CN214986369U - Automatic shuttlecock tube filling machine - Google Patents

Abstract

The utility model provides an automatic shuttlecock cylinder filling machine, which belongs to the technical field of shuttlecock processing equipment, and comprises a first conveyor belt, wherein the front side and the rear side of the first conveyor belt are respectively provided with a first supporting plate, the first conveyor belt is rotatably connected between the two first supporting plates through two first conveyor rollers, the front end of one first supporting plate is fixed with a first motor box, the whole device has reasonable structure and ingenious conception, the shuttlecock cylinder filling operation is carried out by utilizing a vacuum negative pressure adsorption mode, the automation degree of the whole device is high, the shuttlecock cylinder filling yield is greatly improved, the shuttlecock cylinder filling efficiency is also improved, the manual operation is effectively realized aiming at the operation of the shuttlecock cylinder filling in the prior art, the cylinder filling efficiency is slow, and the shuttlecocks on the shuttlecock can be abraded by using irregular operation, the problems of abrasion to the shuttlecocks, low efficiency and the like also exist in a few mechanical automatic tube loading operations.

Description

Automatic shuttlecock tube filling machine

Technical Field

The utility model belongs to the technical field of the badminton processing equipment, concretely relates to automatic dress section of thick bamboo machine of badminton.

Background

The badminton is a sports activity which can be carried out indoors and outdoors, and is a favorite exercise item for the public because of easy starting.

The back is accomplished in the preparation to badminton usually, because the feather on the badminton is impaired easily in the transportation, then need will unify and put into a badminton section of thick bamboo to the realization is to the protection of badminton, but the operation to a badminton dress section of thick bamboo among the prior art is manual operation mostly, not only dress section of thick bamboo efficiency is slow, the feather on some irregularities also can be to the badminton simultaneously produces wearing and tearing, the automatic dress section of thick bamboo operation of few adoption mechanization also has wearing and tearing and the problem that efficiency is not high to the badminton, consequently, design an automatic dress section of thick bamboo machine of badminton.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic dress section of thick bamboo machine of badminton aims at solving among the prior art most to the operation of a badminton dress section of thick bamboo for manual operation, and not only dress section of thick bamboo efficiency is slow, and the operation of some irregularities also can produce wearing and tearing to the feather on the badminton simultaneously, and a small number adopts mechanized automatic dress section of thick bamboo operation also to have wearing and tearing and the not high scheduling problem of efficiency to the badminton.

In order to achieve the above object, the utility model provides a following technical scheme:

an automatic shuttlecock cylinder loading machine comprises a first conveying belt, wherein first supporting plates are arranged on the front side and the rear side of the first conveying belt, the first conveying belt is rotatably connected between the two first supporting plates through two first conveying rollers, a first motor box is fixed at the front end of one first supporting plate, a first motor is arranged in the first motor box, the output end of the first motor penetrates through the first supporting plates and is fixed with one of the first conveying rollers, a plurality of uniformly distributed through holes are formed in the first conveying belt, extension pipes are fixed on the inner walls of the through holes, a plurality of shuttlecocks are arranged on the first conveying belt, an adsorption cavity is arranged in the first conveying belt and is communicated with an external vacuum pump through a connecting pipe, an extension sucker is arranged at the upper end of the adsorption cavity, and a second conveying belt is arranged at the lower right side of the first conveying belt, and a connecting mechanism is arranged between the first conveyor belt and the second conveyor belt.

As a preferred, linking up the mechanism and including toper transition pipe, snap ring and spliced pole, the one end of spliced pole is fixed in the front end of one of them first motor box, the snap ring is fixed in the other end of spliced pole, toper transition pipe sets up in the snap ring.

As an optimization, the left and right sides of second conveyer belt all is provided with the second backup pad, the second conveyer belt is connected between two second backup pads through two second transfer roller transmissions, one of them the one end of second backup pad is fixed with second motor box, be provided with the second motor in the second motor box, and the output of second motor runs through one of them second backup pad and is fixed with one of them second transfer roller, be provided with the badminton section of thick bamboo that a plurality of equidistance distribute on the second conveyer belt.

As an optimization, the arc-shaped groove is arranged on the conical transition pipe, and the arc-shaped groove is matched with the badminton.

As an optimization of the utility model, the lower extreme aperture of toper transition pipe and the aperture phase-match of a plurality of badminton section of thick bamboos.

As an optimization of the utility model, it is a plurality of the extension pipe respectively with a plurality of badminton phase-matchs.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the scheme, the whole device has reasonable structure and ingenious design, the shuttlecock is loaded by using a vacuum negative pressure adsorption mode, the automation degree of the whole device is high, the loading yield of the shuttlecock is greatly improved, the loading efficiency of the shuttlecock is also improved, the problems that in the prior art, most shuttlecock loading operations are manual operations, the loading efficiency is slow, some irregular operations can also wear the shuttlecock, and a small number of mechanical automatic loading operations also have the problems of the wear of the shuttlecock, the low efficiency and the like are solved, the utility model places a plurality of shuttlecocks on the first conveying belt, the first conveying belt drives a plurality of shuttlecocks to the right side through the first motor in the first motor box, when the shuttlecocks are placed, a plurality of through holes are matched with a plurality of extension pipes to limit the plurality of shuttlecocks, the space among the badmintons is the same, meanwhile, the vacuum pump connected with the absorption cavity in the first conveying belt can form air pressure to a plurality of extension pipes positioned at the upper side of the first conveying belt to absorb the badmintons, the badmintons are prevented from falling off, the absorption force of the badmintons is enhanced by the arrangement of the extension suckers, the extension suckers are only arranged above the absorption cavity, the badmintons can be prevented from being separated from the first conveying belt, meanwhile, the arrangement of the extension pipes can lead the absorption force to directly reach the inner wall of the badmintons, the absorption effect is further improved, the first supporting plate at the other side in the figure is not drawn to better show the internal structure, the badmintons are all inversely placed on the first conveying belt, the transmission stability of the badmintons can be improved, and the absorption force of the vacuum pump can be lost when the badmintons reach the corner at the right side of the first conveying belt, and the shuttlecock reaches the second conveying belt by matching with self gravity and the connecting mechanism, and the shuttlecock barrel filling operation is streamlined, so that the barrel filling efficiency of the shuttlecock is greatly improved.

2. In the scheme, the connecting mechanism can be connected with the shuttlecocks and leads to a plurality of shuttlecock cylinders on the second conveyor belt, the plurality of shuttlecocks lose the adsorption force of the vacuum pump at the corner on the right side of the first conveyor belt and can overturn into the conical transition pipe by matching with the self gravity, in the overturning process, the bulb of the whole shuttlecock can face downwards due to the weight of the bulb of the shuttlecock arranged at the edge of the conical transition pipe, the shuttlecocks fall to the bottom of the conical transition pipe upwards, and the conical transition pipe is placed in the snap ring fixed by the connecting column to overhaul or replace the conical transition pipe at any time, which is very convenient and fast, when the plurality of shuttlecocks reach the bottom of the conical transition pipe, the shuttlecocks can directly enter the shuttlecock cylinders on the second conveyor belt to be loaded into the cylinders, after one shuttlecock cylinder is loaded, the second conveyor belt can drive one filled shuttlecock cylinder to drive rightwards through the second motor in the second motor box, and adorn a section of thick bamboo to next badminton section of thick bamboo, carry out packing operation on next step after the completion, set up on the toper transition pipe and can ensure the upset of badminton and can prevent to lead to the fact wearing and tearing to the feather on a plurality of badmintons with the lower extreme aperture of toper transition pipe and the aperture phase-match of a plurality of badminton sections of thick bamboo can let in a plurality of badmintons perfect reachs the badminton section of thick bamboos through the intraductal back of toper transition, accomplish dress section of thick bamboo operation, a plurality of extension pipes that are located first conveyer belt upside form atmospheric pressure and form the absorption to a plurality of badmintons, prevent dropping of badminton, the setting of a plurality of extension pipes also can let the adsorption affinity directly arrive on the inner wall of badminton simultaneously, the adsorption efficiency has further been improved.

Drawings

The accompanying drawings 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 schematic structural view of the present invention;

fig. 2 is a perspective view of the present invention;

fig. 3 is a rear view of the present invention.

In the figure: 1-a first conveyor belt; 2-badminton; 3-a first support plate; 4-a first motor box; 5-a through hole; 6-an extension tube; 7-adsorbing the cavity; 8-extending the suction cup; 9-connecting pipe; 10-a tapered transition tube; 11-an arc-shaped groove; 12-a snap ring; 13-connecting column; 14-a second conveyor belt; 15-a second support plate; 16-a second motor box; 17-badminton cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1 and 2, the present invention provides the following technical solutions: an automatic shuttlecock cylinder loading machine comprises a first conveyor belt 1, wherein first supporting plates 3 are respectively arranged on the front side and the rear side of the first conveyor belt 1, the first conveyor belt 1 is rotatably connected between the two first supporting plates 3 through two first conveyor rollers, a first motor box 4 is fixed at the front end of one first supporting plate 3, a first motor is arranged in the first motor box 4, the output end of the first motor penetrates through the first supporting plates 3 and is fixed with one of the first conveyor rollers, a plurality of uniformly distributed through holes 5 are formed in the first conveyor belt 1, extension pipes 6 are fixed on the inner walls of the through holes 5, a plurality of shuttlecocks 2 are arranged on the first conveyor belt 1, an adsorption cavity 7 is arranged in the first conveyor belt 1, the adsorption cavity 7 is communicated with an external vacuum pump through a connecting pipe 9, an extension sucker 8 is arranged at the upper end of the adsorption cavity 7, a second conveyor belt 14 is arranged below the right side of the first conveyor belt 1, a connecting mechanism is arranged between the first conveyor belt 1 and the second conveyor belt 14.

In the specific embodiment of the utility model, the whole device has reasonable structure, ingenious conception, and high automation degree, not only greatly improves the tube-loading yield of the badminton, but also improves the tube-loading efficiency of the badminton, effectively solves the problems that in the prior art, the operation for the badminton tube is manual operation, the tube-loading efficiency is slow, some irregular operations can also wear the feather on the badminton, and a small number of mechanical automatic tube-loading operations also have the problems of wear and low efficiency of the badminton, and the like, by placing a plurality of badmintons 2 on the first conveyor belt 1, the first conveyor belt 1 drives the badmintons 2 to be conveyed to the right side through the first motor in the first motor box 4, when placing the badmintons 2, the plurality of through holes 5 are matched with the plurality of extension pipes 6, so that the plurality of shuttlecocks 2 can be limited, the distances among the plurality of shuttlecocks 2 are the same, meanwhile, the vacuum pump connected with the adsorption cavity 7 in the first conveying belt 1 can be used for forming air pressure for the plurality of extension pipes 6 positioned on the upper side of the first conveying belt 1 to adsorb the plurality of shuttlecocks 2, the falling of the shuttlecocks 2 is prevented, the arrangement of the extension suckers 8 strengthens the adsorption force of the plurality of shuttlecocks 2, the extension suckers 8 are only arranged above the adsorption cavity 7, so that the plurality of shuttlecocks 2 can be prevented from being separated from the first conveying belt 1, meanwhile, the arrangement of the plurality of extension pipes 6 can also lead the adsorption force to directly reach the inner wall of the shuttlecocks, the adsorption effect is further improved, the first support plate 3 on the other side in the figure is not drawn for better showing the internal structure, and the plurality of shuttlecocks 2 are all placed on the first conveying belt 1 upside down, can improve the stability of the transmission of a plurality of badminton 2, a plurality of badminton 2 can lose the adsorption affinity of vacuum pump in the corner that reachs first conveyer belt 1 right side to on cooperation self gravity and linking mechanism reachd second conveyer belt 14, the dress section of thick bamboo operation of streamlined has improved the dress section of thick bamboo efficiency of badminton greatly.

Specifically, as shown in fig. 1, fig. 2 and fig. 3, the engagement mechanism includes a tapered transition tube 10, a snap ring 12 and a connection column 13, one end of the connection column 13 is fixed to the front end of one of the first motor boxes 4, the snap ring 12 is fixed to the other end of the connection column 13, and the tapered transition tube 10 is disposed in the snap ring 12.

In this embodiment: the setting of linking up the mechanism can be connected the badminton and lead to in a plurality of badminton section of thick bamboo 17 on the second conveyer belt 14, a plurality of badmintons 2 can lose the adsorption affinity of vacuum pump in the corner that reachs first conveyer belt 1 right side, and cooperate self gravity upset to the toper transition pipe 10 in, at the in-process of upset, because the bulb weight at toper transition pipe 10 border sets up the cooperation badminton, can make the bulb of whole badminton 2 down, the feather falls to the bottom of toper transition pipe 10 at last, and place toper transition pipe 10 and can overhaul or change toper transition pipe 10 at any time in the snap ring 12 fixed by spliced pole 13, and is very convenient.

Specifically please refer to fig. 1 and fig. 2, the left and right sides of the second conveyor belt 14 are provided with second supporting plates 15, the second conveyor belt 14 is connected between the two second supporting plates 15 through two second conveying rollers, one end of one of the second supporting plates 15 is fixed with a second motor box 16, a second motor is arranged in the second motor box 16, an output end of the second motor penetrates through one of the second supporting plates 15 and is fixed with one of the second conveying rollers, and the second conveyor belt 14 is provided with a plurality of badminton barrels 17 distributed at equal intervals.

In this embodiment: after a plurality of badmintons 2 reach the bottom of toper transition pipe 10, can directly get into and adorn a section of thick bamboo in the badminton section of thick bamboo 17 on the second conveyer belt 14, can drive a badminton section of thick bamboo 17 transmission right after filling up through the second motor in the second motor box 16 in the second conveyer belt 14 after filling up in a badminton section of thick bamboo 17 to adorn a section of thick bamboo to next badminton section of thick bamboo 17, carry out packing operation on next step after the completion.

Specifically, referring to fig. 1 and 2, an arc-shaped groove 11 is formed on the conical transition pipe 10, and the arc-shaped groove 11 is matched with the badminton 2.

In this embodiment: the arc-shaped groove 11 matched with the shuttlecock 2 is formed in the conical transition pipe 10, so that the shuttlecock 2 can be turned over, and the feather on the shuttlecock 2 can be prevented from being abraded.

Specifically, referring to fig. 1 and 3, the aperture of the lower end of the tapered transition pipe 10 matches the aperture of the plurality of badminton barrels 17.

In this embodiment: the aperture of the lower end of the conical transition pipe 10 is matched with the apertures of the badminton cylinders 17, so that the shuttlecocks 2 can perfectly reach the badminton cylinders 17 after passing through the conical transition pipe 10, and the cylinder loading operation is completed.

Specifically, as shown in fig. 2 and 3, a plurality of extension pipes 6 are respectively matched with a plurality of shuttlecocks 2.

In this embodiment: a plurality of extension pipes 6 that are located 1 upside of first conveyer belt form atmospheric pressure and adsorb a plurality of badminton 2 formation, prevent dropping of badminton 2, and the setting up of a plurality of extension pipes 6 also can let the adsorption affinity directly arrive on the inner wall of badminton simultaneously, has further improved adsorption effect.

The utility model discloses a theory of operation and use flow: the utility model discloses a through place a plurality of badminton 2 on first conveyer belt 1, first conveyer belt 1 drives a plurality of badminton 2 through first motor in the first motor box 4 and conveys to the right side, when placing badminton 2, a plurality of through-holes 5 cooperate a plurality of extension pipes 6 not only can carry on spacing to a plurality of badminton 2, let the interval between a plurality of badminton 2 the same, simultaneously also can form the atmospheric pressure to a plurality of extension pipes 6 that are located the upside of first conveyer belt 1 through the vacuum pump that the absorption cavity 7 in first conveyer belt 1 is connected and form the absorption to a plurality of badminton 2, prevent falling of badminton 2, the setting of extension sucking disc 8 has strengthened the adsorption affinity of a plurality of badminton 2, and extension sucking disc 8 only is established the top of absorption cavity 7 can avoid a plurality of badminton 2 can't break away from with first conveyer belt 1, the setting of a plurality of extension pipes 6 also can let the adsorption affinity directly arrive on the inner wall of badminton simultaneously, the adsorption effect is further improved, the first support plate 3 at the other side in the figure is not drawn for better showing the internal structure, a plurality of shuttlecocks 2 are all placed upside down on the first conveying belt 1, the conveying stability of the plurality of shuttlecocks 2 can be improved, the plurality of shuttlecocks 2 lose the adsorption force of the vacuum pump at the corner reaching the right side of the first conveying belt 1 and reach the second conveying belt 14 by matching with the self gravity and the linking mechanism, the streamlined tube filling operation is realized, the tube filling efficiency of the shuttlecocks is greatly improved, the linking mechanism can be connected with the shuttlecocks and lead to a plurality of shuttlecock tubes 17 on the second conveying belt 14, the plurality of shuttlecocks 2 lose the adsorption force of the vacuum pump at the corner reaching the right side of the first conveying belt 1 and are turned into the conical transition pipe 10 by matching with the self gravity, and in the turning process, because the weight of the ball head matched with the shuttlecocks is arranged at the edge of the conical transition pipe 10, the badminton head of the whole badminton 2 can be enabled to face downwards, the feathers fall to the bottom of the upward conical transition pipe 10, the conical transition pipe 10 is placed in the clamping ring 12 fixed by the connecting column 13, the conical transition pipe 10 can be overhauled or replaced at any time, the badminton is convenient and fast, when a plurality of badminton 2 reach the bottom of the conical transition pipe 10, the badminton can directly enter the badminton cylinder 17 on the second conveying belt 14 to be barreled, after one badminton cylinder 17 is filled with the feathers, the second conveying belt 14 can drive one filled badminton cylinder 17 to drive the right through the second motor in the second motor box 16, the next badminton cylinder 17 is barreled, the next packaging operation is carried out after the completion, the arc-shaped groove 11 matched with the badminton 2 is formed in the conical transition pipe 10, the overturning of the badminton 2 can be ensured, and the abrasion of the feathers on the badminton 2 can be prevented, the lower end aperture of the conical transition pipe 10 is matched with the apertures of the badminton cylinders 17, so that the shuttlecocks 2 can perfectly reach the badminton cylinders 17 after passing through the conical transition pipe 10, the loading operation is completed, the air pressure formed by the extension pipes 6 positioned on the upper side of the first conveyor belt 1 can adsorb the shuttlecocks 2, the shuttlecocks 2 are prevented from falling off, meanwhile, the arrangement of the extension pipes 6 can enable the adsorption force to directly reach the inner walls of the shuttlecocks, the adsorption effect is further improved, the whole device is reasonable in structure arrangement and ingenious in concept, the vacuum negative pressure adsorption mode is used for loading the shuttlecocks, the automation degree of the whole device is high, the loading yield of the shuttlecocks is greatly improved, the loading efficiency of the shuttlecocks is improved, and manual operation for loading operation in most shuttlecocks in the prior art is effectively solved, not only dress a section of thick bamboo efficiency is slow, and the feather on some nonstandard operations also can be to the badminton simultaneously, and a small number adopts mechanized automatic dress section of thick bamboo operation also to have wearing and tearing and the not high scheduling problem of efficiency to the badminton.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. Automatic dress section of thick bamboo machine of badminton, its characterized in that: the badminton shuttlecock conveying device comprises a first conveying belt (1), wherein first supporting plates (3) are arranged on the front side and the rear side of the first conveying belt (1), the first conveying belt (1) is connected between the two first supporting plates (3) in a rotating mode through two first conveying rollers, a first motor box (4) is fixed to the front end of one first supporting plate (3), a first motor is arranged in the first motor box (4), the output end of the first motor penetrates through the first supporting plate (3) and is fixed to one of the first conveying rollers, a plurality of uniformly distributed through holes (5) are formed in the first conveying belt (1), extension pipes (6) are fixed to the inner walls of the through holes (5), a plurality of shuttlecocks (2) are arranged on the first conveying belt (1), an adsorption cavity (7) is arranged in the first conveying belt (1), and the adsorption cavity (7) is communicated with an external vacuum pump through a connecting pipe (9), the upper end of the adsorption cavity (7) is provided with an extending sucker (8), the right lower part of the first conveying belt (1) is provided with a second conveying belt (14), and a connecting mechanism is arranged between the first conveying belt (1) and the second conveying belt (14).

2. The automatic shuttlecock barreling machine according to claim 1, wherein: the linking mechanism comprises a conical transition pipe (10), a clamping ring (12) and a connecting column (13), one end of the connecting column (13) is fixed at the front end of one of the first motor boxes (4), the clamping ring (12) is fixed at the other end of the connecting column (13), and the conical transition pipe (10) is arranged in the clamping ring (12).

3. The automatic shuttlecock barreling machine according to claim 2, wherein: the left and right sides of second conveyer belt (14) all is provided with second backup pad (15), second conveyer belt (14) are connected between two second backup pad (15) through two second transfer roller transmissions, one of them the one end of second backup pad (15) is fixed with second motor box (16), be provided with the second motor in second motor box (16), and the output of second motor runs through one of them second backup pad (15) and is fixed with one of them second transfer roller, be provided with a plurality of equidistance distribution's badminton section of thick bamboo (17) on second conveyer belt (14).

4. The automatic shuttlecock barreling machine according to claim 3, wherein: the conical transition pipe (10) is provided with an arc-shaped groove (11), and the arc-shaped groove (11) is matched with the badminton (2).

5. The automatic shuttlecock barreling machine according to claim 4, wherein: the aperture of the lower end of the conical transition pipe (10) is matched with the apertures of the badminton cylinders (17).

6. The automatic shuttlecock barreling machine according to claim 5, wherein: the extension pipes (6) are respectively matched with the shuttlecocks (2).

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