CN113529456B

CN113529456B - Rope skipping threading machine

Info

Publication number: CN113529456B
Application number: CN202111078411.9A
Authority: CN
Inventors: 王海俊
Original assignee: Nantong Pinli Fitness Equipment Technology Co ltd
Current assignee: Nantong Pinli Fitness Equipment Technology Co ltd
Priority date: 2021-09-15
Filing date: 2021-09-15
Publication date: 2021-12-10
Anticipated expiration: 2041-09-15
Also published as: CN113529456A

Abstract

The invention relates to the field of skipping rope processing, in particular to a skipping rope threading machine which comprises a device support, a switching mechanism, a shifting mechanism, a threading mechanism, a pulling mechanism, a rope unreeling mechanism and a cutting mechanism, wherein the shifting mechanism comprises a telescopic mechanism I, a shifting rotating wheel, a shifting barrel and a shifting threaded rod; the skipping rope can be quickly connected with the handle.

Description

Rope skipping threading machine

Technical Field

The invention relates to the field of skipping rope processing, in particular to a skipping rope threading machine.

Background

At present, skipping ropes are traditional sports activities, are simple and easy to implement, have various patterns, and can be trained or exercised at any time; the skipping rope is not only suitable for single person to move, but also can be used for multiple persons to move simultaneously; when skipping rope, a person swings the rope, the person skipping rope goes over the rope, and the modern skipping rope is a tool commonly used in physical training and consists of a rope and two handles; the prior art does not have a processingequipment that can be fast with rope skipping and handle connection.

Disclosure of Invention

The invention aims to provide a rope skipping threading machine which can be used for quickly connecting a skipping rope with a handle.

The purpose of the invention is realized by the following technical scheme:

a rope skipping threading machine comprises a device support, a conversion mechanism, a shifting mechanism, a threading mechanism, a pulling mechanism, a rope releasing mechanism and a cutting mechanism, wherein the conversion mechanism comprises a conversion support, conversion barrels and elastic bulges;

two ends of the handle are provided with anti-drop rings;

the poking mechanism comprises a telescoping mechanism I, a poking rotating wheel, poking barrels and a poking threaded rod, the telescoping mechanism I is fixedly connected to the device support, the poking rotating wheel is rotatably connected to the telescoping end of the telescoping mechanism I, a power mechanism II for driving the poking rotating wheel to rotate is arranged on the poking rotating wheel, the power mechanism II is preferably a servo motor, two pairs of poking barrels are fixedly connected to the poking rotating wheel, and each poking barrel is connected with the poking threaded rod through threads;

the threading mechanism comprises a threading slider, a threading shaft, a threading cylinder, threading columns and a telescopic mechanism II, the threading slider is connected to the device support in a sliding manner, a driving mechanism I for driving the threading slider to transversely slide is arranged on the threading slider, the driving mechanism I is preferably a hydraulic cylinder or an electric push rod, the threading shaft is connected to the threading slider in a rotating manner, a power mechanism III for driving the threading shaft to rotate is arranged on the threading shaft, the power mechanism III is preferably a servo motor, the threading cylinder is fixedly connected to the threading shaft, a plurality of threading columns are connected to the threading cylinder in a sliding manner, a hook is fixedly connected to the end of each threading column, an extrusion spring is fixedly connected between the threading cylinder and the threading column, the telescopic mechanism II is fixedly connected to the threading cylinder, the telescopic end of the telescopic mechanism II is positioned among the plurality of threading columns, and the telescopic end of the telescopic mechanism II is arranged in a conical manner;

the pulling mechanism comprises pulling supports, a telescopic mechanism III, buckling supports, buckling cylinders I, a clamp and a groove, a threading nail, a glue injection pipeline and a connecting rod, the telescopic mechanism III is fixedly connected onto the pulling supports, the two buckling supports are connected onto the telescopic mechanism III in a sliding manner, the buckling cylinders I are fixedly connected onto the two buckling supports, the clamp and the groove are arranged on the two buckling cylinders I, the threading nail is fixedly connected onto the two buckling cylinders I, the glue injection pipeline is fixedly connected onto the two buckling cylinders I, the connecting rod is hinged between the telescopic end of the telescopic mechanism III and the buckling supports, the two pulling mechanisms are arranged, the two pulling supports are respectively connected onto the upper side and the lower side of the front end of the device support in a sliding manner, driving mechanisms II for driving the sliding block to slide transversely are arranged on the two pulling supports, and the driving mechanisms II are preferably hydraulic cylinders or electric push rods;

the rope unwinding mechanism comprises a rope unwinding support, a threaded rod and two buckling barrels II, the rope unwinding support is fixedly connected to the device support, the threaded rod is rotatably connected to the rope unwinding support, the rotating directions of threads at two ends of the threaded rod are opposite, two ends of the threaded rod are connected with the buckling barrels II through threads, and the two buckling barrels II are connected to the rope unwinding support in a sliding mode;

the cutting mechanism comprises two telescopic mechanisms IV and a cutting tool fixedly connected to the telescopic ends of the two telescopic mechanisms IV.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the construction of the rope skipping threading machine of the present invention;

FIG. 2 is a schematic view of the rope skipping threading machine of the present invention;

FIG. 3 is a schematic view of the device support structure of the present invention;

FIG. 4 is a schematic view of the switching mechanism and handle connection of the present invention;

FIG. 5 is a schematic view of the conversion mechanism of the present invention;

FIG. 6 is a schematic view of the handle structure of the present invention;

FIG. 7 is a schematic view of the handle structure of the present invention;

FIG. 8 is a schematic view of the toggle mechanism of the present invention;

FIG. 9 is a schematic structural view of the threading mechanism of the present invention;

FIG. 10 is a schematic view of the threader mechanism of the present invention;

FIG. 11 is a schematic view of the pulling mechanism of the present invention;

FIG. 12 is a schematic view of the pulling mechanism of the present invention;

FIG. 13 is a schematic structural view of the payout mechanism of the invention;

fig. 14 is a schematic view of the cutting mechanism of the present invention.

In the figure: a device holder 10; a conversion mechanism 20; a conversion bracket 21; a changeover bobbin 22; an elastic projection 23; a handle 30; a slip-off preventing ring 31; a toggle mechanism 40; a telescoping mechanism I41; the turning wheel 42 is turned; a dial barrel 43; toggling the threaded rod 44; a threading mechanism 50; a threading slider 51; a threading shaft 52; a thread passing bobbin 53; a threading post 54; a telescoping mechanism II 55; a pulling mechanism 60; pulling on the bracket 61; a telescoping mechanism III 62; a snap bracket 63; a buckling cylinder I64; a card and slot 65; a reeving nail 66; a glue injection pipe 67; a connecting rod 68; a payout mechanism 70; a payout bracket 71; a threaded rod 72; a buckling cylinder II 73; a cutting mechanism 80; a telescoping mechanism IV 81; a cutter 82 is cut.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In order to solve the technical problem of quickly connecting a rope and two handles, the structure and the function of the rope skipping threading machine are explained in detail below, the rope skipping threading machine comprises a device support 10, a conversion mechanism 20, a toggle mechanism 40, a threading mechanism 50, a pulling mechanism 60, a rope releasing mechanism 70 and a cutting mechanism 80, wherein the conversion mechanism 20 is sleeved with a plurality of handles 30, and the pulling mechanism 60 is provided with two handles;

the skipping rope to be processed is placed on the rope releasing mechanism 70, the skipping rope penetrates through the conversion mechanism 20 through the threading mechanism 50, the handle 30 is pushed to be separated from the conversion mechanism 20 through the toggle mechanism 40, the handle 30 and the skipping rope are pulled to be separated from the conversion mechanism 20 through the mutual alternate movement of the two pulling mechanisms 60, the handle 30 and the skipping rope are fixed, after a plurality of handles 30 on one conversion mechanism 20 penetrate through the skipping rope, the skipping rope is cut off through the cutting mechanism 80, the conversion mechanism 20 is rotated, the next group of handles 30 are moved to the front end of the skipping rope through the conversion mechanism 20, the threading mechanism 50 and the pulling mechanisms 60 are used again to complete the processing of the handles 30, the device moves repeatedly, and the connection of the plurality of handles 30 and the skipping rope can be completed quickly;

the structure and function of the switching mechanism 20 will be described in detail below, the switching mechanism 20 includes a switching bracket 21, a switching cylinder 22 and an elastic protrusion 23, the switching bracket 21 is rotatably connected to the device bracket 10, a power mechanism i for driving the switching bracket 21 to rotate is arranged on the switching bracket 21, the power mechanism i is preferably a servo motor, a plurality of switching cylinders 22 are fixedly connected to the switching bracket 21, the elastic protrusion 23 is fixedly connected to each switching cylinder 22, a push spring is fixedly connected to each switching cylinder 22, a plurality of handles 30 are slidably connected to each switching cylinder 22, and the plurality of handles 30 are located between the push spring and the elastic protrusion 23;

when the skipping rope is used, as shown in fig. 4 and 5, the skipping rope passes through the switching cylinder 22 located at the lowest side, the plurality of handles 30 are sleeved on the plurality of switching cylinders 22 in advance, the plurality of handles 30 are pushed by the pushing spring to abut against the elastic protrusions 23, the elastic protrusions 23 limit the plurality of handles 30, so that the plurality of handles 30 cannot be separated, the elastic protrusions 23 are preferably made of elastic materials, the elastic materials can be rubber, the handles 30 are shifted by the shifting mechanism 40, so that the handles 30 extrude the elastic protrusions 23, and further part of the handles 30 are separated from the switching cylinders 22, as shown in fig. 7, the two ends of the handles 30 are provided with the anti-falling rings 31, when the handles 30 are pushed by the shifting mechanism 40, the front ends of the handles 30 are separated from the elastic protrusions 23, but the elastic protrusions 23 still limit the anti-falling rings 31 located at the rear ends, so that the handles 30 cannot be completely separated from the switching cylinders 22, so that a part of the front end of the handle 30 is separated from the elastic bulge 23, when the two pulling mechanisms 60 move, one of the pulling mechanisms 60 drives the handle 30 partially separated from the conversion drum 22 to move together with the skipping rope and complete the fixation of the handle 30 and the skipping rope, the plurality of handles 30 are compensated under the pushing of the pushing spring, the toggle mechanism 40 pushes the next handle 30 to partially separate from the conversion drum 22, the other pulling mechanism 60 drives the handle 30 partially separated from the conversion drum 22 to move together with the skipping rope and complete the fixation of the handle 30 and the skipping rope, the two pulling mechanisms 60 and the toggle mechanism 40 move in a matching way, the plurality of handles 30 on the conversion drum 22 are fixedly connected to the skipping rope in sequence to complete the connection of the handles 30 and the skipping rope, at this time, the plurality of handles 30 are fixedly connected to a long skipping rope, and the end parts of the two adjacent handles 30 are cut, thus forming a plurality of skipping ropes with two handles 30 to finish the processing;

in the following detailed description of the structure and function of the handle 30, both ends of the handle 30 are provided with the anti-drop rings 31; as shown in fig. 6 and 7, the anti-drop rings 31 at the two ends of the handle 30 can prevent the handle 30 from being separated from the hand due to shaking when the skipping rope is used for movement, and can also facilitate the shifting threaded rod 44 on the shifting mechanism 40 to push the handle 30, and can also limit the position of the handle 30 on the conversion cylinder 22 to prevent the handle 30 from being separated from the conversion cylinder 22 under the action of the pushing spring;

the structure and the function of the toggle mechanism 40 are explained in detail below, the toggle mechanism 40 comprises a telescopic mechanism i 41, a toggle rotating wheel 42, toggle cylinders 43 and a toggle threaded rod 44, the telescopic mechanism i 41 is fixedly connected to the device support 10, the toggle rotating wheel 42 is rotatably connected to the telescopic end of the telescopic mechanism i 41, a power mechanism ii for driving the toggle rotating wheel 42 to rotate is arranged on the toggle rotating wheel 42, the power mechanism ii is preferably a servo motor, two pairs of toggle cylinders 43 are fixedly connected to the toggle rotating wheel 42, and each toggle cylinder 43 is connected to the toggle threaded rod 44 through a thread;

as shown in fig. 8, when the handle 30 needs to be pulled away from the conversion cylinder 22, the power mechanism ii is started, the power mechanism ii can be fixedly connected to the telescopic end of the telescopic mechanism i 41, the output shaft of the power mechanism ii is in transmission connection with the poking rotating wheel 42, when the output shaft of the power mechanism ii rotates, the output shaft of the power mechanism ii drives the poking rotating wheel 42 to rotate, the poking rotating wheel 42 drives the poking cylinder 43 to move, the poking cylinder 43 drives the poking threaded rod 44 to move, the poking threaded rod 44 is in contact with the anti-falling ring 31 on the handle 30 in the rotating process, the poking threaded rod 44 pushes the handle 30 to move, so that the handle 30 extrudes the elastic protrusion 23, and the handle 30 is separated from the conversion cylinder 22;

further, when the pushing position of the toggle threaded rod 44 needs to be adjusted, that is, when the length of the handle 30 changes or the pushing position needs to be changed, the telescoping mechanism i 41 is started, the telescoping mechanism i 41 can be a hydraulic cylinder or an electric push rod, the telescoping end of the telescoping mechanism i 41 drives the toggle rotating wheel 42 to move, the toggle rotating wheel 42 drives the toggle barrel 43 to move, the toggle barrel 43 drives the toggle threaded rod 44 to move, and then the position of the toggle threaded rod 44 is adjusted;

further, when the length of the handle 30 pushed to move forward needs to be adjusted, the toggle threaded rod 44 is rotated, so that the toggle threaded rod 44 moves on the toggle cylinder 43 through threads, the length of the toggle threaded rod 44 extending out of the toggle cylinder 43 is adjusted, and the distance of the toggle threaded rod 44 capable of pushing the handle 30 to move forward is adjusted;

the structure and function of the threading mechanism 50 will be described in detail below, the threading mechanism 50 includes a threading slider 51, a threading shaft 52, a threading cylinder 53, threading columns 54 and a telescopic mechanism ii 55, the threading slider 51 is slidably connected to the device support 10, the threading slider 51 is provided with a driving mechanism i for driving the threading slider 51 to slide transversely, the driving mechanism i is preferably a hydraulic cylinder or an electric push rod, the threading slider 51 is rotatably connected with the threading shaft 52, the threading shaft 52 is provided with a power mechanism iii for driving the threading shaft to rotate, the power mechanism iii is preferably a servo motor, the threading cylinder 53 is fixedly connected to the threading shaft 52, the threading cylinder 53 is slidably connected with a plurality of threading columns 54, the end of each threading column 54 is fixedly connected with a hook, a pressing spring is fixedly connected between the threading cylinder 53 and the threading column 54, the telescopic mechanism ii 55 is fixedly connected to the threading cylinder 53, the telescopic end of the telescopic mechanism II 55 is positioned among the plurality of threading posts 54, and the telescopic end of the telescopic mechanism II 55 is arranged in a conical manner;

as shown in fig. 9 and 10, when a skipping rope needs to pass through the conversion drum 22, the power mechanism iii is started, the power mechanism iii can be fixedly connected to the threading slider 51, the output shaft of the power mechanism iii is in transmission connection with the threading shaft 52, the output shaft of the power mechanism iii drives the threading shaft 52 to rotate, the threading shaft 52 drives the threading cylinder 53 to move, the threading cylinder 53 drives the threading post 54 to move, when the two pulling mechanisms 60 move, the power mechanism iii drives the threading cylinder 53 to rotate to the lower end of the threading slider 51, when threading is needed, the power mechanism iii drives the threading cylinder 53 to rotate to the upper end of the threading slider 51, namely the structure shown in fig. 9, at this time, the threading cylinder 53 and the conversion drum 22 are coaxially arranged, the driving mechanism i is started, the driving mechanism i can be fixedly connected to the device support 10, the driving end of the driving mechanism i is fixedly connected to the threading slider 51, the driving mechanism I drives the threading slide block 51 to slide on the device support 10, the threading slide block 51 drives the threading posts 54 to move, so that the threading posts 54 penetrate through the conversion drum 22, the telescopic mechanism II 55 is started, the telescopic mechanism II 55 can be a hydraulic cylinder or an electric push rod, the telescopic end of the telescopic mechanism II 55 pushes the threading posts 54 to move, so that the threading posts 54 are close to or far away from each other, after the threading posts 54 penetrate through the conversion drum 22, the threading posts 54 are far away from each other, a skipping rope is placed among the threading posts 54, the end part of each threading post 54 is fixedly connected with a hook, the threading posts 54 are close to each other, the threading posts 54 fix the skipping rope, the driving mechanism I is started again, the driving mechanism I drives the threading posts 54 to move, and the skipping ropes are driven to penetrate through the conversion drum 22;

the structure and function of the pulling mechanism 60 will be explained in detail below, the pulling mechanism 60 includes a pulling support 61, a telescoping mechanism III 62, a buckling support 63, buckling barrels I64, a clip and groove 65, a threading nail 66, a glue injection pipeline 67 and a connecting rod 68, the telescoping mechanism III 62 is fixedly connected to the pulling support 61, two buckling supports 63 are slidably connected to the telescoping mechanism III 62, buckling barrels I64 are fixedly connected to the two buckling supports 63, the clip and groove 65 are respectively arranged on the two buckling barrels I64, the threading nail 66 is fixedly connected to the two buckling barrels I64, the glue injection pipeline 67 is fixedly connected to the two buckling barrels I64, the connecting rod 68 is hinged between the telescopic end of the telescoping mechanism III 62 and the buckling supports 63, the pulling mechanism 60 is provided with two pulling supports 61 which are respectively slidably connected to the upper and lower sides of the front end of the device support 10, a driving mechanism II for driving the threading slider 51 to slide transversely is arranged on the two pulling supports 61, the driving mechanism II is preferably a hydraulic cylinder or an electric push rod;

as shown in fig. 11 and 12, after the threading mechanism 50 passes the skipping rope through the transition cylinder 22, the threading mechanism 50 rotates 180 degrees, the threading mechanism 50 rotates to the lower end of the device support 10, at this time, the two pulling mechanisms 60 start to move in coordination with the toggle mechanism 40, after the toggle mechanism 40 pulls part of the handle 30 out of the transition cylinder 22, the driving mechanism ii on one of the pulling mechanisms 60 is started, the pulling mechanism 60 slides on the device support 10, the pulling mechanism 60 moves transversely, after the pulling mechanism 60 moves to one side of the handle 30 and the skipping rope, the telescoping mechanism iii 62 is started, the telescoping end of the telescoping mechanism iii 62 drives the two connecting rods 68 to move, the two buckling supports 68 pull the two buckling supports 63 to move, the two buckling cylinders i 64 buckle, the anti-release ring 31 on the handle 30 is clamped in the clamping groove 65, the threading nail 66 is inserted in the skipping rope, the driving mechanism II is started again, the driving mechanism II pulls the pulling mechanism 60 to move towards the front end, the pulling mechanism 60 drives the handle 30 and the skipping rope to move forwards, meanwhile, pipelines such as injection molding materials or glue are connected to the glue injection pipeline 67 in advance, the skipping rope and the handle 30 are filled through the glue injection pipeline 67, the skipping rope and the handle 30 are fixed, the driving mechanism II can drive the pulling mechanism 60 to move for different lengths, further, the relative distance between the two handles 30 is adjusted, and the skipping ropes with the handles 30 in different lengths are prepared;

after one pulling mechanism 60 finishes pulling, the toggle mechanism 40 pushes the next handle 30 to partially separate from the conversion drum 22, the other pulling mechanism 60 moves, the two pulling mechanisms 60 and the toggle mechanism 40 alternately move, and a plurality of handles 30 are sleeved on the skipping rope;

the structure and the function of the rope releasing mechanism 70 are explained in detail below, the rope releasing mechanism 70 comprises a rope releasing support 71, a threaded rod 72 and a buckling barrel II 73, the rope releasing support 71 is fixedly connected to the device support 10, the threaded rod 72 is rotatably connected to the rope releasing support 71, the thread directions of two ends of the threaded rod 72 are opposite, two ends of the threaded rod 72 are both connected with the buckling barrel II 73 through threads, and the two buckling barrels II 73 are both slidably connected to the rope releasing support 71;

as shown in fig. 13, the skipping rope can be placed between two fastening cylinders ii 73, the two fastening cylinders ii 73 can be closed under the driving of the threaded rod 72, so that the skipping rope can be conveniently taken and placed, and meanwhile, the positions of the skipping rope are fixed by the two fastening cylinders ii 73, so that the four threading posts 54 can be conveniently taken and placed;

the structure and function of the cutting mechanism 80 will be described in detail below, and the cutting mechanism 80 includes two telescoping mechanisms iv 81 and a cutting tool 82 fixedly connected to the telescoping ends of the two telescoping mechanisms iv 81;

as shown in fig. 14, after all the handles 30 on one conversion drum 22 are placed, the number of the handles 30 on each conversion drum 22 is preferably two, two telescoping mechanisms iv 81 are started, the two telescoping mechanisms iv 81 drive the cutting tool 82 to move, the cutting tool 82 cuts the skipping rope, the power mechanism i is started, the power mechanism i drives the conversion mechanism 20 to rotate, the position of the conversion drum 22 is changed, and when the threading mechanism 50 is started, the threading mechanism 50 pulls the skipping rope in the rope unwinding mechanism 70 to pass through the conversion drum 22, so as to perform the next processing.

Claims

1. A rope skipping threading machine comprises a device support (10) and a conversion mechanism (20) rotatably connected to the device support (10), and is characterized in that: a plurality of handles (30) are sleeved on the conversion mechanism (20), and the front end of the device bracket (10) is connected with two pulling mechanisms (60) and a threading mechanism (50) in a sliding manner;

the pulling mechanism (60) comprises a pulling support (61) and two buckling supports (63) connected to the pulling support (61) in a sliding mode, buckling barrels I (64) are fixedly connected to the two buckling supports (63), clamping grooves (65) are formed in the two buckling barrels I (64), threading nails (66) are fixedly connected to the two buckling barrels I (64), and glue injection pipelines (67) are fixedly connected to the two buckling barrels I (64);

a toggle mechanism (40) for toggling the handle (30) away from the conversion mechanism (20) is fixedly connected to the device bracket (10);

the poking mechanism (40) comprises a telescopic mechanism I (41) and a poking rotating wheel (42) rotatably connected to the telescopic end of the telescopic mechanism, two pairs of poking barrels (43) are fixedly connected to the poking rotating wheel (42), and a poking threaded rod (44) is connected to each poking barrel (43) through threads;

threading mechanism (50) are including threading slider (51) and rotation connection threading axle (52) on threading slider (51), fixedly connected with threading section of thick bamboo (53) is gone up in threading axle (52), sliding connection has a plurality of threading post (54) on threading section of thick bamboo (53), the equal fixedly connected with hook of tip of every threading post (54), fixedly connected with extrusion spring between threading section of thick bamboo (53) and threading post (54), fixedly connected with telescopic machanism II (55) is gone up in threading section of thick bamboo (53), the flexible end of telescopic machanism II (55) is located between a plurality of threading posts (54), the flexible end toper setting of telescopic machanism II (55).

2. The rope skipping threading machine as claimed in claim 1, wherein: the conversion mechanism (20) comprises a conversion support (21) and a plurality of conversion barrels (22) fixedly connected to the conversion support (21), and each conversion barrel (22) is fixedly connected with an elastic bulge (23).

3. The rope skipping threading machine as claimed in claim 1, wherein: the two ends of the handles (30) are provided with anti-drop rings (31).

4. The rope skipping threading machine as claimed in claim 1, wherein: pulling fixedly connected with telescopic machanism III (62) on support (61), all articulated connecting rod (68) between the flexible end of telescopic machanism III (62) and two lock support (63).

5. The rope skipping threading machine as claimed in claim 1, wherein: the device support (10) is also fixedly connected with a rope releasing mechanism (70) for placing a skipping rope.

6. The rope skipping threading machine as claimed in claim 1, wherein: the device support (10) is also fixedly connected with a cutting mechanism (80) used for cutting the skipping rope.