CN219566443U - Automatic transfer equipment for ball production - Google Patents

Abstract

The utility model relates to the technical field of shoemaking equipment, in particular to automatic ball production transfer equipment, which comprises a bottom substrate, a frame body, a feed hopper and a running water type discharge track, wherein the running water type discharge track adopts an automatic lifting material receiving structure, the running water type discharge track can be randomly assigned to a position, a ball on a production lower line freely falls into the feed hopper, the ball falls into a round ball carrying frame corresponding to the lower end of the feed hopper, the ball is driven to be upwards conveyed by a driving motor through a reversing speed reducer to drive a lifting driving chain, the ball is recycled to be transferred to the other side after reaching the top end of the frame body, the ball falls into the running water type discharge track through the top end of the frame body in a turnover manner, the running water type discharge track can be regulated to be high and low through a lifting screw rod, the running water type discharge track adopts a structure with a front high and a rear low, the ball is automatically rolled to a finished product warehouse for packaging, the space is saved, manpower and material resources are saved, and automatic transfer efficiency is also improved.

Description

Automatic transfer equipment for ball production

Technical field:

the utility model relates to the technical field of ball production transfer equipment, in particular to automatic ball production transfer equipment.

The background technology is as follows:

currently, the popularization of sports and the diversification of sports have led to the development of sports equipment types, specifications, etc. Many sports involve a variety of ball items, such as basketball, football, volleyball, etc., which are involved in the production, transportation, storage and use of balls. In ball product production, from the production completion offline of a spheroid, to packing shipment needs a transportation process, because spheroid itself shape is circular spheroid, roll down everywhere easily, former finished product offline all adopts big frame to catch, then uses fork truck to transport to next process and deposit or pack out of stock, not only extravagant time, and consume manpower and materials. Automated handling equipment has been proposed by those skilled in the art to solve the problems set forth in the background above.

The utility model comprises the following steps:

the utility model aims at overcoming the defects of the technology, and provides automatic transfer equipment for ball production, which has reasonable and scientific structural design, adopts an automatic lifting material receiving and running water type track transfer structure, and can randomly designate the position of a running water type material discharging track, thereby saving space, manpower and material resources, improving transfer efficiency and realizing automatic transfer.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an automatic transfer equipment of ball production, including the bottom base plate, the support body, the feeder hopper, the running water formula ejection of compact track, the support body is fixed on the bottom base plate, feeder hopper and running water formula ejection of compact track set up in the both sides of support body, still fixedly provided with driving motor and reversing speed reducer above the bottom base plate, the support body is both sides parallel arrangement, be provided with the main drive wheel on driving motor's the main shaft, one side of reversing speed reducer is provided with the reversing drive wheel, the other side is provided with the reversing output power wheel, the middle part of support body is provided with the middle part crossbeam, the activity is provided with the middle part transmission shaft between the middle part crossbeam of both sides, fixedly provided with middle part drive wheel and middle part lift power wheel on the middle part transmission shaft, the top of upper portion crossbeam is provided with the top transmission shaft movably, fixedly provided with the top drive wheel on the top transmission shaft, be provided with a plurality of hoist and mount lead screw on the running water formula ejection of compact track;

further, the main driving wheel and the reversing driving wheel are arranged in a coplanar mode, a transverse driving belt is arranged between the main driving wheel and the reversing driving wheel, a coplanar mode is arranged between the reversing output power wheel and the middle driving wheel, a longitudinal driving belt is arranged between the reversing output power wheel and the middle driving wheel, a coplanar mode is arranged between the middle lifting power wheel and the top driving wheel, a lifting driving chain is arranged between the middle lifting power wheel and the top driving wheel, and a plurality of round ball carrying frames which are arranged at equal intervals are arranged on the lifting driving chain.

Furthermore, the reversing driving wheels on the side surfaces of the reversing speed reducer and the reversing output power wheels are arranged in a staggered mode.

Furthermore, the feeding hopper is of a horn mouth structure, and the bottom of the horn mouth of the feeding hopper is correspondingly arranged with a round ball carrying frame on the lifting transmission chain; the running water type discharging track is of a U-shaped structure, the head of the running water type discharging track is arranged corresponding to the round ball carrying frame on the lifting transmission chain, and the head of the discharging track is the highest point of the whole track.

Further, the steering direction of the lifting transmission chain is unidirectional, the lifting transmission chain corresponding to the feeding hopper direction is upward rotation, and the lifting transmission chain corresponding to the running water type discharging track direction is downward rotation.

Further, the running water type discharging track is of a semicircular structure, and the diameter of the running water type discharging track is larger than that of the round ball carrying frame.

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

according to the automatic ball production transfer equipment, an automatic lifting receiving structure and a running water type track transfer structure are adopted, the running water type discharge track can be randomly assigned to a position, balls on a production lower line freely fall into a feeding hopper, the balls fall into round ball carrying frames corresponding to the lower end of the feeding hopper, power of a transmission motor is used for driving a lifting transmission chain through a reversing speed reducer, the lifting transmission chain drives the round ball carrying frames to convey the balls upwards, the balls reach the top end of a frame body and then are transferred to the other side, the balls fall into the running water type discharge track through the top end of the frame body in a turnover mode, the running water type discharge track can be adjusted to be high and low through a lifting screw rod, the running water type discharge track adopts a front high and rear low structure, the balls are automatically rolled to a back finished product warehouse for packaging, space and manpower and material resources are saved, transfer efficiency is improved, and automatic transfer is realized.

Description of the drawings:

fig. 1 is a schematic structural view of the present utility model.

The specific embodiment is as follows:

the following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1: the utility model relates to automatic transfer equipment for ball production, which comprises a bottom substrate 1, a frame body 2, a feed hopper 9 and a running water type discharging track 10, wherein the frame body 2 is fixed on the bottom substrate 1, the feed hopper 9 and the running water type discharging track 10 are arranged on two sides of the frame body 2, a transmission motor 3 and a reversing speed reducer 4 are fixedly arranged on the bottom substrate 1, the frame body 2 is arranged in parallel on two sides, a main transmission wheel 30 is arranged on a main shaft of the transmission motor 3, a reversing transmission wheel 40 is arranged on one side surface of the reversing speed reducer 4, a reversing output power wheel 41 is arranged on the other side surface of the reversing speed reducer 4, a middle cross beam 5 is arranged in the middle of the frame body 2, a middle transmission shaft 6 and a middle lifting power wheel 61 are movably arranged between the middle cross beams 5 on two sides, a top cross beam 7 is arranged on the top of the frame body 2, a top transmission shaft 8 is movably arranged on the upper part of the top cross beam 7, a top transmission wheel 80 is fixedly arranged on the top transmission shaft 8, and a plurality of lifting screw rods 110 are arranged on the running water type discharging track 10;

the main driving wheel 30 and the reversing driving wheel 40 are arranged in a coplanar mode, a transverse driving belt 31 is arranged between the main driving wheel 30 and the reversing driving wheel 40, a reversing output power wheel 41 and a middle driving wheel 60 are arranged in a coplanar mode, a longitudinal driving belt 42 is arranged between the reversing output power wheel 41 and the middle driving wheel 60, a middle lifting power wheel 61 and a top driving wheel 80 are arranged in a coplanar mode, a lifting driving chain 81 is arranged between the middle lifting power wheel 61 and the top driving wheel 80, and a plurality of round ball carrying frames 82 which are arranged at equal intervals are arranged on the lifting driving chain 81.

The reversing driving wheels 40 on the side surfaces of the reversing speed reducer 4 and the reversing output power wheels 41 are arranged in a 90-degree staggered mode.

The feeding hopper 9 is of a horn mouth structure with a large outside and a small inside, and the bottom of the horn mouth of the feeding hopper 9 is correspondingly arranged with a round ball carrying frame 82 on the lifting transmission chain 81; the running water type discharging track 10 is of a U-shaped structure, the head of the running water type discharging track 10 is correspondingly arranged with a round ball carrying frame 82 on a lifting transmission chain 81, and the head of the discharging track 10 is the highest point of the whole track.

The steering direction of the lifting transmission chain 81 is unidirectional, the lifting transmission chain 81 corresponding to the direction of the feed hopper 9 rotates upwards, and the lifting transmission chain 81 corresponding to the direction of the running water type discharging track 10 rotates downwards.

The running water type discharging track 10 is of a semicircular structure, the diameter of the running water type discharging track 10 is larger than that of the round ball carrying frame 82, and the running water type discharging track 10 adopts a structure with a high front part and a low rear part, so that balls automatically roll to a subsequent process.

The technical characteristics are as follows: according to the automatic ball production transfer equipment, an automatic lifting receiving structure and a running water type track transfer structure are adopted, the running water type discharge track 10 can be randomly assigned to positions, balls on a production lower line can freely fall into the feeding hopper 9, the balls fall into round ball carrying frames 82 corresponding to the lower end of the feeding hopper 9, the round ball carrying frames 82 are driven to be conveyed upwards by the lifting transmission chains 81 through the power of the transmission motor 3 through the reversing speed reducer 4, the balls are recycled and transferred to the other side after reaching the top end of the frame body 2, the balls fall into the running water type discharge track 10 after being overturned through the top end of the frame body, the running water type discharge track 10 can be adjusted to be high and low through the lifting screw rod 110, the running water type discharge track 10 adopts a structure with front high and back low, the balls can be automatically rolled into a finished product warehouse for packaging, space is saved, manpower and material resources are saved, and automatic transfer efficiency is also improved.

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

Claims (5)

1. Automatic transfer equipment of ball production, including bottom base plate (1), support body (2), feeder hopper (9), running water formula ejection of compact track (10), its characterized in that: the frame body (2) is fixed on a bottom substrate (1), the feed hopper (9) and the running water type discharging track (10) are arranged on two sides of the frame body (2), the transmission motor (3) and the reversing speed reducer (4) are fixedly arranged on the upper surface of the bottom substrate (1), the frame body (2) is arranged in parallel on two sides, the main shaft of the transmission motor (3) is provided with the main transmission wheel (30), one side surface of the reversing speed reducer (4) is provided with the reversing transmission wheel (40), the other side surface is provided with the reversing output power wheel (41), the middle part of the frame body (2) is provided with the middle cross beam (5), the middle transmission shaft (6) is movably arranged between the middle cross beams (5) on two sides, the middle transmission wheel (60) and the middle lifting power wheel (61) are fixedly arranged on the middle transmission shaft (6), the upper cross beam (7) is movably arranged on the top of the frame body (2), the top transmission shaft (8) is fixedly provided with the top transmission wheel (80), and the running water type discharging track (10) is provided with a plurality of hoisting screw rods (110);

the novel energy-saving reversing power wheel is characterized in that the main driving wheel (30) and the reversing driving wheel (40) are arranged in a coplanar mode, a transverse driving belt (31) is arranged between the main driving wheel (30) and the reversing driving wheel (40), a reversing output power wheel (41) and a middle driving wheel (60) are arranged in a coplanar mode, a longitudinal driving belt (42) is arranged between the reversing output power wheel (41) and the middle driving wheel (60), a middle lifting power wheel (61) and a top driving wheel (80) are arranged in a coplanar mode, a lifting driving chain (81) is arranged between the middle lifting power wheel (61) and the top driving wheel (80), and a plurality of round ball carrying frames (82) are arranged on the lifting driving chain (81) at equal intervals.

2. An automatic ball production transfer device according to claim 1, wherein: the reversing driving wheels (40) on the side surfaces of the reversing speed reducer (4) are arranged in a 90-degree staggered mode with the reversing output power wheels (41).

3. An automatic ball production transfer device according to claim 1, wherein: the feeding hopper (9) is of a horn mouth structure, and the bottom of the horn mouth of the feeding hopper (9) is correspondingly arranged with a round ball carrying frame (82) on the lifting transmission chain (81); the running water type discharging track (10) is of a U-shaped structure, the head of the running water type discharging track (10) is correspondingly arranged with a round ball carrying frame (82) on a lifting transmission chain (81), and the head of the discharging track (10) is the highest point of the whole track.

4. A ball production automatic transfer device according to claim 3, characterized in that: the steering direction of the lifting transmission chain (81) is unidirectional, the lifting transmission chain (81) corresponding to the direction of the feed hopper (9) rotates upwards, and the lifting transmission chain (81) corresponding to the direction of the running water type discharging track (10) rotates downwards.

5. An automatic ball production transfer device according to claim 1, wherein: the running water type discharging track (10) is of a semicircular structure, and the diameter of the running water type discharging track (10) is larger than that of the round ball carrying frame (82).