CN216997151U - Composite wire spool - Google Patents

Abstract

The utility model discloses a composite wire reel, which comprises a bracket and a wire reel rotatably mounted on the bracket, wherein a cable sliding ring and a water-through sliding ring are concentrically arranged in a cavity in the wire reel, stators of the cable sliding ring and the water-through sliding ring are fixedly connected with the bracket, rotors of the cable sliding ring and the water-through sliding ring are fixedly connected with the wire reel, an input connector clip is arranged on the stator of the cable sliding ring, the input connector clip extends out of the bracket, an output port on the rotor of the cable sliding ring is connected with a cable, a water inlet pipe is arranged on the stator of the water-through sliding ring, the water inlet pipe extends out of the bracket, a water outlet on the rotor of the water-through sliding ring is connected with a water-through hose, the cable and the water-through hose are combined to form a composite wire, a sheath is sleeved on the outer side of the composite wire, and the composite wire is wound on the wire reel. The utility model has the advantages of convenient operation, low labor intensity, high working efficiency and obvious economic value and social value.

Description

Composite wire spool

Technical Field

The utility model relates to the technical field of winding devices, in particular to a composite wire spool.

Background

When the underwater cleaning robot performs cleaning operation underwater, it needs to be connected to a corresponding pipeline on shore by using a cable and a hose at the same time, wherein the cable is used for power supply, data transmission and the like, and the hose is used for conveying high-pressure water. When the underwater cleaning robot runs, the cable and the hose are basically placed in the water, but after the cleaning is finished, the underwater cleaning robot, the cable and the hose are required to be moved to the shore together, at the moment, because the length of the cable and the hose is long, the cable and the hose are scattered on the shore, which undoubtedly results in messy site, large occupied space, frequent treading and easy damage to the cable and the hose, in order to avoid the above situation, the cable and the hose reel are often rolled up manually, which avoids the problems of cable and hose damage and messy field to some extent, but the labor intensity of workers is high, the time and the labor are wasted, secondly, there is also the case of using wire reel, but cable and hose are all coiled separately and are deposited under the normal condition, and the re-expansion is respectively when using next time, has awkward problem, still can influence underwater cleaning robot's work efficiency. Therefore, it is objective to develop a composite wire spool which is convenient to use, has low labor intensity and can simultaneously wind cables and hoses.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a composite wire spool which is convenient to use, has low labor intensity and can be used for simultaneously winding cables and hoses.

The utility model aims to realize the purpose, the winding wheel comprises a bracket and a winding wheel rotatably mounted on the bracket, a cable slip ring and a water-through slip ring are concentrically arranged in a cavity in the winding wheel, stators of the cable slip ring and the water-through slip ring are fixedly connected with the bracket, rotors of the cable slip ring and the water-through slip ring are fixedly connected with the winding wheel, an input connector clip is arranged on the stator of the cable slip ring and extends out of the bracket, a cable is connected with an output port on the rotor of the cable slip ring, a water inlet pipe is arranged on the stator of the water-through slip ring and extends out of the bracket, a water outlet on the rotor of the water-through slip ring is connected with a water-through hose, a composite wire is formed after the cable and the water-through hose are combined, a sheath is sleeved on the outer side of the composite wire, and the composite wire is wound on the winding wheel.

Furthermore, a plurality of through holes are evenly distributed on the side surface of the reel in the circumferential direction, and spring bolts matched with the through holes are arranged on the support.

Furthermore, a water joint communicated with the water inlet pipe is arranged on the outer side surface of the support, and a water inlet pipe is arranged at the bottom of the water joint.

Further, a handle is arranged at the top of the support.

Furthermore, a motor is mounted on the side wall of the support through a connecting rod, a roller is arranged on an output shaft of the motor, and the outer wall of the roller abuts against the edge of the reel.

Further, the outer wall of the roller is provided with a wear-resistant rubber layer.

The reel is used for coiling and containing the cable and the water hose, the cable and the water hose are wrapped together by the sheath, so that the cable and the water hose form a strand of composite wire, after the underwater cleaning robot finishes underwater operation, the reel is rotated, the composite wire formed by the cable and the water hose can be coiled conveniently and quickly, various pipelines do not need to be coiled manually, the labor intensity of workers is low, the pipelines are prevented from being damaged by treading, the situation that the pipelines are in disorder on site is avoided, meanwhile, the composite wire formed by the cable and the water hose can be wound on the reel quickly and efficiently, and similarly, when the underwater cleaning robot needs to perform underwater operation, the reel is rotated reversely to pay out and expand the composite wire; in addition, when the composite wire is wound on the winding wheel, the underwater cleaning robot and the control system and the underwater cleaning robot and the high-pressure water system are always kept in a communicated state through the arrangement of the cable slip ring and the water-through slip ring, so that the normal operation of the underwater cleaning robot is ensured. The utility model has the advantages of convenient operation, low labor intensity, high working efficiency and obvious economic value and social value.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of another embodiment of the present invention;

FIG. 3 is a schematic side view of the present invention;

FIG. 4 is a schematic cross-sectional view of A-A of FIG. 3;

in the figure: 1-bracket, 2-reel, 3-cable slip ring, 4-water-through slip ring, 5-input connector, 6-cable, 7-water inlet pipe, 8-water-through hose, 9-composite wire, 10-sheath, 11-through hole, 12-spring bolt, 13-water-through joint, 14-water-through input pipe, 15-handle, 16-connecting rod, 17-motor, 18-roller and 19-wear-resistant rubber layer.

Detailed Description

The present invention is further described with reference to the drawings, but the present invention is not limited thereto in any way, and any modification or improvement based on the present invention is within the protection scope of the present invention.

As shown in figures 1-4, the utility model comprises a bracket 1 and a reel 2 rotatably mounted on the bracket 1, the bracket 1 and the reel 2 are the prior art, the bracket 1 is a support member and is in a fixed state, the reel 2 is rotatably mounted on the bracket 1 and can rotate on the bracket 1, a cable slip ring 3 and a water-through slip ring 4 are concentrically arranged in a cavity inside the reel 2, stators of the cable slip ring 3 and the water-through slip ring 4 are fixedly connected with the bracket 1, rotors of the cable slip ring 3 and the water-through slip ring 4 are fixedly connected with the reel 2, an input connector 5 is arranged on the stator of the cable slip ring 3, the input connector 5 extends out of the bracket 1, an output port on the rotor of the cable slip ring 3 is connected with a cable 6, a water inlet pipe 7 is arranged on the stator of the water-through slip ring 4, the water inlet pipe 7 extends out of the bracket 1, a water outlet on the rotor of the water-through slip ring 4 is connected with a water hose 8, the cable 6 and the water hose 8 are doubled to form a composite thread 9, a sheath 10 is sleeved outside the composite thread 9, and the composite thread 9 is wound on the reel 2.

In the utility model, the cable slip ring 3 and the water-through slip ring 4 are both the prior art, the cable 6 is connected to the rotor of the cable slip ring 3, when in operation, the cable 6 rotates together with the rotor of the cable slip ring 3 and the reel 2 to connect the control system with the input connector 5, so that the control system can be connected with the cable 6 needing to be drained through the cable slip ring 3, and the cable 6 is connected with the underwater cleaning robot, so that when the cable 6 is wound and wound, the communication between the underwater cleaning robot and the control system can be ensured; in the same way, the water-through hose 8 rotates along with the rotor of the water-through sliding ring 4 and the reel 2, and the system high-pressure water delivery pipe is connected with the water inlet pipe 7, so that the high-pressure water system and the water-through hose 8 can be connected through the water-through sliding ring 4, and the water-through hose 8 is connected with the underwater cleaning robot, so that the underwater cleaning robot can be communicated with the high-pressure water system when the water-through hose 8 is wound and wound. In summary, when the utility model is operated, the cable 6 and the water hose 8 are in a relative static state, and the cable slip ring 3 is used for keeping the communication between the control system and the cable 6 and further keeping the communication between the control system and the underwater cleaning robot during the rotation process of the reel 2; the function of the watering slide 3 is to maintain the communication between the high pressure water system and the watering hose 8 during rotation of the reel 2.

The coiling and storing device is used for coiling and storing the cable 6 and the water hose 8, the cable 6 and the water hose 8 are wrapped together by the sheath 10, so that the cable 6 and the water hose 8 form a strand of composite wire 9, after an underwater cleaning robot finishes underwater operation, the reel 2 is rotated, the composite wire 9 formed by the cable 6 and the water hose 8 can be coiled, the coiling is convenient and rapid, various pipelines do not need to be coiled manually, the labor intensity of workers is low, the pipelines are prevented from being damaged by treading, the situation that the pipelines are in disorder on site is avoided, and meanwhile, the composite wire 9 formed by the cable 6 and the water hose 8 can be wound on the reel 2 rapidly and efficiently; similarly, when the underwater cleaning robot needs to launch, the reel 2 is rotated reversely to pay out and spread the composite wire 9; in addition, when the composite wire 9 is wound on the reel 2, the cable slip ring 3 and the water passing slip ring 4 are arranged, so that the underwater cleaning robot and the control system and the underwater cleaning robot and the high-pressure water system are always kept in a communicated state, and the normal operation of the underwater cleaning robot is ensured.

The side of the reel 2 is evenly provided with a plurality of through holes 11 on the circumference, the bracket 1 is provided with spring bolts 12 matched with the through holes 11, when the underwater cleaning robot submerges to reach a set position, or the composite wire 9 is completely wound on the reel 2, in order to prevent the reel 2 from continuing to rotate, the end parts of the spring bolts 12 can be inserted into the corresponding through holes 11, so that the reel 2 is prevented from rotating, the positioning and limiting effects are achieved, the spring bolts 12 are of the existing structure, namely spring locks, the bolts of which can extend and shorten, and the through holes 11 are inserted during extension to prevent the reel 2 from rotating, and the rotation of the reel 2 cannot be hindered during shortening.

The outer side surface of the bracket 1 is provided with a water through joint 13 communicated with the water inlet pipe 7, the bottom of the water through joint 13 is provided with a water through input pipe 14, when the water circulating device is in operation, a water pipe of a high-pressure water system is communicated with the water through input pipe 14, high-pressure water can enter the water through joint 13 through the water through input pipe 14 and then enter the water through sliding ring 4 through the water inlet pipe 7, and the connection mode is simple, convenient and stable.

In order to facilitate the integral moving or hoisting of the utility model, the top of the bracket 1 is provided with a handle 15, and the utility model can be moved and hoisted by the handle 15 when needed.

The side wall of the bracket 1 is provided with a motor 17 through a connecting rod 16, an output shaft of the motor 17 is provided with a roller 18, the outer wall of the roller 18 is abutted against the edge of the reel 2, when the motor 17 operates, the roller 18 is driven to rotate, because the outer wall of the roller 18 is abutted against the edge of the reel 2, the roller 18 drives the reel 2 to rotate together when rotating, when the reel 2 rotates, the composite wire 9 can be wound, packaged and released and expanded, so that the manual rotation of the reel 2 is replaced, the labor intensity of operators is reduced, and the winding efficiency is improved.

The outer wall of the roller 18 is provided with the wear-resistant rubber layer 19, the wear-resistant rubber layer 19 is in contact with the edge of the reel 2, friction force between the roller 18 and the reel 2 can be increased, the problem of slippage between the roller 18 and the reel 2 is prevented, and the reel 2 can be driven to rotate together when the roller 18 rotates.

Claims (6)

1. A composite wire spool comprises a support (1) and a wire winding wheel (2) rotatably mounted on the support (1), and is characterized in that a cable slip ring (3) and a water-through slip ring (4) are concentrically arranged in a cavity in the wire winding wheel (2), stators of the cable slip ring (3) and the water-through slip ring (4) are fixedly connected with the support (1), rotors of the cable slip ring (3) and the water-through slip ring (4) are fixedly connected with the wire winding wheel (2), an input connector (5) is arranged on the stator of the cable slip ring (3), the input connector (5) extends out of the support (1), an output port on the rotor of the cable slip ring (3) is connected with a cable (6), a water inlet pipe (7) is arranged on the stator of the water-through slip ring (4), the water inlet pipe (7) extends out of the support (1), a water outlet on the rotor of the water-through slip ring (4) is connected with a water hose (8), the cable (6) and the water hose (8) are doubled to form a composite wire (9), a sheath (10) is sleeved on the outer side of the composite wire (9), and the composite wire (9) is wound on the winding wheel (2).

2. A composite wire spool according to claim 1, characterized in that a plurality of through holes (11) are evenly distributed on the side surface of the wire spool (2), and the bracket (1) is provided with spring bolts (12) matched with the through holes (11).

3. The composite wire spool as claimed in claim 1, wherein a water passing joint (13) communicated with the water inlet pipe (7) is arranged on the outer side surface of the bracket (1), and a water passing input pipe (14) is arranged at the bottom of the water passing joint (13).

4. A composite wire spool according to claim 1 wherein a handle (15) is provided on the top of the bracket (1).

5. A composite wire spool according to claim 1, wherein a motor (17) is mounted on the side wall of the bracket (1) through a connecting rod (16), a roller (18) is arranged on the output shaft of the motor (17), and the outer wall of the roller (18) abuts against the edge of the reel (2).

6. A composite wire spool according to claim 5 wherein the outer wall of the drum (18) is provided with a wear resistant rubber layer (19).

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