CN211310391U

CN211310391U - Automatic network cable feeding device

Info

Publication number: CN211310391U
Application number: CN201922365118.5U
Authority: CN
Inventors: 朱振金; 吴敏
Original assignee: Sichuan Huizhi Zhongchuang Technology Co ltd
Current assignee: Leshan Sino German Technology Promotion Center
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-08-21
Anticipated expiration: 2029-12-25

Abstract

The utility model provides a net twine automatic feeding, including control system, the winder, the rodless cylinder, the inlet wire mechanism, scissors mechanism, roll line mechanism, cam fixed establishment and net twine moving mechanism, utilize current net twine winder, through the motor step length that sets up the winder, the length that net twine was qualified for the next round of competitions at every turn according to the actual work needs accurate control, and cut the net twine according to required length segmentation, from whole line, net twine segmentation, net twine fades the skin, the heart yearn is ordered and is loaded the quartzy first full automatization, the problem of solving artifical installation net twine quartzy head provides solid foundation for realizing the net twine.

Description

Automatic network cable feeding device

Technical Field

The utility model relates to a net twine processing technology field, concretely relates to net twine automatic feeding.

Background

In the technical field of network cable processing, when a network cable is connected with a crystal head, core wires with different colors are required to be separated according to corresponding standards and connected into the crystal head according to a required wire sequence. However, the core wires inside the network cable are twisted together two by 8 core wires, i.e. twisted into four twisted pairs, so that the market at present mainly cuts skin manually, peels out the core wires and arranges the core wires according to the standard line, and then connects the core wires to the crystal head. Therefore, firstly, the efficiency is low, secondly, the cost is high, thirdly, errors are easy to occur, so that the automatic network cable branching device is very necessary to be researched, the full automation of the network cable from the wire cutting, the peeling and the core wire sequencing according to the production requirements to the crystal head mounting is realized, the production cost is reduced, and the production efficiency is improved.

The utility model provides a net twine automatic feeding utilizes current net twine winder, through the motor step length that sets up the winder, according to the net twine length of being qualified for the next round of competitions of the accurate control of actual work needs to cut off the net twine according to required length segmentation, provide solid basis for realizing that the net twine is from cutting the line according to production needs, fading skin, heart yearn sequencing to adorning crystal head full automatization.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: at present, when a network cable is produced and a crystal head is installed on the market, the core cable is connected to the crystal head mainly after manual branching. Thus, the efficiency is low, the cost is high, and the error is easy to occur. Therefore, it is necessary to develop an automatic network cable branching device to realize the full automation of the network cable from the whole network cable, the network cable segmentation, the network cable peeling, the core cable sequencing to the crystal head installation. Therefore, the utility model discloses the purpose utilizes current net twine winder, through the motor step length that sets up the winder, according to the net twine length of being qualified for the next round of competitions of the accurate control of actual work needs to cut the net twine according to required length segmentation, solve the problem of automatic net twine separated time device net twine segmentation pay-off in earlier stage.

The utility model relates to a net twine automatic feeding, including control system, winder, rodless cylinder, inlet wire mechanism, scissors mechanism, roll line mechanism, cam fixed establishment and net twine moving mechanism.

A control program is designed in the control system, so that each air cylinder can act within a limited time, and the control of the whole device is further realized. The utility model relates to a net twine automatic feeding, used cylinder all controls through the solenoid valve in the gas circuit when moving the net twine, sends the signal of telecommunication through control system, and control solenoid valve's opening and closing can control the action of cylinder.

The utility model discloses a spiral device is installed to the inlet wire end, and the spiral device is the net twine winder commonly used on the market, and winder central point puts the department and installs the motor, can be according to the length that the net twine was qualified for the next round of competitions at every turn of the accurate control of actual work needs through the step length that sets up the motor.

The rodless cylinder of adorning in the frame is installed to the winder next door admittedly, the one end of winder is kept away from to the rodless cylinder, and inlet wire mechanism is installed to the head end promptly, inlet wire mechanism comprises motor, three rows of engaged driven gear and upper and lower two rows of rollers, and second row driven gear all is connected with two rows of rollers one to one with third row driven gear, and first row driven gear number ratio two rows of driven gear is less one, and the driven gear of intermediate position department is connected with the pivot of motor, and inlet wire mechanism passes through the gear engagement transmission promptly, drives the roller and rotates. The opposite face of upper and lower two rows of rollers has all dug the arc groove, and the clearance between upper and lower two rows of arc grooves is less than net twine crust diameter, can guarantee like this to have certain pressure between roller and the net twine, prevents the net twine roll-off on the one hand, and on the other hand increases the frictional force between roller and the net twine.

High through one end on the slip table of rodless cylinder, the U-shaped connecting plate that the other end is low is connected with the finger cylinder, and the high one end of U-shaped connecting plate is passed through the bolt and is connected with the slip table of rodless cylinder, and the low one end of U-shaped connecting plate is passed through the bolt and is connected with the finger cylinder, all overlaps on two gas claws of finger cylinder and is equipped with the rubber sleeve of prismatic, prevents that the net twine from being damaged by the extrusion.

Three mechanisms, namely a scissors mechanism, a wire rolling mechanism and a cam fixing mechanism, are sequentially arranged between the wire feeding mechanism and the tail end of the rodless cylinder, and the distance between the wire rolling mechanism and the cam fixing mechanism is set according to the actual required length of the net wire. In order to facilitate the sliding table of the rodless cylinder to drive the finger cylinder to slide on the sliding rod of the rodless cylinder, the three mechanisms are installed with the sliding table of the rodless cylinder in a staggered mode.

The cam fixing mechanism is used for clamping a network cable and comprises a motor, a cam spring mechanism, an air cylinder sliding plate and a finger air cylinder, wherein one end, far away from the rodless air cylinder, of the cam spring mechanism is connected with the motor, one end, close to the rodless air cylinder, of the cam spring mechanism is connected with the finger air cylinder, the finger air cylinder is installed on the air cylinder sliding plate sleeved on the cam spring mechanism, the air cylinder sliding plate is a T-shaped plate, a hole is formed in a vertical plate in the middle of the air cylinder sliding plate, the air cylinder mounting plate can be sleeved on the cam spring mechanism, and a transverse plate at the. When the motor works, the bearing rolls along the surface of the cam to do track motion, the position of the cam is changed, the spring is driven to do telescopic motion, the finger cylinder is driven to slide on the cylinder sliding plate, and therefore the finger cylinder is stretched out and retracted.

The thread rolling mechanism consists of a guide rod cylinder, a telescopic body, a motor, a driven gear and a roller, and the telescopic body structure is formed by simplifying the structure of the existing telescopic door body. The guide rod cylinder passes through the connecting plate and is connected with the flexible body, and the flexible body is kept away from the one end of guide rod cylinder and is connected with two motor mounting panels through two upper and lower connecting plates, and a motor is all installed to two motor mounting panels, and every motor all is connected with two engaged driven gear, and a driven gear is connected with the motor rotation axis, and another driven gear is connected with the roller. The rollers of the wire rolling mechanism are consistent with the rollers of the wire inlet mechanism, the opposite surfaces of the upper and lower rollers are dug with arc grooves, and the gap between the upper and lower rows of arc grooves is smaller than the diameter of the outer skin of the mesh wire.

The distance between the thread rolling mechanism and the cam spring mechanism is more than one time larger than the distance between the thread feeding mechanism and the thread rolling mechanism.

The scissors mechanism consists of a guide rod cylinder, a telescopic body and scissors, the telescopic body structure is formed by simplifying the structure of the existing telescopic door body, the whole telescopic door body is in a parallelogram shape, and four cross points of the telescopic body are connected through pins. The guide rod cylinder is connected with the telescopic body through a connecting plate, and one end of the telescopic body, far away from the guide rod cylinder, is connected with the scissors. The cylinder backing plate is still installed to guide arm cylinder bottom, and the cylinder backing plate is the type of protruding, and its protrusion end is connected with the spout, and the spout is "concave" type of form, and the one end that the cylinder backing plate was connected to the spout has still opened a hole, and the telescopic body is close to two pins of guide arm cylinder one end, and in the recess of spout was arranged in to one, another was arranged in on the spout in the strip hole of opening for when the guide arm cylinder was flexible, the pin that drives the telescopic body was at the spout reciprocating motion, thereby realized opening and closing of scissors.

The net twine moving mechanism is installed in no pole cylinder top, and it comprises lead screw module, slip table cylinder and finger cylinder, and lead screw module rigid coupling is connected with L shape connecting plate in the bearing of lead screw module in the frame, and a slip table cylinder is respectively installed to the right angle department at L shape connecting plate both ends, and the cylinder body of slip table cylinder is installed in L shape connecting plate, and the apron of two slip table cylinders all is connected with the closed end of the straight U-shaped connecting plate in bottom. Two finger cylinders are respectively arranged at two ends of the opening ends of the two U-shaped connecting plates, and the two finger cylinders of each U-shaped plate are symmetrically arranged on the inner side edge of the U-shaped plate. The sliding table cylinder is used for lifting the network cable moving mechanism, the two finger cylinders on the U-shaped plate are used for clamping the head and the tail of the whole device, and one section of network cable corresponds to the two finger cylinders.

The utility model relates to a net twine automatic feeding device below still design has the silo, because the length restriction of device itself, when the net twine by feed arrangement is longer, the net twine can be because of its self compliance is crooked and hang down, consequently designs the silo and holds because of crooked net twine that hangs down.

The utility model has the advantages that: the utility model discloses to the segmentation pay-off problem that the automatic net twine separated time device of research and development exists, a net twine automatic feeding is provided, utilize current net twine winder, through the motor step length that sets up the winder, the length of net twine outgoing line at every turn according to the actual work needs accurate control, and cut the net twine according to required length segmentation, from whole line, the net twine segmentation, the net twine fades the skin, the heart yearn is ordered and is installed quartzy first full automatization, the problem of solving artifical installation net twine quartzy head provides solid basis for realizing the net twine.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Fig. 2 is a schematic view of the wire feeding portion of the present invention.

Fig. 3 is a schematic view of the rodless cylinder according to the present invention.

Fig. 4 is a schematic view of the wire feeding mechanism of the present invention.

Fig. 5 is a schematic view of the cam fixing mechanism of the present invention.

Fig. 6 is a schematic view of the thread rolling mechanism of the present invention.

Fig. 7 is a schematic view of the scissors mechanism of the present invention.

Fig. 8 is a schematic view of the cable moving mechanism according to the present invention.

Description of reference numerals: 1. a reel; 2. a lead screw module; 3. a trough; 4. a rodless cylinder; 5. a wire feeding mechanism; 6. a scissor mechanism; 7. a network cable moving mechanism; 8. a thread rolling mechanism; 9. a cam fixing mechanism; 10. a network cable; 11. a finger cylinder; 12. a driven gear; 13. a roller; 14. a cam spring mechanism; 15. a guide rod cylinder; 16. a telescopic body; 17. scissors; 18. a pin; 19. slip table cylinder.

Detailed Description

The working process of the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

The utility model relates to a net twine automatic feeding, including control system, winder 1, no pole cylinder 4, inlet wire mechanism 5, scissors mechanism 6, roll line mechanism 8, cam fixed establishment 9 and net twine moving mechanism 7.

The utility model discloses a line coiling device is installed to the inlet wire end, and the line coiling device is the net twine winder commonly used in the market, and the rodless cylinder 4 of adorning in the frame is installed on 1 next door of winder. Wire inlet mechanism 5 is installed to the head end of rodless cylinder 4, is connected with finger cylinder 11 through the connecting plate on the slip table of rodless cylinder 4.

The wire feeding mechanism 5 is composed of a motor, three rows of meshed driven gears 12, an upper row of rollers 13 and a lower row of rollers 13, the second row of driven gears 12 and the third row of driven gears 12 are connected with the two rows of rollers 13 in a one-to-one mode, the number of the first row of driven gears 12 is one less than that of the second row of driven gears 12, and the driven gears 12 in the middle positions are connected with a rotating shaft of the motor.

Three mechanisms of a scissors mechanism 6, a thread rolling mechanism 8 and a cam fixing mechanism 9 are sequentially arranged between the thread feeding mechanism 5 and the tail end of the rodless cylinder 4, and the three mechanisms are all installed with the sliding table of the rodless cylinder 4 in a staggered mode.

The cam fixing mechanism 9 consists of a motor, a cam spring mechanism 14, a cylinder sliding plate and a finger cylinder 11, wherein one end of the cam spring mechanism 14, which is far away from the rodless cylinder 4, is connected with the motor, one end of the cam spring mechanism 14, which is close to the rodless cylinder 4, is connected with the finger cylinder 11, the finger cylinder 11 is arranged on the cylinder sliding plate sleeved on the cam spring mechanism 14, and a cylinder sliding plate is fixedly connected on the rack;

the thread rolling mechanism 8 consists of a guide rod cylinder 15, a telescopic body 16, a motor, a driven gear 12 and a roller 13. The guide rod cylinder 15 is connected with the telescopic body 16 through a connecting plate, one end, far away from the guide rod cylinder 15, of the telescopic body 16 is connected with the two motor mounting plates through an upper connecting plate and a lower connecting plate, the two motor mounting plates are respectively provided with a motor, each motor is connected with two meshed driven gears 12, one driven gear 12 is connected with a motor rotating shaft, and the other driven gear 12 is connected with the roller 13.

The scissors mechanism 6 consists of a guide rod cylinder 15, a telescopic body 16 and scissors 17, the telescopic body 16 is in a parallelogram shape as a whole, and four cross points of the telescopic body 16 are connected through pins 18. The guide rod cylinder 15 is connected with the telescopic body 16 through a connecting plate, and one end of the telescopic body 16, which is far away from the guide rod cylinder 15, is connected with the scissors 17. The bottom of the guide rod cylinder 15 is also provided with a cylinder backing plate in a convex shape, the convex end of the cylinder backing plate is connected with a sliding chute in a concave shape, one end of the sliding chute, which is connected with the cylinder backing plate, is also provided with a strip hole, one end of the telescopic body, which is close to the guide rod cylinder, is provided with two pins, one of the two pins is arranged in the groove of the sliding chute, and the other one is arranged in the strip hole on the sliding chute.

Net twine moving mechanism 7 is installed in 4 tops of no pole cylinder, and it is by lead screw module 2, slip table cylinder 19 and finger cylinder 1 and constitute, and 2 rigid couplings of lead screw module are connected with L shape connecting plate in the bearing of lead screw module 2 in the frame, and L shape connecting plate both ends all are connected with the straight U-shaped connecting plate in bottom through slip table cylinder 19, and a finger cylinder 11 is all installed at the both ends of two U-shaped connecting plate open ends, and two finger cylinders 11 of every U-shaped board are all symmetrical the installation on the U-shaped inboard side.

The working process of the automatic network cable feeding device is as follows:

step one, before the feeding work starts, the step length of a motor of a winder 1 is set, after the length of the net wire required by the production is determined, the net wire head in the winder 1 is pulled out manually, inserted between an upper row of rollers 13 and a lower row of rollers 13 of a wire inlet mechanism 5, and penetrates through the rollers 13 to leave a wire head.

And step two, starting feeding work, and after the device is started, clamping a net wire head reserved by the wire inlet mechanism 5 by a finger cylinder 11 arranged on the sliding table of the rodless cylinder 4, and pulling the net wire to the maximum stroke of the rodless cylinder 4.

In the step, the air claw of the finger cylinder 11 is sleeved with the rubber sleeve, so that the net wire cannot be damaged even if the net wire is clamped and pulled; and, because there are pressure and friction between the upper and lower rows of rollers 13 of the thread feeding mechanism 5, the net thread is in a stretched state in this stroke.

And step three, starting the cam fixing mechanism 9, enabling a motor of the cam fixing mechanism 9 to work, enabling the bearing to roll along the surface of the cam to move in a track, changing the position of the cam, compressing a spring, driving the finger cylinder 11 to slide out of the cylinder sliding plate, and clamping the mesh wire, and enabling the section of the mesh wire between the cam fixing mechanism 9 and the sliding table of the rodless cylinder 4 to be kept in a stretched state.

In this step, the finger cylinder used by the cam fixing mechanism 9 only needs to fix the net wire, but not tightly clamp the net wire, so that a rubber sleeve is not required to be arranged on the pneumatic claw of the finger cylinder 11.

Step four, the wire inlet mechanism 5 and the wire rolling mechanism 8 are started simultaneously, a motor of the wire inlet mechanism 5 works to drive a driven gear 12 of the wire inlet mechanism 5 to rotate, so that a roller 13 of the wire inlet mechanism 5 is driven to roll, and the net wires are driven to move through friction force between the roller 13 and the net wires to carry out wire feeding work;

the motor of the thread rolling mechanism 8 works to drive the driven gear 12 of the thread rolling mechanism 8 to rotate, so as to drive the roller 13 of the thread rolling mechanism 8 to roll, and then the thread feeding work is carried out.

Because the friction force between the rollers 13 of the wire inlet mechanism 5 and the wire rolling mechanism 8 and the net wire causes the net wire moving speed between the wire inlet mechanism 5 and the wire rolling mechanism 8 to be slow, after the net wire is continuously fed, the net wire between the wire inlet mechanism 5 and the wire rolling mechanism 8 is in a straight state and is not in a tight straight line, however, because the distance between the wire rolling mechanism 8 and the cam fixing mechanism 9 is larger than the distance between the wire inlet mechanism 5 and the wire rolling mechanism 8, and the cam fixing mechanism 9 beside the wire inlet mechanism 5 clamps and fixes the net wire in the three steps, the net wire can bend between the wire rolling mechanism 8 and the cam fixing mechanism 9 due to the flexibility of the net wire and sag into the trough 3 below the device.

And step five, the winder 1 discharges the net twine with the preset length and stops discharging the net twine, the motor of the thread feeding mechanism 5 stops working later, the thread rolling mechanism 8 continues working for a period of time and then stops working, and in the period of time, the thread rolling mechanism 8 continues driving the net twine to advance, so that the net twine between the thread feeding mechanism 5 and the thread rolling mechanism 8 is in a stretched straight state. At this time, the mesh wire between the wire feeding mechanism 5 and the wire rolling mechanism 8 is in a stretched straight state, the mesh wire between the cam fixing mechanism 9 and the sliding table of the rodless cylinder 4 is in a stretched straight state, and the mesh wire between the wire rolling mechanism 8 and the cam fixing mechanism 9 is bent and drooped, i.e., the first and the last mesh wires are in a stretched straight state on the whole device, and the mesh wire in the middle part is bent and drooped.

And step six, the mesh wire moving mechanism 7 moves out under the action of the lead screw module 2, then the sliding table cylinder 19 of the mesh wire moving mechanism 7 slides out to drive the mesh wire moving mechanism 7 to descend to be close to the mesh wire, and after descending, the four finger cylinders 11 of the mesh wire moving mechanism 7 clamp the first section and the last section of the stretched mesh wire.

In the step, the finger cylinder 11 used by the net wire moving mechanism 7 only needs to clamp the net wire, but not tightly clamp the net wire, so that a rubber sleeve does not need to be arranged on the pneumatic claw of the finger cylinder.

And seventhly, after the net thread moving mechanism 7 clamps the net thread, the scissor mechanism 6 is started, a piston rod of a guide rod cylinder 15 of the scissor mechanism 6 retracts to drive the scissor 17 to close, the net thread is cut off, and the cut net thread is moved away by the net thread moving mechanism 7. And finishing one feeding operation.

Claims

1. The utility model provides a net twine automatic feeding, includes control system, winder (1), no pole cylinder (4), inlet wire mechanism (5), scissors mechanism (6), rolls line mechanism (8), cam fixed establishment (9) and net twine moving mechanism (7), its characterized in that:

a wire winder (1) is installed at the wire inlet end of the device, and a rodless cylinder (4) fixedly installed on the rack is installed beside the wire winder (1); the head end of the rodless cylinder (4) is provided with a wire inlet mechanism (5), a sliding table of the rodless cylinder (4) is also connected with a finger cylinder (11) through a connecting plate, and a network cable moving mechanism (7) is arranged above the rodless cylinder (4);

three mechanisms of a scissors mechanism (6), a thread rolling mechanism (8) and a cam fixing mechanism (9) are sequentially arranged between the thread feeding mechanism (5) and the tail end of the rodless cylinder (4).

2. The automatic feeding device of the network cable according to claim 1, characterized in that: the scissors mechanism (6), the thread rolling mechanism (8) and the cam fixing mechanism (9) are arranged in a staggered mode with a sliding rod of the rodless cylinder (4), and the distance between the thread rolling mechanism (8) and the cam spring mechanism (14) is larger than the distance between the thread feeding mechanism (5) and the thread rolling mechanism (8).

3. The automatic feeding device of the network cable according to claim 1, characterized in that: inlet wire mechanism (5) comprise motor, three rows of engaged driven gear (12) and upper and lower two rows of rollers (13), second row driven gear (12) and third row driven gear (12) all are connected with two rows of rollers (13) one to one, first row driven gear (12) number ratio two rows driven gear (12) are less one, and driven gear (12) of intermediate position department are connected with the pivot of motor, and the opposite face of upper and lower two rows of rollers (13) has all dug the circular arc groove, the clearance between upper and lower two rows of circular arc grooves is less than net twine crust diameter.

4. The automatic feeding device of the network cable according to claim 1, characterized in that: the cam fixing mechanism (9) is composed of a motor, a cam spring mechanism (14), an air cylinder sliding plate and a finger air cylinder (11), one end, far away from the rodless air cylinder (4), of the cam spring mechanism (14) is connected with the motor, one end, close to the rodless air cylinder (4), of the cam spring mechanism is connected with the finger air cylinder (11), the finger air cylinder (11) is installed on the air cylinder sliding plate sleeved on the cam spring mechanism (14), and an air cylinder sliding plate is fixedly connected to the rack.

5. The automatic feeding device of the network cable according to claim 1, characterized in that: the thread rolling mechanism (8) is composed of a guide rod cylinder (15), a telescopic body (16), a motor, driven gears (12) and rollers (13), the guide rod cylinder (15) is connected with the telescopic body (16) through a connecting plate, one end, far away from the guide rod cylinder (15), of the telescopic body (16) is connected with two motor mounting plates through one upper connecting plate and one lower connecting plate, one motor is installed on each motor mounting plate, each motor is connected with two meshed driven gears (12), one driven gear (12) is connected with a motor rotating shaft, the other driven gear (12) is connected with the rollers (13), the opposite surfaces of the upper and lower rows of rollers (13) are dug with arc grooves, and gaps between the upper and lower rows of arc grooves are smaller than the diameter of the outer skin of the mesh thread.

6. The automatic feeding device of the network cable according to claim 1, characterized in that: the scissors mechanism (6) is composed of a guide rod cylinder (15), a telescopic body (16) and scissors (17), the guide rod cylinder (15) is connected with the telescopic body (16) through a connecting plate, one end, far away from the guide rod cylinder (15), of the telescopic body (16) is connected with the scissors (17), the telescopic body (16) is integrally in a parallelogram shape, and four cross points of the telescopic body (16) are connected through pins (18).

7. The net twine automatic feeding of claim 5, characterized in that: the bottom of a guide rod cylinder (15) of the scissors mechanism (6) is also provided with a cylinder base plate in a convex shape, the convex end of the cylinder base plate is connected with a sliding groove, the sliding groove is in a concave shape, one end of the sliding groove, which is connected with the cylinder base plate, is also provided with a strip hole, the telescopic body is close to two pins (18) at one end of the guide rod cylinder (15), one pin is arranged in a groove of the sliding groove, and the other pin is arranged in the strip hole on the sliding groove.

8. The automatic feeding device of the network cable according to claim 1, characterized in that: net twine moving mechanism (7) comprise lead screw module (2), slip table cylinder (19) and finger cylinder (11), lead screw module (2) rigid coupling is in the frame, be connected with L shape connecting plate on the bearing of lead screw module (2), L shape connecting plate both ends all are connected with the U-shaped connecting plate through slip table cylinder (19), one finger cylinder (11) are all installed at the both ends of two U-shaped connecting plate open ends, two of every U-shaped board point cylinder (11) all the symmetric mounting on U-shaped inboard side.