CN220774034U - Novel medium-sized high-speed winding machine - Google Patents

Abstract

The utility model relates to a novel medium-sized high-speed winding machine, which comprises a high-speed winding machine body, wherein the high-speed winding machine body consists of a rack, a box body, a traction mechanism and a winding and arranging mechanism, wherein a paying-off mechanism is arranged on the rack, the top of the rack is provided with the box body, a movement device is arranged in the box body, part of the movement device is exposed out of the bottom of the box body, the traction mechanism is arranged right above the box body, one side of the box body is positioned on the rack, the winding and arranging mechanism is further arranged on the rack, the paying-off mechanism is used for placing cables, and the winding and arranging mechanism is used for winding and arranging the cables.

Description

Novel medium-sized high-speed winding machine

Technical Field

The utility model belongs to the technical field of wire and cable manufacturing equipment, and particularly relates to a novel medium-sized high-speed winding machine.

Background

In the current wire and cable industry, in order to meet the requirements of high shielding performance and high fidelity of transmission signals of certain data communication cables, control cables, digital cables, audio cables and the like, a compact metal shielding layer needs to be coated on the surface of the cable. At present, two methods can be realized in the industry, namely, a layer of crossed reticular metal layers is formed on the surface of a cable by using a high-speed braiding machine, but the reticular metal layers have countless metal wire crossing points, the surface is not smooth, the surface of the cable is easy to have concave-convex feeling, and the bending performance of the cable is poor. Secondly, a layer of metal wires which are tightly and smoothly wound on the surface of the cable by using a winding machine, but the existing winding machine has the defects of small quantity of spindles, small winding pitch, low production efficiency and unstable high-speed winding pitch. Therefore, a novel medium-sized high-speed winding machine is designed, so that the problems are overcome.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide the novel medium-sized high-speed winding machine which has the advantages of simple structure, convenience in installation, large number of wire ingots, large winding pitch, high production efficiency and stable winding pitch.

The utility model is realized by the following technical scheme: the utility model provides a novel medium-sized high-speed coiler, includes the high-speed coiler body, the high-speed coiler body comprises frame, box, traction mechanism and winding displacement mechanism, wherein be provided with pay-off mechanism in the frame, the box is installed at the top of its frame, has placed the core device in the inside of box, and the part of this core device exposes in the bottom of the box install traction mechanism directly over the box to still install winding displacement mechanism in one of them one side of this box is located the frame, wherein pay-off mechanism is used for placing the cable, winding displacement mechanism is used for carrying out winding and winding displacement to the cable, and core device and traction mechanism cooperation accomplish the winding operation to the cable.

As preferable: the machine core device consists of a bottom plate, a hollow pipe and a fixed sleeve, wherein one end of the fixed sleeve is fixed on the bottom plate through a lower end cover, the other end of the fixed sleeve is provided with an upper end cover, an inner hole of the fixed sleeve is provided with the hollow pipe through a plane bearing and a bearing A, the lower end of the hollow pipe is provided with a synchronous pulley, the upper end of the hollow pipe is provided with a lower rotary sleeve sequentially from bottom to top, the lower end of the lower rotary sleeve is provided with a lower spindle mounting plate, the upper end of the upper rotary sleeve is provided with an upper spindle mounting plate and a branching ring respectively, the outer sides of the lower spindle mounting plate, the middle spindle mounting plate and the upper spindle mounting plate are respectively provided with lower spindles, middle spindles and upper spindles which are the same in number but are staggered in the circumferential direction, and threads released by the spindles are not interfered with each other through threading holes uniformly distributed on the branching ring to a converging point of a threading die; the motor is fixedly arranged on the bottom plate through a motor seat, and drives the hollow tube to rotate through a motor belt wheel and a synchronous belt wheel by using a synchronous belt transmission, so that a lower spindle mounting plate, a middle spindle mounting plate, an upper spindle mounting plate and a branching ring which are fixed on the hollow tube rotate, and wires on the lower spindle, the middle spindle and the upper spindle are sleeved to a wire passing die through the branching ring and a wire supporting sleeve from respective paths and then are wound through a traction mechanism.

As preferable: the wire protection tube is fixedly installed on the bottom plate through the wire protection tube installation seat, the wire protection tube stretches into the hollow tube, one side end of the wire protection tube, close to the bottom plate, is fixed on the bottom plate through the wire protection tube installation seat, the other end outer side of the wire protection tube is installed inside the hollow tube through the bearing B and the bearing retainer ring, and a wire supporting sleeve is installed on one side end, close to the wire passing die, of the wire protection tube, when the wire passes through the threading hole on the wire dividing ring and is in light contact with the wire passing die, the wire is prevented from jumping, and the wire winding is ensured to be more uniform.

As preferable: the hollow tube is fixed with the synchronous pulley through a lock nut.

The beneficial effects of the utility model are as follows:

1. the spindles are arranged in a layered and concentric manner, and the strands of wires are not interfered with each other, so that the working efficiency can be effectively improved.

2. The utility model designs the branching ring and the wire supporting sleeve, so that the winding is more uniform, and the overall working efficiency is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of the movement apparatus according to the present utility model.

Detailed Description

The present utility model will be further described with reference to the drawings and examples below in order to more clearly understand the objects, technical solutions and advantages of the present utility model to those skilled in the art.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "left," "right," "inner," "outer," "transverse," "vertical," and the like indicate or are based on the orientation or positional relationship shown in the drawings, and are merely for convenience in describing the present utility model, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, and thus should not be construed as limiting the utility model.

The utility model will be described in detail below with reference to the attached drawings: as shown in fig. 1, a novel medium-sized high-speed winding machine comprises a high-speed winding machine body, wherein the high-speed winding machine body is composed of a frame 1, a box body 4, a traction mechanism 5 and a winding and arranging mechanism 6, wherein the frame 1 is provided with a paying-off mechanism 2, the box body 4 is installed at the top of the frame 1, a movement device 3 is placed in the box body 4, a part of the movement device 3 is exposed at the bottom of the box body 4, the traction mechanism 5 is installed right above the box body 4, and the winding and arranging mechanism 6 is further installed on one side of the box body 4 on the frame 1, wherein the paying-off mechanism 2 is used for placing cables, the winding and arranging mechanism 6 is used for winding and arranging the cables, and the movement device 3 and the traction mechanism 5 are matched to finish winding operation of the cables.

As shown in fig. 2, the movement device 3 is composed of a bottom plate 11, a hollow tube 19 and a fixing sleeve 21, one end of the fixing sleeve 21 is fixed on the bottom plate 11 through a lower end cover 20, the other end of the fixing sleeve 21 is provided with an upper end cover 27, an inner hole of the fixing sleeve 21 is provided with the hollow tube 19 through a plane bearing 22 and a bearing a23, the lower end of the hollow tube 19 is provided with a synchronous pulley 15, the upper end of the hollow tube 19 is provided with a lower swivel sleeve 26, a middle spindle mounting plate 28 and an upper swivel sleeve 32 in sequence from bottom to top, wherein the lower end of the lower swivel sleeve 26 is provided with a lower spindle mounting plate 24, the upper end of the upper swivel sleeve 32 is provided with an upper spindle mounting plate 33 and a branching ring 35, the outer sides of the lower spindle mounting plate 24, the middle spindle mounting plate 28 and the upper spindle mounting plate 33 are respectively provided with lower spindles 25, middle spindles 29 and upper spindles 34 which have the same quantity but are staggered in the circumferential direction, and the wires released by the spindles are not interfered with each other through threading holes uniformly distributed on the branching ring 35 to the convergence points of a thread passing die 37; the motor 14 is fixedly arranged on the bottom plate through the motor seat 12, the motor 14 drives the hollow tube 19 to rotate through the motor belt pulley 13 and the synchronous belt pulley 15 by using a synchronous belt transmission, so that the lower spindle mounting plate 24, the middle spindle mounting plate 28, the upper spindle mounting plate 33 and the wire dividing ring 35 which are fixed on the hollow tube 19 rotate, and wires on the lower spindle 25, the middle spindle 29 and the upper spindle 34 are wound through the traction mechanism 5 after passing through the wire dividing ring 35 and the wire supporting sleeve 36 to the wire passing die 37 through respective paths.

The wire protection tube 17 is fixedly installed on the bottom plate 11 through the wire protection tube installation seat 18, the wire protection tube 17 stretches into the hollow tube 19, one side end, close to the bottom plate, of the wire protection tube 17 is fixed on the bottom plate 11 through the wire protection tube installation seat 18, the other end outer side of the wire protection tube 17 is installed inside the hollow tube 19 through the bearing B30 and the bearing retainer ring 31, a wire supporting sleeve 36 is installed on one side end, close to the wire passing die 37, of the wire protection tube 17, when the wire passes through the threading hole on the wire distributing ring 35 to the wire passing die 37, the wire is gently contacted, the wire is prevented from jumping, and winding uniformity is guaranteed.

The hollow tube 19 and the synchronous pulley 15 are fixed through a lock nut 16.

The working process of the utility model is as follows:

when the utility model is assembled and needs to be wound, the motor 14 drives the hollow tube 19 to rotate through the motor belt pulley 13 and the synchronous belt pulley 15, so that the lower spindle mounting plate 24, the middle spindle mounting plate 28, the upper spindle mounting plate 33 and the thread dividing ring 35 fixed on the hollow tube 19 rotate, and the threads on the lower spindle 25, the middle spindle 29 and the upper spindle 34 are wound through the thread dividing ring 35 and the thread supporting sleeve 36 from respective paths to the thread passing die 37 and then through the traction device 5.

The specific embodiments described herein are merely illustrative of the principles and functions of the present utility model, and are not meant to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. It is therefore intended that all equivalent modifications and changes made by those skilled in the art without departing from the spirit and technical spirit of the present utility model shall be covered by the appended claims.

Claims (4)

1. The utility model provides a novel medium-sized high-speed coiler, includes high-speed coiler body, its characterized in that: the high-speed winding machine body comprises a frame (1), a box body (4), a traction mechanism (5) and a winding and arranging mechanism (6), wherein a paying-off mechanism (2) is arranged on the frame (1), the box body (4) is arranged at the top of the frame (1), a movement device (3) is arranged in the box body (4), a part of the movement device (3) is exposed out of the bottom of the box body (4), the traction mechanism (5) is arranged right above the box body (4), one side of the box body (4) is located on the frame (1), the winding and arranging mechanism (6) is further arranged, the paying-off mechanism (2) is used for placing cables, and the winding and arranging mechanism (6) is used for winding and arranging the cables, and the movement device (3) and the traction mechanism (5) are matched to finish winding operation of the cables.

2. The novel medium-sized high-speed winding machine according to claim 1, wherein: the machine core device (3) consists of a bottom plate (11), a hollow tube (19) and a fixed sleeve (21), one end of the fixed sleeve (21) is fixed on the bottom plate (11) through a lower end cover (20), an upper end cover (27) is arranged at the other end of the fixed sleeve, the hollow tube (19) is arranged in an inner hole of the fixed sleeve (21) through a plane bearing (22) and a bearing A (23), a synchronous pulley (15) is arranged at the lower end of the hollow tube (19), a lower rotating sleeve (26), a middle spindle mounting plate (28) and an upper rotating sleeve (32) are sequentially arranged at the upper end of the hollow tube (19) from bottom to top, a lower spindle mounting plate (24) is arranged at the lower end of the lower rotating sleeve (26), an upper spindle mounting plate (33) and a branching ring (35) are respectively arranged at the upper end of the upper rotating sleeve (32), and lower spindle mounting plates (24), middle spindles (28) and the outer sides of the upper spindle mounting plates (33) are respectively provided with lower spindles (25), middle spindles (29) and upper spindles (34) which are staggered in the same number in the circumferential direction, and are used for uniformly distributing wire yarns to a non-weaving yarn passing through the branching die (37) through the branching die; the motor (14) is fixedly arranged on the bottom plate through the motor seat (12), the motor (14) drives the hollow tube (19) to rotate through a motor belt wheel (13) and a synchronous belt wheel (15) by using a synchronous belt transmission, so that a lower spindle mounting plate (24), a middle spindle mounting plate (28), an upper spindle mounting plate (33) and a branching ring (35) which are fixed on the hollow tube (19) rotate, and wires on the lower spindle (25), the middle spindle (29) and the upper spindle (34) are wound through a traction mechanism (5) after passing through the branching ring (35) and a wire supporting sleeve (36) to a wire passing die (37) from respective paths.

3. The novel medium-sized high-speed winding machine according to claim 2, wherein: the wire protection tube is characterized in that a wire protection tube (17) is fixedly arranged on the bottom plate (11) through a wire protection tube mounting seat (18), the wire protection tube (17) stretches into the hollow tube (19), one side end of the wire protection tube (17) close to the bottom plate is fixed on the bottom plate (11) through the wire protection tube mounting seat (18), the outer side of the other end of the wire protection tube (17) is arranged inside the hollow tube (19) through a bearing B (30) and a bearing retainer ring (31), a wire supporting sleeve (36) is arranged on one side end of the wire protection tube (17) close to the wire passing die (37), and when wires pass through a threading hole on the wire distributing ring (35) to the wire passing die (37), the wires are gently contacted to prevent the wires from jumping, and the wires are more uniformly wound.

4. A new medium-sized high-speed winding machine according to claim 3, characterized in that: the hollow tube (19) and the synchronous pulley (15) are fixed through a lock nut (16).