CN211728987U - Be applied to automatic threading machine of rope skipping - Google Patents

Abstract

The utility model discloses an automatic threading machine applied to skipping rope, which comprises a frame, wherein a vibrating disk I is arranged at the right side of the rear part of the frame, a vibrating disk II is embedded at the right side of the front part of the frame, a contact pin guide rail is embedded at the left side of the frame, a contact pin is embedded inside the contact pin guide rail, a rubber rope is arranged at one end of the contact pin, a material pushing guide rail III is arranged at one side of the contact pin, a vibrating disk guide rail I is fixedly connected with one side of the vibrating disk I, the middle parts of the vibrating disk guide rail I and the material pushing guide rail III are arranged, a push block I is arranged above the material pushing guide rail I, a small polyamide ring is automatically conveyed by the vibrating disk, a cylinder is adopted to perform the operation by using the motive power, the motion is stable, the performance is reliable, the small polyamide rings with two colors can be automatically transmitted into the skipping rope in sequence, the appearance of the skipping rope, and automatic production is realized.

Description

Be applied to automatic threading machine of rope skipping

Technical Field

The utility model belongs to the technical field of the rope skipping processing, specifically be a be applied to automatic threading machine of rope skipping.

Background

In the production of the skipping rope, the method of penetrating a string of small polyamide rings into the skipping rope made of polyurethane and other good elastic materials by utilizing the high wear resistance of polyamide can ensure low production cost and ensure the elasticity and wear resistance of the skipping rope.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve current carrier band stamping die simple structure, the functionality is low, can not effectual realization accurate processing when carrying out stamping forming to the carrier band, and then influences the shaping quality of carrier band, the problem of the demand of satisfying the user that can not be fine provides an automatic threading machine who is applied to the rope skipping.

The utility model adopts the technical scheme as follows: an automatic threading machine applied to rope skipping comprises a rack, wherein a vibrating disc I is arranged on the right side of the rear of the rack, a vibrating disc II is embedded on the right side of the front of the rack, a pin guide rail is embedded in the left side of the rack, a pin is embedded in the pin guide rail, a rubber rope is arranged at one end of the pin, a material pushing guide rail III is arranged on one side of the pin, a vibrating disc guide rail I is fixedly connected to one side of the vibrating disc I, a material pushing guide rail I is arranged in the middle of the vibrating disc guide rail I and the material pushing guide rail III, a push block I is arranged above the material pushing guide rail I, a cylinder I is fixedly connected to the front of the material pushing guide rail I, a material pushing limit block I is arranged above the push block I, a material limiting block I is embedded in the left side of the vibrating disc guide rail I, and an optical fiber sensor I is, one side of vibration dish II is provided with vibration dish guide rail II, vibration dish guide rail II is provided with the middle part that pushes away material guide rail III and pushes away material guide rail II, the top that pushes away material guide rail II is rabbeted there is ejector pad II, push away the rear of material guide rail II and install cylinder II, the top of ejector pad II is installed and is pushed away material stopper II, one side fixedly connected with of vibration dish guide rail II arrives material stopper II, it has optic fibre sensor II to the inside scarf joint of material stopper II, push away the top that material guide rail III installs ejector pad III, one side fixedly connected with cylinder III that pushes away material guide rail III.

Furthermore, the pushing block II is arranged above the pushing guide rail II and is in sliding fit with the pushing guide rail II.

Further, the air cylinder II is arranged behind the pushing guide rail II through an aluminum plate and connected with the pushing block II through a floating joint, and the air cylinder II drives the pushing block II to move in the Y-axis direction.

Furthermore, the material limiting block II is arranged on the left side of the vibrating disc guide rail II and used for limiting the movement of the small polyamide ring in the X-axis direction.

Further, the air cylinder III is arranged on the right side of the pushing guide rail III through an aluminum block, and is connected with the pushing block III through a floating joint to drive the pushing block III to move in the X-axis direction, and the air cylinder III is a pen-shaped air cylinder MA16X75 SU.

Further, cylinder I sets up in pushing away I the place ahead of material guide rail through installation aluminum plate to be connected with ejector pad I through floating the joint, cylinder I drives ejector pad I and moves in Y axle direction.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, utilize the automatic little polyamide circle that transports of vibration dish, adopt the cylinder to make the motive power execution work, the motion is stable, the dependable performance.

2. The utility model discloses in, can pass the little polyamide circle of two kinds of colours into the rope skipping according to the order automatically, can improve the outward appearance of rope skipping, can solve the problem that efficiency is low among the prior art again, realize automated production.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

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

FIG. 4 is a schematic view of a partial structure of the present invention;

fig. 5 is a schematic view of a partial structure of the present invention.

The labels in the figure are: 1. a frame; 2. vibrating a disc I; 3. vibrating a disc II; 4. inserting a pin guide rail; 5. inserting a pin; 6. A rubber cord; 7. a vibration disc guide rail I; 8. a material pushing guide rail I; 9. a push block I; 10. a cylinder I; 11. a material pushing limiting block I; 12. a material limiting block I; 13. an optical fiber sensor I; 14. a vibrating disk guide rail II; 15. A material pushing guide rail II; 16. a push block II; 17. a cylinder II; 18. a material pushing limiting block II; 19. a material limiting block II is arranged; 20. an optical fiber sensor II; 21. a material pushing guide rail III; 22. a cylinder III; 23. and a pushing block III.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, an automatic threading machine applied to rope skipping comprises a machine frame 1, a vibrating disc I2 is arranged on the right side of the rear portion of the machine frame 1, a vibrating disc II 3 is embedded on the right side of the front portion of the machine frame 1, a contact pin guide rail 4 is embedded on the left side of the machine frame 1, a contact pin 5 is embedded inside the contact pin guide rail 4, a rubber rope 6 is arranged at one end of the contact pin 5, a material pushing guide rail III 21 is arranged on one side of the contact pin 5, a vibrating disc guide rail I7 is fixedly connected to one side of the vibrating disc I2, a material pushing guide rail I8 is arranged between the vibrating disc guide rail I7 and the material pushing guide rail III 21, a pushing block I9 is arranged above the material pushing guide rail I8, a cylinder I10 is fixedly connected to the front side of the material pushing guide rail I8, a limiting block I11 is arranged above the pushing block I9, a material limiting block I12 is, the inside to material stopper I12 is provided with optical fiber sensor I13, one side of vibration dish II 3 is provided with vibration dish guide rail II 14, vibration dish guide rail II 14 is provided with the middle part that pushes away material guide rail III 21 and pushes away material guide rail II 15, the top scarf joint that pushes away material guide rail II 15 has ejector pad II 16, push away the rear of material guide rail II 15 and install cylinder II 17, the top of ejector pad II 16 is installed and is pushed away material stopper II 18, one side fixedly connected with to material stopper II 19 of vibration dish guide rail II 14, the inside scarf joint to material stopper II 19 has optical fiber sensor II 20, push away the top of material guide rail III 21 and install ejector pad III 23, one side fixedly connected with cylinder III 22 that pushes away material guide rail III 21.

Preferably, the pushing block II 16 is arranged above the pushing guide rail II 15, and the pushing block II 16 is in sliding fit with the pushing guide rail II 15.

Preferably, the air cylinder II 17 is arranged behind the pushing guide rail II 15 through an aluminum plate and connected with the pushing block II 16 through a floating joint, and the air cylinder II 17 drives the pushing block II 16 to move in the Y-axis direction.

Preferably, the material stopping block II 19 is arranged on the left side of the vibrating disc guide rail II 14 and used for limiting the movement of the small polyamide ring in the X-axis direction.

Preferably, the air cylinder III 22 is arranged on the right side of the pushing guide rail III 21 through an aluminum block, and is connected with the pushing block III 23 through a floating joint to drive the pushing block III 23 to move in the X-axis direction, and the air cylinder III 22 is a pen-shaped air cylinder MA16X75 SU.

Preferably, cylinder I10 sets up in pushing away material I8 the place ahead through installation aluminum plate to be connected with ejector pad I9 through floating the joint, cylinder I10 drives ejector pad I9 and moves in Y axle direction.

The utility model provides an automatic threading machine for rope skipping which theory of operation is: in the using process, firstly, workers put a large number of red small polyamide rings into the vibrating disk I2 and vibrate the disk II 3 by a large number of blue small polyamide rings; the vibrating disc I2 conveys the red small polyamide rings to the pushing block I9 along a vibrating disc guide rail I7, and the vibrating disc II 3 conveys the blue small polyamide rings to the pushing block II 16 along a vibrating disc guide rail II 14; the optical fiber sensor I13 senses the position condition of the red small polyamide ring, the air cylinder I10 drives the red small polyamide ring to move to the right of the inserting needle 5 in the Y-axis direction, the optical fiber sensor II 20 senses the position condition of the blue small polyamide ring, and the air cylinder II 17 drives the blue small polyamide ring to move to the right of the red small polyamide ring in the Y-axis direction; the cylinder III 22 drives the red small polyamide ring and the blue small polyamide ring to penetrate into the contact pin 5 along the contact pin guide rail 4 in the X-axis direction; the cylinder III 22 drives the pushing block III 23 to return to the right side, the cylinder II 17 drives the pushing block II 16 to return to the track of the vibrating disk guide rail II 14, the cylinder I10 drives the pushing block I9 to return to the track of the vibrating disk guide rail I7, and the small polyamide rings with two colors are continuously penetrated into the rubber rope 6 in the movement mode, so that the function of automatically penetrating the small polyamide rings with two colors into the skipping rope in sequence is realized.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a be applied to automatic threading machine of rope skipping, includes frame (1), its characterized in that: the rear right side of frame (1) is provided with vibration dish I (2), the positive right side of frame (1) has inlayed vibration dish II (3), the left side of frame (1) has inlayed contact pin guide rail (4), the inside of contact pin guide rail (4) has inlayed contact pin (5), the one end of contact pin (5) is provided with rubber rope (6), one side of contact pin (5) is provided with pushes away material guide rail III (21), one side fixedly connected with vibration dish guide rail I (7) of vibration dish I (2), vibration dish guide rail I (7) and the middle part that pushes away material guide rail III (21) are provided with and push away material guide rail I (8), the top that pushes away material guide rail I (8) is provided with ejector pad I (9), the positive fixedly connected with cylinder I (10) that pushes away material guide rail I (8), the top of ejector pad I (9) is provided with pushes away material stopper I (11), the left side of vibration dish guide rail I (7) has been inlayed and has been connect material stopper I (12), the inside to material stopper I (12) is provided with optical fiber sensor I (13), one side of vibration dish II (3) is provided with vibration dish guide rail II (14), vibration dish guide rail II (14) is provided with the middle part that pushes away material guide rail III (21) and pushes away material guide rail II (15), the top that pushes away material guide rail II (15) has been inlayed and has been connect ejector pad II (16), push away the rear of material guide rail II (15) and install cylinder II (17), the top of ejector pad II (16) is installed and is pushed away material stopper II (18), one side fixedly connected with of vibration dish guide rail II (14) has material stopper II (19), the inside that arrives material stopper II (19) has been inlayed and has been connected with optical fiber sensor II (20), push away material guide rail III (23) is installed to the top that pushes away, and one side of the pushing guide rail III (21) is fixedly connected with a cylinder III (22).

2. The automatic threading machine applied to rope skipping of claim 1, wherein: the pushing block II (16) is arranged above the pushing guide rail II (15), and the pushing block II (16) is in sliding fit with the pushing guide rail II (15).

3. The automatic threading machine applied to rope skipping of claim 1, wherein: the cylinder II (17) is arranged behind the pushing guide rail II (15) through an aluminum plate and connected with the pushing block II (16) through a floating joint, and the cylinder II (17) drives the pushing block II (16) to move in the Y-axis direction.

4. The automatic threading machine applied to rope skipping of claim 1, wherein: and the material-arrival limiting block II (19) is arranged on the left side of the vibrating disc guide rail II (14) and is used for limiting the movement of the small polyamide ring in the X-axis direction.

5. The automatic threading machine applied to rope skipping of claim 1, wherein: the air cylinder III (22) is arranged on the right side of the pushing guide rail III (21) through an aluminum block, and is connected with the pushing block III (23) through a floating joint to drive the pushing block III (23) to move in the X-axis direction, and the air cylinder III (22) is a pen-shaped air cylinder MA16X75 SU.

6. The automatic threading machine applied to rope skipping of claim 1, wherein: the cylinder I (10) is arranged in front of the pushing guide rail I (8) through an aluminum plate and is connected with the pushing block I (9) through a floating joint, and the cylinder I (10) drives the pushing block I (9) to move in the Y-axis direction.

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