CN217348604U - Automatic change food baling line - Google Patents

Abstract

The utility model relates to an automatic change food baling line, including empty jar transport bus, empty jar transfer line, full jar transport bus, full jar transfer line, the empty jar transfer line of front end and the full jar transfer line of rear end. The utility model is intelligent, mechanical and automatic, realizes that the empty tank feeding, the empty tank branch feeding, the full tank branch feeding and the full tank converging form a series of full-automatic conveying lines, and has the advantages of high production speed, high production efficiency and the like; the conveying layout of upper and lower layers of conveying lines of empty tanks and full tanks is adopted, and the height space of a factory building is reasonably utilized; the conveying lines of the empty tanks and the full tanks are distributed in a bus and branching connection mode, and the depth space of a factory building is reasonably utilized; the transportation of all packing jars need not artifical the participation, compares with artifical jar of going up, lower, greatly reduced workman's intensity of labour, improved production speed and production efficiency greatly.

Description

Automatic change food baling line

[ technical field ] A

The utility model belongs to the technical field of food package technique and specifically relates to indicate an automatic change food baling line.

[ background of the invention ]

Traditional food package, transport every vacancy next door through dull and stereotyped dolly with empty packing jar, again by the workman take up the station on packing jar, again with food sign indicating number one by one in the packing jar, pack, after the packing is accomplished, the workman need place the packing jar of adorning food and transport on another dolly, transport packing jar capping station on hand-operated closing cap of worker, it is very troublesome, the expense of taking time, low speed, low efficiency, the packing volume is difficult to improve, and need more workman, the manpower resources are wasted greatly, furthermore, dull and stereotyped propelling movement dolly still occupies a large amount of spaces in the factory building, consequently, an automatic food packaging line has been designed and this problem is solved.

[ Utility model ] A method for manufacturing a semiconductor device

The utility model aims at overcoming the defects of the prior art and providing an automatic food packaging line.

In order to solve the technical problem, the utility model adopts the following technical scheme:

an automatic food packaging line comprises an empty can conveying bus, an empty can conveying branch line, a full can conveying bus, a full can conveying branch line, a front end empty can conveying line and a rear end full can conveying line; the front-end empty tank conveying line is connected with the initial end of the empty tank conveying bus so as to convey the empty tanks to the empty tank conveying bus one by one; the plurality of empty tank conveying branch lines are respectively connected with the empty tank conveying bus at the initial ends thereof so as to convey the empty tanks on the empty tank conveying bus to the empty tank conveying branch lines; the rear full-tank conveying line is connected with the tail end of the full-tank conveying bus so that full tanks are conveyed to the rear full-tank conveying line one by one; the full-tank conveying branch lines comprise a plurality of full-tank conveying branch lines, and the tail ends of the full-tank conveying branch lines are respectively connected with the full-tank conveying bus so that full tanks on the full-tank conveying branch lines are respectively conveyed to the full-tank conveying bus; the empty tank conveying bus and the full tank conveying bus are arranged in an upper-lower layered mode; the full tank conveying branch line and the empty tank conveying branch line are consistent in quantity and are arranged in an upper-lower layered mode.

In a further improvement scheme, the system further comprises an empty tank loading area, and the front end of the front end empty tank conveying line is arranged in the empty tank loading area.

In a further improvement, the full-tank conveying line further comprises a weighing and screening device, and the tail end of the rear full-tank conveying line is connected with the weighing and screening device.

In a further improvement, the system comprises a bus conveying rack, and the empty tank conveying bus and the full tank conveying bus are both arranged on the bus conveying rack.

In a further improvement scheme, the device comprises a plurality of branch conveying racks, and the full-tank conveying branches and the empty-tank conveying branches are correspondingly arranged on the branch conveying racks one by one.

In a further improvement scheme, a food incoming conveying line for conveying food to be packaged is arranged on the lower layer of the branch conveying rack, and the food incoming conveying line extends vertically outwards to be connected with an external food production conveying line.

In a further improvement scheme, the full-can conveying branch line is arranged on the upper layer of the branch conveying rack, the food incoming conveying line is arranged in the middle of the lower layer of the branch conveying rack, the empty-can conveying branch line is arranged on one side of the lower layer of the branch conveying rack, and a food canning workbench is arranged on the other side of the lower layer of the branch conveying rack.

In a further improvement scheme, each empty can conveying branch line is provided with a vacancy monitoring mechanism, the vacancy monitoring mechanism is used for detecting whether a vacancy exists on the empty can conveying branch line, the joint of each empty can conveying branch line and each empty can conveying bus line is provided with an empty can in-place monitoring mechanism and an empty can pushing mechanism, the empty can in-place monitoring mechanism is used for detecting whether a packaging can on the empty can conveying bus line reaches the joint of the empty can conveying branch line, and the empty can pushing mechanism pushes the packaging can on the empty can conveying bus line to the empty can conveying branch line; the empty can conveying branch line keeps the trend that the packaging cans positioned on the empty can conveying branch line are conveyed to the tail end of the empty can conveying branch line from the starting end, the vacancy monitoring mechanism is arranged at the starting end of the empty can conveying branch line, and the tail end of the empty can conveying branch line is provided with a limiting device for preventing the packaging cans from continuously moving.

In a further improvement scheme, a bus vacancy monitoring mechanism is arranged at the joint of the full-tank conveying bus and each full-tank conveying branch line, and the bus vacancy monitoring mechanism is used for detecting whether a vacancy exists at the joint of the full-tank conveying bus and each full-tank conveying branch line; each full can conveying branch line is provided with a blocking pushing mechanism, and the blocking pushing mechanism is used for blocking the packaging cans positioned at the tail ends of the full can conveying branch lines from entering the full can conveying bus or pushing the packaging cans positioned at the tail ends of the full can conveying branch lines to the full can conveying bus; the full-can conveying branch line keeps the trend of conveying the packaging cans positioned on the full-can conveying branch line from the initial end to the tail end;

in a further improvement scheme, an empty can loading mechanism is arranged at the joint of the front end empty can conveying line and the empty can conveying bus, and is used for blocking a packaging can positioned at the tail end of the front end empty can conveying line from entering the empty can conveying bus or pushing the packaging can positioned at the tail end of the front end empty can conveying line onto the empty can conveying bus, and the packaging can loading mechanism comprises a pushing cylinder, a cylinder rod and a pushing head, wherein the pushing head can stretch out of the tail end of the front end empty can conveying line under the action of the pushing cylinder and the cylinder rod to block the packaging can from entering the empty can conveying bus or stretch out of the tail end of the front end empty can conveying line to be ejected onto the empty can conveying bus under the action of the pushing cylinder and the cylinder rod; the pushing head is provided with an arc-shaped side part on one side of the pushing head facing to the direction of the empty can conveying bus, and the arc-shaped side part corresponds to the side edge of the bottom of the packaging can.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses in, on delivering empty food packaging jar to empty can transport the bus one by one through the empty can transfer chain of front end, on the empty can transport the branch line one by one of subdivision, the workman is adorning food packaging jar back, on putting full food packaging jar to full can transport the branch line, the full can transport the branch line of each branch delivers full food packaging jar to full can transport the bus one by one and gathers, then delivers full food packaging jar to the full can transfer line of rear end through full can transport the bus on. The whole process is intelligent, mechanical and automatic, a series of full-automatic conveying lines are formed by empty tank feeding, empty tank branching, full tank branching feeding and full tank converging, and the full-automatic conveying line has the advantages of high production speed, high production efficiency and the like; the conveying layout of upper and lower layers of conveying lines of empty tanks and full tanks is adopted, and the height space of a factory building is reasonably utilized; the conveying lines of the empty tanks and the full tanks are distributed in a bus and branching connection mode, and the depth space of a factory building is reasonably utilized; the transportation of all packing jars need not artifical the participation, compares with artifical jar of going up, lower, greatly reduced workman's intensity of labour, improved production speed and production efficiency greatly.

The invention will be described in further detail with reference to the following detailed description and accompanying drawings:

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a first schematic connection diagram of the front-end empty can conveying line and the empty can conveying bus according to the embodiment of the present invention;

fig. 3 is a second schematic connection diagram of the front-end empty tank conveying line and the empty tank conveying bus according to the embodiment of the present invention;

fig. 4 is a schematic connection diagram of an empty tank conveying bus, an empty tank conveying branch line, a full tank conveying bus and a full tank conveying branch line in the embodiment of the present invention;

fig. 5 is in the embodiment of the utility model provides an empty can transport bus, empty can transfer branch line, full can transfer bus, full can transfer branch line and the full jar of connection schematic diagram of the full jar transfer chain of rear end.

[ detailed description ] embodiments

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout.

The orientation shown in the drawings is not to be understood as limiting the scope of the invention, which is to be understood only by reference to the preferred embodiments, but to the extent that changes in the position or addition of numbers or structural simplifications can be made to the product parts illustrated in the drawings.

The relation of "connected" between the components shown in the drawings and described in the specification can be understood as fixedly connected or detachably connected or integrally connected; the connecting elements can be directly connected or connected through an intermediate medium, and persons skilled in the art can understand the connecting relation according to specific conditions, and can use the connecting elements in a screwed connection or riveting connection or welding connection or clamping connection or embedding connection mode to replace different embodiments in a proper mode.

The terms of orientation of the upper, lower, left, right, top, bottom, etc., described in the specification and shown in the drawings, may be brought into direct contact or into contact with each other through another feature; above may be directly above and obliquely above, or it simply means above the other; other orientations may be understood by analogy.

The material for manufacturing the solid-shaped component shown in the specification and the drawings can be a metal material or a non-metal material or other composite materials; the machining processes used for components having solid shapes can be stamping, forging, casting, wire cutting, laser cutting, casting, injection molding, digital milling, three-dimensional printing, machining, and the like; one skilled in the art can select the materials and the manufacturing process adaptively or in combination according to different processing conditions, cost and precision.

The utility model relates to an automatic food packaging line, as shown in figures 1 to 5, comprising an empty can conveying bus 10, an empty can conveying branch line 20, a full can conveying bus 30, a full can conveying branch line 40, a front end empty can conveying line 50 and a rear end full can conveying line 60; the front-end empty tank conveying line 50 is connected with the beginning end of the empty tank conveying bus 10 so as to convey the empty tanks one by one to the empty tank conveying bus 10; the plurality of empty tank conveying branch lines 20 are respectively connected with the empty tank conveying bus 10 at the starting ends thereof so as to respectively convey the empty tanks on the empty tank conveying bus 10 to the empty tank conveying branch lines 20; the rear-end full-can transfer line 60 is connected to the end of the full-can transfer bus 30 so that the full cans are transferred one by one onto the rear-end full-can transfer line 60; the full-tank branch conveying lines 40 comprise a plurality of full-tank conveying lines, and the tail ends of the full-tank branch conveying lines are respectively connected with the full-tank conveying buses 30 so that full tanks on the full-tank branch conveying lines 40 are respectively conveyed to the full-tank conveying buses 30; the empty tank conveying bus 10 and the full tank conveying bus 30 are arranged in an upper-lower layered mode; the full tank branch conveying lines 40 and the empty tank branch conveying lines 20 are consistent in number and are arranged in an upper layer and a lower layer.

The utility model discloses in, deliver to empty can transport bus 10 one by one empty food packaging jar through front end empty can transfer chain 50 on, the branch one by one is delivered to empty can transfer branch 20 on, the workman is after packing food to food packaging jar, put full food packaging jar on full can transfer branch 40, full can transfer branch 40 of each branch delivers to full can transfer bus 30 one by one and gathers on, then deliver to full can transfer chain 60 of rear end through full can transfer bus 30 with full food packaging jar. The whole process is intelligent, mechanical and automatic, a series of full-automatic conveying lines are formed by empty tank feeding, empty tank branching, full tank branching feeding and full tank converging, and the full-automatic conveying line has the advantages of high production speed, high production efficiency and the like; the conveying layout of upper and lower layers of conveying lines of empty tanks and full tanks is adopted, and the height space of a factory building is reasonably utilized; the conveying lines of the empty tanks and the full tanks are distributed in a bus and branching connection mode, and the depth space of a factory building is reasonably utilized; the transportation of all packing jars need not artifical the participation, compares with artifical jar of going up, lower, greatly reduced workman's intensity of labour, improved production speed and production efficiency greatly.

In the embodiment, as shown in fig. 1, the empty can conveying line further includes an empty can conveying area 70, the front end of the front end empty can conveying line 50 is disposed in the empty can conveying area 70, and in the empty can conveying area 70, the packaging cans can be conveyed to the front end empty can conveying line 50 one by one in a manual manner, or the packaging cans can be conveyed by a robot.

In the embodiment, as shown in fig. 1, a weighing and screening device 80 is further included, the tail end of the rear full can conveying line 60 is connected with the weighing and screening device 80, and food packaging cans which are overweight or do not reach the standard in weight can be removed through the weighing and screening device 80.

In the embodiment, as shown in fig. 4 and 5, a bus transportation rack is included, and the empty tank transportation bus 10 and the full tank transportation bus 30 are both arranged on the bus transportation rack; the device comprises a plurality of branch conveying racks 90, and the full-tank conveying branch lines 40 and the empty-tank conveying branch lines 20 are correspondingly arranged on the branch conveying racks 90 one by one.

In the embodiment, as shown in fig. 4 and 5, a food incoming conveying line 100 for conveying food to be packaged is arranged at the lower layer of the branch conveyor frame 90, and the food incoming conveying line 100 extends vertically outwards to be connected with an external food production conveying line; the full-can branch conveyor line 40 is arranged on the upper layer of the branch conveyor frame 90, the food incoming material conveyor line 100 is arranged in the middle of the lower layer of the branch conveyor frame 90, the empty-can branch conveyor line 20 is arranged on one side of the lower layer of the branch conveyor frame 90, and the food canning workbench 110 is arranged on the other side of the lower layer of the branch conveyor frame 90.

During operation, produced food is conveyed to the food incoming material conveying line 100 by the food production conveying line, empty packaging cans are conveyed to the empty can conveying branch line 20 on the lower layer of the rack, workers are located at the food canning workbench 110 on the other side of the branch conveying rack 90, empty cans on the empty can conveying branch line 20 are taken to food canning work for canning, full food packaging cans are placed on the full can conveying branch line 40 on the upper layer of the rack after canning is completed, and all work of food incoming material, empty can taking, food canning and full can placing is achieved on one branch conveying rack 90.

In the embodiment, each empty can conveying branch line 20 is provided with a vacancy monitoring mechanism, the vacancy monitoring mechanism is used for detecting whether a vacancy exists on the empty can conveying branch line 20, the connection part of each empty can conveying branch line 20 and each empty can conveying bus 10 is provided with an empty can in-place monitoring mechanism and an empty can pushing mechanism, the empty can in-place monitoring mechanism is used for detecting whether a packaging can on the empty can conveying bus 10 reaches the connection part of the empty can conveying branch line 20, and the empty can pushing mechanism pushes the packaging can on the empty can conveying bus 10 to the empty can conveying branch line 20; the empty can conveying branch line 20 keeps the trend that the packaging cans on the empty can conveying branch line are conveyed to the tail end of the empty can conveying branch line 20 from the starting end, the vacancy monitoring mechanism is arranged at the starting end of the empty can conveying branch line 20, and the tail end of the empty can conveying branch line 20 is provided with a limiting device for preventing the packaging cans from continuously moving. Empty can carry branch 20 to be sent the end with the packing jar of top continuously, and simultaneously, carry out the vacancy monitoring to the top of empty can carry branch 20, when there is the vacancy, empty can push mechanism then will be located packing jar propelling movement on empty can carry bus 10 to empty can carry branch 20 on, transport every station with empty packing jar, realize full-automatic intelligent benefit jar, seamless joint, and the system is fast, advantages such as efficient, carry whole intelligent management and control and monitoring, according to the quantity and the arranging of packing jar on empty can carry bus 10 and empty can carry branch 20, rationally arrange the benefit jar, in time carry packing jar to empty can carry branch 20 on, stop to appear carrying and block up or the usable phenomenon of no jar.

In the embodiment, the full-tank conveying bus 30 is provided with a bus vacancy monitoring mechanism at the connection position of the full-tank conveying bus 30 and each full-tank conveying branch line 40, and the bus vacancy monitoring mechanism is used for detecting whether a vacancy exists at the connection position of the full-tank conveying bus 30 and the full-tank conveying branch line 40; each full-can branch conveyor line 40 is provided with a blocking pushing mechanism, and the blocking pushing mechanism is used for blocking the packaging cans at the tail end of the full-can branch conveyor line 40 from entering the full-can conveying bus 30 or pushing the packaging cans at the tail end of the full-can branch conveyor line 40 to the full-can conveying bus 30; the full-can branch line 40 maintains the tendency of the cans positioned thereon to be transported from the beginning to the end. Full jar of transport branch line 40 is sent the food packaging jar that the top is full to the end continuously, and simultaneously, carry out the vacancy monitoring to the junction of full jar transport bus 30, when not having the vacancy, it blocks that push mechanism blocks that full jar of transport branch line 40 is terminal food packaging jar gets into full jar transport bus 30, when having the vacancy, it blocks that push mechanism is the terminal food packaging jar of the full jar of transport branch line 40 of propelling movement and gets into full jar transport bus 30, realize full jar of full automatic intelligence and converge, the packing jar that will adorn food is transported away from every station, seamless joint, fast, high efficiency, carry whole intelligent management and control and monitoring, according to transport the quantity and the arranging of packing jar on bus and the station branch line, stop transport blocking phenomenon, production speed and production efficiency have been improved greatly.

In an embodiment, as shown in fig. 3, an empty can loading mechanism is provided at the connection between the front end empty can conveying line 50 and the empty can conveying bus 10, and the empty can loading mechanism is used for blocking a package can located at the tail end of the front end empty can conveying line 50 from entering the empty can conveying bus 10, or pushing the package can located at the tail end of the front end empty can conveying line 50 onto the empty can conveying bus 10, and includes a pushing cylinder 120, a cylinder rod 130 and a pushing head 140, and the pushing head 140 can extend out from the pushing cylinder 120 and the cylinder rod 130 and transversely stretch over the tail end of the front end empty can conveying line 50 to block the package can from entering the empty can conveying bus 10, or extend out from the pushing cylinder 120 and the cylinder rod 130 and eject the package can located at the tail end of the front end empty can conveying line 50 onto the empty can conveying bus 10; the pusher head 140 is provided with an arc-shaped side portion on a side thereof facing the direction of the empty can transport bus 10, the arc-shaped side portion corresponding to a side edge of the bottom of the packaging can.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as illustrative only and not limiting of the invention, but rather the scope of protection is defined by the content of the claims.

Claims (10)

1. An automatic food packaging line is characterized by comprising an empty can conveying bus, an empty can conveying branch line, a full can conveying bus, a full can conveying branch line, a front end empty can conveying line and a rear end full can conveying line; the front-end empty tank conveying line is connected with the initial end of the empty tank conveying bus so as to convey the empty tanks to the empty tank conveying bus one by one; the plurality of empty tank conveying branch lines are respectively connected with the empty tank conveying bus at the initial ends thereof so as to convey the empty tanks on the empty tank conveying bus to the empty tank conveying branch lines; the rear-end full-tank conveying line is connected with the tail end of the full-tank conveying bus so that full tanks are conveyed to the rear-end full-tank conveying line one by one; the full-tank conveying branch lines comprise a plurality of full-tank conveying branch lines, and the tail ends of the full-tank conveying branch lines are respectively connected with the full-tank conveying bus so that full tanks on the full-tank conveying branch lines are respectively conveyed to the full-tank conveying bus; the empty tank conveying bus and the full tank conveying bus are arranged in an upper-lower layered mode; the full tank conveying branch line and the empty tank conveying branch line are consistent in quantity and are arranged in an upper-lower layered mode.

2. An automated food packaging line according to claim 1, further comprising an empty can-on-can area, the front end of the front end empty can transfer line being disposed within the empty can-on-can area.

3. An automated food packaging line according to claim 1, further comprising a weigh sifting device, wherein the end of the rear full can transfer line is connected to the weigh sifting device.

4. An automated food packaging line according to claim 1, including a bus conveyor frame, wherein both the empty and full can conveyor buses are provided on the bus conveyor frame.

5. An automated food packaging line according to claim 1, including a plurality of branch conveyor racks, the full and empty can branch conveyors being arranged on the branch conveyor racks one to one.

6. An automated food packaging line according to claim 5, wherein a food supply line for transporting food to be packaged is provided at a lower level of the branch conveyor rack, said food supply line extending vertically outwardly to connect to an external food production line.

7. The automated food packaging line of claim 6, wherein the full-can branch conveyor line is disposed on an upper level of the branch conveyor rack, the food supply conveyor line is disposed in a middle portion of a lower level of the branch conveyor rack, the empty-can branch conveyor line is disposed on one side of the lower level of the branch conveyor rack, and the food canning station is disposed on the other side of the lower level of the branch conveyor rack.

8. The automated food packaging line of claim 1, wherein each empty can branch conveyor line is provided with a vacancy monitoring mechanism for detecting whether there is a vacancy in the empty can branch conveyor line, the empty can branch conveyor line is provided with an empty can in-place monitoring mechanism and an empty can pushing mechanism at the connection position of the empty can branch conveyor line and each empty can branch conveyor line, the empty can in-place monitoring mechanism is used for detecting whether the packaging cans on the empty can branch conveyor line reach the connection position of the empty can branch conveyor line, and the empty can pushing mechanism pushes the packaging cans on the empty can branch conveyor line to the empty can branch conveyor line; the empty can conveying branch line keeps the trend that the packaging cans positioned on the empty can conveying branch line are conveyed to the tail end of the empty can conveying branch line from the starting end, the vacancy monitoring mechanism is arranged at the starting end of the empty can conveying branch line, and the tail end of the empty can conveying branch line is provided with a limiting device for preventing the packaging cans from continuously moving.

9. An automated food packaging line according to claim 1, wherein the full canister conveyor bus is provided with a bus vacancy monitoring mechanism at the junction with each full canister conveyor branch, the bus vacancy monitoring mechanism being adapted to detect the presence of a vacancy at the junction of the full canister conveyor bus and the full canister conveyor branch; each full can conveying branch line is provided with a blocking pushing mechanism, and the blocking pushing mechanism is used for blocking the packaging cans positioned at the tail ends of the full can conveying branch lines from entering the full can conveying bus or pushing the packaging cans positioned at the tail ends of the full can conveying branch lines to the full can conveying bus; the full can branch line maintains the tendency of the cans positioned thereon to be transported from the beginning to the end.

10. The automated food packaging line of claim 1, wherein an empty can feeding mechanism is provided at the connection of the front end empty can conveyor line and the empty can conveyor bus, the empty can feeding mechanism is used for blocking a packaging can at the tail end of the front end empty can conveyor line from entering the empty can conveyor bus or pushing the packaging can at the tail end of the front end empty can conveyor line onto the empty can conveyor bus, and comprises a pushing cylinder, a cylinder rod and a pushing head, the pushing head can extend out of the tail end of the front end empty can conveyor line under the action of the pushing cylinder and the cylinder rod to block the packaging can from entering the empty can conveyor bus or can extend out of the packaging can at the tail end of the front end empty can conveyor line to be ejected onto the empty can conveyor bus under the action of the pushing cylinder and the cylinder rod; the pushing head is provided with an arc-shaped side part on one side of the pushing head facing to the direction of the empty can conveying bus, and the arc-shaped side part corresponds to the side edge of the bottom of the packaging can.

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