CN118047189B - Transmission equipment for multi-station clothing processing - Google Patents

Abstract

The invention belongs to the technical field of clothing processing, and particularly relates to a multi-station transmission device for clothing processing, which comprises a main rail, wherein the main rail is provided with a first guide sliding rail, a roller is arranged on the first guide sliding rail in a sliding manner, a connecting rod is fixed on the side surface of the roller, a clamp is arranged at the bottom of the connecting rod, a sliding seat is arranged in the main rail in a sliding manner, and a push rod is arranged in the sliding seat; the side part of the main rail is provided with a plurality of sub rails matched with the rollers, the sub rails are spirally arranged, the front end of each sub rail is movably connected with a first arc-shaped connecting rail positioned on the upper side of each first guide rail, each first arc-shaped connecting rail is provided with a cylinder, the rear end of each sub rail is connected with a feeding guide rail, the upper end of each feeding guide rail is movably connected with a second arc-shaped connecting rail positioned on the upper side of each first guide rail, and each feeding guide rail is provided with a feeding mechanism capable of driving the corresponding roller to slide up and down; the invention can realize the rapid conveying and connection of the working procedures in the clothing production, greatly improves the production efficiency and has high degree of automation.

Description

Transmission equipment for multi-station clothing processing

Technical Field

The invention belongs to the technical field of clothing processing, and particularly relates to transmission equipment for multi-station clothing processing.

Background

The clothing processing is a clothing production method mainly based on modern machine processing and assisted by manual processing, and is divided into the following parts from the fabric: woven fabric processing and knitted fabric processing, wherein the knitted fabric is a fabric formed by bending yarns into loops by knitting needles and mutually stringing the yarns. The clothing processing mainly comprises the following steps: checking the flour auxiliary materials in factories, preparing the technology, cutting, sewing, button sewing, ironing, checking ready-made clothes, packaging, and warehousing or delivering; each process all needs the manual handling in the linking process, for example, the cuff that is sewed up needs to be carried to the sleeve processing station, for example, the whole clothes need to be carried to the whole ironing station after being sewed up, and a large amount of manpower is needed to carry between each station, so that the production efficiency is greatly influenced. At present, a small number of advanced clothing factories adopt a conveying belt conveying or trolley automatic conveying mode, and although the degree of automation is improved, the efficiency is too low, and the connection of each station is poor.

Disclosure of Invention

The purpose of the invention is that: aims to provide a multi-station transmission device for clothing processing, which is used for solving the problems in the background technology.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

The multi-station transmission equipment for clothing processing comprises a main rail, wherein a first guide sliding rail is arranged on the lower side of the main rail, a roller is slidingly arranged on the upper side of the first guide sliding rail, a connecting rod is fixed on the side face of the roller, a clamp is arranged at the bottom of the connecting rod, a plurality of sliding seats are slidingly arranged in the main rail, a driving part capable of driving the sliding seats to slide is arranged in the main rail, and a push rod for pushing the roller to move is fixedly arranged on the front side of the sliding seats;

the side part of the main rail is provided with a plurality of sub-rails matched with the rollers, the sub-rails are in spiral arrangement, the front end of each sub-rail is movably connected with a first arc connecting rail positioned on the upper side of a first guide sliding rail, the first arc connecting rail is provided with a cylinder, the rear end of each sub-rail is connected with a feeding guide rail, the upper end of each feeding guide rail is movably connected with a second arc connecting rail positioned on the upper side of the corresponding first guide sliding rail, and the feeding guide rail is provided with a feeding mechanism capable of driving the rollers to slide up and down.

The feeding mechanism comprises an annular shell, the inclination direction of the annular shell is the same as that of the feeding guide rail, a slot is formed in one side of the annular shell, two sprockets which are distributed up and down are arranged in the annular shell, an accessory chain is arranged between the two sprockets, a driving assembly is arranged on the upper side of the sprocket, and two stirring pieces which are symmetrically distributed are arranged on the accessory chain.

The toggle piece comprises a sleeve connected with the accessory chain, a toggle rod is arranged in the sleeve in a sliding mode, a first spring is arranged between the toggle rod and the sleeve, the end portion of the toggle rod is abutted to the inner wall of the annular shell, and a guide plate matched with the toggle rod is fixed at the upper end of the groove.

The main rail is connected with a mounting shell, the air cylinder is mounted on the lower side of the mounting shell, and an output shaft of the air cylinder is connected with the first arc-shaped connecting rail.

The drive assembly is in including rotating worm in the installation shell, the worm with the upside sprocket drive is connected, installation shell upper wall rotate be equipped with worm meshing's turbine, the turbine downside is fixed with the pivot, one-way bearing is installed to installation shell diapire, the pivot is fixed with one-way bearing's inner circle, one-way bearing's outer lane is fixed with the ring gear, installation shell diapire rotates and is equipped with the first gear of ring gear meshing, installation shell slip be equipped with first gear meshing's first rack, first rack with be equipped with the second spring between the installation shell lateral wall, first rack with be equipped with the connecting piece between the push rod.

The connecting piece includes the sliding chamber of seting up at first rack middle part, sliding chamber is equipped with the slide in the sliding chamber, the slide with be equipped with the third spring between the sliding chamber lateral wall, the slide is fixed with the iron plate, the push rod be equipped with iron plate assorted magnetic path.

The sliding seat is provided with a first oil cavity, a push block is arranged in the first oil cavity in a sealing sliding manner, a fourth spring is arranged between the rear side of the push block and the inner wall of the first oil cavity, the front end of the push block slides out of the first oil cavity, an inclined surface is machined at the front end of the push block, a second oil cavity is arranged in the push rod, a piston rod is arranged in the second oil cavity in a sliding manner, the first oil cavity is communicated with the second oil cavity through an oil way, a mounting groove is arranged in the push rod, a second gear is assembled in the mounting groove in a rotating manner, the magnetic block is fixed on the front side of the second gear, a second rack meshed with the second gear is assembled in the mounting groove in a sliding manner, and the piston rod is connected with the second rack.

The invention can realize the rapid conveying and connection of the working procedures in the clothing production, greatly improves the production efficiency and has high degree of automation.

When one empty push rod moves to the sub-track, the invention can automatically drive the roller to move upwards to the main track, and automatically feed the clothing processed by the station, without additional power parts, and has reasonable structural design.

Drawings

The invention may be further illustrated by means of non-limiting examples given in the accompanying drawings.

FIG. 1 is a schematic view of a transmission device for multi-station clothing processing according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a transmission device for multi-station clothing processing according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure shown at A in FIG. 2;

FIG. 4 is a schematic view showing a partial cross-sectional structure of an embodiment of a transmission apparatus for multi-station garment processing according to the present invention;

FIG. 5 is an enlarged schematic view of the structure at B in FIG. 4;

FIG. 6 is a schematic view of a slider and a push rod according to the present invention;

FIG. 7 is a schematic cross-sectional view of a slider and a plunger according to the present invention;

Fig. 8 is a schematic cross-sectional view of a slider and a push rod according to the present invention.

The main reference numerals are as follows:

The main rail 1, the first guide rail 11, the roller 12, the connecting rod 121, the clamp 122, the slide 13, the push rod 14, the sub rail 2, the sub rail 21, the first arc-shaped connecting rail 22, the cylinder 23, the feeding guide rail 24, the second arc-shaped connecting rail 25, the annular housing 3, the sprocket 31, the accessory chain 32, the sleeve 33, the toggle lever 34, the first spring 341, the guide plate 35, the mounting housing 4, the worm 41, the worm wheel 42, the one-way bearing 43, the ring gear 44, the first gear 45, the first rack 46, the second spring 47, the sliding cavity 461, the sliding plate 462, the third spring 463, the iron block 464, the magnetic block 5, the first oil chamber 51, the push block 52, the fourth spring 53, the second oil chamber 54, the piston rod 55, the mounting groove 56, the second gear 57, and the second rack 58.

Detailed Description

In order that those skilled in the art will better understand the present invention, the following technical scheme of the present invention will be further described with reference to the accompanying drawings and examples.

As shown in fig. 1-8, the transmission equipment for multi-station clothing processing of the invention comprises a main rail 1, wherein a first guide slide rail 11 is arranged on the lower side of the main rail 1, a roller 12 is arranged on the upper side of the first guide slide rail 11 in a sliding way, a connecting rod 121 is fixed on the side surface of the roller 12, a clamp 122 is arranged at the bottom of the connecting rod 121, a plurality of sliding seats 13 are arranged in the main rail 1 in a sliding way, a driving part capable of driving the sliding seats 13 to slide is arranged in the main rail 1, and a push rod 14 for pushing the roller 12 to move is fixed on the front side of the sliding seats 13;

The lateral part of the main track 1 is provided with a plurality of sub-tracks 2 matched with the idler wheels 12, the sub-tracks 2 are spirally arranged, the front end of each sub-track 2 is movably connected with a first arc-shaped connecting track 22 positioned on the upper side of a first guide slide rail 11, the first arc-shaped connecting track 22 is provided with a cylinder 23, the rear end of each sub-track 2 is connected with a feeding guide track 24, the upper end of each feeding guide track 24 is movably connected with a second arc-shaped connecting track 25 positioned on the upper side of the first guide slide rail 11, and the feeding guide track 24 is provided with a feeding mechanism capable of driving the idler wheels 12 to slide up and down.

The main rail 1 is internally provided with a driving part capable of driving a plurality of sliding seats 13 to slide, and the driving part is a technical means conventional in the technical field, such as chain transmission, and is not described herein;

clamping the clothing to be processed by the clamp 122, and pushing the roller 12 to slide along the first guide slide rail 11 by the sliding seat 13 of the main rail 1 through the push rod 14 to convey the clothing;

The first arc-shaped connecting rail 22 is movably connected with the sub-rail 21, and the second arc-shaped connecting rail 25 is movably connected with the feeding guide rail 24, namely, the joint of the first arc-shaped connecting rail and the feeding guide rail can be moved; the cylinder 23 drives the first arc-shaped connecting rail 22 to move, so that the first arc-shaped connecting rail 22 can be separated from or contacted with the first guide slide rail 11, and the second arc-shaped connecting rail 25 is positioned above the first guide slide rail 11 in the initial state, so that the movement of the roller 12 is not influenced;

When the clothing is conveyed onto the sub-rail 2, the end part of the first arc-shaped connecting rail 22 is pushed by the air cylinder 23 to be attached to the upper side of the first guide sliding rail 11, so that when the push rod 14 pushes the roller 12 to move to the first arc-shaped connecting rail 22, the roller 12 enters the first arc-shaped connecting rail 22, the first arc-shaped connecting rail 22 is obliquely arranged downwards, at the moment, the roller 12 automatically slides downwards through the weight of the clamp 122 and the clothing, so that the clothing enters the spiral sub-rail 2 for temporary storage, a processing station is arranged at the sub-rail 2, and a worker can take down the clothing on the clamp 122 for processing; after the station processing is finished, the clothing is only required to be fixed on the clamp 122 again, then the feeding mechanism is started to move the roller 12 upwards along the feeding guide rail 24 until the roller 12 moves to the second arc-shaped connecting rail 25, the whole weight of the roller 12 enables the second arc-shaped connecting rail 25 to move downwards, the end part of the second arc-shaped connecting rail 25 is attached to the first guide slide rail 11, so that the roller 12 slides onto the first guide slide rail 11 along the second arc-shaped connecting rail 25, and after a new push rod 14 moves, the roller 12 is pushed to the next station, so that the clothing can be conveyed to any sub-rail 2, the clothing cannot fall to the ground in the process from a cutting piece to a ready-made clothing, no additional equipment is required to carry, the rapid conveying and connection between the working procedures in clothing production can be realized, the production efficiency is greatly improved, and the degree of automation is high.

The main rail 1 is connected with a mounting shell 4, an air cylinder 23 is mounted on the lower side of the mounting shell 4, and an output shaft of the air cylinder 23 is connected with a first arc-shaped connecting rail 22; the cylinder 23 can drive the first arc-shaped connecting rail 22 to rotate along the sub-rail 21, and when the clothing is required to be transported to the sub-rail 2, only the end part of the first arc-shaped connecting rail 22 is required to be attached to the first guide rail 11.

The feeding mechanism comprises an annular shell 3, the inclination direction of the annular shell 3 is the same as that of a feeding guide rail 24, a slot is formed in one side, facing the feeding guide rail 24, of the annular shell 3, two chain wheels 31 which are distributed up and down are installed in the annular shell 3, an accessory chain 32 is installed between the two chain wheels 31, a driving assembly is arranged on the upper side chain wheel 31, and two symmetrically distributed poking pieces are installed on the accessory chain 32;

The toggle piece comprises a sleeve 33 connected with the accessory chain 32, a toggle rod 34 is arranged in the sleeve 33 in a sliding manner, a first spring 341 is arranged between the toggle rod 34 and the sleeve 33, the end part of the toggle rod 34 is abutted against the inner wall of the annular shell 3, and a guide plate 35 matched with the toggle rod 34 is fixed at the upper end of the slot;

The driving assembly comprises a worm 41 rotating in a mounting shell 4, the worm 41 is in transmission connection with an upper side chain wheel 31, a turbine 42 meshed with the worm 41 is rotatably arranged on the upper wall of the mounting shell 4, a rotating shaft is fixed on the lower side of the turbine 42, a one-way bearing 43 is arranged on the bottom wall of the mounting shell 4, the rotating shaft is fixed with the inner ring of the one-way bearing 43, a gear ring 44 is fixed on the outer ring of the one-way bearing 43, a first gear 45 meshed with the gear ring 44 is rotatably arranged on the bottom wall of the mounting shell 4, a first rack 46 meshed with the first gear 45 is slidably arranged on the mounting shell 4, a second spring 47 is arranged between the first rack 46 and the side wall of the mounting shell 4, and a connecting piece is arranged between the first rack 46 and the push rod 14;

The connecting piece comprises a sliding cavity 461 arranged in the middle of the first rack 46, a sliding plate 462 is arranged in the sliding cavity 461 in a sliding way, a third spring 463 is arranged between the sliding plate 462 and the side wall of the sliding cavity 461, an iron block 464 is fixed on the sliding plate 462, and a magnetic block 5 matched with the iron block 464 is arranged on the push rod 14;

The sliding seat 13 is provided with a first oil cavity 51, a push block 52 is arranged in the first oil cavity 51 in a sealing sliding manner, a fourth spring 53 is arranged between the rear side of the push block 52 and the inner wall of the first oil cavity 51, the front end of the push block 52 slides out of the first oil cavity 51, the front end of the push block 52 is provided with an inclined surface, the push rod 14 is provided with a second oil cavity 54, a piston rod 55 is arranged in the second oil cavity 54 in a sliding manner, the first oil cavity 51 is communicated with the second oil cavity 54 through an oil way, the push rod 14 is provided with a mounting groove 56, a second gear 57 is rotationally assembled in the mounting groove 56, the magnetic block 5 is fixed on the front side of the second gear 57, a second rack 58 meshed with the second gear 57 is slidingly assembled in the mounting groove 56, and the piston rod 55 is connected with the second rack 58;

In the initial state, the push block 52 on the slide 13 extends out of the first oil cavity 51 through the elastic force of the fourth spring 53, and the magnetic block 5 fixed by the second gear 57 faces to the front side;

when the push rod 14 pushes the roller 12 to move, the rear side of the roller 12 is abutted against the push block 52 at this time, the push block 52 is pushed to move backwards, so that hydraulic oil in the first oil cavity 51 is pushed into the second oil cavity 54, and the second rack 58 is pushed to move forwards through the piston rod 55, so that the second gear 47 is rotated, and the magnetic block 5 faces to the lower side at this time;

a blocking plate can be arranged at the lower end of the sub-rail 2, unprocessed clothes are positioned at the sub-rail 2, and the roller 12 is blocked by the blocking plate to treat the inside of the sub-rail 2; after the processed clothing is clamped on the clamp 122 again, the blocking plate can be opened to enable the roller 12 to roll to the lower end of the upper material guide rail 24, and the opening and closing of the blocking plate can be controlled by the electric control part;

After the roller 12 is positioned at the lower end of the feeding guide rail 24, when the push rod 14 for pushing the roller 12 moves between the first arc-shaped connecting rail 22 and the second arc-shaped connecting rail 25 in the main rail 1, the magnetic block 5 faces downwards at this time, and the magnetic block 5 cannot be adsorbed by the iron block 464 in the sliding cavity 461, so that the first rack 46 cannot be driven to move, namely, the roller 12 positioned at the lower end of the feeding guide rail 24 cannot be conveyed;

When the empty push rod 14 which does not push the roller 12 moves between the first arc-shaped connecting rail 22 and the second arc-shaped connecting rail 25 in the main rail 1, when the magnetic block 5at the front end part of the push rod 14 moves to the iron block 464, the iron block 464 is driven to move backwards and be adsorbed by the iron block 464, so the push rod 14 drives the first rack 46 to move synchronously, the first rack 46 drives the upper side chain wheel 31 to rotate through the transmission of the first gear 45, the gear ring 44, the one-way bearing 43, the rotating shaft, the turbine 42 and the worm 41, namely the accessory chain 32 drives the toggle rod 34 to move, when the toggle rod 34 rotates to the slot at the lower end of the annular shell 3, the toggle rod 34 can be pushed to extend downwards by the elasticity of the first spring 341 to contact the roller 12, and the toggle rod 34 can drive the roller 12 to move upwards along the feeding guide rail 24 until the roller 12 moves to the second arc-shaped connecting rail 23 and slides downwards to enter the first guide rail 11, and the toggle rod 34 abuts against the guide plate 35 fixed at the upper end of the slot to push the toggle rod 34 to retract the inside the sleeve 33 again;

After the first rack 46 slides to enable the second spring 47 to be compressed to the limit, the first rack 46 can not move along with the push rod 14 any more, the magnetic block 5 is separated from the iron block 464 to be adsorbed, the first rack 46 is reset by the elastic force of the second spring 47, the first rack 46 can drive the first gear 45 to reversely rotate when being reset, the first gear 45 drives the gear ring 44 to reversely rotate, and at the moment, the gear ring 44 can not drive the inner ring of the unidirectional rotating shaft 43 to synchronously rotate when reversely rotating through the arrangement of the unidirectional bearing 43, so that power can not be transmitted to the chain wheel 31;

by means of the design, when an empty push rod moves to the position of the sub-track 2, the roller 12 can be automatically driven to move upwards to the main track 1, automatic feeding is performed on the clothes processed at the station, additional power components are not needed, and the structure design is reasonable.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims of this invention, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the invention disclosed herein.

Claims (1)

1. The utility model provides a transmission equipment for multistation clothing processing, includes the main track, first direction slide rail is installed to main track downside, first direction slide rail upside side sliding is equipped with the gyro wheel, the gyro wheel side is fixed with the connecting rod, anchor clamps are installed to the connecting rod bottom, slidable mounting has a plurality of slides in the main track, be equipped with a plurality of in the main track can drive the gliding drive part of slide, a plurality of the slide front side is fixed with the push rod that is used for promoting the gyro wheel and removes, its characterized in that:

The side part of the main rail is provided with a plurality of sub rails matched with the rollers, the sub rails are spirally arranged, the left end of each sub rail is movably connected with a first arc-shaped connecting rail positioned on the upper side of a first guide sliding rail, the first arc-shaped connecting rail is provided with a cylinder, the rear end of each sub rail is connected with a feeding guide rail, the upper end of each feeding guide rail is movably connected with a second arc-shaped connecting rail positioned on the upper side of the corresponding first guide sliding rail, and each feeding guide rail is provided with a feeding mechanism capable of driving the corresponding roller to slide up and down;

The feeding mechanism comprises an annular shell, the inclination direction of the annular shell is the same as that of the feeding guide rail, a slot is formed in one side, facing the feeding guide rail, of the annular shell, two sprockets which are distributed up and down are installed in the annular shell, an accessory chain is installed between the two sprockets, a driving assembly is arranged on the upper side of the sprocket, and two symmetrically-distributed poking pieces are installed on the accessory chain;

the toggle piece comprises a sleeve connected with the accessory chain, a toggle rod is arranged in the sleeve in a sliding mode, a first spring is arranged between the toggle rod and the sleeve, the end part of the toggle rod is abutted to the inner wall of the annular shell, and a guide plate matched with the toggle rod is fixed at the upper end of the slot;

The main rail is connected with a mounting shell, the air cylinder is mounted on the lower side of the mounting shell, and an output shaft of the air cylinder is connected with the first arc-shaped connecting rail;

The driving assembly comprises a worm which rotates in the installation shell, the worm is in transmission connection with the sprocket on the upper side, a turbine meshed with the worm is rotatably arranged on the upper wall of the installation shell, a rotating shaft is fixed on the lower side of the turbine, a one-way bearing is arranged on the bottom wall of the installation shell, the rotating shaft is fixed with the inner ring of the one-way bearing, a gear ring is arranged on the outer ring of the one-way bearing, a first gear meshed with the gear ring is rotatably arranged on the bottom wall of the installation shell, a first rack meshed with the first gear is slidably arranged on the installation shell, a second spring is arranged between the first rack and the side wall of the installation shell, and a connecting piece is arranged between the first rack and the push rod;

The connecting piece comprises a sliding cavity formed in the middle of the first rack, a sliding plate is arranged in the sliding cavity in a sliding mode, a third spring is arranged between the sliding plate and the side wall of the sliding cavity, an iron block is fixed on the sliding plate, and a magnetic block matched with the iron block is arranged on the push rod;

The sliding seat is provided with a first oil cavity, a push block is arranged in the first oil cavity in a sealing sliding manner, a fourth spring is arranged between the rear side of the push block and the inner wall of the first oil cavity, the front end of the push block slides out of the first oil cavity, an inclined surface is machined at the front end of the push block, a second oil cavity is arranged in the push rod, a piston rod is arranged in the second oil cavity in a sliding manner, the first oil cavity is communicated with the second oil cavity through an oil way, a mounting groove is arranged in the push rod, a second gear is assembled in the mounting groove in a rotating manner, the magnetic block is fixed on the front side of the second gear, a second rack meshed with the second gear is assembled in the mounting groove in a sliding manner, and the piston rod is connected with the second rack.