CN111362071A

CN111362071A - Cable coiling device

Info

Publication number: CN111362071A
Application number: CN202010114255.6A
Authority: CN
Inventors: 冯春瑞; 李洪涛; 谢凯; 王如杰; 王振德; 郭海; 赵翊涵; 余莹萍
Original assignee: Shenhua Guoneng Group Corp Ltd
Current assignee: Shenhua Guoneng Group Corp Ltd
Priority date: 2020-02-24
Filing date: 2020-02-24
Publication date: 2020-07-03
Anticipated expiration: 2040-02-24
Also published as: CN111362071B

Abstract

The invention discloses a cable coiling device which comprises a support frame, a cable coiling part and a cable cleaning mechanism, wherein the cable coiling part is rotationally arranged on the support frame, the cable cleaning mechanism comprises a connecting part and a first cleaning brush, the first end of the connecting part is hinged with the support frame, the second end of the connecting part is connected with the first cleaning brush, and the first cleaning brush is arranged on one side of the cable coiling part and can swing along with the connecting part. In the cable coiling device, the first cleaning brush can brush away impurities such as slurry, coal dust and grease covered on the surface of the cable, so that the cable is effectively prevented from being corroded, the cable is not easy to age, and the service life of the cable is prolonged.

Description

Cable coiling device

Technical Field

The invention relates to the technical field of cable equipment, in particular to a cable coiling device.

Background

The cable of a large amount of all kinds of specifications need be used in the daily production of coal mine enterprise, and the cable is usually twined on the cable coiling device, and then realizes accomodating. The cable coiling device can realize the coiling and uncoiling of cables.

However, in the using process of the cable, impurities such as mud, coal dust, grease and the like are attached to the surface of the cable, and the impurities are attached to the surface of the cable, which may cause corrosion of the surface of the cable, so that the cable is easily aged, and the service life of the cable is shortened.

Disclosure of Invention

The invention discloses a cable coiling device, which aims to solve the problem of short service life of a cable.

In order to solve the problems, the invention adopts the following technical scheme:

the utility model provides a cable coiling device, includes support frame, cable winding part and the clean mechanism of cable, cable winding part set up with rotating in the support frame, the clean mechanism of cable includes connecting portion and first cleaning brush, the first end of connecting portion with the support frame is articulated, the second end of connecting portion with first cleaning brush links to each other, first cleaning brush is located one side of cable winding part, and can follow the connecting portion swing.

The technical scheme adopted by the invention can achieve the following beneficial effects:

according to the cable reel device disclosed by the invention, the cable is lapped on the first cleaning brush, when the cable winding part rotates, the cable winding part can drive the cable to move, so that the cable slides relative to the first cleaning brush, and at the moment, the first cleaning brush can brush away impurities such as slurry, coal dust, grease and the like covered on the surface of the cable, so that the corrosion of the cable is effectively prevented, the cable is not easy to age, and the service life of the cable is further prolonged. In addition, after the cable is coiled, cleaning is not needed, so that the workload of operators is reduced, and the working efficiency of the operators is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a front view of a cable drum apparatus according to an embodiment of the present invention;

fig. 2 is a top view of the cable drum apparatus according to the embodiment of the present invention;

fig. 3 is a partial cross-sectional view of the cable reel device according to the embodiment of the present invention, when the insertion protrusion is not inserted into the insertion hole;

fig. 4 is a partial cross-sectional view of the insertion protrusion inserted into the insertion hole of the cable reel device according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of a connection board in the cable drum winding device according to the embodiment of the present invention.

Description of reference numerals:

100-support frame, 110-first support part, 120-second support part, 121-accommodating groove, 130-base,

200-cable winding part, 210-first rotating shaft, 220-second rotating shaft, 230-cable reel spool, 231-anti-skid protrusion, 240-first limiting plate, 250-second limiting plate,

300-cable cleaning mechanism, 310-first cleaning brush, 320-second cleaning brush, 330-connecting part, 331-first connecting rod, 332-second connecting rod, 340-cable passing channel,

410-a driving motor,

510-a rotating handle, 520-a connecting plate, 521-a plug hole, 530-a supporting plate, 531-a plug bulge, 540-a rubber sleeve,

600-moving wheels.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 5, the embodiment of the invention discloses a cable winding device, which includes a supporting frame 100, a cable winding portion 200 and a cable cleaning mechanism 300.

The supporting frame 100 provides an installation position for the components of the cable coiling device, the cable coiling part 200 is used for coiling the cable, the cable coiling part 200 is rotatably arranged on the supporting frame 100, and when the cable is dragged and dropped, the cable coiling part 200 can rotate in one direction; when the cable is wound, the cable winding part 200 may be rotated in the other opposite direction.

The cable cleaning mechanism 300 includes a connecting portion 330 and a first cleaning brush 310, the connecting portion 330 is used for connecting the first cleaning brush 310 with the support 100, a first end of the connecting portion 330 is hinged to the support 100, a second end of the connecting portion 330 is connected to the first cleaning brush 310, the first cleaning brush 310 is disposed on one side of the cable winding portion 200, and the first cleaning brush 310 can swing along with the connecting portion 330. The cable is attached to the first cleaning brush 310, and the cable is swingable with the first cleaning brush 310. Alternatively, the first cleaning brush 310 may be a brush, but may have other structures, which is not limited herein.

In the embodiment of the invention, the cable is lapped on the first cleaning brush 310, when the cable winding part 200 rotates, the cable winding part 200 can drive the cable to move, so that the cable slides relative to the first cleaning brush 310, and at the moment, the first cleaning brush 310 can brush off impurities such as slurry, coal dust, grease and the like covered on the surface of the cable, so that the corrosion of the cable is effectively prevented, the cable is not easy to age, and the service life of the cable is prolonged. In addition, after the cable is coiled, cleaning is not needed, so that the workload of operators is reduced, and the working efficiency of the operators is improved.

In the process of winding the cable, the angle between the cable and the cable winding portion 200 may be changed, so that the cable is easily subjected to a large impact force to damage the cable. At this time, since the first cleaning brush 310 may swing along with the connection part 330, the position of the first cleaning brush 310 may be adjusted according to the angle between the cable and the cable winding part 200, and thus the impact force applied to the cable may be buffered, thereby preventing the cable from being damaged. Meanwhile, in the process of the first cleaning brush 310 oscillating, the foreign substances adhered to the first cleaning brush 310 may be thrown out, thereby reducing the deposition of the foreign substances on the first cleaning brush 310. In addition, when the winding of the cable is completed, the first cleaning brush 310 may be swung to a certain position, thereby making the cable winding device convenient to store.

Optionally, the connecting portion 330 may be a damping rotating shaft, and a rotation angle of the damping rotating shaft may be between 90 ° and 120 °, although the connecting portion 330 may also be another rotating member, which is not limited herein.

In the above embodiment, the first cleaning brush 310 can only clean the foreign substances on the side contacting with the cable, and it is not easy to clean the foreign substances on the side of the cable away from the first cleaning brush 310, which may result in poor cleaning effect of the cable reel device. To enhance the cleaning effect of the cable drum, in an alternative embodiment, the cable cleaning mechanism 300 may further include a second cleaning brush 320. The second cleaning brush 320 may be disposed on the same side of the cable winding part 200 as the first cleaning brush 310, the second cleaning brush 320 may be connected to a second end of the connection part 330, and a cable passing path 340 may be formed between the second cleaning brush 320 and the first cleaning brush 310. The cable passes between the first cleaning brush 310 and the second cleaning brush 320. At this time, the impurities on the side of the cable away from the first cleaning brush 310 can be cleaned by the second cleaning brush 320, and the first cleaning brush 310 and the second cleaning brush 320 are matched with each other, so that the impurities on the surface of the cable can be cleaned without dead corners, and the cleaning effect of the cable coiling device is improved.

Alternatively, the second cleaning brush 320 may be a brush in which the bristles of the first cleaning brush 310 are arranged opposite to the bristles of the second cleaning brush 320, the bristles of the first cleaning brush 310 contact one side surface of the cable, and the bristles of the second cleaning brush 320 contact the other side surface of the cable. Of course, the second cleaning brush 320 may have other structures, and is not limited herein.

In an alternative embodiment, the supporting stand 100 may include a first supporting portion 110 and a second supporting portion 120 disposed opposite to each other, at least a portion of the cable winding portion 200 is located between the first supporting portion 110 and the second supporting portion 120, a first end of the cable winding portion 200 is rotatably connected to the first supporting portion 110, and a second end of the cable winding portion 200 is rotatably connected to the second supporting portion 120. At this time, the first supporting portion 110 and the second supporting portion 120 are located at both ends of the cable winding portion 200, so that the supporting force applied to both ends of the cable winding portion 200 is relatively balanced, the cable winding portion 200 is not inclined in the rotating process, and the cable winding portion 200 is further rotated stably.

Further, the connection part 330 may include a first connection rod 331 and a second connection rod 332, a first end of the first connection rod 331 is hinged to the first support part 110, a second end of the first connection rod 331 is connected to a first end of the first cleaning brush 310, a first end of the second connection rod 332 is hinged to the second support part 120, a second end of the second connection rod 332 is connected to a second end of the first cleaning brush 310, and the first cleaning brush 310 may swing with the first connection rod 331 and the second connection rod 332. At this time, the first connection rod 331 and the second connection rod 332 are respectively connected with both ends of the first cleaning brush 310, so that the first cleaning brush 310 is restrained more uniformly, the first cleaning brush 310 is not easy to shake, and the safety and reliability of the cable reel device are improved.

When the cable reel device further includes the above-mentioned second cleaning brush 320, the second end of the first connecting rod 331 is connected to both the first end of the first cleaning brush 310 and the first end of the second cleaning brush 320, and the second end of the second connecting rod 332 is connected to both the second end of the first cleaning brush 310 and the second end of the second cleaning brush 320. Alternatively, the cable reel apparatus disclosed in the present invention may further include a mounting frame, the first cleaning brush 310 and the second cleaning brush 320 may be fixed in the mounting frame, and the first connecting rod 331 and the second connecting rod 332 are respectively connected to both ends of the mounting frame. The first connecting rod 331 and the second connecting rod 332 may be damping rotating shafts, and may also be other rotating components, which is not limited herein.

In the above embodiment, the supporting frame 100 may be provided with the driving motor 410, a driving shaft of the driving motor 410 may be connected to the cable winding portion 200, and the driving motor 410 may drive the cable winding portion 200 to rotate. However, when no external power supply apparatus supplies power to the driving motor 410, the cable winding part 200 is caused to fail to rotate, thereby affecting the use of the cable winder.

In an alternative embodiment, the cable drum device may further include a first driving mechanism and a second driving mechanism, and the first driving mechanism and the second driving mechanism may be disposed on the supporting bracket 100. The first driving mechanism may include a driving motor 410, the driving motor 410 is in transmission connection with the first end of the cable winding portion 200, the second driving mechanism may include a rotating handle 510, the rotating handle 510 is in transmission connection with the second end of the cable winding portion 200, and the first driving mechanism or the second driving mechanism drives the cable winding portion 200 to rotate. It should be noted that the driving motor 410 and the rotating handle 510 can only drive the cable winding part 200 individually, and the driving motor 410 and the rotating handle 510 cannot be used simultaneously. In the above-described aspect, when no external power supply device supplies power to the driving motor 410, the rotating handle 510 may be used to drive the cable winding part 200 to rotate, so as not to affect the use of the cable reel device, thereby enabling the cable reel device to be used in an environment without power supply.

Alternatively, when the support stand 100 includes the first support portion 110 and the second support portion 120 mentioned above, the first driving mechanism may be disposed on the first support portion 110, and the second driving mechanism may be disposed on the second support portion 120.

Alternatively, the driving motor 410 and the cable winding part 200 may be drivingly connected by a coupling. The turning handle 510 can be a Z-shaped structure, and meanwhile, the rubber sleeve 540 can be sleeved on the turning handle 510, so that an operator can conveniently grasp the turning handle 510, and the operator can have a better hand feeling when using the turning handle 510.

When the cable winding part 200 is driven by the driving motor 410, the rotating handle 510 rotates along with the cable winding part 200, which results in more parts driven by the driving motor 410 and increased energy consumption. Meanwhile, when the rotary handle 510 rotates along with the cable winding part 200, the rotary handle 510 easily touches the operator, thereby accidentally injuring the operator.

For this reason, in an alternative embodiment, the rotating handle 510 may be detachably connected to the cable winding part 200, and in the case where the first driving mechanism drives the cable winding part 200 to rotate, the rotating handle 510 is separated from the cable winding part 200. When the first driving mechanism drives the cable winding part 200 to rotate, the rotating handle 510 can be detached from the cable winding part 200, at this time, the number of parts driven by the driving motor 410 is small, so that the energy consumption is reduced, and meanwhile, when the rotating handle 510 is detached from the cable winding part 200, the rotating handle 510 is not easy to injure an operator by mistake. Optionally, the end of the cable winding portion 200 is provided with an insertion hole 521, and the rotating handle 510 is detachably inserted into the insertion hole 521, so that the rotating handle 510 and the cable winding portion 200 can be detached.

When the first driving mechanism drives the cable winding part 200 to rotate, the rotating handle 510 can be detached from the cable winding part 200, and of course, the detachment and connection of the rotating handle 510 do not affect the first driving mechanism driving the cable winding part 200.

In the above embodiment, the end of the cable winding portion 200 is provided with the insertion hole 521, and the rotating handle 510 is inserted into and matched with the insertion hole 521. In order to make the cable winding part 200 rotate more easily, the inside of the cable winding part 200 may be a hollow structure, and at this time, the wall thickness of the cable winding part 200 is thin, so when the rotating handle 510 rotates, the force of the rotating handle 510 only acts on the inserting hole 521, and therefore the force received by the inserting hole 521 is concentrated, and the inserting hole 521 is easily damaged by pulling, so that the service life of the component can be prolonged.

In order to solve this problem, in an alternative embodiment, the second end of the cable winding portion 200 may be provided with a connection plate 520, the connection plate 520 may be provided with a plugging hole 521, the rotating handle 510 may be provided with a support plate 530, the support plate 530 may be provided with a plugging protrusion 531, and the plugging protrusion 531 is plugged and matched with the plugging hole 521. In this embodiment, the end of the cable winding portion 200 is provided with the connecting plate 520, which is equivalent to increasing the wall thickness of the end of the cable winding portion 200, thereby preventing the insertion hole 521 from being damaged by the rotating handle 510.

In addition, the driving force of the rotating handle 510 is transmitted to the connecting plate 520 through the supporting plate 530, and the connecting plate 520 is further transmitted to the cable winding part 200, and the driving force is relatively dispersed due to the large contact area between the supporting plate 530 and the connecting plate 520, thereby further preventing the insertion hole 521 from being damaged by pulling. Alternatively, the rotating handle 510 may be welded to the support plate 530, and the support plate 530 may be integrally formed with the insertion protrusion 531.

In order to facilitate the insertion of the insertion protrusion 531 and the insertion hole 521, in another embodiment, the supporting frame 100 may be provided with an accommodating recess 121, at least a portion of the supporting plate 530 may be located in the accommodating recess 121, and the supporting plate 530 may rotate relative to the accommodating recess 121. When the cable winding portion 200 is driven by the rotating handle 510, a portion of the supporting plate 530 can be placed in the accommodating groove 121, and then the inserting protrusion 531 is inserted into the inserting hole 521, at this time, the accommodating groove 121 can position the mounting position of the supporting plate 530 in advance, so that the inserting protrusion 531 and the inserting hole 521 are inserted conveniently.

Further, the supporting plate 530 is located in the accommodating recess 121, in this case, the supporting plate 530 does not protrude from the surface of the supporting frame 100 where the accommodating recess 121 is located, so that the appearance performance of the cable coiling apparatus is better.

In order to further improve the reliability of the cable coiling device, in an optional embodiment, the number of the inserting holes 521 may be multiple, the multiple inserting holes 521 are arranged at intervals, the number of the inserting protrusions 531 may be multiple, the multiple inserting protrusions 531 are arranged at intervals, and the multiple inserting protrusions 531 are inserted into the multiple inserting holes 521 in a one-to-one correspondence manner. At this time, the number of the insertion protrusions 531 and the insertion holes 521 is large, so that the driving force of the rotating handle 510 can be dispersed on the connection plate 520, thereby preventing the insertion holes 521 and the insertion protrusions 531 from being damaged due to concentration of the driving force of the rotating handle 510, and further improving the reliability of the cable reel device. Alternatively, the plurality of insertion holes 521 are symmetrical with respect to the center of the axis of the connection plate 520, and the plurality of insertion protrusions 531 may be symmetrical with respect to the center of the axis of the connection plate 520. The number of the insertion holes 521 may be three, and the number of the insertion protrusions 531 may also be three. The number of the inserting holes 521 and the inserting protrusions 531 can be flexibly selected according to actual working conditions, and is not limited herein.

The specific structure of the cable winding portion 200 is disclosed herein, but other structures can be adopted, and the structure is not limited herein. Specifically, the cable winding portion 200 may include a first rotating shaft 210, a second rotating shaft 220, and a cable drum 230, wherein the cable drum 230 is used for winding the cable, one end of the cable drum 230 may be connected to the first rotating shaft 210, the other end of the cable drum 230 is connected to the second rotating shaft 220, and both the first rotating shaft 210 and the second rotating shaft 220 are rotatably connected to the supporting frame 100. At this time, the first rotating shaft 210 is a first end of the cable winding part 200, and the second rotating shaft 220 is a second end of the cable winding part. In this way, the cable drum reel 230 is disposed between the first rotating shaft 210 and the second rotating shaft 220, so that the cable is not easily rubbed with the supporting frame 100, and thus the cable is not easily damaged. Alternatively, the first and second

rotating shafts

210 and 220 may be welded to both ends of the cable drum spool 230.

In the above embodiment, when the supporting stand 100 includes the first supporting portion 110 and the second supporting portion 120, the first rotating shaft 210 may be rotatably connected to the first supporting portion 110, and the second rotating shaft 220 may be rotatably connected to the second supporting portion 120.

When the cable drum apparatus in the above-described embodiment includes the first driving mechanism and the second driving mechanism, the driving motor 410 in the first driving mechanism may be in driving connection with the first rotating shaft 210, and the rotating handle 510 in the second driving mechanism may be in driving connection with the second rotating shaft 220.

In the above embodiment, the cable drum reel 230 may cause the cable to be wound around the first and second

rotating shafts

210 and 220 due to a change in the angle of the cable during the process of winding the cable, thereby preventing the first and second

rotating shafts

210 and 220 from rotating. In an alternative embodiment, the cable winding portion 200 may further include a first limiting plate 240 and a second limiting plate 250 which are oppositely disposed, the first limiting plate 240 and the second limiting plate 250 may be disposed at both ends of the cable drum spool 230, and the first limiting plate 240, the second limiting plate 250 and the cable drum spool 230 may form a cable accommodating space. At this time, the cable can be wound only in the region between the first and second limiting

plates

240 and 250, and the first and second limiting

plates

240 and 250 can prevent the cable from being wound on the first and second

rotating shafts

210 and 220, thereby further improving the safety and reliability of the cable winder. Alternatively, the first and second limiting

plates

240 and 250 may be welded at both ends of the cable drum spool 230.

In order to prevent the slip phenomenon of the cable and the cable drum reel 230, in an alternative embodiment, the surface of the cable drum reel 230 may be provided with a plurality of anti-slip protrusions 231, and the plurality of anti-slip protrusions 231 may be spaced apart. At this time, the anti-slip protrusions 231 can increase the frictional force between the cable and the cable drum spool 230, so that the slip phenomenon between the cable drum spool 230 and the cable can be prevented.

The cable coiling device disclosed by the embodiment of the invention also comprises a moving wheel 600, wherein the moving wheel 600 can be arranged at the bottom of the support frame 100, and the moving wheel 600 rolls on the ground, so that the movement of the whole cable coiling device is realized.

As mentioned above, the structure of the supporting stand 100 may be various, and in an alternative, the supporting stand 100 may include the base 130 and the first supporting portion 110 and the second supporting portion 120, which are described above, and the first supporting portion 110 and the second supporting portion 120 are both disposed on the base 130. The moving wheel 600 may be disposed at a side facing away from the first and second supporting

parts

110 and 120.

In an alternative embodiment, the number of the moving wheels 600 may be four, and at least two of the moving wheels 600 may be universal brake wheels, so that the cable drum can be easily turned during moving, and at the same time, the universal brake wheels can be fixed after the cable drum is moved to the working position, thereby preventing the cable drum from moving during working.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. The cable coiling device is characterized by comprising a support frame (100), a cable coiling part (200) and a cable cleaning mechanism (300), wherein the cable coiling part (200) is rotationally arranged on the support frame (100), the cable cleaning mechanism (300) comprises a connecting part (330) and a first cleaning brush (310), the first end of the connecting part (330) is hinged to the support frame (100), the second end of the connecting part (330) is connected with the first cleaning brush (310), and the first cleaning brush (310) is arranged on one side of the cable coiling part (200) and can swing along with the connecting part (330).

2. The cable reel device according to claim 1, wherein the cable cleaning mechanism (300) further comprises a second cleaning brush (320), the second cleaning brush (320) and the first cleaning brush (310) are disposed on the same side of the cable winding portion (200), the second cleaning brush (320) is connected to the second end of the connecting portion (330), and a cable passing passage (340) is formed between the second cleaning brush (320) and the first cleaning brush (310).

3. The cable drum according to claim 1, wherein the support frame (100) comprises a first support part (110) and a second support part (120) which are oppositely arranged, at least part of the cable winding part (200) is positioned between the first support part (110) and the second support part (120), a first end of the cable winding part (200) is rotatably connected with the first support part (110), and a second end of the cable winding part (200) is rotatably connected with the second support part (120);

the connecting portion (330) comprises a first connecting rod (331) and a second connecting rod (332), a first end of the first connecting rod (331) is hinged to the first supporting portion (110), a second end of the first connecting rod (331) is connected to a first end of the first cleaning brush (310), a first end of the second connecting rod (332) is hinged to the second supporting portion (120), a second end of the second connecting rod (332) is connected to a second end of the first cleaning brush (310), and the first cleaning brush (310) can swing along with the first connecting rod (331) and the second connecting rod (332).

4. The cable drum according to claim 1, further comprising a first drive mechanism and a second drive mechanism, both provided to the support frame (100);

the first driving mechanism comprises a driving motor (410), the driving motor (410) is connected with the first end of the cable winding portion (200) in a transmission mode, the second driving mechanism comprises a rotating handle (510), the rotating handle (510) is connected with the second end of the cable winding portion (200) in a transmission mode, and the first driving mechanism or the second driving mechanism drives the cable winding portion (200) to rotate.

5. The cable drum device according to claim 4, wherein the rotating handle (510) is detachably connected to the cable winding part (200), and the rotating handle (510) is separated from the cable winding part (200) in a case where the first driving mechanism drives the cable winding part (200) to rotate.

6. The cable coiling device as claimed in claim 5, wherein the second end of the cable winding part (200) is provided with a connecting plate (520), the connecting plate (520) is provided with an insertion hole (521), the rotating handle (510) is provided with a supporting plate (530), the supporting plate (530) is provided with an insertion protrusion (531), and the insertion protrusion (531) is in insertion fit with the insertion hole (521).

7. The cable coiling device as claimed in claim 6, wherein the support frame (100) is provided with a receiving groove (121), at least part of the support plate (530) is located in the receiving groove (121), and the support plate (530) can rotate relative to the receiving groove (121).

8. The cable reel device of claim 6, wherein the number of the insertion holes (521) is plural, the plural insertion holes (521) are arranged at intervals, the number of the insertion protrusions (531) is plural, the plural insertion protrusions (531) are arranged at intervals, and the plural insertion protrusions (531) are inserted into the plural insertion holes (521) in a one-to-one correspondence manner.

9. The cable drum device according to claim 1, wherein the cable winding portion (200) comprises a first rotating shaft (210), a second rotating shaft (220) and a cable drum reel (230), one end of the cable drum reel (230) is connected with the first rotating shaft (210), the other end of the cable drum reel (230) is connected with the second rotating shaft (220), and the first rotating shaft (210) and the second rotating shaft (220) are both rotatably connected with the supporting frame (100);

the surface of the cable reel spool (230) is provided with a plurality of anti-slip protrusions (231), and the plurality of anti-slip protrusions (231) are arranged at intervals.

10. The cable reel apparatus according to claim 9, wherein the cable winding portion (200) further includes a first restriction plate (240) and a second restriction plate (250) which are oppositely disposed, the first restriction plate (240) and the second restriction plate (250) being disposed at both ends of the cable reel spool (230), the first restriction plate (240), the second restriction plate (250), and the cable reel spool (230) forming the cable housing space.