CN105312715A - Cable conveying mechanism of tinning machine - Google Patents

Abstract

The invention discloses a cable conveying mechanism of a tinning machine. The cable conveying mechanism comprises a tool clamp, a charging mechanism and a grabbing mechanism. The charging mechanism comprises a charging conveying guide rail, a lifting table and a blocking device. The grabbing mechanism comprises a grabbing device and a three-dimensional driving system. The tool clamp loaded with cables is lifted by the lifting table after passing through the charging conveying guide rail, the grabbing device is driven by the three-dimensional driving system to grab the tool clamp, and the tool clamp and the cables on the tool clamp are sent into the tinning machine. According to the technical scheme, the phenomenon that the cables are disengaged from groove positions due to a chain conveying device of the tinning machine in the feeding process in the prior art can be effectively avoided through the cable conveying mechanism of the tinning machine, and cable tinning is ensured to be conducted normally, so that the product quality and production efficiency are improved.

Description

Tin machine cable conveying mechanism in one

Technical field:

The present invention relates to cable processing technique field, tin machine cable conveying mechanism in one.

Background technology:

Upper tin machine refers to a kind of machinery equipment that cable processing uses, by tin upper after one end peeling of cable to wire stripping end.Transmit in the course of the work to make cable, normally used is chain transmitting device, comprise the chain of closed hoop, chain connects outside closed hoop at the brace of link dials line block, dial wire casing line block being arranged and places cable, during work, by needing the cable carrying out terminal process to be placed in the wire casing of toothed disc drive, bringing in tin machine and carrying out cable processing process.But insert wire casing due to cable and do not carry out fastening, the phenomenon easily causing cable to depart from slot in fill process occurs; affect cable wire-stripping tin plating in upper tin machine; impact is formed on product quality, also needs to carry out closed-down manual and clear up, affect production efficiency.

Summary of the invention:

Technical problem solved by the invention: the chain transmitting device that in prior art, upper tin machine is used, inserting wire casing due to cable does not carry out fastening, the phenomenon easily causing cable to depart from slot in fill process occurs, affect cable in upper tin machine on normally the carrying out of tin, impact is formed on product quality; Outside, staff also needs shutdown to be cleared up by manual mode, affects production efficiency.

For solving the problems of the technologies described above, the invention provides following technical scheme:

In one, tin machine cable conveying mechanism, comprises frock clamp, feeding mechanism, grasping mechanism;

Described frock clamp comprises base plate, the wire casing be arranged on base plate, clamping cable in described wire casing; Described base plate is fixed with mount pad, and mount pad is positioned at the front end place of base plate; Described mount pad offers bayonet socket, engaging cover plate in bayonet socket, cover plate is positioned at above cable; Described mount pad is articulated with positioning baffle, and positioning baffle is positioned at the front end place of mount pad, and positioning baffle can turn over turnback on the end face of cover plate around the articulated section of itself and mount pad, compressing cover plate, and then makes cover plate oppress cable;

Described feeding mechanism comprises pan feeding conveying, lifting platform, retention device; Described pan feeding conveying comprises the guide-rail plate arranged in opposite directions for a pair, the conveyer belt be arranged on pair of guide rails plate madial wall; Described lifting platform is arranged between pair of guide rails plate, and lifting platform is positioned at the output of pan feeding conveying; Described retention device is arranged between pair of guide rails plate, and retention device is positioned at the output of pan feeding conveying, and retention device is positioned at the side of lifting platform, and retention device comprises for being blocked in the block that pan feeding conveying runs;

Described grasping mechanism comprises grabbing device, X direction guiding rail and Y-direction guide rail, X drives cylinder, Z-direction lift cylinder to driving cylinder, Y-direction; Described grabbing device is arranged on the piston rod of Z-direction lift cylinder, described Z-direction lift cylinder is arranged on X on the piston driving cylinder, Z-direction lift cylinder is slidably fitted on X direction guiding rail, X is arranged on X direction guiding rail to driving cylinder, described X direction guiding rail is arranged on Y-direction and drives on the piston of cylinder, described X direction guiding rail is slidably fitted on Y-direction guide rail, and Y-direction drives cylinder to be arranged on Y-direction guide rail; Described grabbing device is positioned at the top of feeding mechanism.

By technique scheme, the operation principle of upper tin machine cable conveying mechanism of the present invention is as follows:

The first, first staff will treat that the cable of upper tin is arranged in frock clamp, particularly, treats that the cable clamp of tin is in wire casing, and the certain distance in the front end of base plate is given prominence on the cable top need going up tin, and cable is positioned at mount pad bayonet socket; Afterwards, cover plate is fastened in bayonet socket by staff.

The second, the frock clamp being provided with cable is thrown in pan feeding conveying by staff, is proceeded to the output of pan feeding conveying by the conveyer belt driving frock clamp in pan feeding conveying along pair of guide rails plate.

3rd, when frock clamp is to the output of pan feeding conveying, the block of retention device limits it and moves ahead; Afterwards, lifting platform orders about frock clamp rising.

4th, staff orders about positioning baffle by artificial or automatic equipment and does 180 degree of rotations, and positioning baffle turn on cover plate by the front of mount pad, and compressing positioning baffle on the cover board makes cover plate oppress cable, and so, cable is positioned on frock clamp.

Five, X drives cylinder, Z-direction lift cylinder to drive to driving cylinder, Y-direction, and grabbing device moves as horizontal cross, horizontally vertically moves, elevating movement, and grabbing device captures the frock clamp on lifting platform, and is thrown in next predetermined station, in order to upper tin.

Pass through technique scheme, what upper tin machine cable conveying mechanism of the present invention can effectively avoid upper tin machine chain transmitting device used in prior art to cause causes cable to depart from the phenomenon generation of slot in fill process, and then normally the carrying out, with the efficiency of the quality and production that improve product of tin on guarantee cable.

Illustrate the one of grasping mechanism in technique scheme as the present invention, described grabbing device comprises clamp cylinder and is arranged on chuck jaws on clamp cylinder piston, folder cover plate slide unit cylinder and the folder cover plate cylinder that is arranged on folder cover plate slide unit cylinder piston rod and the cover plate jaw, folder finished product lift cylinder and the folder finished product cylinder be arranged on folder finished product lift cylinder piston rod that are arranged on folder cover plate cylinder piston and the finished product jaw, the frame support body that are arranged on folder finished product cylinder piston; Described frame support body comprises front side board, back side panel, left plate, right plate, described clamp cylinder is arranged on the bottom surface of front side board, described folder cover plate slide unit cylinder is arranged on the madial wall of back side panel, and described folder finished product lift cylinder is arranged on the lateral wall of right plate; Described frame support body is arranged on the piston rod of Z-direction lift cylinder.

As described above, in grabbing device chuck jaws for capturing frock clamp from lifting platform.After on the cable on frock clamp, tin completes, staff, by the positioning baffle on artificial or automatic equipment rotary tooling fixture, makes positioning baffle reset; Afterwards, the cover plate jaw in grabbing device, from gripping cover plate frock clamp, makes cover plate depart from mount pad bayonet socket; Afterwards, the finished product jaw in grabbing device from gripping cable frock clamp, and is moved to predetermined station; Afterwards, cover plate is reset on frock clamp by cover plate jaw, and the frock clamp of sky is shifted out upper tin machine by chuck jaws again.

Illustrate the one of feeding mechanism as the present invention, described lifting platform comprises base for supporting, jacking cylinder, linear bearing, guide rod, top board, floating junction; Described jacking cylinder is arranged on base for supporting, and top board is arranged on the piston rod of jacking cylinder by floating junction, and jacking air cylinder driven top board is elevated; Described linear bearing is arranged on base for supporting, and described guide rod is vertically plugged in linear bearing, and the top of guide rod connects top board.

Illustrate the one of feeding mechanism as the present invention, described retention device comprises stop cylinder, and described block is arranged on the piston rod of stop cylinder, stops that air cylinder driven block is elevated between pair of guide rails plate.As described above, when frock clamp moves to predetermined station on pan feeding conveying, under the induction of sensor, stop that air cylinder driven block rises to stop moving ahead of frock clamp.

Illustrate the one of frock clamp as the present invention, a strip through hole offered by described cover plate, is provided with torsion spring in strip through hole, and under the compressing of positioning baffle, described torsion spring and cover plate oppress cable jointly.Torsion spring auxiliary cover plate can oppress cable better, and then improves the validity of cable location.

Illustrate the one of frock clamp as the present invention, described positioning baffle comprises about a pair flipping block, the baffle plate be arranged on a pair flipping block that arrange; A pair flipping block is articulated on the left and right sides wall of mount pad; Square gap all offered by the left and right sides wall of described mount pad, and described flipping block overturns in square gap.Described flipping block can limit the upset amplitude of positioning baffle with coordinating of square gap.

Illustrate the one of frock clamp as the present invention, described mount pad is offered vertical jacking through hole, jacking through hole is communicated with square gap, and jacking through hole is positioned at the side of flipping block and mount pad articulated section.By above-mentioned improvement, after on cable, tin completes, cylinder can drive lifting pin to rise in jacking through hole, and the lifting pin after rising withstands on bottom the flipping block of positioning baffle, flipping block is rotated around the articulated section of itself and mount pad, and then positioning baffle is resetted.

As the present invention, the one of frock clamp is illustrated, described baffle plate is offered cable gap.By above-mentioned improvement, staff by the process of cable clamp in wire casing, described cable gap plays guide-localization effect to cable.

As the present invention, the one of frock clamp is illustrated, described base plate is provided with handle.Described handle facilitates staff to take.

Accompanying drawing illustrates:

Below in conjunction with accompanying drawing, the present invention is described further:

Fig. 1 structural representation that frock clamp 10 runs on feeding mechanism 20 involved by the present invention;

Fig. 2 is the structural representation of lifting platform 22 lifting frock clamp 10 in Fig. 1;

Fig. 3 grabbing device 30 involved by the present invention captures the structural representation of frock clamp 10 from lifting platform 22;

The structural representation of the chuck jaws 310 clamping tooling fixture 10 in Fig. 4 grabbing device 30 involved by the present invention;

The structural representation of cover plate jaw 322 clamping tooling fixture 10 cover plate 14 in Fig. 5 grabbing device 30 involved by the present invention;

Structural representation on finished product jaw 332 clamping tooling fixture 10 in Fig. 6 grabbing device 30 involved by the present invention during cable 90;

The structural representation that on finished product jaw 332 clamping tooling fixture 10 in Fig. 7 grabbing device 30 involved by the present invention, cable is after 90s;

The structural representation of Fig. 8 frock clamp 10 involved by the present invention.

Symbol description in figure:

10, frock clamp; 11, base plate; 12, wire casing; 13, mount pad; 131, square gap; 132, jacking through hole; 14, cover plate; 141, strip through hole; 15, positioning baffle; 152, baffle plate; 1520, cable gap; 153, flipping block; 16, handle;

20, feeding mechanism; 21, pan feeding conveying; 211, guide-rail plate; 212, conveyer belt; 22, lifting platform; 221, base for supporting; 222, jacking cylinder; 223, linear bearing; 224, guide rod; 225, top board; 226, floating junction; 23, retention device; 231, block; 232, cylinder is stopped;

30, grabbing device; 31, clamp cylinder; 310, chuck jaws; 32, cover plate slide unit cylinder is pressed from both sides; 321, cover plate cylinder is pressed from both sides; 322, cover plate jaw; 33, finished product lift cylinder is pressed from both sides; 331, finished product cylinder is pressed from both sides; 332, finished product jaw; 34, frame support body;

90, cable.

Detailed description of the invention:

Composition graphs 1 to Fig. 3, in one, tin machine cable conveying mechanism, comprises frock clamp 10, feeding mechanism 20, grasping mechanism.

As Fig. 8, described frock clamp 10 comprises base plate 11, the wire casing 12 be arranged on base plate, clamping cable 90 in described wire casing; Described base plate is fixed with mount pad 13, mount pad is positioned at the front end place of base plate; Described mount pad offers bayonet socket, engaging cover plate 14 in bayonet socket, cover plate is positioned at above cable; Described mount pad is articulated with positioning baffle 15, positioning baffle is positioned at the front end place of mount pad, and positioning baffle can turn over turnback on the end face of cover plate around the articulated section of itself and mount pad, compressing cover plate, and then makes cover plate oppress cable.

In above-mentioned frock clamp 10, a strip through hole 141 offered by described cover plate 14, is provided with torsion spring in strip through hole, and under the compressing of positioning baffle 15, described torsion spring and cover plate oppress cable jointly.

In above-mentioned frock clamp 10, described positioning baffle 15 comprises about a pair flipping block 153, the baffle plate 152 be arranged on a pair flipping block that arrange; A pair flipping block is articulated on the left and right sides wall of mount pad 13; Square gap 131 all offered by the left and right sides wall of described mount pad, and described flipping block overturns in square gap.

In above-mentioned frock clamp 10, described mount pad 13 offers vertical jacking through hole 132, jacking through hole is communicated with square gap 131, and jacking through hole is positioned at the side of flipping block 153 and mount pad articulated section.

In above-mentioned frock clamp 10, described baffle plate 152 offers cable gap 1520.

In above-mentioned frock clamp 10, described base plate 11 is provided with handle 16.

Composition graphs 1, Fig. 2, described feeding mechanism 20 comprises pan feeding conveying 21, lifting platform 22, retention device 23; Described pan feeding conveying comprises the guide-rail plate 211 arranged in opposite directions for a pair, the conveyer belt 212 be arranged on pair of guide rails plate madial wall; Described lifting platform is arranged between pair of guide rails plate, and lifting platform is positioned at the output of pan feeding conveying; Described retention device is arranged between pair of guide rails plate, and retention device is positioned at the output of pan feeding conveying, and retention device is positioned at the side of lifting platform, and retention device comprises for being blocked in the block 231 that pan feeding conveying runs.

In above-mentioned feeding mechanism 20, described lifting platform 22 comprises base for supporting 221, jacking cylinder 222, linear bearing 223, guide rod 224, top board 225, floating junction 226; Described jacking cylinder is arranged on base for supporting, and top board is arranged on the piston rod of jacking cylinder by floating junction, and jacking air cylinder driven top board is elevated; Described linear bearing is arranged on base for supporting, and described guide rod is vertically plugged in linear bearing, and the top of guide rod connects top board.

In above-mentioned feeding mechanism 20, described retention device 23 comprises and stops cylinder 232, and described block 231 is arranged on the piston rod of stop cylinder, stops that air cylinder driven block is elevated between pair of guide rails plate 211.

Described grasping mechanism comprises grabbing device 30, X direction guiding rail and Y-direction guide rail, X drives cylinder, Z-direction lift cylinder to driving cylinder, Y-direction; Described grabbing device is arranged on the piston rod of Z-direction lift cylinder, described Z-direction lift cylinder is arranged on X on the piston driving cylinder, Z-direction lift cylinder is slidably fitted on X direction guiding rail, X is arranged on X direction guiding rail to driving cylinder, described X direction guiding rail is arranged on Y-direction and drives on the piston of cylinder, described X direction guiding rail is slidably fitted on Y-direction guide rail, and Y-direction drives cylinder to be arranged on Y-direction guide rail; Described grabbing device is positioned at the top of feeding mechanism.

In above-mentioned grasping mechanism, composition graphs 3 to Fig. 7, described grabbing device 30 comprises clamp cylinder 31 and the chuck jaws 310, folder cover plate slide unit cylinder 32 and the folder cover plate cylinder 321 be arranged on folder cover plate slide unit cylinder piston rod that are arranged on clamp cylinder piston and the cover plate jaw 322, folder finished product lift cylinder 33 and the folder finished product cylinder 331 be arranged on folder finished product lift cylinder piston rod that are arranged on folder cover plate cylinder piston and the finished product jaw 332, the frame support body 34 that are arranged on folder finished product cylinder piston; Described frame support body comprises front side board, back side panel, left plate, right plate, described clamp cylinder is arranged on the bottom surface of front side board, described folder cover plate slide unit cylinder is arranged on the madial wall of back side panel, and described folder finished product lift cylinder is arranged on the lateral wall of right plate; Described frame support body is arranged on the piston rod of Z-direction lift cylinder.

In actual production, the workflow of upper tin machine cable conveying mechanism of the present invention is as follows:

The first, first staff will treat that the cable 90 of upper tin is arranged in frock clamp 10, particularly, treats that the cable clamp of tin is in wire casing 12, and the certain distance in the front end of base plate 11 is given prominence on the cable top need going up tin, and cable is positioned at mount pad 13 bayonet socket; Afterwards, cover plate 14 is fastened in bayonet socket by staff.

The second, the frock clamp 10 being provided with cable is thrown in pan feeding conveying 21 by staff, drives frock clamp to proceed to the output of pan feeding conveying along pair of guide rails plate 211 by the conveyer belt 212 in pan feeding conveying.

3rd, during the output of frock clamp 10 to pan feeding conveying 21, the block 231 of retention device 23 limits it and moves ahead; Afterwards, lifting platform 22 orders about frock clamp 10 and rises.

4th, staff orders about positioning baffle 15 by artificial or automatic equipment and does 180 degree of rotations, and positioning baffle 15 turn on cover plate 14 by the front of mount pad 13, and compressing positioning baffle on the cover board makes cover plate oppress cable, so, cable 90 is positioned on frock clamp 10.

5th, X drives cylinder, Z-direction lift cylinder to drive to driving cylinder, Y-direction, and grabbing device 30 moves as horizontal cross, horizontally vertically moves, elevating movement, grabbing device 30 captures the frock clamp 10 on lifting platform 22, and is thrown in next predetermined station, in order to upper tin.

6th, after on the cable 90 on frock clamp 10, tin completes, staff, by the positioning baffle 15 on artificial or automatic equipment rotary tooling fixture, makes positioning baffle reset; Afterwards, the cover plate jaw 322 in grabbing device 30, from gripping cover plate 14 frock clamp, makes cover plate depart from mount pad 13 bayonet socket; Afterwards, the finished product jaw 332 in grabbing device 30 from gripping cable 90 frock clamp 10, and is moved to predetermined station; Afterwards, cover plate 14 is reset on frock clamp 10 by cover plate jaw 322, and the frock clamp 10 of sky is shifted out upper tin machine by chuck jaws 310 again.

Above content is only better embodiment of the present invention, and for those of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, this description should not be construed as limitation of the present invention.

Claims (9)

1. a upper tin machine cable conveying mechanism, comprises frock clamp (10), feeding mechanism (20), grasping mechanism; It is characterized in that:

Described frock clamp (10) comprises base plate (11), the wire casing (12) be arranged on base plate, clamping cable (90) in described wire casing; Described base plate is fixed with mount pad (13), mount pad is positioned at the front end place of base plate; Described mount pad offers bayonet socket, engaging cover plate (14) in bayonet socket, cover plate is positioned at above cable; Described mount pad is articulated with positioning baffle (15), positioning baffle is positioned at the front end place of mount pad, and positioning baffle can turn over turnback on the end face of cover plate around the articulated section of itself and mount pad, compressing cover plate, and then makes cover plate oppress cable;

Described feeding mechanism (20) comprises pan feeding conveying (21), lifting platform (22), retention device (23); Described pan feeding conveying comprises the guide-rail plate (211) arranged in opposite directions for a pair, the conveyer belt (212) be arranged on pair of guide rails plate madial wall; Described lifting platform is arranged between pair of guide rails plate, and lifting platform is positioned at the output of pan feeding conveying; Described retention device is arranged between pair of guide rails plate, and retention device is positioned at the output of pan feeding conveying, and retention device is positioned at the side of lifting platform, and retention device comprises for being blocked in the block (231) that pan feeding conveying runs;

Described grasping mechanism comprises grabbing device (30), X direction guiding rail and Y-direction guide rail, X drives cylinder, Z-direction lift cylinder to driving cylinder, Y-direction; Described grabbing device is arranged on the piston rod of Z-direction lift cylinder, described Z-direction lift cylinder is arranged on X on the piston driving cylinder, Z-direction lift cylinder is slidably fitted on X direction guiding rail, X is arranged on X direction guiding rail to driving cylinder, described X direction guiding rail is arranged on Y-direction and drives on the piston of cylinder, described X direction guiding rail is slidably fitted on Y-direction guide rail, and Y-direction drives cylinder to be arranged on Y-direction guide rail; Described grabbing device is positioned at the top of feeding mechanism.

2. a kind of upper tin machine cable conveying mechanism as claimed in claim 1, it is characterized in that: described grabbing device (30) comprises clamp cylinder (31) and is arranged on the chuck jaws (310) on clamp cylinder piston, the folder cover plate cylinder (321) pressing from both sides cover plate slide unit cylinder (32) and be arranged on folder cover plate slide unit cylinder piston rod and the cover plate jaw (322) be arranged on folder cover plate cylinder piston, the folder finished product cylinder (331) pressing from both sides finished product lift cylinder (33) and be arranged on folder finished product lift cylinder piston rod and the finished product jaw (332) be arranged on folder finished product cylinder piston, frame support body (34), described frame support body comprises front side board, back side panel, left plate, right plate, described clamp cylinder is arranged on the bottom surface of front side board, described folder cover plate slide unit cylinder is arranged on the madial wall of back side panel, and described folder finished product lift cylinder is arranged on the lateral wall of right plate, described frame support body is arranged on the piston rod of Z-direction lift cylinder.

3. a kind of upper tin machine cable conveying mechanism as claimed in claim 1, is characterized in that: described lifting platform (22) comprises base for supporting (221), jacking cylinder (222), linear bearing (223), guide rod (224), top board (225), floating junction (226); Described jacking cylinder is arranged on base for supporting, and top board is arranged on the piston rod of jacking cylinder by floating junction, and jacking air cylinder driven top board is elevated; Described linear bearing is arranged on base for supporting, and described guide rod is vertically plugged in linear bearing, and the top of guide rod connects top board.

4. a kind of upper tin machine cable conveying mechanism as claimed in claim 1, it is characterized in that: described retention device (23) comprises and stops cylinder (232), described block (231) is arranged on the piston rod of stop cylinder, stops that air cylinder driven block is elevated between pair of guide rails plate (211).

5. a kind of upper tin machine cable conveying mechanism as claimed in claim 1, it is characterized in that: a strip through hole (141) offered by described cover plate (14), in strip through hole, torsion spring is installed, under the compressing of positioning baffle (15), described torsion spring and cover plate oppress cable jointly.

6. a kind of upper tin machine cable conveying mechanism as claimed in claim 1, is characterized in that:

Described positioning baffle (15) comprises about a pair flipping block (153), the baffle plate (152) be arranged on a pair flipping block that arrange; A pair flipping block is articulated on the left and right sides wall of mount pad (13); The left and right sides wall of described mount pad is all offered square gap (131), described flipping block overturns in square gap.

7. a kind of upper tin machine cable conveying mechanism as claimed in claim 6, it is characterized in that: described mount pad (13) is offered vertical jacking through hole (132), jacking through hole is communicated with square gap (131), and jacking through hole is positioned at the side of flipping block (153) and mount pad articulated section.

8. a kind of upper tin machine cable conveying mechanism as claimed in claim 6, is characterized in that: described baffle plate (152) is offered cable gap (1520).

9. a kind of upper tin machine cable conveying mechanism as claimed in claim 1, is characterized in that: described base plate (11) is provided with handle (16).