CN109775435B - Copper line anchor clamps actuating mechanism and possess copper line equipment of stacking of this mechanism - Google Patents

Abstract

The invention belongs to the technical field of automatic equipment, and discloses a copper wire clamp driving mechanism which comprises a rotatable main driving disc and a cam disc fixedly arranged, wherein a clamp is arranged at the periphery of the main driving disc, an opening and closing piece is slidably arranged on one side, close to the cam disc, of the main driving disc, the opening and closing piece is in butt joint with the cam disc, the cam disc drives the opening and closing piece to move along the radial direction of the main driving disc, and the opening and closing piece is in selective butt joint with the clamp. In addition, the invention also discloses copper wire stacking equipment with the mechanism. According to the automatic locking device, the main driving disc, the cam disc and the opening and closing piece are used for automatically opening and closing the clamp, so that the copper wire is automatically locked, the labor intensity can be reduced, and the production efficiency can be improved.

Description

Copper line anchor clamps actuating mechanism and possess copper line equipment of stacking of this mechanism

Technical Field

The invention relates to the technical field of automation equipment, in particular to a copper wire clamp driving mechanism and copper wire stacking equipment with the same.

Background

In the technical field of film photoelectricity, the manufacture of the photoelectric film is particularly critical, and the most critical part is that copper wires are orderly distributed in the film at a high uniform interval, and the technology is realized by adopting manual semi-automatic winding stacking at present, so that the labor cost is high, the technology is limited to manual operation, the product consistency is poor, the yield of finished products is low, and the productivity is low.

Based on the above-mentioned current situation, it is necessary to design an automatically produced copper wire stacking apparatus.

Disclosure of Invention

One object of the present invention is to: the copper wire clamp driving mechanism is used for automatically locking copper wires and improving production efficiency.

Another object of the invention is: the copper wire stacking equipment is used for automatically locking copper wires and improving production efficiency.

To achieve the purpose, the invention adopts the following technical scheme:

In one aspect, a copper wire fixture driving mechanism comprises a rotatable main driving disc and a cam disc fixedly arranged, wherein a fixture is arranged on the periphery of the main driving disc, an opening and closing piece is slidably arranged on one side, close to the cam disc, of the main driving disc, the opening and closing piece is in butt joint with the cam disc, the cam disc drives the opening and closing piece to move along the radial direction of the main driving disc, and the opening and closing piece is in selective butt joint with the fixture.

Specifically, the main driving disk drives the clamp and the opening and closing member to move, the opening and closing member is driven to slide outwards in a radial direction by the cam disk in a local position in the moving process, the opening and closing member extrudes the clamp and opens the clamp after sliding outwards, a copper wire enters the clamp at the moment, the main driving disk drives the clamp and the opening and closing member to continue to rotate, the opening and closing member is driven to slide inwards in a radial direction by the cam disk, the opening and closing member and the clamp after sliding inwards are separated, and the clamp is reset and closed to lock the copper wire inside. According to the scheme, the clamp is automatically opened and closed through the main driving disc, the cam disc and the opening and closing piece, so that automatic locking of copper wires is realized, the labor intensity can be reduced, and the production efficiency can be improved.

As a preferred technical scheme, the device further comprises a mounting shaft, wherein the mounting shaft comprises a central shaft and an outer rotating shaft sleeved outside the radial direction of the central shaft, the outer rotating shaft is in transmission connection with a power source, the main driving disc is fixedly connected with the outer rotating shaft, and the cam disc is fixedly connected with the central shaft.

Preferably, the length of the central shaft is greater than the length of the outer rotating shaft, and both ends of the central shaft extend beyond the end portions of the outer rotating shaft.

Preferably, a driving gear is arranged at one end of the outer rotating shaft far away from the main driving disc, and the driving gear is in transmission connection with a power source.

Preferably, the central axis is coaxial with the outer swivel.

Specifically, through setting up coaxial center pin and outer pivot to fix cam disc, main drive dish respectively on center pin and outer pivot, can improve the installation accuracy of main drive dish, thereby improve the cooperation precision of headstock gear and cam disc, improve equipment overall reliability.

As a preferable technical scheme, the main driving disc comprises a first rotary disc and a second rotary disc which are arranged in parallel, the first rotary disc is positioned at one side of the second rotary disc, which is close to the cam disc, the clamp is arranged on the periphery of the first rotary disc and the second rotary disc, and the opening and closing piece is arranged at one side of the first rotary disc, which is close to the cam disc, in a sliding manner.

Preferably, the circumference parts of the first turntable and the second turntable are provided with sinking grooves along respective circumference rings, the bottoms of the sinking grooves are uniformly provided with a plurality of bearing blocks used for supporting the clamp along the circumference direction, and the positions of the bearing blocks on the first turntable and the second turntable are aligned;

and/or, the circumference of the first turntable and the circumference of the second turntable are provided with V-shaped grooves along respective axial directions, the positions of the V-shaped grooves on the first turntable and the second turntable are aligned, and the clamp is installed in the V-shaped grooves.

Specifically, through setting up support piece and V-arrangement groove, can carry out circumference location to anchor clamps, avoid anchor clamps and main drive disk between appear circumference slip.

As a preferable technical scheme, the opening and closing piece comprises a sliding block, an opening and closing disc and two opening and closing wheels, wherein the sliding block is in sliding connection with the main driving disc, the opening and closing disc is rotatably installed at one end of the sliding block, which is close to the center of the main driving disc, two ends of the opening and closing disc are respectively provided with one opening and closing wheel, the cam disc comprises a disc main body and a boss track, the boss track is fixed at one side of the disc main body, which is close to the main driving disc, and the two opening and closing wheels are respectively positioned at two sides of the boss track;

or the opening and closing piece comprises a sliding block and an opening and closing wheel, the opening and closing wheel is installed at one end of the sliding block, which is close to the center of the main driving disk, the cam disk comprises a disk main body, a groove track is formed in one side of the disk main body, which is close to the main driving disk, and the opening and closing wheel is inserted into the groove track.

Preferably, the center of the disc body is fixedly connected with the center shaft.

On the one hand, by arranging two opening and closing wheels on two sides of the boss track or inserting the opening and closing wheels into the groove track, the sliding block can move along the preset track of the cam disc in the radial direction of the main driving disc, and the reliable opening and closing of the clamp can be ensured. On the other hand, through setting up rotatable the headstock gear to set up the headstock gear at the both ends of headstock gear, can realize opening and close the laminating of wheel and boss track, avoid opening and close wheel and boss track card simultaneously and die, improve the precision and the reliability of equipment.

As a preferable technical scheme, a push rod is arranged in the middle of the sliding block, and a limit table is arranged at the suspension end of the push rod.

Specifically, the opening and closing piece is in butt joint with the clamp through the push rod and directly drives the clamp is opened and is closed, limiting the clamp through the limiting table, the push rod can be prevented from sideslip dislocation of the clamp in the process of driving the clamp, and equipment reliability is improved.

As a preferable technical scheme, one end of the sliding block, which is far away from the center of the main driving disk, is provided with a limiting block.

Specifically, through setting up the stopper, realize the spacing to the anchor clamps at anchor clamps in-process that opens and close, make anchor clamps unable swing, guarantee the anchor clamps and reliably receive the atress in the radial direction of main drive disk to realize the reliable opening and close of anchor clamps.

Preferably, the whole Y shape that is of stopper, the spacing groove has been seted up at the stopper middle part, the notch in spacing groove is provided with the transition inclined plane. Through setting up the transition inclined plane inserts the direction, avoids anchor clamps to insert the card in-process of stopper is dead unusual.

As a preferable technical scheme, the cam disc further comprises a protection plate, wherein the protection plate is fixed on one side of the main driving disc, which is close to the cam disc, and the protection plate is positioned on the outer side of the periphery of the cam disc.

Specifically, through setting up the protection shield, can be right open and close the piece and protect, avoid opening and close the piece and receive outside collision, improve the overall reliability of equipment.

As a preferred technical scheme, the clamping device further comprises a clamping piece, wherein the clamping piece is located in a region of the periphery of the main driving disc, the opening and closing piece slides radially outwards, and the clamping piece is abutted with the clamp.

Preferably, the pressing piece comprises at least two pressing rods, a plurality of pressing rods are sleeved with a belt, and the belt is abutted to the clamp.

Specifically, the clamp is located between the pressing piece and the main driving disc in a staged mode under the driving of the main driving disc, the clamp is prevented from moving radially outwards through the fixation of the pressing piece, and therefore the clamp can be effectively opened under the pushing action of the opening and closing piece, and the reliability of equipment is improved.

In another aspect, a copper wire stacking apparatus includes the copper wire clamp driving mechanism described above.

As a preferable technical scheme, the copper wire feeding mechanism further comprises a copper wire feeding mechanism and an axial adjusting piece, wherein the axial adjusting piece is positioned between the copper wire feeding mechanism and the copper wire clamp driving mechanism.

Specifically, copper wire that sends on the copper wire feed mechanism passes after the axial regulating part reaches copper wire anchor clamps actuating mechanism and by anchor clamps locking, through setting up can follow the axial regulation spare of axial movement of main drive disk, and adjust in advance and fix axial position of axial regulating part can make the copper wire that reaches copper wire anchor clamps actuating mechanism with anchor clamps align, avoided copper wire and this copper wire anchor clamps actuating mechanism to interfere, guarantee that the copper wire can get into fast and reliably in the anchor clamps and by locking, improve the operational reliability of equipment.

The beneficial effects of the invention are as follows: the utility model provides a copper line anchor clamps actuating mechanism and copper line stacking equipment that possesses this mechanism realizes the automation of anchor clamps and opens and close through main drive disk, cam disk and headstock gear to realize the automatic locking of copper line, can alleviate intensity of labour and improve production efficiency.

Drawings

The invention is described in further detail below with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of a copper wire clamp driving mechanism according to an embodiment;

FIG. 2 is a schematic diagram of an assembled main driving disk and an opening/closing member according to the first embodiment;

FIG. 3 is an enlarged view of a portion of the position A shown in FIG. 2;

FIG. 4 is a schematic view of a cam plate according to an embodiment;

FIG. 5 is a schematic view of a shutter according to an embodiment;

fig. 6 is a schematic structural diagram of a copper wire stacking apparatus according to an embodiment.

In fig. 1 to 6:

1. a main drive disk; 11. a first turntable; 12. a second turntable; 13. a sinking groove; 14. a support block; 15. a V-shaped groove;

2. A cam plate; 21. a disk main body; 22. a boss rail;

3. a clamp;

4. an opening and closing member; 41. a slide block; 42. a start-stop disc; 43. an opening and closing wheel; 44. a push rod; 441. a limiting table; 45. a limiting block; 451. a limit groove; 452. a transition inclined plane;

5. A mounting shaft; 51. a central shaft; 52. an outer rotating shaft; 53. a drive gear;

6. A protective plate;

7. a pressing member; 71. a pressing rod; 72. a belt;

8. copper wire feeding mechanism;

9. An axial adjustment member.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Embodiment one:

The utility model provides a copper line anchor clamps actuating mechanism, as shown in fig. 1 through 5, includes rotatable main drive dish 1 and fixed cam dish 2 that set up, anchor clamps 3 are installed to the week portion of main drive dish 1, main drive dish 1 is close to one side slip of cam dish 2 is provided with and opens and close piece 4, open and close piece 4 with cam dish 2 butt, the drive of cam dish 2 open and close piece 4 is followed the radial movement of main drive dish 1, open and close piece 4 with anchor clamps 3 selectivity butt. The main driving disc 1 drives the clamp 3 and the opening and closing member 4 to move, the opening and closing member 4 is driven to slide radially outwards at a local position by the cam disc 2 in the moving process, the opening and closing member 4 presses the clamp 3 and opens the clamp after sliding outwards, at the moment, copper wires enter the clamp 3, the main driving disc 1 drives the clamp 3 and the opening and closing member 4 to continue to rotate, the opening and closing member 4 is driven to slide radially inwards by the cam disc 2, the opening and closing member 4 and the clamp 3 after sliding inwards are separated, and the clamp 3 is reset and closed and locks the copper wires inside. According to the scheme, the clamp 3 is automatically opened and closed through the main driving disc 1, the cam disc 2 and the opening and closing piece 4, so that automatic locking of copper wires is realized, the labor intensity can be reduced, and the production efficiency can be improved.

The mechanism further comprises a mounting shaft 5, wherein the mounting shaft 5 comprises a central shaft 51 and an outer rotating shaft 52 sleeved on the radial outer side of the central shaft 51, and the central shaft 51 is coaxial with the outer rotating shaft 52. The end of the outer rotating shaft 52 far away from the main driving disc 1 is provided with a driving gear 53, and the driving gear 53 is in transmission connection with a power source. The length of the central shaft 51 is greater than that of the outer rotating shaft 52, two ends of the central shaft 51 exceed the end parts of the outer rotating shaft 52, the main driving disc 1 is fixedly connected with the outer rotating shaft 52, and the cam disc 2 is fixedly connected with the central shaft 51. Specifically, by providing the central shaft 51 and the outer rotating shaft 52 coaxially and fixing the cam plate 2 and the main driving plate 1 on the central shaft 51 and the outer rotating shaft 52, respectively, the mounting accuracy of the main driving plate 1 can be improved, thereby improving the fitting accuracy of the opening and closing member 4 and the cam plate 2 and improving the overall reliability of the apparatus.

The main driving disc 1 comprises a first rotary disc 11 and a second rotary disc 12 which are arranged in parallel, the first rotary disc 11 is positioned on one side, close to the cam disc 2, of the second rotary disc 12, the clamp 3 is erected on the periphery of the first rotary disc 11 and the second rotary disc 12, and the opening and closing piece 4 is arranged on one side, close to the cam disc 2, of the first rotary disc 11 in a sliding mode. The circumference of the first turntable 11 and the circumference of the second turntable 12 are provided with sinking grooves 13 along the circumference of the first turntable and the second turntable, the bottoms of the sinking grooves 13 are uniformly provided with a plurality of bearing blocks 14 used for supporting the clamp 3 along the circumference, and the positions of the bearing blocks 14 on the first turntable 11 and the second turntable 12 are aligned. The circumference of the first turntable 11 and the second turntable 12 are provided with V-shaped grooves 15 along the respective axial directions, the first turntable 11 is aligned with the V-shaped grooves 15 on the second turntable 12, and the clamp 3 is installed in the V-shaped grooves 15. By providing the bearing blocks 14 and the V-grooves 15, the clamp 3 can be circumferentially positioned, and circumferential sliding between the clamp 3 and the main drive disk 1 is avoided. In other embodiments, after the sinking groove 13 and the bearing block 14 are arranged on the first turntable 11 and the second turntable 12, the V-shaped groove 15 is not arranged, and the fixture 3 is positioned through the bearing block 14; or after the V-shaped grooves 15 are arranged on the first turntable 11 and the second turntable 12, the sinking grooves 13 and the supporting blocks 14 are not arranged, and the clamp 3 is positioned through the V-shaped grooves 15.

In this embodiment, the opening and closing member 4 includes a slider 41, an opening and closing disc 42, and two opening and closing wheels 43, the slider 41 is slidably connected with the main driving disc 1, the opening and closing disc 42 is rotatably mounted at one end of the slider 41, which is close to the center of the main driving disc 1, two ends of the opening and closing disc 42 are respectively mounted with one opening and closing wheel 43, the cam disc 2 includes a disc main body 21 and a boss track, the center of the disc main body 21 is fixedly connected with the central shaft 51, the boss track is fixed at one side of the disc main body 21, which is close to the main driving disc 1, and the two opening and closing wheels 43 are respectively located at two sides of the boss track. On the one hand, by providing two opening and closing wheels 43 on both sides of the boss track, it is possible to realize that the slider 41 follows the preset trajectory movement of the cam plate 2 in the radial direction of the main drive plate 1, and it is possible to ensure reliable opening and closing of the clamp 3. On the other hand, by arranging the rotatable opening and closing disc 42 and arranging the opening and closing wheels 43 at two ends of the opening and closing disc 42, the tight fitting of the opening and closing wheels 43 and the boss tracks can be realized, meanwhile, the locking of the opening and closing wheels 43 and the boss tracks is avoided, and the precision and the reliability of the equipment are improved.

The middle part of slider 41 is provided with push rod 44, the suspension end of push rod 44 is provided with spacing platform 441. The opening and closing piece 4 is abutted to the clamp 3 through the push rod 44 and directly drives the clamp 3 to be opened and closed, and the clamp 3 is limited by the limiting table 441, so that side-slip dislocation of the push rod 44 in the process of driving the clamp 3 can be avoided, and the equipment reliability is improved. The end of the slider 41 remote from the center of the main drive disk 1 is provided with a stopper 45. Through setting up stopper 45, realize the spacing to anchor clamps 3 at anchor clamps 3 in-process that opens and close, make anchor clamps 3 unable swing, guarantee the anchor clamps 3 at the radial direction reliable atress of main drive disk 1 to realize the reliable opening and close of anchor clamps 3. The whole Y-shaped of stopper 45, the spacing groove 451 has been seted up at stopper 45 middle part, the notch of spacing groove 451 is provided with transition inclined plane 452. By arranging the transition inclined plane 452 for insertion guiding, the abnormal clamping of the fixture 3 in the process of inserting the limiting block 45 is avoided.

The mechanism further comprises a protection plate 6 and a pressing member 7, wherein the protection plate 6 is fixed on one side of the main drive plate 1 close to the cam plate 2, and the protection plate 6 is positioned on the outer side of the periphery of the cam plate 2. Through setting up protection shield 6 can be right opening and close piece 4 protects, avoids opening and close piece 4 to receive outside collision, improves the overall reliability of equipment. The pressing piece 7 is located in a region of the circumference of the main driving disk 1, in which the opening and closing piece 4 slides radially outwards, and the pressing piece 7 abuts against the clamp 3. The pressing piece 7 comprises three pressing rods 71, one belt 72 is sleeved on the three pressing rods 71, and the belt 72 is abutted to the clamp 3. The clamp 3 is located between the pressing piece 7 and the main driving disc 1 in a staged mode under the driving of the main driving disc 1, the clamp 3 is prevented from moving radially outwards through the fixation of the pressing piece 7 to the clamp 3, and therefore the clamp 3 can be effectively opened under the pushing action of the opening and closing piece 4, and the reliability of equipment is improved. In other embodiments, the pressing member 7 may also include two/four pressing bars 71, and a belt 72 is sleeved on a plurality of the pressing bars 71

The copper wire stacking device comprises the copper wire clamp driving mechanism, a copper wire feeding mechanism 8 and an axial adjusting piece 9, wherein the axial adjusting piece 9 is located between the copper wire feeding mechanism 8 and the copper wire clamp driving mechanism, as shown in fig. 6. Copper wire that sends on copper wire feed mechanism 8 passes after the axial regulating part 9 reaches copper wire anchor clamps actuating mechanism and by anchor clamps 3 locking, through setting up can follow axial displacement's of main drive disk 1 axial regulating part 9, and adjust in advance and fix axial position of axial regulating part 9 can make the copper wire that reaches copper wire anchor clamps actuating mechanism with anchor clamps 3 align, avoided copper wire and this copper wire anchor clamps actuating mechanism to interfere, guarantee that the copper wire can get into fast and reliably anchor clamps 3 are interior and by locking, improve the operational reliability of equipment.

Embodiment two:

the difference between this embodiment and the first embodiment is that:

The start-stop piece comprises a sliding block and a start-stop wheel, the start-stop wheel is installed at one end of the sliding block, which is close to the center of the main driving disk, the cam disk comprises a disk main body, a groove track is formed in one side of the disk main body, which is close to the main driving disk, and the start-stop wheel is inserted into the groove track. By inserting the start-stop wheel into the groove track, the sliding block moves along the preset track of the cam disc in the radial direction of the main driving disc, and reliable opening and closing of the clamp can be ensured.

The terms "first" and "second" are used herein for descriptive purposes only and are not intended to have a particular meaning.

It should be noted that the above embodiments are merely preferred embodiments of the present invention and the applied technical principles, and any changes or substitutions easily conceivable to those skilled in the art within the scope of the present invention are included in the scope of the present invention.

Claims (9)

1. The copper wire clamp driving mechanism is characterized by comprising a rotatable main driving disc and a cam disc which is fixedly arranged, wherein a clamp is arranged at the periphery of the main driving disc, an opening and closing piece is slidably arranged on one side, close to the cam disc, of the main driving disc, the opening and closing piece is in butt joint with the cam disc, the cam disc drives the opening and closing piece to move along the radial direction of the main driving disc, and the opening and closing piece is in selective butt joint with the clamp;

The cam disc comprises a disc main body and a boss track, the boss track is fixed on one side of the disc main body, which is close to the main driving disc, and the two opening and closing wheels are respectively positioned on two sides of the boss track;

or the opening and closing piece comprises a sliding block and an opening and closing wheel, the opening and closing wheel is installed at one end of the sliding block, which is close to the center of the main driving disk, the cam disk comprises a disk main body, a groove track is formed in one side of the disk main body, which is close to the main driving disk, and the opening and closing wheel is inserted into the groove track.

2. The copper wire fixture driving mechanism as recited in claim 1 further comprising a mounting shaft, said mounting shaft comprising a central shaft and an outer rotating shaft disposed radially outwardly of said central shaft, said outer rotating shaft being in driving connection with a power source, said main driving disk being fixedly connected with said outer rotating shaft, said cam disk being fixedly connected with said central shaft.

3. The copper wire clamp driving mechanism as recited in claim 1, wherein the main driving plate includes a first rotary plate and a second rotary plate arranged in parallel, the first rotary plate is positioned at a side of the second rotary plate close to the cam plate, the clamp is arranged at the peripheral parts of the first rotary plate and the second rotary plate, and the opening and closing member is arranged at a side of the first rotary plate close to the cam plate in a sliding manner.

4. The copper wire fixture driving mechanism as recited in claim 1 wherein a push rod is provided in the middle of the slider and a stop is provided at the free end of the push rod.

5. The copper wire clip driving mechanism as recited in claim 1, wherein an end of the slider remote from the center of the main driving disk is provided with a stopper.

6. The copper wire clip driving mechanism as recited in claim 1, further comprising a protective plate secured to a side of the main driving plate adjacent to the cam plate, the protective plate being located outside a peripheral portion of the cam plate.

7. The copper wire clip driving mechanism as recited in claim 1, further comprising a hold-down member located in a region of the peripheral portion of the main driving disk where the opening and closing member slides radially outwardly, the hold-down member abutting the clip.

8. A copper wire stacking apparatus comprising the copper wire clamp drive mechanism of any one of claims 1 to 7.

9. The copper wire stacking apparatus of claim 8 further comprising a copper wire loading mechanism and an axial adjustment member, the axial adjustment member being located between the copper wire loading mechanism and the copper wire clamp drive mechanism.