CN113322700A - Multifunctional cradle of stranding equipment - Google Patents

Abstract

The invention discloses a multifunctional cradle of stranding equipment, which comprises a cradle bottom plate arranged on a cradle of a core machine, wherein two first mounting holes which are symmetrical to each other are arranged on the cradle bottom plate; the cradle bottom plate at least has a first working mode and a second working mode, and in the first working mode, the two first mounting holes are both provided with monofilament pay-off seats; in a second working mode, a 315 core wire paying-off shaft seat is arranged on the second mounting hole; the monofilament paying-off seat is used for mounting a monofilament spool, and the 315 core wire paying-off shaft seat is used for mounting the 315 spool; the left sides of the two first mounting holes are respectively provided with a first adjusting device for adjusting the tension of the monofilament paying-off seat, and the left side of the second mounting hole is provided with a second adjusting device for adjusting the tension of the 315 core wire paying-off seat; the invention can be used for paying off by using 315 (315-2) spools and also can be used for paying off by using 220, 236 and 255 spools.

Description

Multifunctional cradle of stranding equipment

Technical Field

The invention relates to the technical field of stranding equipment, in particular to a multifunctional cradle of stranding equipment.

Background

The DTS stranding machine tool is important equipment for stranding and rope forming, and is wide in application range and large in holding amount. The DTS-2 stranding machine is a multifunctional flexible production machine type derived from a DTS additional pay-off table and can produce cords with various specifications, but all current DTS core machines are 220I-shaped wheels and 236I-shaped wheels for monofilament pay-off, the DTS-2 core machine mainly pays off core wires and 315I-shaped wheels for pay-off, the core machines are the same but different in function, the improved DTS-2 machine type cannot be completely downward compatible with the DTS machine type, for example, only the DTS machine type can be used for production during 3922, the DTS-2 machine cannot produce the specifications, and the internal pay-off layout of the core machines is completely different. The market is complicated and changeable, the demand order of the customer is full of uncertainty, and when a certain order is increased, the existing equipment can not meet the production requirement, the order and the customer can be lost, and the loss is brought to enterprises.

The defects of the prior art are as follows: the DTS core machines are all provided with 220 and 236I-shaped wheels for paying off monofilaments, the DTS-2 core machine is mainly used for paying off core wires, the DTS-2 core machine is provided with 315I-shaped wheels for paying off the core wires, and the DTS-2 core machine as an improved DTS-2 machine type cannot be completely compatible with the DTS machine type downwards.

Disclosure of Invention

The invention aims to provide a multifunctional cradle of stranding equipment, and aims to solve the problem that a core machine cradle cannot meet the requirements of paying off by using a 315I-shaped wheel and 220, 236 and 255I-shaped wheels in the prior art.

In order to achieve the purpose, the invention is realized by adopting the following technical scheme:

a multifunctional cradle of stranding equipment comprises a cradle bottom plate arranged on a cradle of a core machine, wherein a plurality of guide rods for monofilament routing and two first mounting holes which are symmetrical to each other are arranged on the cradle bottom plate, a second mounting hole is arranged between the two first mounting holes, and the second mounting hole is close to the first mounting hole on the right side;

the cradle bottom plate at least has a first working mode and a second working mode, and in the first working mode, the two first mounting holes are both provided with monofilament pay-off seats; in a second working mode, a 315 core wire pay-off shaft seat is installed on the second installation hole, and the monofilament-free pay-off seat is arranged in the first installation hole on the left side; the monofilament paying-off seat is used for mounting a monofilament spool, and the 315 core wire paying-off shaft seat is used for mounting the 315 spool;

two the left side of first mounting hole all is equipped with the first adjusting device who is used for adjusting monofilament unwrapping wire seat tension, the left side of second mounting hole is equipped with the second adjusting device who is used for adjusting 315 heart yearn unwrapping wire axle bed tension.

Further, the two first mounting holes are symmetrical about the center line of the cradle bottom plate, and the distance from the first mounting holes to the center line of the cradle bottom plate is 150 mm.

Furthermore, a first screw hole is formed in the left side of the first mounting hole, a first slotted hole is formed right above the first screw hole, and the first screw hole and the first slotted hole are used for mounting a first adjusting device.

Further, first adjustment mechanism includes the monofilament arm of force, extension spring and adjusting screw, the intermediate part of the monofilament arm of force rotates to be connected on first screw, monofilament arm of force top is connected through connecting rod and first slotted hole, the connecting rod is connected through the chain on extension spring, adjusting screw and the monofilament unwrapping wire seat.

Further, the distance between the first screw hole and the first mounting hole is 100 mm.

Furthermore, a second screw hole is formed in the position 100mm away from the left side of the second mounting hole, a second slotted hole is formed right above the second screw hole, and the second screw hole and the second slotted hole are used for mounting a second adjusting device.

Furthermore, the second adjusting mechanism comprises a core machine force arm and a core wire tension adjusting mechanism, the middle part of the core machine force arm is rotatably connected with the second screw hole, the top of the core machine force arm is connected with the second slotted hole through a connecting rod, and the connecting rod is connected with the 315 core wire paying-off shaft seat through the core wire tension adjusting mechanism.

Furthermore, the periphery of each first mounting hole is provided with three guide rods.

Furthermore, the cradle bottom plate is cuboid, and four corners of the bottom surface of the cradle bottom plate are provided with 45-degree chamfers.

Furthermore, the monofilament pay-off seat is used for mounting a monofilament pay-off seat shaft, and the monofilament spool is mounted on the monofilament pay-off seat shaft;

the 315 core wire paying-off shaft seat is used for installing a core machine paying-off shaft, and the 315 spool is installed on the core machine paying-off shaft.

According to the technical scheme, the embodiment of the invention at least has the following effects:

1. according to the cradle, the symmetrical first mounting holes are formed in the cradle bottom plate, the second mounting hole is formed between the two first mounting holes and is close to the first mounting hole on the left side, so that the DTS-2 core machine can be used for paying off by using 315 (315-2) spool and also can be used for paying off by using 220, 236 and 255 spools, the requirement of large-scale rotation propulsion is met, the production efficiency is improved, the DTS machine type is completely downward compatible, and the production cost of enterprises is reduced;

2. the cradle bottom plate can meet the installation requirements of the monofilament pay-off seat and the 315 core wire pay-off seat and can not interfere with each other by arranging the first mounting hole and the second mounting hole, arranging the first screw hole relative to the first mounting hole and arranging the second screw hole relative to the second mounting hole.

Drawings

FIG. 1 is a top view of a cradle bottom panel in a first mode of operation according to an embodiment of the invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a top view of a bottom panel of the bassinet in an embodiment of the invention;

FIG. 4 is a top view of the bottom panel of the bassinet in a second mode of operation in accordance with an embodiment of the present invention.

Wherein: 1. a core machine flywheel disc; 2. a core machine cradle bearing seat; 3. a routing guide wheel bracket; 4. a cradle bottom plate; 5. a first mounting hole; 6. a monofilament paying-off seat shaft; 7. a first screw hole; 8. a first slot; 9. a monofilament force arm; 10. a monofilament pay-off seat; 11. guide bar No. 1; 12. no. 2 guide rod; 13. no. 3 guide rod; 14. a tension spring; 15. adjusting the screw rod; 16. a core machine cradle; 17. a monofilament spool; 18. 315 core wire paying-off shaft seat; 19. a second screw hole; 20. a core machine moment arm; 21. a second slot; 22. a core wire tension adjusting mechanism; 23. 315 an I-shaped wheel; 24. and (5) paying-off shaft of the core machine.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

It should be noted that in the description of the present invention, the terms "front", "rear", "left", "right", "upper", "lower", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention but do not require that the present invention must be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. As used in the description of the present invention, the terms "front," "back," "left," "right," "up," "down" and "in" refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 4, a multifunctional cradle for stranding equipment comprises a cradle bottom plate 4 arranged on a cradle 16 of a core machine, wherein a plurality of guide rods for monofilament routing and two first mounting holes 5 which are symmetrical to each other are arranged on the cradle bottom plate 4, a second mounting hole is arranged between the two first mounting holes 5, and the second mounting hole is close to the first mounting hole 5 on the right side; the cradle bottom plate 4 at least has a first working mode and a second working mode, and in the first working mode, the two first mounting holes 5 are both provided with monofilament pay-off seats 10; in a second working mode, a 315 core wire paying-off shaft seat 18 is arranged on the second mounting hole, and the monofilament-free paying-off seat 10 is arranged in the first mounting hole 5 on the left side; the monofilament paying-off seat 10 is used for mounting a monofilament spool 17, and the 315 core wire paying-off shaft seat 18 is used for mounting a 315 spool 23; the left sides of the two first mounting holes 5 are provided with first adjusting devices for adjusting the tension of the monofilament paying-off seat 10, and the left side of the second mounting hole is provided with a second adjusting device for adjusting the tension of the 315 core wire paying-off seat 18.

According to the cradle, the symmetrical first mounting holes 5 are formed in the cradle bottom plate, the second mounting hole is formed between the two first mounting holes 5 and is close to the left first mounting hole 5, so that the DTS-2 core machine can be used for paying off by using 315 (315-2) spool and also can be used for paying off by using 220, 236 and 255 spools, the requirement of large-wheel propulsion is met, the production efficiency is improved, the DTS type is completely downward compatible, and the production cost of enterprises is reduced.

When this application converts to second mode from first mode, only need to demolish left monofilament unwrapping wire seat 10, install 315 heart yearn unwrapping wire axle bed 18 on left second mounting hole can, simple and convenient, monofilament unwrapping wire seat 10 on right side can not demolish.

In the first working mode, the monofilament paying-off seat shafts 6 arranged on the two monofilament paying-off seats 10 are provided with the monofilament spools 17, and the monofilament spools 17 can pay off the 220, 236 and 255 spools. In a second working mode, the 315 core wire paying-off shaft seat 18 is used for installing the core machine paying-off shaft 24, and the 315 spool 23 is installed on the core machine paying-off shaft 24, so that the paying-off requirements of the 315 spool and the 315-2 spool can be met.

In the present embodiment, the first adjusting device is used to adjust the tension of the monofilament paying-off seat 10, and the second adjusting device is used to adjust 315 the tension of the core wire paying-off seat.

In some embodiments, the first and second adjustment devices each include a moment arm and an adjustment mechanism connected with the moment arm for tension adjustment. The monofilament force arm 9 in the first adjusting device and the core machine force arm 20 in the second adjusting device are different in size, the adjusting mechanism in the first adjusting device comprises a tension spring 14 and an adjusting screw 15, the monofilament force arm 9 is connected with the screw 15 through the tension spring 14, the screw 15 is connected with a chain wheel outside the monofilament pay-off seat 10, and the monofilament pay-off seat 10 is tensioned through the chain wheel. The core wire tension adjusting mechanism 22 of the second adjusting device is connected with the core machine force arm 20 to adjust 315 the tension of the core wire paying-off shaft seat. Further, the core wire tension adjusting mechanism 22 may also adopt the design of the tension spring 14 and the screw 15.

Redesigning a cradle of a core machine, using a core machine flywheel disc 1 of a DTS-2 type, using a core machine cradle bearing seat 2 and a routing guide wheel bracket 3 of the DTS, and redesigning a cradle bottom plate 4. The DTS cradle bottom plate and the DTS-2 cradle bottom plate are combined and optimized, a steel plate with the thickness of 20mm is used, the steel plate is cut into 570 × 370mm, and the lower edge of the periphery of the steel plate is chamfered by 45 degrees to be used as the cradle bottom plate.

2 first mounting holes 5 with the length of 25mm are respectively formed at the positions 150mm away from the center line of the bottom plate 4 of the cradle, 2 monofilament paying-off seat shafts 6 are mounted in the first mounting holes, and a first screw hole 7 of M10 is formed at the position 100mm away from the left side of the 25mm hole. A first slot 8 of 12 x 30mm is milled right above the first screw hole 10 of M10, and 2 monofilament arms 9 are installed in this position. The application has injectd the relative position of first mounting hole 5 and first screw 7 and first slotted hole 8, and this position is injectd and can be guaranteed the tensioning effect of monofilament arm of force 9 to monofilament stringing seat 10. A No. 1 guide rod 11, a No. 2 guide rod 12 and a No. 3 guide rod 13 for monofilament wiring are respectively arranged on a cradle bottom plate 4 by taking a monofilament paying-off seat 10 as a center through holes, a tension spring 14 and an adjusting screw rod 15 for adjusting tension are arranged at the position corresponding to a force arm pin under the cradle bottom plate 4, and at the moment, the cradle of the core machine can meet the requirements of paying off by using 220, 236 and 255 monofilament I-shaped wheels.

Then, a 92mm second mounting hole is formed in the bottom plate of the cradle, the mounting hole is located 65.5mm away from the left side of the center horizontal position, the mounting hole is used for mounting 315 the core wire paying-off shaft seat 18, a hole tapping M12 second screw hole 19 is formed in the corresponding position on the left side of a 100mm hole and used for mounting the core machine force arm 20, a 12 x 40 second slotted hole is milled at a position 150mm above the 12mm second screw hole 19, and then the hole of the core wire tension adjusting mechanism 22 is punched and reserved. The position of the second mounting hole relative to the second screw hole is limited in the application, so that the tensioning effect of the 315 core wire paying-off shaft seat 18 through the core wire tension adjusting mechanism 22 can be guaranteed, and the relative position relation between the second mounting hole and the second screw hole can also effectively guarantee that no position interference occurs between the 315 core wire paying-off shaft seat 18 and the monofilament paying-off seat 10.

When the core machine needs to pay off by 315 and 315-2I-shaped wheels, the core machine can be directly used only by dismounting the left monofilament pay-off seat 10, installing the core machine pay-off shaft 24, the core machine force arm 20 and the core wire tension adjusting mechanism 22, and the right monofilament pay-off seat can be directly remained on the bottom plate of the cradle, so that the paying off by 315 and 315-2I-shaped wheels is not influenced.

The redesigned cradle of the core machine can lead the core machine of the DTS-2 to be capable of using 315 and 315-2I-shaped wheels for paying off and using 220, 236 and 255I-shaped wheels for paying off, thereby meeting the requirement of large-wheel propulsion, improving the production efficiency, being completely downward compatible with the DTS machine type and reducing the production cost of enterprises.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (10)

1. The multifunctional cradle of the stranding equipment is characterized by comprising a cradle bottom plate (4) arranged on a core machine cradle (16), wherein a plurality of guide rods for monofilament routing and two first mounting holes (5) which are symmetrical to each other are arranged on the cradle bottom plate (4), a second mounting hole is arranged between the two first mounting holes (5), and the second mounting hole is close to the first mounting hole (5) on the right side;

the cradle bottom plate (4) at least has a first working mode and a second working mode, and in the first working mode, the two first mounting holes (5) are both provided with monofilament pay-off seats (10); in a second working mode, a 315 core wire paying-off shaft seat (18) is installed on the second installation hole, and the monofilament-free paying-off seat (10) is installed in the first installation hole (5) on the left side; the monofilament paying-off seat (10) is used for mounting a monofilament spool (17), and the 315 core wire paying-off shaft seat (18) is used for mounting a 315 spool (23);

the left sides of the two first mounting holes (5) are provided with first adjusting devices for adjusting tension of the monofilament paying-off seat (10), and the left sides of the second mounting holes are provided with second adjusting devices for adjusting tension of 315 core wire paying-off seat bases (18).

2. The stranding device multifunctional cradle according to claim 1, characterized in that the two first mounting holes (5) are symmetrical about the median line of the cradle base plate (4), the first mounting holes (5) being at a distance of 150mm from the median line of the cradle base plate (4).

3. The multifunctional cradle for stranding equipment according to claim 1, characterized in that a first screw hole (7) is provided on the left side of the first mounting hole (5), a first slotted hole (8) is provided directly above the first screw hole (7), and the first screw hole (7) and the first slotted hole (8) are used for mounting a first adjusting device.

4. The multifunctional cradle of stranding equipment according to claim 3, characterized in that the first adjusting mechanism comprises a monofilament force arm (9), a tension spring (14) and an adjusting screw (15), the middle part of the monofilament force arm (9) is rotatably connected to the first screw hole (7), the top of the monofilament force arm (9) is connected with the first slotted hole (8) through a connecting rod, and the connecting rod is connected with a chain on the monofilament pay-off seat (10) through the tension spring (14), the adjusting screw (15).

5. Multifunctional cradle for stranding equipment according to claim 3, characterized in that the distance between the first threaded hole (7) and the first mounting hole (5) is 100 mm.

6. The multifunctional cradle for stranding equipment according to claim 1, characterized in that a second screw hole (19) is formed at a position 100mm to the left of the second mounting hole, a second slotted hole (21) is formed right above the second screw hole (19), and the second screw hole (19) and the second slotted hole (21) are used for mounting a second adjusting device.

7. The multifunctional cradle of stranding equipment according to claim 6, characterized in that the second adjustment mechanism includes a core machine force arm (20) and a core wire tension adjustment mechanism (22), the middle portion of the core machine force arm (20) is rotatably connected with a second screw hole (19), the top portion of the core machine force arm (20) is connected with the second slotted hole (21) through a connecting rod, and the connecting rod is connected with 315 core wire paying-off shaft seat (18) through the core wire tension adjustment mechanism (22).

8. The stranding device multifunctional cradle according to any one of claims 1 to 7, wherein the outer periphery of each first mounting hole is provided with three guide rods.

9. The multifunctional cradle of stranding equipment according to any one of claims 1 to 7, characterized in that the cradle bottom plate (4) is rectangular parallelepiped, and four corners of the bottom surface of the cradle bottom plate (4) are provided with 45 ° chamfers.

10. The multifunctional cradle of stranding equipment according to any one of claims 1 to 7, characterized in that the monofilament payout seat (10) is used for mounting a monofilament payout seat shaft (6), and the monofilament spool (17) is mounted on the monofilament payout seat shaft (6);

the 315 core wire paying-off shaft seat (18) is used for installing a core machine paying-off shaft (24), and the 315 spool (23) is installed on the core machine paying-off shaft (24).

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