CN203667533U - Flow dividing device special for circular cans - Google Patents

Abstract

The utility model relates to a flow dividing device special for circular cans. The flow dividing device is used in the field of can conveying distributing devices. The flow dividing device comprises a storing part, a flow dividing part and an output part. The storing part comprises an oblique flow-in sliding groove and a protecting bar. An input end opening of the flow-in sliding groove is provided with an air blower. The flow dividing part comprises a flow dividing frame, a gate plate, a first supporting rod, a second supporting rod, a flow limiting plate, a transmission rod, a linkage plate and an air cylinder. The transmission rod is hinged to the two ends of the flow dividing frame. The two ends of the first supporting rod and the two ends of the second supporting rod are fixedly connected with the transmission rod and the gate plate. The gate plate receives the cans from the flow-in sliding groove. One end of the linkage plate is fixedly connected to the tail end of the transmission rod, and the other end of the linkage plate is hinged to the air cylinder. A moving mechanism that the transmission rod rotates along with action of the linkage plate, and the transmission rod drives the first supporting rod, the second supporting rod and the gate plate to rotate is formed. The flow limiting plate is arranged on the first supporting rod, and the output part is an output sliding groove group. Output sliding grooves are formed below the gate plate. The problem that in the existing can distributing technology, cost is high, efficiency is low and an empty can cannot be identified is solved.

Description

The special part flow arrangement of circular can

Technical field

The utility model is applied to can transmission distribution device field, refers more particularly to the special part flow arrangement of circular can.

Background technology

On the conveyor line of the production of existing tinned food, manufacture, processing, in order to strengthen productive force, often the can of producing is sent on different manufacturing lines simultaneously, carry out again next step processing, for can in enormous quantities is assigned to every field, general employing is manipulator at present, for the distribution device that uses manipulator, conventionally all need to connect with numerical control program, so just must carry out a large amount of debugging work, so its is with high costs, efficiency is low, is unfavorable for the processing mode of batch manufacturing.And in process of production due to a variety of causes, can is not put into any food and is become slack tank head, and cannot be picked out.So in the today of making every effort to high precision, high efficiency development, such distribution method can make the income of producer greatly reduce.

Utility model content

What the utility model mainly solved is in existing can distribution technique, and the manipulator allocation scheme adopting need to connect numerical control device and debug in a large number in addition, so cost is high, efficiency is low, and the problem of None-identified slack tank head.

In order to solve the problems of the technologies described above, the utility model provides following technical scheme: the special part flow arrangement of circular can, comprise storage part, distributary division and efferent, described storage part comprises the inflow chute of inclination and can stop the guardrail of can, the input port that flows into chute is provided with air blower, described distributary division comprises shunting frame, flashboard, the first pole, the second pole, current limiting plate, drive link, linkage board and air cylinder, described drive link is hinged on shunting frame two ends, the two ends separately of the first and second poles are fixedly connected with flashboard with drive link respectively, flashboard is accepted from the can that flows into chute, one end of linkage board is fixedly connected on the end of drive link, the other end is hinged on the piston boit of air cylinder, forming drive link rotates with the action of linkage board, and drive link drives first, the kinematic mechanism that the second pole and flashboard rotate, current limiting plate is located on the first pole, described efferent is one group of outfeed chute, outfeed chute is located under flashboard.

Adopt technique scheme, in the utility model, in the time that can is sent to inflow chute input port, open air blower, if can is slack tank head, will be by the air blower chute that blows off, and the can that food is housed will be rolled on flashboard when can from the inflow chute tilting, because drive link is hinged on shunting frame two ends, the two ends separately of two poles are fixedly connected with flashboard with drive link respectively, one end of linkage board is fixedly connected on the end of drive link, air cylinder is hinged on the other end of linkage board, so forming drive link rotates with the action of linkage board, and drive link drives first, the kinematic mechanism that the second pole and flashboard rotate.When air cylinder pulls linkage board, linkage board drives drive link rotation, flashboard can outwards be opened along with the rotation of drive link, and the current limiting plate being arranged on the first pole also can rotate to the exit that flows into chute thereupon, the can that makes to flow in chute can not flow in flashboard, and can stopping due to guardrail in flashboard now, can not, along with flashboard moves together and falls in outfeed chute corresponding under flashboard, so, just complete the shunting of can.

Further, described current limiting plate is in the time turning to inflow chute end port with the first pole, and its lower edge is less than the diameter of can to the distance of chute bottom, in order better to block the can flowing in chute, while avoiding gate to open, fall in outfeed chute.

Brief description of the drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

Fig. 1 is the structural representation of the special part flow arrangement embodiment of the circular can of the utility model.

Detailed description of the invention

As shown in Figure 1, the special part flow arrangement of circular can, comprise storage part, distributary division and efferent, described storage part comprises the inflow chute 2 of inclination and can stop the guardrail 10 of can, the input port that flows into chute 2 is provided with air blower, described distributary division comprises shunting frame 11, flashboard 1, the first pole 5, the second pole 6, current limiting plate 9, drive link 4, linkage board 8, air cylinder 7, described drive link 4 is hinged on shunting frame 11 two ends, first, the two ends separately of the second pole are fixedly connected with flashboard 1 with drive link 4 respectively, flashboard holds 1 and fetches from the can that flows into chute 2, one end of linkage board 8 is fixedly connected on the end of drive link 1, the other end is hinged on the piston boit of air cylinder 7, forming drive link 4 rotates with the action of linkage board 8, and drive link 4 drives first, the kinematic mechanism that the second pole and flashboard 1 rotate, current limiting plate 9 is located on the first pole 5, described efferent is one group of outfeed chute 3, outfeed chute 3 is located under flashboard 1, described current limiting plate 9 is in the time turning to inflow chute 2 end port with the first pole 5, its lower edge is less than the diameter of can to the distance of chute bottom.

When work, open air blower, in the time that can is sent to inflow chute 2 input port, if can is slack tank head, will be by the air blower chute that blows off, and the can that food is housed will be rolled on flashboard 1 from the inflow chute 2 tilting, because drive link 4 is hinged on shunting frame 11 two ends, the two ends separately of two poles are fixedly connected with flashboard 1 with drive link 4 respectively, one end of linkage board 8 is fixedly connected on the end of drive link 4, air cylinder 7 is hinged on the other end of linkage board 8, so forming drive link 4 rotates with the action of linkage board 8, and drive link 4 drives first, the kinematic mechanism that the second pole and flashboard 1 rotate.When air cylinder 7 pulls linkage board 8, linkage board 8 drives drive link 4 to rotate, flashboard 1 can outwards be opened along with the rotation of drive link 4, and the current limiting plate 9 being arranged on the first pole 5 also can rotate to the exit that flows into chute 2 thereupon, the can that makes to flow in chute 2 can not flow in flashboard 1, and can stopping due to guardrail 10 in flashboard 1 now, can not, along with flashboard 1 moves together and falls in 1 time corresponding outfeed chute 3 of flashboard, so, just complete the shunting of can.In addition, current limiting plate 9 is in the time turning to inflow chute 2 end port with the first pole 5, and its lower edge is less than the diameter of can to the distance of chute bottom, in order better to block the can flowing in chute 2, while avoiding gate 1 to open, fall in outfeed chute 3.

Above-described is only preferred implementation of the present utility model; should be understood that; for a person skilled in the art; do not departing under the prerequisite of the utility model structure; can also make some distortion and improvement; these also should be considered as protection domain of the present utility model, and these can not affect effect and practical applicability that the utility model is implemented.

Claims (2)

1. the special part flow arrangement of circular can, comprise storage part, distributary division and efferent, it is characterized in that, described storage part comprises the inflow chute of inclination and can stop the guardrail of can, the input port that flows into chute is provided with air blower, described distributary division comprises shunting frame, flashboard, the first pole, the second pole, current limiting plate, drive link, linkage board and air cylinder, described drive link is hinged on shunting frame two ends, the two ends separately of the first and second poles are fixedly connected with flashboard with drive link respectively, flashboard is accepted from the can that flows into chute, one end of linkage board is fixedly connected on the end of drive link, the other end is hinged on the piston boit of air cylinder, forming drive link rotates with the action of linkage board, and drive link drives first, the kinematic mechanism that the second pole and flashboard rotate, current limiting plate is located on the first pole, described efferent is one group of outfeed chute, outfeed chute is located under flashboard.

2. the special part flow arrangement of circular can according to claim 1, is characterized in that, described current limiting plate is in the time turning to inflow chute end port with the first pole, and its lower edge is less than the diameter of can to the distance of chute bottom.

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