CN219731279U - A pushing mechanism for flexible freight bag automatic sewing - Google Patents

Abstract

The utility model provides a pushing mechanism for automatic sewing of flexible freight bags, which comprises an annular track, a carrier mechanism and a pushing mechanism, wherein the carrier mechanism comprises a plurality of carriers which are arranged on the annular track in a head-to-tail connection manner through connecting rods, the connecting rods are hinged on the carriers, the carriers are connected on the annular track in a sliding manner, the pushing mechanism comprises a mounting cabinet, a pushing oil cylinder arranged in the mounting cabinet and a pushing component which is in driving connection with the pushing oil cylinder, the pushing component can push the carriers to move on the annular track under the driving of the pushing oil cylinder, and all the carriers on the annular track can be driven to move along the annular track in a linkage manner, so that different stations can process flexible freight bags sequentially, different stations are assembled in one area, the continuity of a processing process is realized conveniently, the production efficiency is effectively improved, the labor investment can be reduced, and the management and control of the production process are facilitated.

Description

A pushing mechanism for flexible freight bag automatic sewing

Technical Field

The utility model relates to the technical field of automatic sewing equipment for flexible freight bags, in particular to a pushing mechanism for automatic sewing of flexible freight bags.

Background

The flexible transport packaging container is mainly used for transporting bulk powdery materials and has the characteristics of large volume, light weight, convenience in loading and unloading and the like. The manufacturing process of flexible freight bags contains a plurality of links, needs to be processed with flexible freight bags on the tight clamping tool that rises, and the tight clamping tool that rises can prop open the flexible freight bags, makes things convenient for the processing of the different links of flexible freight bags. At present, in order to transfer the flexible freight bag between different stations for processing, the flexible freight bag needs to be transferred through the staff, namely, the flexible freight bag is taken down from the tensioning clamping jig of one processing station and sleeved on the tensioning clamping jig of the next processing station, the operation process is complex, the labor is wasted, and the production efficiency is seriously affected.

Disclosure of Invention

The utility model aims to solve the problem of providing the pushing mechanism for automatically sewing the flexible freight bags, which can realize the automatic transfer of the flexible freight bags among different stations, reduce the manpower input and improve the production efficiency.

The pushing mechanism for automatic sewing of the flexible freight bags comprises an annular track, a carrier mechanism and a pushing mechanism, wherein the carrier mechanism comprises a plurality of carriers which are arranged on the annular track in a head-to-tail connection mode through connecting rods, the connecting rods are hinged to the carriers, the carriers are connected to the annular track in a sliding mode, the pushing mechanism comprises a mounting cabinet, a pushing oil cylinder arranged in the mounting cabinet and a pushing assembly in driving connection with the pushing oil cylinder, and the pushing assembly can push the carriers to move on the annular track under the driving of the pushing oil cylinder.

Preferably, the annular track comprises a lower layer track, the lower layer track comprises an annular base and an annular guide rail arranged at the top of the annular base, the carrier comprises a carrier main body, a plurality of sliding components arranged at the bottom of the carrier main body in parallel along the length direction of the carrier main body, the sliding components comprise a foot plate rotatably connected at the bottom of the carrier main body and a plurality of pulley blocks arranged in parallel along the length direction of the foot plate, the pulley blocks comprise two first rollers rotatably connected at the bottom of the foot plate along the width direction of the foot plate, the distance between the two first rollers of the same pulley block is in clearance fit with the width of the annular guide rail, and the annular guide rail is arranged between the two first rollers of the same pulley block.

Preferably, the carrier main body comprises a bearing top plate and two side plates oppositely arranged on the side surface of the bearing top plate, and a plurality of second rollers rotatably connected to the side plates are arranged outside the side plates in parallel; the annular track still contains upper track, and upper track contains track outer loop and the track inner loop that matches the setting, track outer loop, track inner loop fixed connection on annular base top, track outer loop, the inside wall of track inner loop all are provided with the spout that matches with the second gyro wheel, and the second gyro wheel activity sets up on the spout.

Preferably, the carrier main body further comprises a plurality of rib plates fixedly connected to the bottom of the bearing top plate, and the end parts of the rib plates extend to the inner side surfaces of the side plates.

Preferably, the pushing assembly comprises a base plate fixedly connected to an output shaft of the pushing oil cylinder, a fixed arm fixedly connected to the base plate, a movable pushing arm hinged to one end of the fixed arm, and a tension spring, wherein one side of the fixed arm is fixedly connected with a pulling arm, and the tension spring is connected between one end of the pulling arm and the tail end of the movable pushing arm.

Preferably, one end of the fixed arm is provided with a movable through groove matched with the movable pushing arm, the movable pushing arm is hinged on the movable through groove, and one end of the movable through groove is provided with a limiting plate.

Preferably, the pushing assembly further comprises a plurality of guide rods, through holes are formed in the two side walls of the installation cabinet in a penetrating mode, the guide rods are connected with the through holes through bearings, and one ends of the guide rods are fixedly connected to the base plate.

The beneficial effects of the utility model are as follows: the utility model provides a pushing mechanism for automatic sewing of flexible freight bags, which can enable different processing stations of the flexible freight bags to be arranged around the outer side of an annular track, and is provided with tensioning clamping jigs of the flexible freight bags on different carriers according to the number of stations, so that the flexible freight bags can be sleeved on the tensioning clamping jigs.

Drawings

Fig. 1 illustrates an outline structure of the present utility model.

Fig. 2 illustrates a top view of the present utility model.

Fig. 3 illustrates a schematic external structure of the carrier of the present utility model.

Fig. 4 illustrates a partially enlarged structural view of the portion a in fig. 1 according to the present utility model.

Reference numerals illustrate: the annular rail 10, the lower rail 11, the annular base 110, the annular guide rail 111, the upper rail 12, the rail outer ring 120, the rail inner ring 121, the sliding groove 122, the pushing mechanism 20, the installation cabinet 21, the pushing cylinder 22, the pushing assembly 23, the backing plate 230, the fixed arm 231, the movable pushing arm 232, the tension spring 233, the movable through groove 234, the limiting plate 235, the guide rod 236, the pull arm 237, the connecting rod 30, the carrier 31, the carrier body 32, the carrier top plate 320, the side plate 321, the second roller 322, the rib plate 323, the sliding assembly 33, the foot plate 330, the pulley block 331 and the first roller 332.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure.

All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are intended to be within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Reference is made to fig. 1-4.

The utility model provides a pushing mechanism for automatic sewing of flexible freight bags, which comprises an annular track 10, a carrier mechanism and a pushing mechanism 20, wherein the carrier mechanism comprises a plurality of carriers 31 which are arranged on the annular track 10 in a head-to-tail connection manner through connecting rods 30, the connecting rods 30 are hinged on the carriers 31, the carriers 31 are connected on the annular track 10 in a sliding manner, the pushing mechanism 20 comprises a mounting cabinet 21, a pushing oil cylinder 22 arranged in the mounting cabinet 21 and a pushing assembly 23 in driving connection with the pushing oil cylinder 22, and the pushing assembly 23 can push the carriers 31 to move on the annular track 10 under the driving of the pushing oil cylinder 22.

The working principle of the flexible freight bag processing device is that different processing stations of the flexible freight bag can be arranged around the outer side of the annular track 10, and the tensioning clamping tools of the flexible freight bag are arranged on different carriers 31 according to the number of the stations, so that the flexible freight bag can be sleeved on the tensioning clamping tools, in the processing process of the flexible freight bag, the pushing component 23 is driven to move forward through the pushing oil cylinder 22 so as to apply pushing force to the carriers 31 positioned on the front side of the pushing component 23, namely all the carriers on the annular track 10 can be driven to move forward along the annular track 10 in a linkage manner, so that the flexible freight bag can be processed by different stations in sequence, different stations are assembled in one area, the continuous processing process is conveniently realized, the production efficiency is effectively improved, the manpower investment is reduced, and the management and control of the production process are facilitated.

Based on the above embodiment, the annular track 10 includes a lower track 11, the lower track 11 includes an annular base 110, an annular guide rail 111 disposed at the top of the annular base 110, the carrier 31 includes a carrier body 32, a plurality of sliding assemblies 33 disposed at the bottom of the carrier body 32 in parallel along the length direction of the carrier body 32, the sliding assemblies 33 include a foot plate 330 rotatably connected at the bottom of the carrier body 32, a plurality of pulley blocks 331 disposed in parallel along the length direction of the foot plate 330, the pulley blocks 331 include two first rollers 332 rotatably connected at the bottom of the foot plate 330 along the width direction of the foot plate 330, the distance between the two first rollers 332 of the same pulley block 331 is in clearance fit with the width of the annular guide rail 111, and the annular guide rail 111 is disposed between the two first rollers 332 of the same pulley block 331. Specifically, when the carrier 31 moves on the endless track 10, the first roller 332 may move along the endless track 111, and the foot plate 330 may freely turn according to the shape of the endless track 111, so as to ensure that the carrier 31 may move smoothly and stably along the endless track 10.

Based on the above embodiment, the carrier body 32 includes a top plate 320, two side plates 321 disposed opposite to the side surface of the top plate 320, and a plurality of second rollers 322 rotatably connected to the side plates 321 are disposed outside the side plates 321 in parallel; the annular track 10 further comprises an upper layer track 12, the upper layer track 12 comprises a track outer ring 120 and a track inner ring 121 which are arranged in a matched mode, the track outer ring 120 and the track inner ring 121 are fixedly connected to the top of the annular base 110, sliding grooves 122 matched with second rolling wheels 322 are formed in the inner side walls of the track outer ring 120 and the track inner ring 121, and the second rolling wheels 322 are movably arranged on the sliding grooves 122. Specifically, when the carrier 31 is assembled to the annular rail 10, the carrier 31 is first placed on the lower rail 11 so that the annular guide rail 111 is clamped between the two first rollers 332 of the same pulley block 331, and then the outer rail ring 120 and the inner rail ring 121 are mounted on the annular base 110 so that the second rollers 322 on the plates 321 on both sides of the carrier 31 are assembled to the sliding grooves 122 of the outer rail ring 120 and the inner rail ring 121, thereby preventing the carrier 31 from falling off from the annular rail 10 and improving the moving stability of the carrier 31 on the annular rail 10.

Based on the above embodiment, the carrier main body 32 further includes a plurality of rib plates 323 fixedly connected to the bottom of the top bearing plate 320, and the end portions of the rib plates 323 extend to the inner side surfaces of the side plates 321, so that the structural strength of the carrier main body 32 can be enhanced, and the carrier main body has better bearing capacity.

Based on the above embodiment, the pushing assembly 23 includes a backing plate 230 fixedly connected to an output shaft of the pushing cylinder 22, a fixed arm 231 fixedly connected to the backing plate 230, a movable pushing arm 232 hinged to one end of the fixed arm 231, and a tension spring 233, wherein a pulling arm 237 is fixedly connected to one side of the fixed arm 231, and the tension spring 233 is connected between one end of the pulling arm 237 and the tail end of the movable pushing arm 232. Specifically, when the cushion plate 230 is driven to move forward by the pushing cylinder 22, the movable pushing arm 232 can be driven to abut against the carrier 31 currently located at the front side of the pushing assembly 23, so that a forward moving pushing force is applied to the carrier 31, after the movable pushing arm 232 is stressed, the tension spring 233 is stretched, the movable pushing arm 232 swings backwards by a certain amplitude adaptively according to the stressed size, a buffering effect can be achieved, and when the carrier 31 is separated from the movable pushing arm 232, the movable pushing arm 232 can be reset under the elastic force of the tension spring 233.

Based on the above embodiment, one end of the fixed arm 231 is provided with a movable through slot 234 matched with the movable push arm 232, the movable push arm 232 is hinged on the movable through slot 234, and one end of the movable through slot 234 is provided with a limiting plate 235. When the movable push arm 232 is abutted on the carrier 31, the movable push arm 232 is stressed and swings towards one side of the limiting plate 235 on the movable through groove 234, the limiting plate 235 can limit the swing amplitude of the movable push arm 232, so that the movable push arm 232 can be contacted with the carrier 31 and push the carrier 31 to move, and the damage of the pushing assembly 23 is avoided.

Based on the above embodiment, the pushing assembly 23 further includes a plurality of guide rods 236, through holes are formed on two sidewalls of the installation cabinet 21, the guide rods 236 are connected with the through holes through bearings, and one ends of the guide rods 236 are fixedly connected to the backing plates 230. When the pushing cylinder 22 drives the backing plate 230 to move back and forth, the guide rod 236 will move along the through hole, so as to improve the movement stability of the backing plate 230, ensure that the movable pushing arm 232 stably applies a pushing force to the carrier 31, and improve the service life of the pushing mechanism 20.

The above embodiments are merely illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the scope of protection defined by the claims of the present utility model without departing from the spirit of the design of the present utility model.

Claims (7)

1. The utility model provides a pushing mechanism for automatic sewing of flexible freight bag, its characterized in that contains annular track, carrier mechanism, pushing mechanism, carrier mechanism contain a plurality of through connecting rod end to end set up in carrier on the annular track, the connecting rod articulates on the carrier, carrier sliding connection is in on the annular track, pushing mechanism contain the installing cabinet, set up in push cylinder in the installing cabinet, with the promotion subassembly that push cylinder drive is connected, the promotion subassembly can promote under push cylinder's drive the carrier is in move on the annular track.

2. The pushing mechanism for automatic sewing of flexible freight bags according to claim 1, wherein the annular track comprises a lower track, the lower track comprises an annular base and an annular guide rail arranged at the top of the annular base, the carrier comprises a carrier body and a plurality of sliding components arranged at the bottom of the carrier body in parallel along the length direction of the carrier body, the sliding components comprise a foot plate rotatably connected at the bottom of the carrier body and a plurality of pulley blocks arranged in parallel along the length direction of the foot plate, the pulley blocks comprise two first rollers rotatably connected at the bottom of the foot plate along the width direction of the foot plate, the distance between the two first rollers of the same pulley block is in clearance fit with the width of the annular guide rail, and the annular guide rail is arranged between the two first rollers of the same pulley block.

3. The pushing mechanism for automatic sewing of flexible freight bags according to claim 2, wherein the carrier main body comprises a bearing top plate and two side plates oppositely arranged on the side surface of the bearing top plate, and a plurality of second rollers rotatably connected to the side plates are arranged outside the side plates in parallel; the annular track still contains upper track, upper track contains track outer loop and the track inner ring that matches the setting, track outer loop, track inner ring fixed connection are in on the annular base top, track outer loop, track inner ring's inside wall all be provided with the spout that the second gyro wheel matches, the second gyro wheel activity set up in on the spout.

4. A pushing mechanism for automated sewing of flexible freight bags according to claim 3, wherein the carrier body further comprises a plurality of gusset panels fixedly attached to the bottom of the carrier top panel, the gusset panel ends extending to the inner side of the side panels.

5. A pushing mechanism for automatic sewing of flexible freight bags according to any one of claims 1 to 3, wherein the pushing assembly comprises a base plate fixedly connected to an output shaft of the pushing cylinder, a fixed arm fixedly connected to the base plate, a movable pushing arm hinged to one end of the fixed arm, and a tension spring, wherein one side of the fixed arm is fixedly connected with a pulling arm, and the tension spring is connected between one end of the pulling arm and the tail end of the movable pushing arm.

6. The pushing mechanism for automatic sewing of flexible freight bags according to claim 5, wherein one end of the fixed arm is provided with a movable through groove matched with the movable pushing arm, the movable pushing arm is hinged on the movable through groove, and one end of the movable through groove is provided with a limiting plate.

7. The pushing mechanism for automatic sewing of flexible freight bags according to claim 6, wherein the pushing assembly further comprises a plurality of guide rods, through holes are formed in two side walls of the installation cabinet in a penetrating mode, the guide rods are connected with the through holes through bearings, and one ends of the guide rods are fixedly connected to the base plate.