CN216154094U - Full-automatic bundling machine - Google Patents

Abstract

A full-automatic bundling machine comprises a bundling machine which is used for bundling materials (7) on a working platform of the bundling machine by rotating the materials (7) around a rotating center (15) by a rope guide shaft (16) to set turns; the automatic bundling machine further comprises an automatic feeding mechanism for automatically conveying materials to be bundled to the working platform and an automatic discharging mechanism for automatically conveying away the bundled materials of the working platform. The automatic feeding mechanism and the automatic discharging mechanism are adopted on the basis of the semi-automatic bundling machine, so that the full-automatic bundling machine is formed, and the efficiency is improved.

Description

Full-automatic bundling machine

Technical Field

The utility model relates to a full-automatic bundling machine.

Background

At present, the bundling machine is widely applied in the processing and binding industry after printing books and periodicals. However, the bundling machine in the market is mainly a semi-automatic bundling machine, materials needing bundling are required manually during feeding, such as a stack of books or a carton box needing bundling, the work platform of the semi-automatic bundling machine is moved, then the rope guide shaft for the semi-automatic bundling machine rotates around the rotation center to set the number of turns, the purpose of winding the materials is achieved, the rope is cut off, and after bundling is completed, the bundled materials are required to be taken away from the work platform of the semi-automatic bundling machine manually. Such semi-automatic bundling machine need artifical transport material loading and ejection of compact when beating a bundle, both extravagant manpower, and efficiency is low again.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects that the prior bundling machine on the market is mainly a semi-automatic bundling machine, needs manual carrying, feeding and discharging, wastes manpower, and has low efficiency, the utility model uses the semi-automatic bundling machine as the center and is assisted by a feeding and discharging machine to form a full-automatic bundling machine.

The technical scheme adopted by the utility model for realizing the technical purpose is as follows: a full-automatic bundling machine comprises a bundling machine which can bundle materials by rotating the materials on a working platform of the bundling machine around a rotation center to a set number of turns by a rope guide shaft; the automatic bundling machine further comprises an automatic feeding mechanism for automatically conveying materials to be bundled to the working platform and an automatic discharging mechanism for automatically conveying away the bundled materials of the working platform.

According to the utility model, the automatic feeding mechanism and the automatic discharging mechanism are adopted on the basis of the semi-automatic bundling machine, so that the full-automatic bundling machine is formed, and the efficiency is improved.

Further, in the above-mentioned full-automatic bundling machine: the automatic feeding mechanism comprises a feeding conveyor belt, the feeding conveyor belt is close to the working platform, a feeding overturning gap bridge is arranged at the tail end of the feeding conveyor belt through a feeding gap bridge overturning shaft, and the feeding conveyor belt is further provided with a driving device for driving the feeding overturning gap bridge to wind around the feeding gap bridge overturning shaft to rotate so as to lift up the feeding cylinder horizontal to the working platform or fall down.

Further, in the above-mentioned full-automatic bundling machine: the tail end of the feeding overturning gap bridge is provided with a feeding support block which is supported to the working platform from the lower part protruding from the front edge of the working platform so that the feeding overturning gap bridge is flush with the working platform.

Further, in the above-mentioned full-automatic bundling machine: and the feeding conveyor belt is provided with a transfer belt or a conveying roller.

Further, in the above-mentioned full-automatic bundling machine: the automatic blanking mechanism comprises a blanking conveyor belt and a discharging overturning gap bridge arranged at the joint of the blanking conveyor belt and the working platform, the discharging overturning gap bridge is connected to the end part of the blanking conveyor belt through a discharging gap bridge rotating shaft in a shaft mode, and a blanking cylinder which drives the discharging overturning gap bridge to rotate around the discharging gap bridge rotating shaft to lift and enable the working platform to be horizontal or to be placed down is further installed on the blanking conveyor belt.

Further, in the above-mentioned full-automatic bundling machine: the tail end of the discharging overturning gap bridge is provided with a discharging support block which is used for supporting the working platform from the rear edge of the working platform along the lower part of the bulge to enable the discharging overturning gap bridge to be flush with the working platform.

Further, in the above-mentioned full-automatic bundling machine: and a transfer belt or a transfer roller is arranged on the blanking conveyor belt.

Further, in the above-mentioned full-automatic bundling machine: the working platform comprises a first material supporting unpowered roller group and a second material supporting unpowered roller group which are arranged on the bundling machine frame in parallel.

The present invention will be further described with reference to the accompanying drawings and detailed description.

Drawings

FIG. 1 is a front view of the full automatic baler of the present invention.

Fig. 2 is a top view of the full-automatic bundling machine of the present invention.

FIG. 3 is a perspective view of the full automatic bundling machine of the present invention.

Detailed Description

Embodiment 1, this embodiment is a full-automatic bundling machine, which is formed by using a conventional semi-automatic bundling machine as a bundling main body and adding an automatic feeding mechanism and an automatic discharging mechanism on two sides of a working platform of the full-automatic bundling machine. As shown in fig. 1, 2 and 3, in this embodiment, the semi-automatic baler frame 14 is a working platform, and in order to enable the material to automatically slide on the working platform, the working platform is also two parallel first material supporting unpowered roller sets 6 and second material supporting unpowered roller sets 12, which are the same as the conveying belt, and the material 7 can be rolled to the downstream through the upper rollers after being wrapped on the first material supporting unpowered roller sets. Practically, the full-automatic bundling machine of this embodiment may be a work station on a production line, when an operation at an upstream station is completed and bundling is required, the operation is transmitted to a work platform on the bundling machine frame 14 through a transmission mechanism on the production line, that is, the automatic feeding mechanism of the full-automatic bundling machine of this embodiment, that is, the first material supporting unpowered roller set 6 and the second material supporting unpowered roller set 12 are bundled, and the bundled material 7 enters a downstream station, that is, the automatic discharging mechanism of this embodiment.

In this embodiment, automatic feeding mechanism includes material loading conveyer belt 3, conveyer belt 3 can be the conveyer belt on the production line in the practice, like conveyer belt, also can be the conveying roller, select according to the usage of production line, it is provided with feeding upset gap bridge 1 to be close to work platform department at material loading conveyer belt 3, feeding upset gap bridge 1 utilizes feeding gap bridge trip shaft 2 hub connection in the end of material loading conveyer belt 3, still install on material loading conveyer belt 3 and drive feeding upset gap bridge 1 around feeding gap bridge trip shaft rotation realize lift up with work platform level or the material loading cylinder 4 that drops. When the feeding overturning gap bridge 1 is horizontal to the working platform, the feeding supporting block 17 arranged at the tail end of the feeding overturning gap bridge 1 is supported from the unpowered roller group 6 and the second material supporting unpowered roller group 12 to enable the feeding overturning gap bridge 1 to be flush with the working platform, and therefore materials on the feeding conveying belt 3 can directly slide to the working platform.

In this embodiment, as in the upstream, the downstream of the working platform on the rack 14 of the baler is the automatic blanking mechanism, and the automatic blanking mechanism includes the blanking conveyor belt 10, and similarly, if on the production line, the blanking conveyor belt 10 may also be a section of the downstream conveyor belt, and the blanking conveyor belt 10 may also be a section of the production line, as in the feeding conveyor belt, and may also be a section of the conveyor belt, or a group of the conveyor rollers, as required. Similarly, a discharging turnover gap bridge 8 is arranged at the joint of the discharging turnover gap bridge 8 and the tail end of the discharging turnover gap bridge 8 is also provided with a discharging support block 5, the discharging turnover gap bridge 8 is connected to the end part of a discharging conveyor belt 10 by a discharging gap bridge rotating shaft 9 in a shaft mode, a discharging cylinder 11 is further installed on the discharging conveyor belt 10 to drive the discharging turnover gap bridge 8, the discharging turnover gap bridge 8 is lifted up or placed down with the working platform in a rotating mode, and when the discharging turnover gap bridge is horizontal to the working platform, the discharging support block 5 is supported from the lower part of a first unpowered roller set 6 and a second unpowered roller set 12 to enable the discharging turnover gap bridge 8 to be flush with the working platform, so that materials 7 on the unpowered roller set 6 and the second unpowered roller set 12 can be smoothly conveyed to the discharging conveyor belt 10 through the discharging turnover gap bridge 8.

In this embodiment, when automatic feeding mechanism and automatic unloading mechanism are connected with bundling machine work platform, adopt a feeding upset gap bridge 1 and ejection of compact upset gap bridge 8 respectively, under the effect of material loading cylinder 4 and unloading cylinder 11, overturn, when the upset is dropped, it is gapped between work platform and automatic feeding mechanism and the automatic unloading mechanism, this is because according to semi-automatic bundling machine's principle, 16 wiring rope rotation axis 15 centers of rope guiding axle are rotatory to setting for the number of turns at bundling in-process needs, reach winding purpose. In the rotating process of the rope guide shaft 16, gaps need to be reserved at the left end and the right end of the working platform of the semi-automatic bundling machine, and the gaps are generally 20mm to 60mm, so that the rope guide shaft 16 can rotate. Because of the existence of the gap, the bundled product is easy to block if the bundled product is a book or other soft materials in the feeding and discharging processes. Like this, when the material loading, utilize material loading cylinder 4 control feeding upset gap bridge 1 level, block up the clearance, make the material from feeding upset gap bridge 1, after the material loading is finished, when beating a bundle, material loading cylinder 4 control feeding upset gap bridge 1 is dropped, expose the clearance, likewise, during the unloading, 8 upsets of ejection of compact upset gap bridge under the effect of unloading cylinder 11, make ejection of compact upset gap bridge 8 and work platform level, fill the clearance, let the material after beating a bundle and accomplish slide to unloading conveyer belt 10 from ejection of compact upset gap bridge 8, after the unloading is accomplished, 8 upsets of ejection of compact upset gap bridge under the effect of unloading cylinder 11, expose the clearance. In this embodiment, bundling machine's automatic feed and automatic discharging mechanism provide feeding upset gap bridge 1, ejection of compact upset gap bridge 8, and the upset gap bridge is turned over when needs feeding, ejection of compact, fills above-mentioned clearance, and when beating bundle, feeding upset gap bridge, ejection of compact upset gap bridge fall down, give up the clearance to the rope guiding axle is rotatory.

In this embodiment, because the rope guide shaft 16 needs to rotate when binding, the rear end material supporting assembly of the binding machine is in a swinging state, and the horizontal state of the rear end material supporting assembly cannot be guaranteed. In order to solve the problem, a feeding overturning gap bridge and a discharging overturning gap bridge are respectively provided with a discharging supporting block 5 and a feeding supporting block 17, and when the gap bridge overturns, the supporting blocks support bulges at two ends of a first unpowered roller group 6 and a second unpowered roller group 12 which are used as working platforms, so that the supporting blocks are static and horizontal, and the bundling machine can smoothly feed and discharge materials.

The bundling material enters a working platform (material supporting platform) through a feeding turnover gap bridge, and the material supporting platform consists of a front end material supporting unpowered roller group and a rear end material supporting unpowered roller group. The material supporting table uses the unpowered roller group to enable the bundling material to move more smoothly under the action of external force, and in addition, friction is reduced during conveying, so that a knotted rope is protected.

As shown in fig. 1, 2 and 3, which are external views of a feed reversing bridge 1, the feed reversing bridge 1 is fixed to a feed conveyor 3, such as a belt or a drum, by a feed bridge shaft 2. The feeding overturning gap bridge 1 is driven by a feeding cylinder 4 to realize the actions of lifting and dropping. The feeding turnover gap bridge 1 is provided with a gap bridge feeding support block 17 for supporting the rear end material-supporting unpowered roller set 12 during feeding to enable the rear end material-supporting unpowered roller set to be static and horizontal, so that the bundling material 7 can be smoothly fed. When feeding is needed, the feeding overturning gap bridge 1 is lifted to fill the gap, and the feeding support block 17 supports the rear-end material-supporting unpowered roller group 12. When bundling, the feed flips over the bridge 1 and falls. The feed turning gap bridge 1 of the present example consists of 4 groups of unpowered rollers, in practice, it is also possible to use other numbers of rollers instead, or a plate, belt or the like instead. The feeding conveyor belt 3 described in this example may be a feeding belt, or may be a powered roller, an unpowered roller, a flat plate, or the like. The key point of this example lies in using the form of upset gap bridge, and during the feeding, the upset gap bridge is lifted and is filled the clearance, and during the bundling, the upset gap bridge falls and lets out the clearance. In practice, a telescopic belt structure can be adopted to replace the overturning bridge type.

As shown in fig. 1, 2 and 3, the discharging turnover bridge 8 is fixed on a discharging conveyor belt 10 through a discharging bridge rotating shaft 9, and in practice, the discharging conveyor belt 10 can be a belt or a roller. The discharging turnover gap bridge 8 is driven by a discharging cylinder 11 to realize the actions of lifting and dropping. The discharging overturning gap bridge 8 is provided with a gap bridge discharging support block 5 for supporting the rear end material supporting unpowered roller group 12 during discharging so as to enable the rear end material supporting unpowered roller group to be static and horizontal, and the bundled material 7 can be discharged smoothly. When the material needs to be discharged, the discharging overturning gap bridge 8 is lifted to fill the gap, and meanwhile, the discharging support block 5 supports the rear-end material-supporting unpowered roller group 12. When bundling, the discharging turnover gap bridge 8 falls down. The discharge turning gap bridge 8 of the present example consists of 4 groups of unpowered rollers, and practically, other numbers of rollers or a flat plate, a belt and the like can be used instead. Similarly, the blanking conveyor 10 described in this example may be a belt, a powered roller, an unpowered roller, a flat plate, or the like.

The working platform in this embodiment is a material supporting platform, and the material supporting platform is composed of a first material supporting unpowered roller set 12 and a second material supporting unpowered roller set 6. The first material supporting unpowered roller group 12 is composed of a row of unpowered rollers and is fixed on a bundling machine frame 14 through a roller bracket, and the second material supporting unpowered roller group 6 is composed of a row of unpowered rollers and is fixed on a swing plate 13 of the bundling machine through the roller bracket. The wobble plate 13 is fixed to a rope rotation shaft 15, and when the rope is wound, a rope guide shaft 16 rotates around the rope rotation shaft 15.

Claims (8)

1. A full-automatic bundling machine comprises a bundling machine which is used for bundling materials (7) on a working platform of the bundling machine by rotating the materials (7) around a rotating center (15) by a rope guide shaft (16) to set turns; the method is characterized in that: the automatic bundling machine further comprises an automatic feeding mechanism for automatically conveying the materials (7) to be bundled to the working platform and an automatic discharging mechanism for automatically conveying the bundled materials (7) of the working platform away.

2. The full automatic baler of claim 1, wherein: the automatic feeding mechanism comprises a feeding conveyor belt (3), a feeding overturning gap bridge (1) is arranged at the position, close to the working platform, of the feeding conveyor belt (3), the feeding overturning gap bridge (1) is connected to the tail end of the feeding conveyor belt (3) in an axial mode through a feeding gap bridge overturning shaft (2), and a feeding cylinder (4) which drives the feeding overturning gap bridge (1) to rotate around the feeding gap bridge overturning shaft (2) to lift the feeding cylinder and enable the feeding cylinder to be horizontal or fall with the working platform is further installed on the feeding conveyor belt (3).

3. The full automatic baler of claim 2, wherein: the tail end of the feeding overturning gap bridge (1) is provided with a feeding support block (17) which is used for supporting the working platform from the lower part protruding from the front edge of the working platform to enable the feeding overturning gap bridge (1) to be flush with the working platform.

4. The full automatic baler of claim 2, wherein: and a conveying belt or a conveying roller is arranged on the feeding conveying belt (3).

5. The full automatic baler of claim 1, wherein: automatic unloading mechanism include unloading conveyer belt (10), set up in unloading conveyer belt (10) with work platform meet the ejection of compact upset cross bridge (8) of department, ejection of compact upset cross bridge (8) utilize ejection of compact cross bridge pivot (9) coupling in the tip of unloading conveyer belt (10) on still install the drive ejection of compact upset cross bridge (8) wind ejection of compact cross bridge pivot (9) rotatory realize lift with work platform level or the unloading cylinder (11) of putting down.

6. The full automatic baler of claim 5, wherein: the tail end of the discharging overturning gap bridge (8) is provided with a discharging support block (5) which is used for supporting the working platform from the rear edge of the working platform along the lower part of the bulge to enable the discharging overturning gap bridge (8) to be flush with the working platform.

7. The full automatic baler of claim 5, wherein: and a conveying belt or a conveying roller is arranged on the blanking conveying belt (3).

8. The full automatic baler according to any one of claims 1 to 7, characterized in that: the working platform comprises a first material supporting unpowered roller group (6) and a second material supporting unpowered roller group (12) which are arranged on the bundling rack (14) in parallel.

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