CN210549487U - Cutting and shaping all-in-one machine for charging roller - Google Patents

Abstract

The utility model relates to a printing apparatus assembles technical field, especially relates to a roller cutting and plastic all-in-one charges. In the prior art, each machining process of the charging roller is completed through an independent tool clamp and is manually operated, so that the machining efficiency is low, and the machining precision is low. For solving above problem, the technical scheme who adopts is a roller cutting and plastic all-in-one charges, including the workstation be equipped with roller material loading station, the roller cutting station that charges, the roller that charges pull out the head station, the roller that charges binding off the station, the roller that charges unloading station and the roller that charges on the workstation in proper order rub cotton station, still include the conveying plate subassembly that the roller that charges that realizes that removes between roller material loading station and the roller that charges unloading station conveyed in proper order. The utility model discloses realize automatic feeding, automatic cut, the automatic unnecessary material that will charge the roller both ends pull out from, accomplish the heating binding off process, automatic unloading and the automatic rounding at roller both ends of charging to charge roller both ends automatically in the roller both ends of charging, improved work efficiency.

Description

Cutting and shaping all-in-one machine for charging roller

Technical Field

The utility model relates to a printing apparatus assembles technical field, especially relates to a roller cutting and plastic 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 efficiency and the processing precision are improved by the method, the clamp is simple in structure and still needs manual operation to realize cutting and head pulling, and in addition, other clamps are needed for closing, rounding and other processes after the cutting and head pulling, and the production efficiency is still not ideal.

SUMMERY OF THE UTILITY MODEL

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

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

the utility model provides a roller cutting and plastic all-in-one charges, includes the workstation be equipped with the roller material loading station that charges in proper order on the workstation, the roller cutting station charges, the roller that charges pulls out the head station, the roller that charges binding off station, the roller that charges unloading station and the roller that charges rub cotton station, still include the conveying plate subassembly that the roller that charges that realizes that removes between roller material loading station and the roller that charges unloading station transmitted in proper order.

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 feeding frame and a feeding driving cylinder for driving the feeding frame to move along the Z-axis direction, the feeding frame extends into the opening in the bottom end of the inclined bottom plate to move in the vertical direction, a feeding groove is formed in the top of the feeding frame, the charging roller feeding station further comprises a seat to be processed, which is arranged on the front side of the top of the material box and inclines downwards, a groove for placing the charging roller is formed in the seat to be processed, and the charging roller in the material box is conveyed upwards when the feeding frame moves upwards and slides into the groove to be processed through the seat to be processed to wait for.

Preferably, the roller cutting station that charges includes cutting assembly and the first fixed subassembly of the roller that charges, cutting assembly including can dismantle the first mount of fixing on the workstation, along the removal frame that first mount reciprocated and the drive remove the frame drive actuating cylinder, remove the frame with remove the frame drive actuating cylinder's piston rod and be connected remove and install two blade subassemblies in the last detachably of frame, the first fixed subassembly of the roller that charges includes left side mount subassembly and right side mount subassembly.

Preferably, left side fixing base subassembly includes that left side fixing base, drive left side that the left side fixing base removed and drive the location pivot that the cylinder was used for the roller location of charging on the left side fixing base of installation, right side fixing base subassembly includes that right side fixing base and drive right side fixing base remove and drive the cylinder, still including being located driving motor on the right side fixing base and with driving motor's output shaft fixed connection's location pivot.

Preferably, the roller of charging pulls out the first station and includes the pulling out the first subassembly that bilateral symmetry set up, the pulling out the first subassembly includes pulling out the first chuck, drive the opening and shutting of pulling out the first chuck and driving cylinder and drive horizontal migration's chuck drives the cylinder about the pulling out the first chuck is along.

Preferably, the roller that charges pulls out head station still includes the locating component that pulls out the head, pull out head locating component including dismantling to fix second mount on the workstation, install the first locating rack that pulls out on the second mount and drive actuating cylinder and with the first locating rack that pulls out that the piston rod that the first locating rack drove actuating cylinder is connected.

Preferably, the roller binding off station that charges includes the heating binding off subassembly that bilateral symmetry set up, the heating binding off subassembly includes copper sheathing fixing base, demountable installation heating copper sheathing and drive on the copper sheathing fixing base the copper sheathing that removes about the copper sheathing fixing base drives actuating cylinder, still includes thimble locating component, thimble locating component includes the thimble fixing base, installs the level on the thimble fixing base and places and pass the thimble and the drive of heating copper sheathing the thimble that removes about the thimble fixing base drives actuating cylinder.

Preferably, the charging roller blanking station comprises a material box with a built-in inclined bottom plate, the inclined bottom plate inclines downwards from the charging roller closing-up station to the charging roller cotton kneading station, an opening is formed in the bottom end of the inclined bottom plate, the charging roller cotton kneading station further comprises a feeding frame and a feeding driving air cylinder for driving the feeding frame to move along the Z-axis direction, the feeding frame extends into the opening in the bottom end of the inclined bottom plate to move in the vertical direction, a feeding groove is formed in the top of the feeding frame, a material guide plate inclining downwards towards the interior of the material box is arranged on one side, close to the charging roller closing-up station, of the material box, and a material guide plate inclining downwards towards the exterior of the material box is arranged on one side, close to the charging roller cotton kneading station.

Preferably, the charging roller cotton kneading station comprises an upper fixed plate, a lower moving plate, an upper fixed plate driving cylinder for driving the upper fixed plate to move in the vertical direction, and a lower moving plate driving cylinder for driving the lower moving plate to move back and forth.

Preferably, the roller material loading station charges, the roller cutting station charges, the roller of charging pulls out the head station, the roller of charging binding off station and the roller of charging unloading between the station is the same, the conveying board subassembly includes conveying board and drive conveying board that the conveying board reciprocated drives actuating cylinder and drive perpendicularly the conveying board of conveying board back-and-forth movement drives actuating cylinder around the conveying board, it has parallel arrangement's four conveying recesses to open on the conveying board, and is adjacent the interval of conveying recess is the same with adjacent station interval.

The utility model has the advantages that:

the utility model provides a roller cutting and plastic all-in-one charges realizes autoloading, cuts, pulls out the unnecessary material at roller both ends that charges automatically, accomplishes the process of the heating binding off process, automatic unloading and the automatic rounding at roller both ends of charging automatically to the roller both ends of charging, has improved work efficiency, reduces the risk that staff's maloperation caused the harm.

Drawings

Fig. 1 is a schematic structural view of a cutting and shaping integrated machine for a charging roller according to the present invention;

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

fig. 3 is a schematic view of a partial structure of the present invention.

The numbers in the figures are as follows:

a work table 10; a material box 11; an inclined floor 12; a feeding frame 13; a feed chute 131; a feeding driving cylinder 14; a seat to be processed 15; a material guide plate 16; a first fixing frame 21; a moving frame 22; the moving frame driving cylinder 23; a blade assembly 24; a blade seat 241; a blade 242; a left side fixing seat 31; a left side drive cylinder 32; a positioning rotating shaft 33; a right side fixing seat 34; a right side drive cylinder 35; a drive motor 35; a pullout collet 41; an opening and closing drive cylinder 42; a chuck driving cylinder 43; a second fixing frame 51; a head-pulling positioning frame 52; the head-pulling positioning frame drives the cylinder 53; a copper bush fixing seat 61; heating the copper sleeve 62; a copper bush drive cylinder 63; a thimble fixing seat 64; a thimble 65; the thimble drives the air cylinder 66; an upper fixing plate 71; a lower moving plate 72; an upper fixing plate driving cylinder 73; a lower moving plate driving cylinder 74; a transfer plate 81; the transfer groove 811.

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.

The structure of the cutting and shaping machine for the charging roller of the present invention as shown in fig. 1 to 3 is schematically illustrated, which comprises a worktable 10, a moving wheel with a locking function is installed at the bottom of the worktable 10, a charging roller feeding station, a charging roller cutting station, a charging roller head pulling station, a charging roller closing station, a charging roller discharging station and a charging roller cotton kneading station are sequentially arranged on the workbench 10, the stations are arranged in parallel, and the device also comprises a conveying plate assembly which moves between a charging roller feeding station and a charging roller discharging station and realizes the sequential conveying of the charging rollers, the conveying plate assembly conveys a charging roller of a charging roller feeding station to a charging roller cutting station, conveys a charging roller of the charging roller cutting station to a charging roller head pulling station, conveys the charging roller of the charging roller head pulling station to a charging roller closing-up station and conveys the charging roller of the charging roller closing-up station to a charging roller blanking station.

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 utility model discloses a wait to process the roller that charges and sheathe semi-manufactured goods of electrically conductive sponge and rubber sleeve promptly, the course of working as follows:

placing the semi-finished products in the material box 11, and sequentially conveying the semi-finished products of the charging roller positioned in the material box 11 outwards by a charging roller feeding station; the charging roller cutting station cuts two ends of the charging roller; the charging roller head pulling station pulls out the redundant materials at the two ends of the charging roller which is cut; heating the rubber sleeves at two ends of the charging roller by a charging roller closing station to enable the rubber sleeves to shrink so as to achieve a fixing effect; the charging roller blanking station transmits the charging roller which is heated and fixed to the charging roller cotton kneading station; the roller that charges rubs cotton station and rolls the periphery circumference of charging roller and rubs, makes outward appearance and size accord with the assembly requirement, and the conveying of charging roller between adjacent station is realized through conveying board subassembly.

In this embodiment, the charging roller feeding station includes a material box 11 with a built-in inclined bottom plate 12, an opening is formed in the bottom end of the inclined bottom plate 12, the charging roller feeding station further includes a feeding frame 13 and a feeding driving cylinder 14 for driving the feeding frame 13 to move along the Z-axis direction, the feeding frame 13 extends into the opening in the bottom end of the inclined bottom plate 12 to move in the vertical direction, a feeding groove 131 is formed in the top of the feeding frame 13, the charging roller feeding station further includes a seat to be processed 15 which is arranged on the front side of the top of the material box 11 and is inclined downward, a groove for placing the charging roller is formed in the seat to be processed 15, and when the feeding frame 13 moves upward, the charging roller inside the material box 11 is conveyed upward and slides into the groove through the seat to be processed 15 to wait for.

In this embodiment, the charge roller cutting station includes a cutting assembly and a first fixed assembly of a charge roller, the cutting assembly includes a first fixed frame 21 detachably fixed on the worktable 10, a movable frame 22 moving up and down along the first fixed frame 21, and a movable frame driving cylinder 23 driving the movable frame 22, the movable frame 22 is connected with a piston rod of the movable frame driving cylinder 23, two blade assemblies 24 are detachably mounted on the movable frame 22, and the first fixed assembly of the charge roller includes a left fixed seat assembly and a right fixed seat assembly.

The blade assembly 24 includes a blade holder 241 and a blade 242 removably mounted to the blade holder 241.

In this embodiment, the left side fixing base subassembly includes left side fixing base 31, drives left side fixing base 31 and removes the left side drive cylinder 32 that removes and install the location pivot 33 that is used for the roller location that charges on the left side fixing base 31, the right side fixing base subassembly includes right side fixing base 34 and drives right side fixing base 34 and remove the right side drive cylinder 35 that removes, still including being located driving motor 36 on the right side fixing base 34 and with driving motor 36's output shaft fixed connection's location pivot 33.

The roller that charges that the processing was treated to left side fixing base subassembly and right side fixing base subassembly in the first fixed subassembly of roller that charges plays the positioning action, and wherein, the location pivot 33 that is located left side fixing base subassembly can rotate for left side fixing base 31, and the location pivot 33 that is located right side fixing base subassembly rotates under driving motor 36's drive with driving motor's output shaft fixed connection. When the charging roller to be processed reaches the cutting station of the charging roller, the left fixing seat 31 and the right fixing seat 34 respectively move in opposite directions under the driving of the left driving motor 32 and the right driving motor 35, the charging roller is positioned by the positioning rotating shaft 33, the driving motor 36 positioned on the right fixing seat component drives the charging roller to rotate, meanwhile, the blade assembly 24 moves downwards under the driving of the moving frame driving cylinder 23, and annular cutting is carried out on the charging roller in rotation.

In this embodiment, the charge roller chuck pulling station includes the chuck components that bilateral symmetry set up, the chuck components include chuck 41, the drive the chuck 41 opens and shuts drive cylinder 42 and drive the chuck of chuck 41 along left and right horizontal migration drives cylinder 43 that opens and shuts.

In this embodiment, the roller that charges pulls out head station still includes the locating component that pulls out the head, pull out the head locating component including dismantling to fix second mount 51 on the workstation 10, install the pull out the head locating rack on second mount 51 drive actuating cylinder 53 and with the pull out the head locating rack 52 that the piston rod that the head locating rack driven actuating cylinder 53 is connected, the roller that charges that the roller that pulls out the head station will accomplish the cutting pulls out the head, pulls out from the unnecessary material that is located the roller both ends that charges, makes the metal rod stretch out electrically conductive sponge and rubber sleeve to accomplish normal work.

In this embodiment, the roll binding off station that charges includes the heating binding off subassembly that bilateral symmetry set up, the heating binding off subassembly includes copper sheathing fixing base 61, demountable installation in heating copper sheathing 62 and drive on the copper sheathing fixing base 61 the copper sheathing that removes about copper sheathing fixing base 61 drives actuating cylinder 63, still includes thimble locating component, thimble locating component includes thimble fixing base 64, installs the level on thimble fixing base 64 and places and pass heating copper sheathing 62's thimble 65 and drive the thimble that removes about thimble fixing base 64 drives actuating cylinder 66, the diameter of thimble 10 is 2.5mm for the location of the roll metal bar that charges.

In this embodiment, the charging roller blanking station includes a material box 11 with a built-in inclined bottom plate 12, the inclined bottom plate 12 is inclined downwards from the charging roller closing-up station to the charging roller cotton kneading station, an opening is formed in the bottom end of the inclined bottom plate 12, the charging roller cotton kneading station further includes a feeding frame 13 and a feeding driving cylinder 14 for driving the feeding frame 13 to move along the Z-axis direction, the feeding frame 13 extends into the opening in the bottom end of the inclined bottom plate 12 to move in the vertical direction, a feeding chute 131 is formed in the top of the feeding frame 13, a material guide plate 16 inclined downwards towards the inside of the material box 11 is arranged on one side of the material box 11 close to the charging roller closing-up station, and a material guide plate 16 inclined downwards towards the outside of the material box 11 is arranged on one side of the material box 11 close to the charging roller cotton.

In this embodiment, the charging roller kneading station includes an upper fixed plate 71, a lower movable plate 72, an upper fixed plate driving cylinder 73 for driving the upper fixed plate 71 to move vertically, and a lower movable plate driving cylinder 74 for driving the lower movable plate 72 to move forward and backward.

The charging roller cotton kneading station is that a charging roller to be rounded is placed on a lower moving plate 72, an upper fixed plate 71 moves towards the lower moving plate 72 under the driving of an upper fixed plate driving cylinder 73 and stops at a specified position, so that the distance between the upper fixed plate 71 and the lower moving plate 72 is within the allowable tolerance of the external diameter dimension of the charging roller, and the lower moving plate 72 is driven by a lower moving plate driving cylinder 74 to repeatedly move back and forth for a plurality of times, so that uniform radial force is provided for the charging roller between the upper fixed plate 71 and the lower moving plate 72, the roundness of the charging roller is improved, and the using effect is ensured.

In this embodiment, the distances between the charging roller feeding station, the charging roller cutting station, the charging roller pulling station, the charging roller closing station and the charging roller discharging station are the same, that is, the center distances of the charging rollers located at adjacent stations are the same, and the distance of each movement is the same, the conveying plate assembly comprises a conveying plate 81, a conveying plate vertical driving cylinder for driving the conveying plate 81 to move up and down, and a conveying plate front and rear driving cylinder for driving the conveying plate 81 to move back and forth, four conveying grooves 811 arranged in parallel are formed in the conveying plate 81, the distance between adjacent conveying grooves 811 is the same as the distance between adjacent stations, when the charging rollers to be processed are all located at the charging roller feeding station, the charging roller cutting station, the charging roller pulling station and the charging roller closing station, the conveying plate 81 can transfer the charging rollers on the stations to the next station by one-time conveying, the charging roller located at the charging roller feeding station is conveyed to the charging roller cutting station, the charging roller located at the charging roller cutting station is conveyed to the charging roller head pulling station, the charging roller located at the charging roller head pulling station is conveyed to the charging roller closing-up station, and the charging roller located at the charging roller closing-up station is conveyed to the charging roller blanking station, so that the processing efficiency is improved.

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 plastic all-in-one charges which characterized in that: including workstation (10) be equipped with the roller that charges material loading station in proper order on workstation (10), the roller that charges cuts the station, the roller that charges pulls out the head station, the roller that charges binding off the station, the roller that charges unloading station and the roller that charges rub cotton station, still include the conveying plate subassembly that the roller that charges that realizes that removes between roller material loading station and the roller that charges unloading station transmitted in proper order.

2. The charge roller cutting and shaping all-in-one machine according to claim 1, wherein: the charging roller feeding station comprises a material box (11) internally provided with an inclined bottom plate (12), an opening is formed in the bottom end of the inclined bottom plate (12), the charging roller feeding station further comprises a feeding frame (13) and a feeding driving cylinder (14) for driving the feeding frame (13) to move along the Z-axis direction, the feeding frame (13) extends into the opening in the bottom end of the inclined bottom plate (12) to move in the vertical direction, a feeding groove (131) is formed in the top of the feeding frame (13), the charging roller feeding station further comprises a seat (15) to be machined, wherein the seat (15) to be machined is arranged on the front side of the top of the material box (11) and inclines downwards, a groove for placing the charging roller is formed in the seat (15) to be machined, and when the feeding frame (13) moves upwards, the charging roller in the material box (11) is conveyed upwards and slides into the groove to be machined to wait.

3. The charge roller cutting and shaping all-in-one machine according to claim 1, wherein: the roller cutting station that charges includes cutting assembly and the first fixed subassembly of the roller that charges, cutting assembly is including dismantling first mount (21) of fixing on workstation (10), along removal frame (22) that first mount (21) reciprocated and drive removal frame actuating cylinder (23) of frame (22), remove frame (22) with the piston rod that removes frame actuating cylinder (23) is connected two blade subassembly (24) are installed to detachably on removing frame (22), the first fixed subassembly of the roller that charges includes left side mount subassembly and right side mount subassembly.

4. The charge roller cutting and shaping all-in-one machine according to claim 3, wherein: the left side fixing base assembly comprises a left side fixing base (31), a left side driving cylinder (32) for driving the left side fixing base (31) to move left and right and a positioning rotating shaft (33) for positioning a charging roller, wherein the left side driving cylinder (32) is used for installing the left side fixing base (31), the right side fixing base assembly comprises a right side fixing base (34) and a right side driving cylinder (35) for driving the right side fixing base (34) to move left and right, and the right side fixing base assembly further comprises a driving motor (36) arranged on the right side fixing base (34) and a positioning rotating shaft (33) fixedly connected with an output shaft.

5. The charge roller cutting and shaping all-in-one machine according to claim 1, wherein: the roller that charges pulls out the head station includes the pulling head subassembly that bilateral symmetry set up, the pulling head subassembly includes pulling head chuck (41), drive pulling head chuck (41) open and shut drive actuating cylinder (42) and drive that open and shut pull head chuck (41) horizontal migration's chuck drive actuating cylinder (43) about along.

6. The charge roller cutting and shaping all-in-one machine according to claim 5, wherein: the roller that charges pulls out head station still includes the locating component that pulls out the head, pull out the head locating component including dismantling to be fixed second mount (51) on workstation (10), install the pull out the head locating rack on second mount (51) and drive actuating cylinder (53) and with pull out head locating rack (52) that the piston rod of head locating rack drive actuating cylinder (53) is connected.

7. The charge roller cutting and shaping all-in-one machine according to claim 1, wherein: charging roller binding off station includes the heating binding off subassembly that bilateral symmetry set up, the heating binding off subassembly includes copper sheathing fixing base (61), demountable installation heating copper sheathing (62) and drive on copper sheathing fixing base (61) the copper sheathing that removes about copper sheathing fixing base (61) drives actuating cylinder (63), still includes thimble locating component, thimble locating component includes thimble fixing base (64), installs the level on thimble fixing base (64) and places and pass thimble (65) and the drive of heating copper sheathing (62) the thimble that removes about thimble fixing base (64) drives actuating cylinder (66).

8. The charge roller cutting and shaping all-in-one machine according to claim 1, wherein: the charging roller blanking station comprises a material box (11) internally provided with an inclined bottom plate (12), the inclined bottom plate (12) is inclined downwards from the charging roller closing station to the charging roller cotton kneading station, the bottom end of the inclined bottom plate (12) is provided with an opening, the inclined bottom plate further comprises a feeding rack (13) and a feeding driving cylinder (14) for driving the feeding rack (13) to move along the Z-axis direction, the feeding frame (13) extends into the opening at the bottom end of the inclined bottom plate (12) to move in the vertical direction, a feeding groove (131) is arranged at the top of the feeding frame (13), a material guide plate (16) which inclines downwards towards the interior of the material box (11) is arranged at one side of the material box (11) close to the charging roller closing station, and a material guide plate (16) which inclines downwards towards the outside of the material box (11) is arranged on one side of the material box (11) close to the charging roller cotton kneading station.

9. The charge roller cutting and shaping all-in-one machine according to claim 1, wherein: the charging roller cotton kneading station comprises an upper fixed plate (71), a lower movable plate (72), an upper fixed plate driving cylinder (73) for driving the upper fixed plate (71) to move in the vertical direction, and a lower movable plate driving cylinder (74) for driving the lower movable plate (72) to move back and forth.

10. The charge roller cutting and shaping all-in-one machine according to any one of claims 1 to 9, wherein: the utility model discloses a roller feeding station, charging roller cutting station, the roller of charging pull out the station, the roller of charging binding off station and the roller of charging unloading station between the interval the same, conveying board subassembly is including conveying board (81) and drive conveying board that conveying board (81) reciprocated drives actuating cylinder and drive perpendicularly conveying board that conveying board (81) reciprocated drives actuating cylinder around the conveying board of conveying board (81) back-and-forth movement, four conveying recess (811) that have parallel arrangement are opened on conveying board (81), and are adjacent conveying recess (811)'s interval is the same with adjacent station interval.

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