CN211644213U

CN211644213U - Cable storage device

Info

Publication number: CN211644213U
Application number: CN201922382556.2U
Authority: CN
Inventors: 曲力涛; 周叶; 郑云峰
Original assignee: China Institute of Water Resources and Hydropower Research
Current assignee: China Institute of Water Resources and Hydropower Research
Priority date: 2019-12-26
Filing date: 2019-12-26
Publication date: 2020-10-09
Anticipated expiration: 2029-12-26

Abstract

The utility model provides a cable storage device, it includes: a winder including a fixed portion and a rotating portion rotatably mounted to the fixed portion; and a winding member for allowing the cable to be wound thereon, the winding member being detachably mounted on the rotating portion to rotate along with the rotating portion to wind or release the cable when the rotating portion rotates relative to the fixing portion. The utility model discloses a cable storage device receives line unwrapping wire easy operation, cable can not knot the winding, and effective utilization is very high.

Description

Cable storage device

Technical Field

The utility model relates to a power station test technical field especially designs a cable storage device.

Background

The field test of the hydropower station has the characteristics of short period, more sensor arrangement measuring points and frequent equipment disassembly and assembly, and the signal wire needs to be paid off and taken up repeatedly.

The current way is to wind and release the cable by hand. The traditional mode is slow in paying off, and the cable is easy to be knotted and wound, so that the cable is prevented from being taken up and paid off next time. Because the winding of the human hand wire cannot be ensured to be particularly tight, the cable can occupy a large space, and a large box is needed for specially containing the wire. Moreover, the types and lengths of signal cables required for different tests are different, which also makes the cable preparation work difficult.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming one of the above-mentioned defect that prior art exists at least, providing a receive line unwrapping wire easy operation, cable winding cable storage device that can not kno.

The utility model discloses a further purpose improves cable storage device's effective utilization.

The utility model discloses a further purpose is to practice thrift the storage space of cable.

Particularly, the utility model provides a cable storage device, it includes:

a winder including a fixed portion and a rotating portion rotatably mounted to the fixed portion; and

and a winding member for allowing the cable to be wound thereon, the winding member being detachably mounted to the rotating portion to rotate along with the rotating portion to wind or release the cable when the rotating portion rotates relative to the fixing portion.

Optionally, the wire winding member is annular, and an outer circumferential surface thereof is recessed radially inward to form a receiving groove to allow the wire to be wound in the receiving groove.

Alternatively, the spool is made of a material that is resiliently deformable by compression so that it can be compressed into an elongated shape after it exits the winder for storage.

Optionally, the winding piece is provided with a binding belt, a clamping buckle and a through hole; the binding belt and the clamping buckle are respectively positioned at two axial ends of the wire winding piece and are respectively positioned at two sides of one diameter wire of the wire winding piece; the hole penetrating device is located beside the clamping buckle, so that after the winding piece is extruded to be in a long strip shape, the binding belt is allowed to penetrate through the hole penetrating device and is fixed with the clamping buckle, and the winding piece is kept in the long strip shape.

Optionally, the cable housing device further comprises: and the protective belt is in a ring shape and made of flexible materials and is sleeved on the outer circle of the winding piece to protect the cable in the accommodating groove.

Optionally, the inner circle of the wire winding piece is provided with a circle of inner teeth; and the rotating part is provided with a circle of external teeth, the winding part is arranged behind the rotating part, and the internal teeth are meshed with the external teeth so that the rotating part drives the winding part to rotate.

Optionally, the winder further comprises a gear counter for recording the number of turns of the rotating part.

Optionally, the winder further comprises a handle mounted to an axial end face of the rotating part so that a person holds the handle to rotate the rotating part.

Optionally, a concave cavity is formed in the axial end face of the rotating part; the handle is long-strip-shaped, and one end of the handle is rotatably arranged in the concave cavity, so that the handle can be rotated to a storage state in the concave cavity or rotated to an unfolding state forming a preset angle with the axial end surface of the rotating part.

Optionally, the fixed part comprises a disc body, and the rotating part is rotatably mounted on one side of the disc body; and the handle is arranged on the other side surface of the tray body.

The utility model discloses a cable storage device utilizes the winder to drive the winding member and rotates, realizes the coiling and the release to the cable, need not directly to coil with the hand and unwrapping wire, and efficiency is higher, and the spiral is more orderly, and the cable can not kinking, knot with the release process coiling.

Furthermore, in the cable housing device of the present invention, the winder and the winding member are two independent members. Generally, the winding member and the winder are not assembled, and the winding member needs to be mounted on the winder only when winding or unwinding is performed, and the winding member can be detached from the winder after the winding or unwinding is completed. Therefore, a plurality of winding members may be provided, each of which is used to wind a cable of one specification, and only one winder may be provided for all the winding members. Therefore, the effective utilization rate of the cable storage device (particularly the winder) is very high, and one winder can complete the winding and unwinding work of various cables.

Further, in the cable accommodation device of the present invention, the winding member is made of a material that can be elastically deformed by being pressed. After the cable is wound, the winding piece and the cable can be extruded together into a long strip shape, so that the cable is more convenient to pack and carry, the occupied space is smaller, and the design is very ingenious. Furthermore, the utility model discloses utilize ligature area, joint to detain and wear structures such as hole to realize that the form to the wire winding spare is fixed, make it keep steadily in rectangular form, simple structure, convenient operation.

Further, the utility model discloses a cable storage device utilizes the number of turns that gear counter rotated the rotating part to take notes, has also just also recorded the number of turns of winding wire or unwrapping wire, and operating personnel can estimate the length of winding wire or unwrapping wire according to this number of turns, has greatly promoted on-the-spot work efficiency.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the present invention will be described in detail hereinafter, by way of illustration and not by way of limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is an assembly schematic view of a cable storage device according to an embodiment of the present invention;

FIG. 2 is an exploded schematic view of the cable storage device of FIG. 1;

FIG. 3 is a side view of the wire wrap of the cable storage device of FIG. 1;

fig. 4 is a schematic view of the state in which the wire wound member is extruded in a long shape;

FIG. 5 is a schematic diagram of a guard band structure;

FIG. 6 is another angular schematic view of the cable storage device of FIG. 2;

fig. 7 is an exploded schematic view of a winder in the cable housing device shown in fig. 1.

Detailed Description

An embodiment of the utility model provides a cable storage device to be used for coiling, accomodating and releasing the cable, be suitable for very much to use at the power station field test.

Fig. 1 is an assembly schematic view of a cable housing device according to an embodiment of the present invention. As shown in fig. 1, fig. 2 is an exploded schematic view of the cable housing device shown in fig. 1.

As shown in fig. 1 and 2, the cable housing device according to the embodiment of the present invention includes a winder 200 and a winding member 100. The winder 200 includes a fixing portion 210 and a rotating portion 220, and the rotating portion 220 is rotatably mounted on the fixing portion 210. The winding member 100 serves to allow a cable to be wound therearound. The winder 200 and the winding member 100 are two separate parts, and the winding member 100 is adapted to be detachably mounted on the rotating portion 220 to rotate along with the rotating portion 220 to wind or release the cable when the rotating portion 220 rotates relative to the fixing portion 210.

Generally, the winding member 100 and the winder 200 are not assembled (see fig. 2), and the winding member 100 is only required to be mounted on the winder 200 (see fig. 1) when winding or unwinding is performed, and the winding member 100 can be detached from the winder 200 after the winding or unwinding is completed. Therefore, a plurality of winding members 100 may be provided, and each winding member 100 may be used to wind a cable of one specification, and only one winder 200 may be provided for all the winding members 100. Therefore, one winder 200 can complete the winding and unwinding work of various cables, and the effective utilization rate of the cable storage device (particularly the winder 200) is very high. In addition, cable storage device utilizes winder 200 to drive winding member 100 and rotates, realizes the coiling and the release to the cable, has avoided directly coiling and unwrapping wire with the hand, and efficiency is higher, and the coiling is more orderly, and the cable can not twine, knot at coiling and release process.

Fig. 3 is a side view of the winding member 100 in the cable housing apparatus shown in fig. 1. As shown in fig. 1 to 3, the winding member 100 may be formed in a ring shape, and an outer circumferential surface thereof is recessed radially inward to form a receiving groove 101 to allow the cable to be wound in the receiving groove 101. The lateral wall of holding tank 101 can enclose the fender to the cable.

Fig. 4 is a schematic view of the state in which the wire wound member 100 is pressed into a long shape. In some embodiments, as shown in fig. 4, the winding member 100 may be made of a material that is elastically deformable by being pressed so that it can be pressed into a long shape after being separated from the winder 200 for storage. For example, after the cable to be wound is completely wound on the winding member 100, the winding member 100 can be extruded together with the cable into a long strip shape, so that the cable is more convenient to pack and carry and occupies less space, and the design is ingenious.

Of course, after the wire wound member 100 is extruded in a long shape, it is necessary to bind it so as to stably maintain it in a long shape. After the external force is removed, the winding member 100 may return to its natural loop shape.

The material that can be elastically deformed by being pressed may be a natural rubber material. Since natural rubber has characteristics of large elasticity, strong tear resistance, good electrical insulation, high wear resistance, and good processability, it is particularly suitable for manufacturing the wire winding member 100.

Fig. 5 is a schematic view of the structure of the guard band 300. As shown in fig. 5, the cable housing apparatus further includes a protection belt 300, wherein the protection belt 300 is in a ring shape and made of a flexible material and is used for being sleeved on the outer circle of the winding element 100 to protect the cable in the accommodating groove 101. The flexible material may be latex.

Fig. 6 is another perspective view of the cable housing apparatus shown in fig. 2, and fig. 7 is an exploded view of the winder 200 in the cable housing apparatus shown in fig. 1. For clarity of orientation, fig. 2 and 6 illustrate the central axis of the wire spool 100 with the x-axis.

As shown in fig. 2, 4 and 6, the winding member 100 may be provided with a binding band 120, a snap fastener 130 and a perforation hole 140. The binding band 120 and the snap fastener 130 are respectively located at two axial ends of the wire winding element 100, and are respectively located at two sides of one diameter line of the wire winding element 100. In other words, the ligature 120 is located in one half-ring section of the wire winding 100 and the snap fastener 130 is located in the other half-ring section of the wire winding 100, which together form the complete ligature 120. The perforation hole 140 is located beside the clip 130 to allow the binding band 120 to pass through the perforation hole 140 and be fixed with the clip 130 after the winding piece 100 is pressed to the long shape, so that the winding piece 100 is kept in the long shape, as shown in fig. 4. The binding band 120 is provided with a snap hole 122 for achieving a snap with the snap fastener 130, as shown in fig. 6. The embodiment of the utility model provides an utilize ligature area 120, joint to detain 130 and wear structures such as hole 140 to realize fixed to the form of wire winding spare 100, make it keep steadily long banding, simple structure, convenient operation. Two sets of tie wraps 120, snap fasteners 130 and lace apertures 140 may be provided as shown in figures 2, 4 and 6. Of course, one or more sets of the banding band 120, the snap fastener 130 and the perforation hole 140 may be provided. As shown in fig. 6, the winding member 100 is provided with a connector 160 for fixing the end of the cable.

As shown in fig. 2 and 6, the inner circle of the winding member 100 is provided with a circle of inner teeth 110, and the rotating portion 220 is provided with a circle of outer teeth 222. After the wire winding member 100 is mounted on the rotating portion 220, the internal teeth 110 are engaged with the external teeth 222, so that the rotating portion 220 rotates the wire winding member 100.

As shown in fig. 7, the fixing portion 210 includes a tray 212 and a handle 214. The plate body 212 may be a circular disk, and the rotating part 220 may be rotatably installed at one side of the plate body 212. The handle 214 is provided on the surface of the other side of the tray body 212. When winding and unwinding the wire, the operator can hold the handle 214 with one hand to restrain the fixing portion 210 and rotate the rotating portion 220 with the other hand. The rotating portion 220 may be circular. An annular stopper 223 may be formed on the rotating portion 220, such that the annular stopper 223 is located at one axial side of the external teeth 222, for stopping and positioning the winding element 100 after the winding element 100 is installed on the rotating portion 220. The annular stopper portion 223 may further include a relief hole 226 for allowing the snap fastener 130 to extend.

The rotating part 220 may be provided with a shaft 224, the fixing part 210 may be provided with a hole 2122, and the shaft 224 may be rotatably fitted in the hole 2122 to rotatably couple the rotating part 220 and the fixing part 210.

As shown in fig. 2, the winder 200 further includes a handle 260, and the handle 260 is mounted to an axial end surface of the rotating portion 220 so that a person holds the handle 260 to rotate the rotating portion 220. Further, a cavity 250 may be formed on an axial end surface of the rotating portion 220. The handle 260 is formed in an elongated shape, and one end thereof is rotatably installed in the cavity 250, so that the handle 260 is rotated to a stored state in the cavity 250 or to an unfolded state at a predetermined angle (acute angle or right angle) with respect to the axial end of the rotating portion 220. When winding and unwinding, the handle 260 is rotated to the unwound state shown in fig. 2, and the hand swings the handle 260 to rotate the rotating portion 220. After the operation of coiling and uncoiling is completed, the handle 260 is rotated to the storage state, so that the winder 200 occupies smaller space and is beneficial to carrying and storage.

In some alternative embodiments, the rotating portion 220 may be driven by a motor, and the detailed structure will not be described in detail.

In some embodiments, as shown in fig. 6, the winder 200 further includes a gear counter 230 for recording the number of revolutions of the rotating portion 220. The gear counter 230 is mounted to include a gear 231 that is directly or indirectly coupled to the rotating portion 220, such as to the shaft 224. The gear counter 230 may measure the number of rotations of the gear 231 (i.e., the rotating part 220) by an internal mechanical configuration. The specific structure of the gear counter 230 belongs to the prior art, and is not described herein. The gear counter 230 has a display area 232 for displaying the number of turns in real time.

The utility model discloses cable storage device utilizes gear counter 230 to record the number of turns that rotating part 220 rotated, has also recorded the number of turns of winding member 100 spiral or unwrapping wire. The operator can estimate the length of the coiled wire or the uncoiled wire according to the number of turns, and the working efficiency of the site is greatly improved.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been shown and described in detail herein, many other variations and modifications can be made, consistent with the principles of the invention, which are directly determined or derived from the disclosure herein, without departing from the spirit and scope of the invention. Accordingly, the scope of the present invention should be understood and interpreted to cover all such other variations or modifications.

Claims

1. A cable take-up device, comprising:

a wire winding member for allowing the cable to be wound therearound, the wire winding member being detachably mounted on the rotating portion to rotate along with the rotating portion to wind or release the cable when the rotating portion is rotated relative to the fixing portion.

2. The cable storage device of claim 1,

the winding element is annular, and the outer circular surface of the winding element is inwards sunken along the radial direction to form a containing groove so as to allow the cable to be wound in the containing groove.

3. The cable storage device of claim 2,

the winding member is made of a material which is resiliently deformable by being pressed so as to be pressed into an elongated shape after it is separated from the winder for storage.

4. The cable storage device of claim 3,

the winding piece is provided with a binding belt, a clamping buckle and a through hole;

the binding belt and the clamping buckle are respectively positioned at two axial ends of the wire winding piece and are respectively positioned at two sides of one diameter wire of the wire winding piece;

the threading hole is located beside the clamping buckle, so that after the winding piece is extruded to be in a long strip shape, the binding belt is allowed to penetrate through the threading hole and is fixed with the clamping buckle, and the winding piece is kept in the long strip shape.

5. The cable storage device of claim 2, further comprising:

and the protective belt is in a ring shape and made of flexible materials and is sleeved on the excircle of the winding piece so as to protect the cable in the accommodating groove.

6. The cable storage device of claim 1,

the inner circle of the wire winding piece is provided with a circle of inner teeth; and is

The wire winding part is characterized in that a circle of external teeth are arranged on the rotating part, the wire winding part is arranged behind the rotating part, and the internal teeth are meshed with the external teeth, so that the rotating part drives the wire winding part to rotate.

7. The cable storage device of claim 1,

the winder further includes a gear counter for recording the number of turns the rotating portion has made.

8. The cable storage device of claim 1,

the winder further includes a handle mounted to an axial end surface of the rotating portion so that a person holds the handle to rotate the rotating portion.

9. The cable storage device of claim 8,

a concave cavity is formed in the axial end face of the rotating part;

the handle is long-strip-shaped, and one end of the handle is rotatably arranged in the concave cavity, so that the handle can be rotated to be in a storage state in the concave cavity or rotated to be in an unfolding state with a preset angle formed between the handle and the axial end face of the rotating part.

10. The cable storage device of claim 1, wherein the retainer comprises:

the rotating part is rotatably arranged on one side of the disc body; and

and the handle is arranged on the other side surface of the tray body.