting box and charge the pay-off frame between the roller pay-off station, the pay-off frame has two and parallel arrangement, by the roller pay-off station that charges to the collecting box orientation downward sloping, be equipped with the recess that corresponds with roller cutting station and the roller pulling head station position that charges on the pay-off frame, still include the ejecting climbing mechanism of roller from the recess that charges between two pay-off frames. The utility model provides high work efficiency reduces staff's maloperation and causes harm or the risk that the precision is low.

Description

Roller cutting and pull out first all-in-one charges

Technical Field

The utility model relates to a printing apparatus assembles technical field, especially relates to a roller cutting and pull out first all-in-one charges.

Background

The assembly mode of the charging roller is that the conductive sponge and the rubber sleeve are sequentially sleeved on the outer side of the metal rod, and after redundant materials are cut, the rubber sleeves at the two ends of the metal rod are heated, so that the rubber sleeves shrink to achieve the fixing effect.

The roller that charges is at the in-service use in-process, and the both ends of metal rod have the electrically conductive effect, consequently need expose, and the roller that charges of accomplishing the assembly for being wrapped up by electrically conductive sponge and rubber sleeve completely, need make the metal rod stretch out in order to realize the normal use of roller that charges to the electrically conductive sponge cutting at both ends.

Among the prior art, I department provides a frock for cutting the roller that charges, will charge the roller and place on the roller fixed subassembly that charges, and driving motor drives the roller axial rotation that charges, and the manual work is close to the roller that charges with the cutting head, cuts the roller both ends that charge, and the rethread is manual to extract the material of cutting and break away from the metal rod.

Although the above method improves the efficiency and the processing precision, the manual operation is still required to realize the cutting and the head pulling, and the effect is not ideal enough.

SUMMERY OF THE UTILITY MODEL

The utility model discloses mainly solve the defect that prior art exists, provide a roller cutting and pull out first all-in-one charges.

In order to solve the technical problem, the utility model discloses a technical scheme is:

a charging roller cutting and pulling head integrated machine comprises a workbench, a charging roller feeding station, a charging roller cutting station for cutting two ends of a charging roller, a charging roller pulling head station for pulling heads at two ends of the cut charging roller, a control box for controlling the action of each station, a material collecting box and a feeding frame arranged between the material collecting box and the charging roller feeding station, the two feeding frames are arranged in parallel and are inclined downwards from the feeding station of the charging roller to the direction of the aggregate box, a first groove and a second groove of the charging roller corresponding to the cutting station and the head pulling station of the charging roller are arranged on the feeding frame, and a first jacking mechanism and a second jacking mechanism which are used for ejecting the charging roller from the first groove or the second groove of the charging roller are further arranged between the two feeding frames.

Preferably, the first groove of the charging roller and the second groove of the charging roller are arc-shaped grooves.

Preferably, first climbing mechanism includes first jacking piece and first jacking cylinder, first jacking piece with the piston rod of first jacking cylinder is connected, second climbing mechanism includes second jacking piece and second jacking cylinder, the second jacking piece with the piston rod of second jacking cylinder is connected.

Preferably, the charging roller feeding station comprises a material box with a built-in inclined bottom plate, an opening is formed in the bottom end of the inclined bottom plate, the charging roller feeding station further comprises a material baffle and a feeding driving cylinder for driving the material baffle to move along the Z-axis direction, the material baffle extends into the opening in the bottom end of the inclined bottom plate to move in the vertical direction, a tilted feeding groove is formed in the top of the material baffle, the feeding driving cylinder drives the material baffle to move upwards, the charging roller in the material box is conveyed upwards, and the charging roller is conveyed to the feeding frame through the feeding groove and slides downwards into the first groove of the charging roller in a tilted mode.

Preferably, the charge roller cutting station includes the cutting assembly that locates the symmetry setting in the two outsides of pay-off frame left and right sides, cutting assembly includes fixing base, level pass the location pivot of fixing base and establish the blade subassembly of location pivot top, the blade subassembly includes the blade seat, can dismantle the blade that fixes on the blade seat perpendicularly downwards and drive the blade actuating cylinder of blade seat along the motion of Z axle direction.

Preferably, an ejector pin for positioning the charging roller metal rod is axially mounted on the positioning rotating shaft.

Preferably, at least one cutting assembly further comprises a driving motor for driving the positioning rotating shaft to rotate along the central shaft, and an output shaft of the driving motor is connected with the positioning rotating shaft through a conveying belt.

Preferably, the charge roller chuck pulling station comprises chuck components symmetrically arranged on the left side and the right side of the feeding frame, and the chuck components comprise chuck pulling chucks, opening and closing driving cylinders for driving the chuck pulling chucks to open and close and chuck driving cylinders for driving the chuck pulling chucks to horizontally move along the X-axis direction.

Preferably, still include the thimble that is used for the roller metal bar location of charging, the thimble level is placed and is extended to be located in the middle of the portion of pressing from both sides of the clamp of chuck of pulling out, still include the drive the thimble along X axle direction horizontal migration drives the cylinder.

Preferably, the material collecting box is located in the middle of the workbench, and the charging roller feeding station, the charging roller cutting station, the charging roller head pulling station, the feeding frame and the control box are respectively provided with two parts which are symmetrically arranged on the front side and the rear side of the material collecting box.

The utility model has the advantages that:

the utility model provides a roller cutting and pull out first all-in-one charges realizes autoloading, cuts, pulls out the unnecessary material at roller both ends of charging automatically to the roller both ends of charging automatically and leaves and accomplish and unload, has improved work efficiency, reduces staff's maloperation and causes the risk of harm.

Drawings

Fig. 1 is a schematic structural view of a charging roller cutting and head pulling integrated machine of the present invention;

fig. 2 is a schematic structural view of the charging roller cutting and head pulling integrated machine of the present invention;

fig. 3 is a partial structural schematic diagram of the present invention;

fig. 4 is a partially enlarged schematic view of fig. 3.

The numbers in the figures are as follows:

a work table 1; a control box 2; a material collecting box 3; a feeding frame 4; the charging roller first groove 41; the charging roller second groove 42; a first jacking mechanism 5; a first jacking block 51; a first jacking cylinder 52; a second jacking mechanism 6; a second jacking block 61; a second jacking cylinder 62; a material box 7; the inclined floor 71; a striker plate 72; a feed chute 721; a feeding drive cylinder 73; a fixed seat 8; a positioning rotating shaft 81; a blade assembly 82; a blade seat 821; a blade 822; a blade driving cylinder 823; a drive motor 83; a conveyor belt 84; a head pulling chuck 9; the opening and closing driving cylinder 91; a chuck drive cylinder 92; a thimble 10; the thimble drives the cylinder 101.

Detailed Description

The present invention will be further described with reference to the following description and embodiments.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 4 the utility model relates to a charge roller cutting and pull out head all-in-one's structural schematic diagram, including workstation 1 be equipped with charge roller pay-off station on the workstation 1, carry out the charge roller cutting station of cutting, carry out the control box 2 of the roller pull out head that charges and control each station action to the charge roller both ends after the cutting, still include collection magazine 3 and locate collection magazine 3 with pay-off frame 4 between the roller pay-off station charges, charge roller pay-off station charge roller cutting station charge roller pull out head station and collection magazine 3 sort in proper order, accomplish the pay-off in proper order, cut charge roller both ends, pull out the unnecessary material at charge roller both ends and accomplish the unloading. The feeding frames 4 are arranged in parallel, the feeding stations of the charging rollers are inclined downwards towards the direction of the aggregate box 3, first grooves 41 and second grooves 42 of the charging rollers corresponding to the cutting stations and the head pulling stations of the charging rollers are arranged on the feeding frames 4, and the first jacking mechanisms 5 and the second jacking mechanisms 6 are arranged between the feeding frames 4 and used for jacking the charging rollers from the first grooves 41 or the second grooves 42 of the charging rollers. The charging roller enters the first groove 41 of the charging roller through the feeding frame 4 which inclines downwards after the charging roller feeding station finishes feeding, the charging roller cutting station cuts two ends of the charging roller which is positioned in the first groove 41 of the charging roller, the first jacking mechanism 5 ejects the charging roller which is positioned in the first groove 41 of the charging roller out, the charging roller enters the second groove 42 of the charging roller through the feeding frame 4 which inclines downwards, the charging roller head pulling station peels off redundant materials at two ends of the charging roller which is positioned in the second groove 42 of the charging roller and finishes cutting, then the second jacking mechanism 6 ejects the charging roller which is positioned in the second groove 42 of the charging roller out, and the charging roller enters the material collecting box 3 through the feeding frame 4 which inclines downwards to finish discharging.

In this embodiment, the first groove 41 and the second groove 42 are circular arc grooves, and the circular arc grooves are adapted to the peripheral dimension of the charging roller to support the charging roller.

In this embodiment, first climbing mechanism 5 includes first jacking piece 51 and first jacking cylinder 52, first jacking piece 51 with first jacking cylinder 52's piston rod is connected, second climbing mechanism 6 includes second jacking piece 61 and second jacking cylinder 62, second jacking piece 61 with second jacking cylinder 62's piston rod is connected. The first jacking mechanism 5 ejects the charging roller positioned in the first groove 41 of the charging roller out, the charging roller slides into the second groove 42 of the charging roller through the feeding frame 4 which is inclined downwards, the second jacking mechanism 6 ejects the charging roller positioned in the second groove 42 of the charging roller out, and the charging roller slides into the material collecting box 3 through the feeding frame 4 which is inclined downwards.

In this embodiment, the charging roller feeding station includes a material box 7 with a built-in inclined bottom plate 71, an opening is formed in the bottom end of the inclined bottom plate 71, the charging roller feeding station further includes a material baffle plate 72 and a feeding driving cylinder 73 for driving the material baffle plate 72 to move along the Z-axis direction, the material baffle plate 72 extends into the opening in the bottom end of the inclined bottom plate 71 to move in the vertical direction, an inclined feeding groove 721 is formed in the top of the material baffle plate 72, and when the feeding driving cylinder 73 drives the material baffle plate 72 to move upwards, the charging roller inside the material box 7 is conveyed upwards, is conveyed to the feeding frame 4 through the feeding groove 721, and slides into the first groove 41 of the charging roller obliquely downwards.

In this embodiment, the cutting station of the charging roller includes cutting assemblies symmetrically disposed on the left and right outer sides of the feeding frame 4, the cutting assemblies include a fixing seat 8, a positioning rotating shaft 81 horizontally penetrating through the fixing seat 8, and a blade assembly 82 disposed above the positioning rotating shaft 81, the positioning rotating shaft 81 can rotate along the central axis inside the fixing seat 8 to realize circumferential cutting of the charging roller, and the blade assembly 82 includes a blade seat 821, a vertically downward blade 822 detachably fixed on the blade seat 821, and a blade driving cylinder 823 for driving the blade seat 821 to move along the Z-axis direction.

In this embodiment, an ejector pin 10 for positioning the charging roller metal rod is axially mounted on the positioning rotating shaft 81, and the diameter of the ejector pin 10 is 2.5mm for positioning the charging roller metal rod.

In this embodiment, at least one cutting component still includes the drive location pivot 81 is along center pin pivoted driving motor 83, driving motor 83's output shaft with location pivot 81 passes through conveyer belt 84 and connects, and the roller that charges that will treat processing is fixed two between the location pivot 81, wherein thimble 10 fixes a position fixedly to the roller metal bar that charges, and driving motor 83 drives one of them location pivot 81 and rotates, and then drives the roller circumferential direction that charges, is located the blade 822 on the pivot 81 of location, moves down under the drive of blade driving cylinder 823, cuts the roller both ends that charge.

In this embodiment, the charge roller chuck pulling station includes the chuck components that locate the symmetry in the two outsides about the pay-off frame 4 sets up, the chuck components include chuck 9, drive chuck 9 opens and shuts drive actuating cylinder 91 and drive chuck that chuck 9 opened and shut along X axle direction horizontal migration drives actuating cylinder 92. The pulling head assembly pulls the charging roller which finishes cutting out, and pulls out the redundant materials at the two ends of the charging roller, so that the metal rod extends out of the conductive sponge and the rubber sleeve to finish normal work.

In this embodiment, the charging device further comprises an ejector pin 10 for positioning the metal rod of the charging roller, wherein the ejector pin 10 is horizontally arranged and extends to be located in the middle of the clamping part of the chuck pulling head 9, and the charging device further comprises an ejector pin driving cylinder 101 for driving the ejector pin 10 to horizontally move along the X-axis direction. The thimble 10 has the same function as the thimble 10 on the positioning rotating shaft 81, and is used for fixing the charging roller metal rod for processing.

In this embodiment, in order to improve the processing efficiency, the material collecting box 3 is located in the middle of the workbench 1, and the charging roller feeding station, the charging roller cutting station, the charging roller head pulling station, the feeding frame 4 and the control box 2 are respectively provided with two parts and symmetrically arranged on the front side and the rear side of the material collecting box 3.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same principle as the protection scope of the present invention.

Claims (10)

1. The utility model provides a roller cutting and pull out first all-in-one charges which characterized in that: including workstation (1) be equipped with charge roller pay-off station on workstation (1), carry out the roller cutting station that charges that cuts, to the roller both ends that charge after the cutting roller pullout station that charges that pulls out and control box (2) of each station action of control, still include collection magazine (3) and locate collection magazine (3) with pay-off frame (4) between the roller pay-off station that charges, pay-off frame (4) have two and parallel arrangement, by charge roller pay-off station to collection magazine (3) orientation downward sloping be equipped with on pay-off frame (4) with charge roller cutting station and charge roller pullout station position correspond charge roller first recess (41) and charge roller second recess (42), two still include between pay-off frame (4) to charge the roller follow charge roller first recess (41) or charge roller second recess (42) ejecting first climbing mechanism (5) and second climbing mechanism (6) ).

2. The charge roller cutting and pulling head all-in-one machine according to claim 1, characterized in that: the first charging roller groove (41) and the second charging roller groove (42) are arc-shaped grooves.

3. The charge roller cutting and pulling head all-in-one machine according to claim 1, characterized in that: first climbing mechanism (5) include first climbing piece (51) and first jacking cylinder (52), first climbing piece (51) with the piston rod of first jacking cylinder (52) is connected, second climbing mechanism (6) include second climbing piece (61) and second jacking cylinder (62), second climbing piece (61) with the piston rod of second jacking cylinder (62) is connected.

4. The charge roller cutting and pulling head all-in-one machine according to claim 1, characterized in that: the charging roller feeding station comprises a material box (7) with a built-in inclined bottom plate (71), an opening is formed in the bottom end of the inclined bottom plate (71), the charging roller feeding station further comprises a material baffle plate (72) and a feeding driving cylinder (73) for driving the material baffle plate (72) to move along the Z-axis direction, the material baffle plate (72) stretches into the opening in the bottom end of the inclined bottom plate (71) to move in the vertical direction, an inclined feeding groove (721) is formed in the top of the material baffle plate (72), and the feeding driving cylinder (73) drives the material baffle plate (72) to move upwards so as to convey a charging roller in the material box (7) upwards, convey the charging roller to a feeding frame (4) through the feeding groove (721) and slide into a first groove (41) of the charging roller downwards in an inclined mode.

5. The charge roller cutting and pulling head all-in-one machine according to claim 1, characterized in that: the cutting station of the charging roller comprises cutting assemblies which are arranged on the left outer side and the right outer side of the feeding frame (4) in a symmetrical mode, each cutting assembly comprises a fixing seat (8), a positioning rotating shaft (81) horizontally penetrating through the fixing seats (8) and a blade assembly (82) arranged above the positioning rotating shaft (81), and each blade assembly (82) comprises a blade seat (821), a vertically downward blade (822) detachably fixed on the blade seat (821) and a blade driving cylinder (823) for driving the blade seat (821) to move along the Z-axis direction.

6. The roller cutting and pulling machine as set forth in claim 5, wherein: and an ejector pin (10) for positioning the charging roller metal rod is axially arranged on the positioning rotating shaft (81).

7. The roller cutting and pulling machine as set forth in claim 5, wherein: at least one cutting assembly, still include drive motor (83) that drive location pivot (81) along the center pin rotation, the output shaft of drive motor (83) with location pivot (81) are connected through conveyer belt (84).

8. The charge roller cutting and pulling head all-in-one machine according to claim 1, characterized in that: the charging roller head pulling station comprises head pulling assemblies which are arranged on the left outer side and the right outer side of the feeding frame (4) and are symmetrically arranged, wherein each head pulling assembly comprises a head pulling chuck (9), a driving cylinder (91) and a chuck driving cylinder (92) which are used for driving the head pulling chuck (9) to open and close and drive the head pulling chuck (9) to horizontally move along the X-axis direction.

9. The charge roller cutting and pulling head all-in-one machine according to claim 8, wherein: still including thimble (10) that is used for charging roller metal bar location, thimble (10) level is placed and is extended to be located in the middle of the portion of pressing from both sides of chuck (9) of pulling out, still including the drive thimble drive cylinder (101) of thimble (10) along X axle direction horizontal migration.

10. The charge roller cutting and pulling head all-in-one machine according to any one of claims 1 to 9, wherein: the material collecting box (3) is located in the middle of the workbench (1), the charging roller feeding station, the charging roller cutting station, the charging roller head pulling station, the feeding frame (4) and the control box (2) are respectively provided with two parts which are symmetrically arranged on the front side and the rear side of the material collecting box (3).

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