CN219525417U - Automatic material lane dividing machine - Google Patents

Abstract

The utility model discloses an automatic material lane machine which comprises a feeding conveyor, a lane component, a lane splitting conveyor and a frame, wherein the lane splitting conveyor is arranged on one side of the feeding conveyor, the lane component and the lane splitting conveyor are all arranged on the frame, and the lane component is arranged above the feeding conveyor and the lane splitting conveyor. The automatic material dividing machine structure has the advantages of realizing rapid material dividing, along with reasonable structure, reducing the labor intensity of operators, along with simple operation, high efficiency, simple maintenance, strong structural stability and beautiful appearance.

Description

Automatic material lane dividing machine

Technical Field

The utility model relates to the technical field of logistics conveying, in particular to an automatic material lane dividing machine.

Background

For the current informatization intelligent factory, the full-automatic one-time packaging and conveying of materials are basically realized, and the unmanned packaging production is truly realized. In intelligent factory, because production place, equipment arrangement scheme restriction often need an automatic material transport lane machine, divide into two with a transfer chain, perhaps many transfer chain to satisfy the demand of rear end packing.

Disclosure of Invention

The utility model aims to solve the technical problems of the prior art, and provides the automatic material lane machine which can realize rapid material lane division, has reasonable structure, reduces the labor intensity of operators, is simple to operate, has high efficiency and high stability, is simple to maintain, and has attractive appearance and high grade.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides an automatic lane machine of material, includes feeding conveyer, lane subassembly, reposition of redundant personnel conveyer and frame, and the reposition of redundant personnel conveyer is arranged in feeding conveyer one side, and feeding conveyer, lane subassembly and reposition of redundant personnel conveyer all set up in the frame, and the lane subassembly is arranged in feeding conveyer and reposition of redundant personnel conveyer top.

According to the technical scheme, a certain angle is formed between the transmission direction of the lane component and the conveying direction of the feeding conveyor.

According to the technical scheme, the diverting conveyor and the feeding conveyor are arranged side by side in parallel.

According to the technical scheme, the side of the feeding conveyor is provided with the split-flow outlet, and the split-flow outlet is arranged between the feeding conveyor and the split-flow conveyor.

According to the technical scheme, the lane subassembly includes driving sprocket, chain, driven sprocket, lane subassembly frame, push pedal subassembly and motor, and driving sprocket and driven sprocket are arranged respectively in the both ends of lane subassembly frame, connect through the chain between driving sprocket and the driven sprocket, and the push pedal subassembly sets up on the chain, and the motor is connected with driving sprocket, and motor drive driving sprocket rotates, and driving sprocket passes through the chain and drives push pedal subassembly round trip movement.

According to the technical scheme, the chain wheel and the chain are replaced by a belt wheel and a belt.

According to the technical scheme, the lane component frame comprises two side plates which are arranged side by side in parallel, and a plurality of supporting plates are connected between the two side plates;

the lane assembly further comprises a driving shaft and a driven shaft, the driving sprocket is sleeved on the driving shaft, and two ends of the driving shaft are connected with the lane assembly frame through bearings; the driven sprocket is sleeved on the driven shaft, and two ends of the driven shaft are connected with the lane component frame through bearings.

According to the technical scheme, a tensioning device is connected between the driven shaft and the lane component frame.

According to the technical scheme, the push plate assembly comprises a push plate and a push plate seat, wherein the push plate seat is connected with a chain, and the push plate and the chain are arranged on the push plate seat at a certain angle in the transmission direction; when the push plate assembly moves to the lower part of the chain, the length direction of the push plate is consistent with the conveying direction of the feeding conveyor, and a certain angle is formed between the transmission direction of the chain and the conveying direction of the feeding conveyor.

The lower part of the lane component frame is provided with a bearing pressing plate, the push plate seat is provided with a bearing, the bearing is arranged on the push plate seat through a bearing pin shaft, and when the push plate seat moves to the lower part of the chain along with the chain, the bearing pressing plate supports the bearing of the push plate seat.

According to the technical scheme, a plurality of push plate assemblies are sequentially arranged on the chain at intervals.

The utility model has the following beneficial effects:

the automatic material dividing machine structure has the advantages that materials conveyed on the feeding conveyor are pushed onto the dividing conveyor by the pushing plate on the dividing assembly when passing through the dividing assembly, the conveying capacity of the divided feeding conveyor is halved, the rapid material dividing can be realized, the structure is reasonable, the labor intensity of operators is relieved, the operation is simple, the efficiency is high, the maintenance is simple, the structural stability is high, and the appearance is attractive.

Drawings

FIG. 1 is a plan view of an automatic lane machine for material in an embodiment of the present utility model;

FIG. 2 is a perspective view of a lane departure assembly in accordance with an embodiment of the present utility model;

figure 3 is a perspective view of a pusher plate assembly in accordance with an embodiment of the present utility model;

FIG. 4 is a schematic view of the structure of a push plate according to an embodiment of the present utility model;

in the figure, a 1-feeding conveyor, a 2-channel dividing assembly, a 3-split conveyor and a 4-rack;

1-1-driving shaft, 1-2-driving sprocket, 1-3-chain, 1-4-driven sprocket, 1-5-driven shaft, 1-6-side plate, 1-7-supporting plate, 1-8-tensioning device, 1-9-push plate seat, 1-10-push plate, 1-11-bearing pressing plate, 1-12-bearing, 1-13-bearing pin shaft, 1-14-motor, 1-15-lane component bracket and 1-16-cotter pin.

Detailed Description

The utility model will now be described in detail with reference to the drawings and examples.

Referring to fig. 1 to 4, an automatic material lane machine according to an embodiment of the present utility model includes a feeding conveyor 1, a lane component 2, a lane component conveyor 3 and a frame 4, wherein the lane component conveyor 3 is disposed on one side of the feeding conveyor 1, the lane component 2 and the lane component conveyor 3 are all disposed on the frame 4 through a support, and the lane component is disposed above the feeding conveyor 1 and the lane component conveyor 3; when materials conveyed on the feeding conveyor 1 pass through the lane component 2, the materials are pushed onto the diversion conveyor 3 by push plates 1-10 on the lane component 2, and the conveying capacity of the diverted feeding conveyor 1 is halved; the belt surface of the diverting conveyor 3 is lower than that of the feeding conveyor 1, so that the diverted materials can fall onto the diverting conveyor 3 accurately and smoothly; the diverting conveyor 3 is provided with an independent power device, so that the speed and the direction of the diverted material are consistent with those of the material on the original feeding conveyor 1; the feed conveyor 1 has a separate power unit.

Further, the driving direction of the lane departure assembly 2 is at an angle to the conveying direction of the feed conveyor 1 in a horizontal plane projection.

Further, the diverting conveyor 3 and the feeding conveyor 1 are arranged side by side in parallel.

Further, a diverting outlet is provided on the side of the feed conveyor 1, and the diverting outlet is arranged between the feed conveyor 1 and the diverting conveyor 3.

Further, the lane component 2 comprises a driving sprocket 1-2, a chain 1-3, a driven sprocket 1-4, a lane component frame, a push plate component and a motor 1-14, wherein the driving sprocket 1-2 and the driven sprocket 1-4 are respectively arranged at two ends of the lane component frame, the driving sprocket 1-2 and the driven sprocket 1-4 are connected through the chain 1-3, the push plate component is arranged on the chain 1-3, the motor 1-14 is connected with the driving sprocket 1-2, the motor 1-14 drives the driving sprocket 1-2 to rotate, and the driving sprocket 1-2 drives the push plate component to move back and forth through the chain 1-3; the lane assemblies 2 have independent power means to ensure reliable operation of the push plates 1-10.

Further, the lane assembly frame is connected to the gantry 4 by lane assembly brackets 1-15.

Further, in the second embodiment, the sprocket and chain 1-3 may be replaced with pulleys and belts.

Further, the lane component frame comprises two side plates 1-6 which are arranged side by side in parallel, and a plurality of stay plates 1-7 are connected between the two side plates 1-6.

Further, the lane assembly 2 further comprises a driving shaft 1-1 and a driven shaft 1-5, the driving sprocket 1-2 is sleeved on the driving shaft 1-1, and two ends of the driving shaft 1-1 are connected with the lane assembly frame through bearings 1-12;

the driven sprocket wheel is sleeved on the driven shaft 1-5, and two ends of the driven shaft 1-5 are connected with the lane component frame through bearings 1-12.

Further, a tensioning device 1-8 is connected between the driven shaft 1-5 and the lane component frame; the lane departure assembly 2 has a chain 1-3 tensioner 1-8 to ensure that the chain 1-3 is in normal operation.

Further, the number of the chains 1-3 is two, the two chains are respectively arranged at two sides of the frame of the lane component, the push plate component comprises push plates 1-10 and push plate seats 1-9, two ends of each push plate seat 1-9 are respectively connected with the two chains 1-3, the push plates 1-10 and the transmission direction of the chains 1-3 form a certain angle, and the push plates are arranged on the push plate seats 1-9; when the push plate assembly moves below the chain, the length direction of the push plate is consistent with the conveying direction of the feeding conveyor, and a certain angle is formed between the transmission direction of the chain and the conveying direction of the feeding conveyor; when the feeding conveyor conveys materials, the chain drives the push plate assembly to rotate below the chain, the push plate moves along with the chain and drives the materials to move from the feeding conveyor to the distribution conveyor, and one push plate is used for pushing one material correspondingly in general.

The included angle A between the conveying direction of the feeding conveyor and the chain transmission direction is 20-45 degrees, and in the optimal embodiment, the included angle A is 30 degrees.

The included angle B between the length direction of the push plate and the transmission direction of the chain is 20-45 degrees, and the included angle B is 30 degrees in the optimal embodiment.

The lower part of the frame of the lane component is provided with a bearing pressing plate 1-11, the push plate seat 1-9 is provided with a bearing 1-12, the bearing 1-12 is arranged on the push plate seat 1-9 through a bearing pin shaft 1-13, and when the push plate seat 1-9 moves to the lower part of the chain 1-3 along with the chain 1-3, the bearing pressing plate 1-11 supports the bearing of the push plate seat 1-9; the bearing on the push plate seat 1-9 is contacted with the bearing pressing plate 1-11 and rolls on the bearing pressing plate 1-11, so that the problem that the push plate 1-10 pushes materials due to the flexibility of the chain 1-3 is avoided, and the push plate 1-10 pushes materials normally is avoided.

Further, the push plate seat 1-9 is provided with a plurality of grooves, and the rolling bearing is arranged in the grooves of the push plate seat 1-9 through a pin shaft.

Further, a plurality of push plate assemblies are sequentially arranged on the chains 1-3 at intervals; the multi-channel material dividing device comprises a plurality of push plate seats 1-9 arranged on a channel dividing assembly chain 1-3, wherein one push plate is fixed on each push plate seat 1-9, and the quantity of the push plate seats 1-9 determines the quantity of the needed channel dividing materials.

The bearing pressing plate 1-11 is fixed on the lower part of the supporting plate 1-7 of the lane component through an adjustable connecting piece. When the push plate seat 1-9 drives the push plate to move to the lower part of the lane component, the bearing on the push plate seat 1-9 is contacted with the bearing pressing plate 1-11 and rolls on the bearing pressing plate 1-11, so that poor push plate pushing material effect caused by the flexibility of the chain 1-3 is avoided, and normal push plate pushing material is ensured.

In summary, the automatic material lane separator can equally divide the materials conveyed on one conveyor into two conveyors for conveying, the quantity of conveyed materials is halved, the conveying speeds of the two conveyed materials after lane separation are the same, and the conveying directions are consistent, so that the possibility is provided for the next material treatment. The automatic lane splitting machine can realize rapid material split, can realize rapid replacement or cleaning of the conveying belt, has reasonable structure, simple operation, high lane splitting efficiency, simple maintenance, rapid replacement of accessories and stable structure.

The foregoing is merely illustrative of the present utility model and is not intended to limit the scope of the utility model, which is defined by the claims and their equivalents.

Claims (10)

1. The utility model provides an automatic lane machine of material, its characterized in that includes feeding conveyer, lane subassembly, reposition of redundant personnel conveyer and frame, and reposition of redundant personnel conveyer arranges in feeding conveyer one side, and feeding conveyer, lane subassembly and reposition of redundant personnel conveyer all set up in the frame, and lane subassembly arranges in feeding conveyer and reposition of redundant personnel conveyer top.

2. The automatic material lane machine of claim 1, wherein the lane assembly is angled in a direction of travel from the direction of travel of the feed conveyor;

the diverting conveyor and the feeding conveyor are arranged side by side in parallel.

3. The automatic material lane machine according to claim 1, wherein a diversion outlet is provided on a side of the feed conveyor, the diversion outlet being disposed between the feed conveyor and the diversion conveyor.

4. The automatic material lane machine according to any one of claims 1 to 3, wherein the lane component comprises a driving sprocket, a chain, a driven sprocket, a lane component frame, a push plate component and a motor, the driving sprocket and the driven sprocket are respectively arranged at two ends of the lane component frame, the driving sprocket and the driven sprocket are connected through the chain, the push plate component is arranged on the chain, the motor is connected with the driving sprocket, the motor drives the driving sprocket to rotate, and the driving sprocket drives the push plate component to move back and forth through the chain.

5. The automatic material lane machine of claim 4 wherein the sprocket and chain are replaced with pulleys and belts.

6. The automatic material lane machine according to claim 4, wherein the lane component frame comprises two side plates arranged side by side in parallel, and a plurality of supporting plates are connected between the two side plates;

the lane assembly further comprises a driving shaft and a driven shaft, the driving sprocket is sleeved on the driving shaft, and two ends of the driving shaft are connected with the lane assembly frame through bearings; the driven sprocket is sleeved on the driven shaft, and two ends of the driven shaft are connected with the lane component frame through bearings.

7. The automatic material lane machine of claim 4, wherein a tensioning device is connected between the driven shaft and the lane assembly frame.

8. The automatic material lane machine according to claim 4, wherein the push plate assembly comprises a push plate and a push plate seat, the push plate seat is connected with the chain, the push plate is arranged on the push plate seat at a certain angle with the transmission direction of the chain;

when the push plate assembly moves to the lower part of the chain, the length direction of the push plate is consistent with the conveying direction of the feeding conveyor, and a certain angle is formed between the transmission direction of the chain and the conveying direction of the feeding conveyor.

9. The automatic material lane machine according to claim 4, wherein a bearing pressing plate is arranged below the lane component frame, a bearing is arranged on the push plate seat, the bearing is arranged on the push plate seat through a bearing pin shaft, and the bearing pressing plate supports the bearing of the push plate seat when the push plate seat moves below the chain along with the chain.

10. The automatic material lane machine of claim 4, wherein a plurality of push plate assemblies are sequentially and alternately arranged on the chain.