CN110884099A

CN110884099A - Cleaning device of disk-shaped part taping machine

Info

Publication number: CN110884099A
Application number: CN201911279123.2A
Authority: CN
Inventors: 王海锋
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-13
Filing date: 2019-12-13
Publication date: 2020-03-17

Abstract

The invention belongs to the technical field of household appliance production and manufacturing, and particularly relates to a cleaning device of a disc part covering machine, which comprises a scraping plate and an oil receiving groove, wherein the scraping plate is arranged along the radial reciprocating motion of a lower die, the oil receiving groove is arranged below the scraping plate, a second linkage mechanism is arranged between the scraping plate and a lifting mechanism, the second linkage mechanism is assembled in the lifting process of an upper die, the scraping plate can be driven to move to the upper side of the lower die from the side of the lower die and be attached to the edge of a disc part on the lower die when the upper die is lifted for a first stroke, and the scraping plate can be driven to return to the side of the lower die from. The cleaning device realizes the linkage design with the original driving part of the edge covering device, namely, the cleaning device automatically extends out when the upper die of the edge covering device ascends, and the upper die can continuously ascend and can drive the cleaning device to automatically withdraw after the cleaning is finished so as to facilitate the subsequent discharging operation, so that an additional driving part is not required to be arranged, the control flow is simplified, and the equipment cost is saved.

Description

Cleaning device of disk-shaped part taping machine

Technical Field

The invention belongs to the technical field of household appliance production and manufacturing, and particularly relates to a cleaning device of a disc-shaped part edge covering machine.

Background

The roll press type edge covering machine is generally used for edge covering operation of disc parts, such as assembly between a wave wheel core body and a surface metal covering piece of a washing machine. Before rolling and forming, lubricating oil needs to be coated on the edge of a workpiece to be machined so as to reduce abrasion of the workpiece caused by the pressing roller, and after edge covering of the workpiece is completed, the lubricating oil needs to be erased so as to prevent the lubricating oil from polluting downstream equipment. In the prior art, manual operation is generally adopted in the oiling and cleaning processes, the operation speed is low, the uniformity of lubricating oil is poor, and the processing efficiency and the processing quality are seriously influenced.

Disclosure of Invention

The invention aims to provide a cleaning device of a disc-shaped part edge covering machine, which can automatically clean lubricating oil of the edge covering machine.

The technical scheme adopted by the invention is as follows:

a cleaning device of a disc part taping machine comprises an upper die, a lower die and a taping roller set, wherein the upper die is rotatably arranged on a lifting mechanism along a vertical axis, the lower die is rotatably arranged above a workbench, at least one of the upper die and the lower die is connected with a driving unit, the lower die and the upper die are coaxially arranged, the taping roller set is rotatably arranged on a telescopic mechanism which is arranged at the side of the lower die along the radial direction of the lower die, the cleaning device comprises a scraping plate which is arranged along the radial reciprocating motion of the lower die and an oil receiving groove which is arranged below the scraping plate, a second linkage mechanism is arranged between the scraping plate and the lifting mechanism, the second linkage mechanism is assembled to drive the scraping plate to move from the side of the lower die to the upper side of the lower die and be attached to the edge of a disc part on the lower die when the upper die lifts a first stroke, and drive the scraping plate to return to the lower die from the upper die to the, wherein the second stroke is subsequent to the first stroke.

The second linkage mechanism comprises a second sliding block and a second driving block, the second sliding block is arranged on the second support in a radial sliding mode along the lower die, the scraping plate is installed on the second sliding block, the second driving block is fixedly connected with the lifting mechanism, a second reversing mechanism is arranged between the second driving block and the second sliding block, and the second reversing mechanism is assembled to convert vertical lifting action of the second driving block into horizontal reciprocating motion of the second sliding block.

The second reversing mechanism comprises a second swing rod rotatably arranged on the second support, the swing end of the second swing rod is in sliding pin joint with a second strip-shaped hole vertically arranged on the second sliding block through a pin shaft, a second one-way transmission mechanism is arranged between a rotating shaft of the second swing rod and the second driving block, the second one-way transmission mechanism is assembled to drive the second swing rod to rotate when the second driving block goes upward, and the second swing rod is not driven to rotate when the second driving block goes downward.

The second unidirectional transmission mechanism comprises a second driving lever, a second pawl and a second ratchet wheel, the second driving lever is pivoted with a rotating shaft of the second ratchet wheel, the second pawl is pivoted on the second driving lever, a second elastic unit is arranged between the second pawl and the second driving lever, the second elastic unit is assembled into a structure that the elasticity of the second elastic unit can drive the second pawl to be tightly attached to the wheel surface of the second ratchet wheel, the second ratchet wheel and the second pawl are assembled into a structure that the second ratchet wheel can be driven to rotate only when the second driving lever swings from bottom to top, and the swinging end of the second driving lever is slidably pivoted with a second kidney-shaped hole horizontally arranged on the second driving block through a pin shaft; the second ratchet wheel and the second swing rod form transmission fit.

And a second accelerating gear set is arranged between the second ratchet wheel and the second swing rod, and the second accelerating gear set is assembled to ensure that the second swing rod just rotates 360 degrees in the process that the second driving lever swings from the lowest design station to the highest design station.

The second accelerating gear set comprises a second driving gear and a second driven gear which are meshed with each other, the second driving gear is coaxially and fixedly connected with a second ratchet wheel, the second driven gear is coaxially and fixedly connected with a second swing rod, the swing angle of the second driving lever from the lowest design station to the highest design station is 90 degrees, and the gear ratio of the second driving gear to the second driven gear is 4: 1.

The upper die comprises a ring die and a core die which are arranged in a split mode, the core die is located in a center hole of the ring die, the ring die is rotatably connected with the lifting mechanism, the core die is in sliding connection with the ring die along the vertical direction, a pressure spring is arranged between the core die and the ring die, and the core die protrudes downwards out of the lower end face of the ring die under the action of the pressure spring in a normal state.

And a second floating mechanism is also arranged between the scraper and the second sliding block, and the second floating mechanism is assembled to be capable of lifting the scraper and keeping a distance in the translation process of the scraper and then falling to the original height.

The second floating mechanism comprises a scraper support and a second arched stop dog, the scraper support and the second sliding block form sliding fit along the vertical direction, a second elastic element is arranged between the scraper support and the second sliding block, the second elastic element is assembled to enable the scraper support to move downwards relative to the second sliding block, two inclined planes which are arranged in a reversed splayed shape or a V shape are arranged at the bottom of the scraper support, and the second arched stop dog is located on the translation path of the two inclined planes.

The scraper blade is made by elastic material, one side of scraper blade is equipped with leads the oil groove, lead the oil groove and extend to the scraper blade and keep away from the one end at lower mould center and be equipped with the overflow mouth at this end, connect the oil groove to cover the whole motion path of scraper blade overflow mouth along the projection of vertical direction.

The invention has the technical effects that: the cleaning device realizes the linkage design with the original driving part of the edge covering device, namely, the cleaning device automatically extends out when the upper die of the edge covering device ascends, and the upper die can continuously ascend and can drive the cleaning device to automatically withdraw after the cleaning is finished so as to facilitate the subsequent discharging operation, so that an additional driving part is not required to be arranged, the control flow is simplified, and the equipment cost is saved.

Drawings

FIG. 1 is a bottom view of a cleaning device provided by an embodiment of the present invention;

fig. 2 is a front view of a cleaning apparatus provided by an embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As shown in fig. 1 and 2, a cleaning device of a disc part taping machine comprises an upper die 11, a lower die 12 and a taping roller set 16, wherein the upper die 11 is rotatably arranged on a lifting mechanism 14 along a vertical axis, the lower die 12 is rotatably arranged above a workbench, at least one of the upper die 11 and the lower die 12 is connected with a driving unit 15, the driving unit 15 is used for driving the upper die 11 or the lower die 12 to rotate, the lower die 12 is coaxially arranged with the upper die 11, the taping roller set 16 is rotatably arranged on a telescopic mechanism 17 which is movably arranged at the side of the lower die 12 along the radial direction of the lower die 12, the cleaning device comprises a scraping plate 30 which is arranged along the radial direction of the lower die 12 in a reciprocating way and an oil receiving groove 31 which is arranged below the scraping plate 30, a second linkage mechanism 34 is arranged between the scraping plate 30 and the lifting mechanism 14, the second linkage mechanism 34 is assembled in the lifting process, the scraper 30 can be driven to move from the side of the lower die 12 to the upper side of the lower die 12 and be attached to the edge of the disc-shaped part on the lower die 12 when the upper die 11 is lifted by a first stroke, and the scraper 30 can be driven to return to the side of the lower die 12 from the upper side of the lower die 12 when the upper die 11 is lifted by a second stroke, wherein the second stroke is behind the first stroke. The cleaning device realizes the linkage design with the original driving part of the edge covering device 1, namely, the cleaning device automatically extends out when the upper die 11 of the edge covering device 1 moves upwards, and after the cleaning is finished, the upper die 11 can continuously move upwards and can drive the cleaning device to automatically withdraw so as to facilitate the subsequent discharging operation, no additional driving part is needed to be arranged, the control flow is simplified, and the equipment cost is saved.

The second linkage mechanism 34 includes a second slider 32 and a second driving block 33, the second slider 32 is arranged on the second bracket 340 in a sliding manner along the radial direction of the lower die 12, the scraper 30 is mounted on the second slider 32, the second driving block 33 is fixedly connected with the lifting mechanism 14, a second reversing mechanism is arranged between the second driving block 33 and the second slider 32, and the second reversing mechanism is assembled to be capable of converting the vertical lifting action of the second driving block 33 into the horizontal reciprocating motion of the second slider 32. The second reversing mechanism comprises a second swing rod 341 rotatably arranged on the second bracket 340, the swing end of the second swing rod 341 is slidably pivoted with a second strip-shaped hole vertically arranged on the second slider 32 through a pin shaft, a second one-way transmission mechanism is arranged between the rotating shaft of the second swing rod 341 and the second driving block 33, the second one-way transmission mechanism is assembled to drive the second swing rod 341 to rotate when the second driving block 33 moves upwards, and the second swing rod 341 is not driven to rotate when the second driving block 33 moves downwards. The second unidirectional transmission mechanism comprises a second driving lever 344, a second pawl 345 and a second ratchet wheel 346, the second driving lever 344 is pivoted with a rotating shaft of the second ratchet wheel 346, the second pawl 345 is pivoted on the second driving lever 344, a second elastic unit is arranged between the second pawl 345 and the second driving lever 344, the second elastic unit is assembled into a structure that the elastic force of the second elastic unit can drive the second pawl 345 to be tightly attached to the wheel surface of the second ratchet wheel 346, the second ratchet wheel 346 and the second pawl 345 are assembled into a structure that the second ratchet wheel 346 can be driven to rotate only when the second driving lever 344 swings from bottom to top, and the swinging end of the second driving lever 344 is slidably pivoted with a second kidney-shaped hole horizontally arranged on the second driving block 33 through a pin shaft; the second ratchet wheel 346 is in transmission fit with the second swing link 341. A second accelerating gear set is arranged between the second ratchet wheel 346 and the second swing link 341, and the second accelerating gear set is assembled to rotate the second swing link 341 by exactly 360 degrees in the process that the second shift lever 344 swings from the lowest design station to the highest design station. The second accelerating gear set comprises a second driving gear 343 and a second driven gear 342 which are meshed with each other, the second driving gear 343 is coaxially and fixedly connected with a second ratchet 346, the second driven gear 342 is coaxially and fixedly connected with a second swing rod 341, the swing angle of the second shift lever 344 from the lowest design station to the highest design station is 90 degrees, and the gear ratio of the second driving gear 343 to the second driven gear 342 is 4: 1. The specific working principle of the second linkage 34 is as follows: when the upper die 11 moves upwards, the lifting mechanism 14 drives the second driving block 33 to synchronously move upwards, the second driving block 33 drives the second shift lever 344 to swing, the second shift lever 344 sequentially drives the second ratchet 346, the second driving gear 343, the second driven gear 342 and the second swing link 341 to move, so that the second swing link 341 swings 180 degrees, in the process, the second swing link 341 drives the second slider 32 to slide towards the center of the lower die 12 and reach the station shown in fig. 2, and at this time, the scraper 30 is attached to the edge of the surface of the workpiece; at this time, the lifting mechanism 14 is controlled to pause ascending, then the workpiece is rotated for a circle, so that the workpiece is circumferentially cleaned, finally the lifting mechanism 14 is controlled to ascend again, the second driving block 33 drives the second oscillating bar 341 to oscillate for 180 degrees again, and the second slider 32 is reset under the driving of the second oscillating bar 341 in the process; finally, the upper die 11 is sufficiently separated from the surface of the workpiece.

Preferably, the upper die 11 includes a ring die 111 and a core die 112 which are separately arranged, the core die 112 is located in a central hole of the ring die 111, the ring die 111 is rotatably connected with the lifting mechanism 14, the core die 112 is slidably connected with the ring die 111 along a vertical direction, a pressure spring 13 is arranged between the core die 112 and the ring die 111, and the core die 112 protrudes downwards from a lower end surface of the ring die 111 under the action of the pressure spring 13 in a normal state. In this embodiment, the driving unit 15 is installed on the lifting mechanism 14 and drives the upper mold 11 to rotate, and the driving unit 15 is a motor. The ring die 111 and core die 112 are assembled so that when the flight 30 engages the edge of the disc-like part during upward travel of the elevator mechanism 14, the core die 112 has not yet been separated from the disc-like part to facilitate rotation of the workpiece for self-cleaning.

A second floating mechanism is further disposed between the scraper 30 and the second slider 32, and the second floating mechanism is configured to lift the scraper 30 and maintain a distance during the translation of the scraper 30, and then fall to the original height. Specifically, second floating mechanism includes scraper blade support 301 and second arch dog 302, scraper blade support 301 constitutes sliding fit along vertical direction and second slider 32, and is equipped with second elastic element 303 between scraper blade support 301 and the second slider 32, second elastic element 303 is assembled for its elasticity can order about scraper blade support 301 for second slider 32 downstream, and second elastic element 303 is the extension spring, and scraper blade support 301 bottom is equipped with two inclined planes that are the splayed or V-arrangement, second arch dog 302 is located the translation route on two inclined planes. The second floating mechanism can keep the scraper 30 in a lifting state in the process of reciprocating between the oil receiving groove 31 and the edge of the workpiece, and avoids the scraper 30 from interfering with the side wall of the oil receiving groove 31 and the side edge of the workpiece.

The scraper 30 is made of an elastic material, one side of the scraper 30 is provided with an oil guide groove 304, the oil guide groove 304 extends to one end of the scraper 30 far away from the center of the lower die 12 and is provided with an overflow port 305 at the end, and the projection of the oil receiving groove 31 along the vertical direction covers the whole moving path of the overflow port 305 of the scraper 30.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The utility model provides a cleaning device of disk part taping machine, disk part taping machine includes mould (11), lower mould (12) and bordure roller set (16), it rotates along vertical axis to set up on an elevating system (14) to go up mould (11), lower mould (12) rotate to set up in the workstation top, go up at least one of them and link to each other with drive unit (15) in mould (11) and lower mould (12), lower mould (12) and last mould (11) coaxial setting, bordure roller set (16) rotate to set up on telescopic machanism (17) that lower mould (12) radial activity set up is followed to lower mould (12) side, its characterized in that: cleaning device includes scraper blade (30) along lower mould (12) radial reciprocating motion setting to and scraper blade (30) below set up connect oil groove (31), be equipped with second link gear (34) between scraper blade (30) and elevating system (14), second link gear (34) are assembled for in last mould (11) lifting process, can drive scraper blade (30) and move to lower mould (12) top and with the disc part edge laminating on lower mould (12) from lower mould (12) side when going up mould (11) lifting first stroke, and can drive scraper blade (30) and return to lower mould (12) side from lower mould (12) top when going up mould (11) lifting second stroke, wherein the second stroke is located after the first stroke.

2. A cleaning device for a machine for covering edges of disc-shaped parts according to claim 1, characterized in that: the second linkage mechanism (34) comprises a second sliding block (32) and a second driving block (33), the second sliding block (32) is arranged on a second support (340) in a radial sliding mode along the lower die (12), the scraping plate (30) is installed on the second sliding block (32), the second driving block (33) is fixedly connected with the lifting mechanism (14) relatively, a second reversing mechanism is arranged between the second driving block (33) and the second sliding block (32), and the second reversing mechanism is assembled to convert the vertical lifting action of the second driving block (33) into the horizontal reciprocating motion of the second sliding block (32).

3. A cleaning device for a machine for covering edge-covering disc-like parts according to claim 2, characterized in that: the second reversing mechanism comprises a second swing rod (341) rotatably arranged on the second support (340), the swing end of the second swing rod (341) is in sliding pivot joint with a second strip-shaped hole vertically arranged on the second sliding block (32) through a pin shaft, a second one-way transmission mechanism is arranged between a rotating shaft of the second swing rod (341) and the second driving block (33), the second one-way transmission mechanism is assembled to be capable of driving the second swing rod (341) to rotate when the second driving block (33) moves upwards, and the second swing rod (341) is not driven to rotate when the second driving block (33) moves downwards.

4. A cleaning device for a machine for covering edge-covering disc-like parts according to claim 3, characterized in that: the second unidirectional transmission mechanism comprises a second driving lever (344), a second pawl (345) and a second ratchet wheel (346), the second driving lever (344) is pivoted with a rotating shaft of the second ratchet wheel (346), the second pawl (345) is pivoted on the second driving lever (344), a second elastic unit is arranged between the second pawl (345) and the second driving lever (344), the second elastic unit is assembled into a structure that the elastic force of the second elastic unit can drive the second pawl (345) to be tightly attached to the wheel surface of the second ratchet wheel (346), the second ratchet wheel (346) and the second pawl (345) are assembled into a structure that the second ratchet wheel (346) can be driven to rotate only when the second driving lever (344) swings from bottom to top, and the swinging end of the second driving lever (344) is slidably pivoted with a second waist-shaped hole horizontally arranged on the second driving block (33) through a pin shaft; the second ratchet wheel (346) is in transmission fit with the second swing rod (341).

5. A cleaning device for a machine for covering edges of disc-shaped parts according to claim 4, characterized in that: a second accelerating gear set is arranged between the second ratchet wheel (346) and the second swing rod (341), and the second accelerating gear set is assembled to enable the second swing rod (341) to rotate for 360 degrees in the process that the second driving lever (344) swings from the lowest design station to the highest design station.

6. A cleaning device for a machine for covering edges of disc-shaped parts according to claim 5, characterized in that: the second accelerating gear set comprises a second driving gear (343) and a second driven gear (342) which are meshed with each other, the second driving gear (343) is coaxially and fixedly connected with a second ratchet wheel (346), the second driven gear (342) is coaxially and fixedly connected with a second swing rod (341), the swing angle of the second shifting rod (344) from the lowest design station to the highest design station is 90 degrees, and the gear ratio of the second driving gear (343) to the second driven gear (342) is 4: 1.

7. A cleaning device for a machine for covering edges of disc-shaped parts according to claim 6, characterized in that: go up mould (11) including split type ring mould (111) and mandrel (112) that set up, mandrel (112) are located ring mould (111) centre bore, ring mould (111) rotate with elevating system (14) and are connected, mandrel (112) along vertical direction and ring mould (111) sliding connection, and be equipped with pressure spring (13) between mandrel (112) and ring mould (111), and mandrel (112) are under the effect of pressure spring (13) protrusion in the lower terminal surface setting of ring mould (111) downwards.

8. A cleaning device for a machine for covering edge-covering disc-like parts according to claim 2, characterized in that: and a second floating mechanism is also arranged between the scraper (30) and the second sliding block (32), and the second floating mechanism is assembled to be capable of lifting the scraper (30) and keeping a distance in the translation process of the scraper (30) and then falling to the original height.

9. The cleaning device for the covering machine of the disc-shaped parts according to claim 8, wherein: the second floating mechanism comprises a scraper support (301) and a second arched stop block (302), the scraper support (301) forms sliding fit with a second sliding block (32) along the vertical direction, a second elastic element (303) is arranged between the scraper support (301) and the second sliding block (32), the second elastic element (303) is assembled to enable the scraper support (301) to move downwards relative to the second sliding block (32) through elasticity of the second elastic element, two inclined planes which are arranged in an inverted splayed shape or a V shape are arranged at the bottom of the scraper support (301), and the second arched stop block (302) is located on a translation path of the two inclined planes.

10. A cleaning device for a machine for covering edge-covering disc-like parts according to claim 9, characterized in that: the scraper blade (30) are made by elastic material, one side of scraper blade (30) is equipped with leads oil groove (304), lead oil groove (304) and extend to scraper blade (30) and keep away from the one end at lower mould (12) center and be equipped with overflow mouth (305) at this end, connect oil groove (31) along the whole motion path of vertical direction's projection cover scraper blade (30) overflow mouth (305).