阅读说明：本技术 一种船舶停泊用缆绳装置 (Mooring rope device for mooring ship ) 是由 李君� 于 2021-08-04 设计创作，主要内容包括：本发明提供一种船舶停泊用缆绳装置,涉及船舶缆绳领域。该船舶停泊用缆绳装置,包括两个支撑筒和缠绕桶,所述缠绕桶位于两个支撑筒之间,缠绕桶的左右侧面均固定连接有固定盘,缠绕桶的内部固定插接有支撑轴,两个支撑筒相互远离的一面均转动贯穿有螺纹套筒,两个螺纹套筒转动套接在支撑轴的外表面,两个支撑筒分别转动套接在支撑轴的左右两端。该船舶停泊用缆绳装置,通过设置竖板、上压板、下压板、弹性挡片、左插接杆和右插接杆,达到了使缠绕的缆绳每层之间留有缝隙便于空气流通的效果,解决了收卷后的缆绳每层紧密接触,在长时间放置后,由于空气不流通经常造成缆绳发生腐烂,从而降低缆绳的使用寿命的问题。(The invention provides a mooring rope device for mooring a ship, and relates to the field of ship mooring ropes. This boats and ships berth and use hawser device, including two support section of thick bamboos and winding bucket, the winding bucket is located between two support sections of thick bamboos, and the equal fixedly connected with fixed disk in side about the winding bucket, the inside of winding bucket is fixed to be pegged graft and is had the back shaft, and two one sides that support section of thick bamboos and keep away from each other all rotate and run through threaded sleeve, and two threaded sleeve rotate to cup joint at the surface of back shaft, and two support sections of thick bamboos rotate respectively to cup joint both ends about the back shaft. This boats and ships berth and use hawser, through setting up riser, top board, holding down plate, elastic catch, left grafting pole and right grafting pole, reached and left the effect that the gap is convenient for circulation of air between every layer of messenger's winding hawser, solved every layer of in close contact with of hawser after the rolling, after placing for a long time, because the air often causes the hawser to take place to rot to reduce the life's of hawser problem.)

1. A mooring rope arrangement for a ship, comprising two support drums (1) and a winding drum (2), characterized in that: the winding barrel (2) is positioned between the two supporting barrels (1), the left side surface and the right side surface of the winding barrel (2) are fixedly connected with fixed disks (3), supporting shafts (5) are fixedly inserted in the winding barrel (2), one surfaces, far away from each other, of the two supporting barrels (1) are respectively and rotatably penetrated by threaded sleeves (4), the two threaded sleeves (4) are rotatably sleeved on the outer surfaces of the supporting shafts (5), the two supporting barrels (1) are respectively and rotatably sleeved on the left end and the right end of the supporting shafts (5), one sides, far away from each other, of the two fixed disks (3) are respectively provided with movable disks (6), the two movable disks (6) are respectively and threadably sleeved on the outer surfaces of the two threaded sleeves (4), the two movable disks (6) are respectively and slidably inserted in the two supporting barrels (1), the inner portion, on the left side, of the supporting barrel (1) is slidably inserted with a movable ring A (7), the inner portion, on the right side of the supporting barrel (1) is slidably inserted with a movable ring B (8), the inner ring of the moving ring A (7) is provided with a moving ring C (9), the inner ring of the moving ring B (8) is provided with a moving ring D (10), the right side surfaces of the moving ring A (7) and the moving ring C (9) are fixedly connected with a left insertion rod (11), the right side surfaces of the moving ring B (8) and the moving ring D (10) are fixedly connected with a right insertion rod (12), the right end of the left insertion rod (11) penetrates through the left side surface of the moving disc (6) on the left side in a sliding manner, the left end of the right insertion rod (12) penetrates through the right side surface of the moving disc (6) on the right side in a sliding manner, the fixed disc (3) on the left side is sleeved on the right end of the left insertion rod (11), the fixed disc (3) on the right side is sleeved on the left end of the right rod (12), the right side surface of the moving ring A (7) and the right side surface of the moving ring C (9) are fixedly connected with a left elastic rope (13), the right end of the left elastic rope (13) is fixed in the moving disc (6) on the left side in a inserting manner, the left side surfaces of the moving ring B (8) and the moving ring D (10) are fixedly connected with a right elastic rope (14), and the left end of the right elastic rope (14) is fixedly inserted into the moving disc (6) on the right side;

two mounting grooves (15) are formed in the inner wall of one side, far away from each other, of each of the two supporting cylinders (1), sliding blocks (16) are inserted into the mounting grooves (15), supporting springs (17) are fixedly connected to the bottom surfaces of the sliding blocks (16), the bottom surfaces of the supporting springs (17) are fixedly connected with the inner bottom wall of the mounting grooves (15), a clamping block A (18) is in sliding contact with the inner ring surface of the moving ring A (7), a clamping block B (19) is in sliding contact with the inner ring surface of the moving ring B (8), a clamping block C (20) is in sliding contact with the inner ring surface of the moving ring C (9), a clamping block D (21) is in sliding contact with the inner ring surface of the moving ring D (10), the clamping blocks A (18), the clamping block B (19), the clamping blocks C (20) and the clamping blocks D (21) are fixedly connected with the four sliding blocks (16) respectively, vertical plates (22) penetrate through the upper surfaces of the two supporting cylinders (1) in a sliding mode, lower pressing plates (23) are arranged above the clamping blocks C and D (21), the rear ends of the two lower pressing plates (23) are fixedly connected with the front surfaces of two vertical plates (22) respectively, elastic blocking pieces (24) are arranged above the two lower pressing plates (23), the lower ends of the elastic blocking pieces (24) are fixedly connected with the front surfaces of the two vertical plates (22) respectively, upper pressing plates (25) are arranged above the clamping blocks A (18) and B (19), the rear ends of the two upper pressing plates (25) are fixedly connected with the front surfaces of the two vertical plates (22) respectively, the upper pressing plates (25) are located above the elastic blocking pieces (24), spring telescopic rods (26) are fixedly connected to the back surfaces of the ends, located inside the supporting cylinders (1), of the vertical plates (22), and the lower ends of the two spring telescopic rods (26) are fixedly connected with the inner walls of the two supporting cylinders (1) respectively;

the winding barrel is characterized in that a reciprocating lead screw (27) is arranged above the winding barrel (2), a transmission shaft (28) is fixedly connected with the left end face and the right end face of the reciprocating lead screw (27), the two transmission shafts (28) are hinged to the upper surfaces of two supporting barrels (1) respectively, the two transmission shafts (28) are located in front of two vertical plates (22), a transmission belt (29) is arranged at one end, far away from each other, of each supporting shaft (5), a motor (30) is fixedly connected with the left side face of the left supporting barrel (1), the output end of the motor (30) is fixedly connected with the left end face of the supporting shaft (5), a moving block (31) is sleeved on the outer surface of the reciprocating lead screw (27), two transverse rods (33) are fixedly connected with the back face of the moving block (31), rollers (32) are hinged to one end, far away from each other, of the two transverse rods (33), two elastic pressing sheets (34) are fixedly connected with the back face of one end, far away from each supporting barrel (1), and two vertical plates (22) are fixedly connected with two elastic pressing sheets (34) ) The front surface of the moving block (31) is fixedly connected with a connecting rod (35), and the front end of the connecting rod (35) is fixedly connected with a positioning frame (36).

2. A mooring line arrangement for a vessel according to claim 1, wherein: the positioning frame (36) is rectangular, and the inner walls of the upper side and the lower side of the positioning frame (36) are hinged with positioning wheels (37).

3. A mooring line arrangement for a vessel according to claim 1, wherein: the lower part of two elastic separation blades (24) is provided with reset plates (38), one side of each support cylinder (1) far away from each other is provided with a sliding groove (39), the two reset plates (38) are respectively inserted into the two sliding grooves (39), and the two reset plates (38) are positioned above the two lower pressing plates (23).

4. A mooring line arrangement for a vessel according to claim 1, wherein: two inner walls of one side, far away from each other, of the two supporting cylinders (1) are fixedly connected with two stabilizing frames (40), and the moving ring A (7), the moving ring B (8), the moving ring C (9) and the moving ring D (10) are respectively rotatably inserted into the four stabilizing frames (40).

5. A mooring line arrangement for a vessel according to claim 1, wherein: the upper surface of the elastic pressing sheet (34) is an inclined surface, a positioning strip (41) is arranged below the elastic pressing sheet (34), and the positioning strip (41) is fixedly connected with the vertical plate (22).

6. A mooring line arrangement for a vessel according to claim 1, wherein: the bottom surfaces of the two vertical plates (22) are fixedly connected with bottom plates (42), and the upper surfaces of the two bottom plates (42) are respectively contacted with the clamping blocks C (20) and the clamping blocks D (21).

7. A mooring line arrangement for a vessel according to claim 1, wherein: the one end that four sliders (16) were kept away from respectively to joint piece A (18), joint piece B (19), joint piece C (20) and joint piece D (21) is the toper, and shift ring A (7), shift ring B (8), shift ring C (9) and shift ring D (10) all with back shaft (5) coaxial setting.

8. A mooring line arrangement for a vessel according to claim 1, wherein: an orientation rod (43) is arranged in front of the reciprocating screw rod (27), two ends of the orientation rod (43) are fixedly connected with the upper surfaces of the two supporting cylinders (1) respectively, and the moving block (31) is sleeved on the outer surface of the orientation rod (43) in a sliding manner.

Technical Field

The invention relates to the field of ship mooring ropes, in particular to a mooring rope device for mooring a ship.

Background

The ship is a vehicle which can sail or berth in water area for transportation or operation, has different technical performance, equipment and structural forms according to different use requirements, and needs to be fixed with land by using a cable when berthing to prevent the ship from floating under the action of water flow.

When needs are packed up boats and ships hawser, in order to prevent that the phenomenon that the hawser takes place to tie in scattered on the splint, generally need use hawser device to the hawser rolling, be convenient for deposit, but boats and ships travel at sea and need be very long time sometimes, and hawser device is when the rolling nowadays, is the rolling with hawser one deck, and every layer in close contact with of hawser after the rolling, after placing for a long time, because the circulation of air often causes the hawser to take place to rot to reduce the life of hawser.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a mooring rope device for mooring a ship, which solves the problem that after the mooring rope is placed for a long time, the mooring rope is rotten due to the fact that air is not circulated frequently, and the service life of the mooring rope is shortened.

In order to achieve the purpose, the invention is realized by the following technical scheme: a mooring rope device for mooring ships comprises two supporting cylinders and a winding barrel, wherein the winding barrel is positioned between the two supporting cylinders, the left side and the right side of the winding barrel are fixedly connected with fixed disks, supporting shafts are fixedly inserted in the winding barrel, one surfaces, far away from each other, of the two supporting cylinders are respectively and rotatably penetrated by threaded sleeves, the two threaded sleeves are rotatably sleeved on the outer surface of the supporting shaft, the two supporting cylinders are respectively and rotatably sleeved at the left end and the right end of the supporting shaft, moving disks are respectively arranged at one sides, far away from each other, of the two fixed disks, the two moving disks are respectively and rotatably sleeved on the outer surfaces of the two threaded sleeves, the two moving disks are respectively and slidably inserted in the two supporting cylinders, a moving ring A is slidably inserted in the supporting cylinder at the left side, a moving ring B is slidably inserted in the supporting cylinder at the right side, a moving ring C is arranged in the inner ring of the moving ring A, and a moving ring D is arranged in the inner ring of the moving ring B, the equal left peg graft pole of the equal fixedly connected with in right flank of shifting ring A and shifting ring C, the equal right peg graft pole of fixedly connected with in right flank of shifting ring B and shifting ring D, the right-hand member of left peg graft pole slides and runs through the left surface that is located left shifting disk, the left end of right side peg graft pole slides and runs through the right flank that is located the shifting disk on right side, it cup joints the right-hand member at left peg graft pole to be located left fixed disk, the fixed disk that is located the right side cup joints the left end at right peg graft pole, the equal fixedly connected with left elasticity rope in right flank of shifting ring A and shifting ring C, the fixed inside of pegging graft in left shifting disk of right side elasticity rope, the equal fixedly connected with right elasticity rope in left side of shifting ring B and shifting ring D, the fixed inside of pegging graft in the shifting disk that is located the right side of left side elasticity rope.

Two mounting grooves are formed in the inner wall of one side, away from each other, of each of two supporting cylinders, a sliding block is inserted into each mounting groove, a supporting spring is fixedly connected to the bottom surface of each sliding block, the bottom surface of each supporting spring is fixedly connected with the inner bottom wall of each mounting groove, a clamping block A is in sliding contact with the inner annular surface of each moving ring A, a clamping block B is in sliding contact with the inner annular surface of each moving ring B, a clamping block C is in sliding contact with the inner annular surface of each moving ring C, a clamping block D is in sliding contact with the inner annular surface of each moving ring D, each clamping block A, each clamping block B, each clamping block C and each clamping block D are respectively and fixedly connected with four sliding blocks, vertical plates are respectively penetrated through the upper surfaces of the two supporting cylinders in a sliding manner, lower pressing plates are respectively and fixedly connected with the front surfaces of the two vertical plates, elastic separation blades are arranged above the two lower pressing plates, the top of joint piece A and joint piece B all is provided with the top board, the rear end of two top boards respectively with the front fixed connection of two risers, the top board is located the top of elastic retaining piece, the riser is located the inside one end back fixedly connected with spring telescopic link of a support section of thick bamboo, the lower extreme of two spring telescopic links respectively with the inner wall fixed connection of two support sections of thick bamboos.

The top of winding bucket is provided with reciprocal lead screw, the equal fixedly connected with transmission shaft of terminal surface about reciprocal lead screw, two transmission shafts are articulated with the upper surface of two support sections respectively, two transmission shafts are located the place ahead of two risers, the conveyer belt transmission is passed through with the one end that two transmission shafts kept away from each other in both ends about the back shaft, the left side fixedly connected with motor that is located left support section of thick bamboo, the output of motor and the left end fixed connection of back shaft, the movable block has been cup jointed to the surface of reciprocal lead screw, two horizontal poles of back fixedly connected with of movable block, the one end that two horizontal poles kept away from each other all articulates there is the gyro wheel, two elastic pressing pieces of one end back fixedly connected with that two risers are located two support section of thick bamboo tops, the positive fixedly connected with connecting rod of movable block, the front end fixedly connected with locating frame of connecting rod.

Preferably, the positioning frame is rectangular, and the inner walls of the upper side and the lower side of the positioning frame are hinged with positioning wheels.

Preferably, the below of two elastic catch pieces all is provided with the board that resets, and the spout has all been seted up to the one side of keeping away from each other of two support sections, and two boards that reset are pegged graft respectively in the inside of two spouts, and two boards that reset are located the top of two holding down plates.

Preferably, two support a section of thick bamboo equal fixedly connected with two stable frames of one side inner wall of keeping away from each other, shift ring A, shift ring B, shift ring C and shift ring D rotate respectively and peg graft in four inside stable frames.

Preferably, the upper surface of the elastic pressing sheet is an inclined surface, and a positioning strip is arranged below the elastic pressing sheet and fixedly connected with the vertical plate.

Preferably, the bottom surfaces of the two vertical plates are fixedly connected with bottom plates, and the upper surfaces of the two bottom plates are respectively contacted with the clamping blocks C and the clamping blocks D.

Preferably, the one end that four sliders were kept away from respectively to joint piece A, joint piece B, joint piece C and joint piece D is the toper, and shift ring A, shift ring B, shift ring C and shift ring D all set up with the back shaft is coaxial.

Preferably, an orientation rod is arranged in front of the reciprocating screw rod, two ends of the orientation rod are fixedly connected with the upper surfaces of the two support cylinders respectively, and the moving block is sleeved on the outer surface of the orientation rod in a sliding manner.

Compared with the prior art, the invention has the following beneficial effects:

1. the mooring rope device for mooring ships is characterized in that a vertical plate, an upper pressing plate, a lower pressing plate, an elastic retaining sheet, a left splicing rod and a right splicing rod are arranged, when a mooring rope needs to be wound, a starting motor drives a supporting shaft to rotate, a winding barrel rotates to wind the mooring rope, the supporting shaft drives a reciprocating lead screw to rotate through a conveying belt and a transmission shaft, then a moving block moves back and forth left and right through meshing with the reciprocating lead screw, when a transverse rod on the left side moves to the left end, the transverse rod pushes an elastic pressing sheet on the lower left side to move downwards, then pushes a vertical plate to move downwards, pushes a clamping block C to move downwards through a lower pressing plate on the left side, a supporting spring is compressed through a sliding block, the clamping block C is disengaged from a moving ring C when moving downwards, meanwhile, the elastic retaining sheet is driven to move downwards to the lower side of the clamping block A, and the vertical plate on the left side moves rightwards after the transverse rod, the left inserting rod is pushed to move rightwards to be inserted into the fixed disk on the right side, when the left inserting rod is continuously wound, the wound mooring rope is wound on the left inserting rod, the effect that gaps are reserved between every two layers of the wound mooring rope to facilitate air circulation is achieved, the problem that every layer of the wound mooring rope is in close contact with each other is solved, after the left mooring rope is placed for a long time, the mooring rope is often rotten due to the fact that air is not circulated, and therefore the service life of the mooring rope is prolonged is solved.

2. This boats and ships berth and use hawser device, through setting up locating wheel and locating frame, pass between two locating wheels when the hawser twines, drive the reciprocating left and right sides removal of locating frame at reciprocal lead screw pivoted in-process, make the hawser remove, reached the effect that makes the even winding of hawser.

3. This boats and ships berth and use hawser device, through setting up threaded sleeve and removal dish, when need put the rope after the winding is accomplished, rotate threaded sleeve and take place relative rotation with the removal dish, the removal dish is through keeping away from the winding bucket gradually with the meshing of threaded sleeve, promote simultaneously removal ring A, removal ring B, removal ring C and removal ring D keep away from the winding bucket, buckle again at last with joint piece A, joint piece B, joint piece C and joint piece D, the effect of being convenient for put the rope has been reached.

4. This boats and ships berth and use hawser device through setting up the board that resets, when upwards promoting the board that resets, extrudees the elasticity separation blade gradually, makes the elasticity separation blade take place to warp, makes the riser can the rebound, has reached the device of being convenient for and has carried out winding effect next time.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the support cylinder of the present invention;

FIG. 3 is a schematic view of the connection between the winding barrel and the fixing plate according to the present invention;

FIG. 4 is a schematic view of the connection between the positioning frame and the positioning wheel according to the present invention;

FIG. 5 is a schematic view of the connection of the slider and the support spring according to the present invention;

FIG. 6 is a schematic view of the connection of the spring rod to the vertical plate according to the present invention;

FIG. 7 is an enlarged view of the structure at A in FIG. 6 according to the present invention;

fig. 8 is a front structural view of a part of the structure of the present invention.

The automatic winding machine comprises a supporting barrel 1, a winding barrel 2, a fixed disk 3, a supporting shaft 5, a movable disk 6, a movable ring 7A, a movable ring 8B, a movable ring 9C, a movable ring 10D, a left insertion rod 11, a right insertion rod 12, a left elastic rope 13, a right elastic rope 14, a mounting groove 15, a sliding block 16, a supporting spring 17, a clamping block 18A, a clamping block 19B, a clamping block 20C, a clamping block 21D, a vertical plate 22, a lower pressing plate 23, an elastic blocking piece 24, an upper pressing plate 25, a spring telescopic rod 26, a reciprocating lead screw 27, a transmission shaft 28, a conveyor belt 29, a motor 30, a moving block 31, a roller 32, a cross rod 33, an elastic pressing piece 34, a connecting rod 35, a positioning frame 36, a positioning wheel 37, a resetting plate 38, a sliding groove 39, a stabilizing frame 40, a positioning strip 41, a bottom plate 42 and an orientation rod 43.

Detailed Description

As shown in fig. 1-8, a mooring rope device for mooring a ship comprises two supporting cylinders 1 and a winding cylinder 2, wherein the winding cylinder 2 is positioned between the two supporting cylinders 1, the left side and the right side of the winding cylinder 2 are fixedly connected with fixed disks 3, a supporting shaft 5 is fixedly inserted in the winding cylinder 2, threaded sleeves 4 are rotatably penetrated through the surfaces of the two supporting cylinders 1 far away from each other, the two threaded sleeves 4 are rotatably sleeved on the outer surface of the supporting shaft 5, the two supporting cylinders 1 are respectively rotatably sleeved on the left end and the right end of the supporting shaft 5, moving disks 6 are respectively arranged on the sides of the two fixed disks 3 far away from each other, the two moving disks 6 are respectively screwed on the outer surfaces of the two threaded sleeves 4, the two moving disks 6 are respectively slidably inserted in the two supporting cylinders 1, a moving ring a7 is slidably inserted in the supporting cylinder 1 on the left side, a moving ring B8 is slidably inserted in the supporting cylinder 1 on the right side, the inner ring of the moving ring A7 is provided with a moving ring C9, the inner ring of the moving ring B8 is provided with a moving ring D10, the inner walls of the two far-away sides of the two supporting cylinders 1 are fixedly connected with two stabilizing frames 40, the moving ring A7, the moving ring B8, the moving ring C9 and the moving ring D10 are respectively rotatably inserted into the four stabilizing frames 40, the shape of each stabilizing frame 40 is arc-shaped, and the stabilizing frames 40 improve the stability of the moving ring A7, the moving ring B8, the moving ring C9 and the moving ring D10 during rotation.

The equal fixedly connected with left peg graft pole 11 of right flank of shift ring A7 and shift ring C9, the equal fixedly connected with right peg graft pole 12 of right flank of shift ring B8 and shift ring D10, the right-hand member of left peg graft pole 11 slides and runs through the left surface that is located left shifting disk 6, the left end of right side peg graft pole 12 slides and runs through the right flank that is located the shifting disk 6 on right side, it cup joints the right-hand member at left peg graft pole 11 to be located left fixed disk 3, the fixed disk 3 that is located the right side cup joints the left end at right peg graft pole 12, two shifting disks 6 rotate with two fixed disks 3 synchronous under the effect of left peg graft pole 11 and right peg pole 12.

The equal fixedly connected with left elasticity rope 13 in the right flank of shift ring A7 and shift ring C9's right flank, the fixed inside of pegging graft at the removal dish 6 that is located the left side of the right-hand member of left elasticity rope 13, the equal fixedly connected with right elasticity rope 14 in the left flank of shift ring B8 and shift ring D10, the fixed inside of pegging graft at the removal dish 6 that is located the right side in the left side of the left end of right elasticity rope 14, the material of left side elasticity rope 13 and right elasticity rope 14 all has elasticity, elasticity satisfies the operating requirement.

Two mounting grooves 15 have all been seted up to the one side inner wall that two support cylinders 1 kept away from each other, slider 16 has all been pegged graft in the inside of mounting groove 15, slider 16's bottom surface fixedly connected with supporting spring 17, supporting spring 17's bottom surface and the interior diapire fixed connection of mounting groove 15, shift ring A7's interior anchor face sliding contact has joint piece A18, shift ring B8's interior anchor face sliding contact has joint piece B19, shift ring C9's interior anchor face sliding contact has joint piece C20, shift ring D10's interior anchor face sliding contact has joint piece D21, joint piece A18, joint piece B19, joint piece C20 and joint piece D21 respectively with four slider 16 fixed connection, joint piece A18, joint piece B19, joint piece C20 and joint piece D21 keep away from the one end of four sliders 16 respectively and are the toper, shift ring A7, shift ring B8, shift ring C9 and shift ring D10 all set up with the same axis of back shaft 5.

The riser 22 has all been run through in the upper surface of two supporting cylinder 1 slides, and joint piece C and joint piece D21's top all is provided with holding down plate 23, two holding down plate 23's rear end respectively with two riser 22's positive fixed connection, and two holding down plate 23's top all is provided with elasticity separation blade 24, and elasticity separation blade 24 has elasticity, and the upper end of elasticity separation blade 24 can take place to be close to riser 22 restorability crooked.

The lower extreme of elasticity separation blade 24 respectively with the positive fixed connection of two risers 22, the below of two elasticity separation blades 24 all is provided with the board 38 that resets, spout 39 has all been seted up to the one side of keeping away from each other of two support sections 1, two boards 38 that reset are pegged graft respectively in the inside of two spout 39, two boards 38 that reset are located the top of two holding down plates 23, after elasticity separation blade 24 removed the below of joint piece A18 and joint piece B19, the board 38 that resets of rebound can promote elasticity separation blade 24 and be close to riser 22, make riser 22 move upwards and reset.

The top of joint piece A18 and joint piece B19 all is provided with top board 25, the rear end of two top boards 25 respectively with two riser 22's front fixed connection, top board 25 is located the top of elasticity separation blade 24, riser 22 is located the inside one end back fixedly connected with spring telescopic link 26 of a supporting section of thick bamboo 1, the lower extreme of two spring telescopic links 26 respectively with two inner wall fixed connection who supports a section of thick bamboo 1, the bottom surface fixedly connected with bottom plate 42 of two riser 22, the upper surface of two bottom plates 42 respectively with joint piece C20 and the contact of joint piece D21, bottom plate 42 fixes a position the maximum height of riser 22 upshifting.

Winding bucket 2's top is provided with reciprocal lead screw 27, the equal fixedly connected with transmission shaft 28 of terminal surface about reciprocal lead screw 27, two transmission shafts 28 are articulated with the upper surface of two support section of thick bamboos 1 respectively, two transmission shafts 28 are located the place ahead of two riser 22, the transmission of conveyer belt 29 is passed through with the one end that two transmission shafts 28 kept away from each other in both ends about back shaft 5, the left side fixedly connected with motor 30 that is located left support section of thick bamboo 1, the output of motor 30 and the left end fixed connection of back shaft 5, movable block 31 has been cup jointed to reciprocal lead screw 27's surface, can drive movable block 31 reciprocating motion between reciprocal lead screw 27 both ends when reciprocal lead screw 27 rotates.

Two horizontal poles 33 of back fixedly connected with of movable block 31, the one end that two horizontal poles 33 kept away from each other all articulates there is gyro wheel 32, two riser 22 are located two elastic pressing pieces 34 of one end back fixedly connected with above two support section of thick bamboos 1, the upper surface of elastic pressing piece 34 is the inclined plane, the below of elastic pressing piece 34 is provided with location strip 41, location strip 41 makes elastic pressing piece 34 can not the downwardly rotating, make elastic pressing piece 34 can only the rebound, after horizontal pole 33 promotes elastic pressing piece 34 downwards, when opposite reverse movement, the elastic separation blade 24 that is located the horizontal pole 33 top can the kickup, make horizontal pole 33 remove out from elastic separation blade 24 down, the distance between two elastic pressing pieces 34 that are located a riser 22 satisfies can the operational requirement.

The positioning strips 41 are fixedly connected with the vertical plates 22, the connecting rod 35 is fixedly connected to the front face of the moving block 31, the positioning frame 36 is fixedly connected to the front end of the connecting rod 35, the positioning frame 36 is rectangular, and the inner walls of the upper side and the lower side of the positioning frame 36 are hinged to positioning wheels 37.

When the cable winding device is used, when a cable is wound, the cable penetrates through the two positioning wheels 37, the starting motor 30 drives the supporting shaft 5 to rotate, the winding barrel 2 rotates to wind the cable, meanwhile, the supporting shaft 5 drives the reciprocating lead screw 27 to rotate through the conveyor belt 29 and the transmission shaft 28, then, the moving block 31 is meshed with the reciprocating lead screw 27 to reciprocate left and right, the front of the reciprocating lead screw 27 is provided with the directional rod 43, two ends of the directional rod 43 are fixedly connected with the upper surfaces of the two supporting barrels 1 respectively, the moving block 31 is sleeved on the outer surface of the directional rod 43 in a sliding manner, the moving block 31 drives the positioning frame 36 to reciprocate left and right to move the cable left and right, when the moving block 31 moves to the left end, the transverse rod 33 on the left side pushes the elastic pressing sheet 34 on the left lower side to move downwards, then the vertical plate 22 is pushed downwards, and the clamping block C20 is pushed downwards through the lower pressing plate 23 on the left side, the slide block 16 compresses the supporting spring 17, so that the clamping block C20 is disengaged from the moving ring C9 when moving downwards, meanwhile, the vertical plate 22 drives the elastic blocking piece 24 to move downwards to the lower part of the clamping block A18, after the horizontal rod 33 moves rightwards, the vertical plate 22 does not move upwards, then the moving ring C9 moves rightwards under the pulling of the left elastic rope 13, the left insertion rod 11 is pushed to move rightwards to be inserted into the fixed disc 3 on the right side, when continuing to wind, the wound cable is wound on the left insertion rod 11, when the moving block 31 moves to the right end, the horizontal rod 33 on the right side pushes the vertical plate 22 on the right side to move downwards by pushing the elastic pressing piece 34, so that the clamping block D21 is disengaged from the moving ring D10, then the right insertion rod 12 is driven to move leftwards under the pulling of the right elastic rope 14, the cable is wound and then wound on the right insertion rod 12, when the reciprocating screw 27 continues to reciprocate, the moving ring A7 and the moving ring B8 are gradually disengaged from the clamping block A18 and the clamping block B19, so that the left insertion rod 11 and the right insertion rod 12 are gradually inserted into the fixed disc 3 layer by layer, and a gap is reserved between every two layers of the wound mooring rope for facilitating air circulation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.