CN211919241U - Integrated packaging assembly line - Google Patents

Abstract

The utility model discloses an integrated packaging assembly line, which relates to the field of assembly lines and comprises an annular frame, a linear conveyer belt, a conveyer belt motor, a curve steel roller and a steel roller motor, wherein the linear conveyer belt, the conveyer belt motor, the curve steel roller and the steel roller motor are arranged on the annular frame; the conveyor belt motor drives the linear conveyor belt to be arranged on the linear part of the annular rack; the steel roller motor drives the curved steel roller to be arranged at the curved part of the annular frame; the annular frame divide into the three-layer, and each layer all is equipped with corresponding linear conveyor, conveyor belt motor, bend steel roll, steel roll motor, and three linear conveyor from top to bottom is fortune material layer one, fortune material layer two and ejection of compact layer respectively, and the annular frame both sides are provided with a plurality of packing tables, and the packing table is located out the material layer and is transported between the material layer two, and the packing table surface inlays and is equipped with a plurality of balls. To the great problem of prior art existence packer intensity of labour, the utility model discloses during the use, accomplish the packing back on the packing table, push away the packing to go out the bed of material and carry to alleviate labourer's manual labor.

Description

Integrated packaging assembly line

Technical Field

The utility model relates to an assembly line field, more specifically says, it relates to an integrative packing assembly line.

Background

The existing logistics enterprises need to package products, and the existing packaging mode is that a packaging belt or a packaging box and the products to be packaged are placed behind the packaging belt or the packaging box; workers stand in front of a conveying belt of the assembly line and package the products one by one, and the packaged products are placed on the assembly line and conveyed to a target place; the method is very traditional, and not only logistics enterprises but also assembled factory enterprises all adopt the method all the time.

For the existing packaging assembly line, for example, chinese patent with patent publication No. CN204957665U, it discloses a three-dimensional integrated packaging assembly line, which includes a frame, a linear conveyer belt, a conveyer belt motor, a curved steel roller, and a steel roller motor, wherein the frame forms a ring shape, the linear conveyer belt, the conveyer belt motor, the curved steel roller, and the steel roller motor are all installed on the frame, the conveyer belt motor drives the linear conveyer belt to be installed on the linear part of the frame, and the steel roller motor drives the curved steel roller to be installed on the curved part of the frame; the frame is divided into three layers, each layer is provided with a corresponding linear conveying belt, a conveying belt motor, a curve steel roller and a steel roller motor, and the running speeds of the layers are the same.

When the patent is used, the packing personnel thereby get the packing carton on the fortune bed of material one to go out the bed of material and get the product, pack the good back, put into the fortune bed of material two. After the product is packaged, the packaged product needs to be lifted and placed on the second material conveying layer, so that the physical labor of a packaging worker is increased, and the defects to be improved in the prior art exist.

SUMMERY OF THE UTILITY MODEL

There is the great problem of packer intensity of labour to prior art, the utility model aims at providing an integrative packing assembly line, it has the advantage that alleviates packing worker intensity of labour.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the integrated packaging assembly line comprises an annular rack, and a linear conveying belt, a conveying belt motor, a bent steel roller and a steel roller motor which are arranged on the annular rack; the conveyor belt motor drives the linear conveyor belt to be mounted on the linear part of the annular rack; the steel roller motor drives a bent steel roller to be arranged at the bent part of the annular frame; the annular frame divide into two-layerly, and each layer all is equipped with corresponding linear conveyor belt, conveyor belt motor, bend steel roller, steel roller motor, two linear conveyor belt is from top to bottom respectively for transporting material layer one, transporting material layer two, two below in the transporting material layer are provided with the ejection of compact layers that are used for transporting out the packaged product, the annular frame both sides are provided with a plurality of packing tables, the working surface of packing table is located the ejection of compact layer with between the transporting material layer two, the packing table surface inlays and is equipped with a plurality of balls.

According to the technical scheme, when the packaging machine is used, the packaging box and the product are taken down from the first material conveying layer and the second material conveying layer respectively, packaging is carried out on the packaging table, after packaging is completed, the packaged product is pushed down from the packaging table, falls onto the material discharging layer and is conveyed out through the material discharging layer, and therefore loading of workers is facilitated; through setting up the packing platform in ring frame one side, after accomplishing the packing, need not to take up the product after packing, directly with its one side from the packing platform push away to the play bed of material on, the work plane that is provided with the ball can reduce the required power of promotion product by a wide margin, and the product drops and carries away at the play bed of material. Compared with the existing packaging assembly line, a packer does not need to carry products after packaging the products, the packaged products can be pushed into the discharging layer in a labor-saving manner through the workbench with the free balls, and the labor intensity of the packer is effectively reduced; the first material conveying layer and the second material conveying layer are arranged above the upper packaging table, compared with the existing packaging assembly line, workers respectively take the packaging boxes and the products from the uppermost layer and the lowermost layer, and only the packaging boxes and the products need to be taken by the workers from the upper side during packaging, so that the processing procedure is optimized, and the packaging efficiency is improved.

Furthermore, a plurality of support rods are fixed on the packaging table, and one ends of the support rods, which are far away from the packaging table, are rotatably connected with universal wheels.

Through above-mentioned technical scheme, set up the position that the universal wheel is convenient for remove the packing cover to the position of adjustment packing table for the frame also can set up the station of different quantity according to actual construction conditions, increases the practicality.

Furthermore, one end of the support rod, which is far away from the packaging table, is rotatably connected with a brake pad.

Through above-mentioned technical scheme, with the position adjustment back of package post, rotate the brake block, the brake block lateral wall supports with universal wheel lateral wall to avoid the change of package post position, promote the stability of mobilizable package post when using.

Furthermore, two sides of the annular rack are straight line parts, and two ends of the annular rack are arc-shaped; the conveyor belt motor drives the linear conveyor belt to be installed on the linear portions on the two sides of the annular rack.

Through the technical scheme, the circular arc section of the annular frame adopts the bent steel roller to convey objects, and the straight line section adopts the linear conveying belt to convey the objects.

Furthermore, the material discharging layer is a conveying device with the same structure as the first material conveying layer and the second material conveying layer.

Through above-mentioned technical scheme, the good product of packing is after falling into ejection of compact layer conveyer belt, by linear conveyor and bend steel roller transport to ejection of compact position, takes off by the fortune material workman.

Furthermore, the discharging layer is obliquely laid by adopting an unpowered fluent strip inclined slide rail.

Through above-mentioned technical scheme, adopt unpowered fluent strip inclined slide rail slope to lay out the bed of material, need not motor drive, utilize the landing of product self gravity after the packing, reduce the energy consumption.

Furthermore, an upper cargo area is arranged at one end of the annular rack of the first material conveying layer and the second material conveying layer; and a goods receiving area is arranged at the outlet of the material discharging layer.

Through above-mentioned technical scheme, the district of getting in stock is used for supplementing packing carton and product, and the district of receiving goods is used for collecting the product after the packing, carries out the loading transportation.

Furthermore, the first material conveying layer and the second material conveying layer are both circulating conveying belts.

Through the technical scheme, when the packaging box is used, the packaging box and the product which are not used up rotate circularly until all the packaging box and the product are completely loaded.

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

(1) the material conveying layer is arranged below the material conveying layer I and the material conveying layer II, a packaging table for packaging operation is arranged between the material conveying layer II and the material conveying layer, processing procedures are optimized, a worker only needs to take a product and a packaging box from the upper side of the packaging table in the packaging process, the packaging box and the product do not need to be taken back and forth from top to bottom, the packaging efficiency of the worker is improved, meanwhile, the product can be directly pushed onto the material conveying layer below the packaging table after being packaged, the friction resistance is greatly reduced through balls on the packaging table, the product does not need to be taken up again by the packaging worker, and the labor intensity of the worker is reduced while the packaging efficiency is improved;

(2) the bend steel roller is arranged to be conical, so that the objects are effectively prevented from flying away from the bend due to centrifugation when being conveyed on the bend steel roller;

(3) the material discharging layer is paved by adopting the unpowered fluency strip inclined slide rail, and the self gravity of the packaged product is utilized for conveying, so that the energy consumption is reduced.

Drawings

FIG. 1 is a schematic overall structure diagram of the first embodiment;

FIG. 2 is a schematic view of the overall structure of the packaging station;

fig. 3 is a schematic view of the overall structure of the second embodiment (the packaging station is omitted).

Reference numerals: 1. an annular frame; 2. a linear conveyor belt; 3. a conveyor belt motor; 4. a curved steel roller; 5. a steel roll motor; 6. a first material conveying layer; 7. a second material conveying layer; 8. discharging a material layer; 9. a packaging table; 10. a support bar; 11. a universal wheel; 12. a brake pad; 13. a loading area; 14. a receiving area; 15. and a ball.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following provides a further detailed description of the present invention with reference to the following embodiments and accompanying drawings, but the embodiments of the present invention are not limited thereto.

The first embodiment is as follows:

as shown in fig. 1, the integrated packaging assembly line comprises an annular frame 1, a linear conveyer belt 2, a conveyer belt motor 3, a curve steel roller 4 and a steel roller motor 5 which are arranged on the annular frame 1; the conveyor belt motor 3 drives the linear conveyor belt 2 to be arranged on the linear part of the annular rack 1 and is used for driving articles to be conveyed on two sides of the annular rack 1; a steel roller motor 5 drives a curved steel roller 4 to be arranged at the curved part of the annular frame 1 and is used for conveying articles at two ends of the annular frame 1; the annular rack 1 is divided into two layers, each layer is provided with a corresponding linear conveyer belt 2, a conveyer belt motor 3, a bend steel roller 4 and a steel roller motor 5, the rotating speeds of the three linear conveyer belts 2 are the same, and the three linear conveyer belts are respectively a first material conveying layer 6 and a second material conveying layer 7 from top to bottom, the first material conveying layer 6 is used for conveying packing boxes, and the first material conveying layer 6 has larger space and can be used for conveying packing boxes with different sizes; the second material conveying layer 7 is used for conveying products; a discharging layer 8 for transporting the packaged products is arranged below the second material conveying layer 7, and the discharging layer 8 is used for conveying the packaged products. The first material conveying layer 6 and the second material conveying layer 7 are both circular conveying belts, and useless packing boxes and products can rotate circularly until all the packing boxes and the products are used up.

As shown in fig. 1 and 2, a plurality of packing tables 9 are horizontally arranged on the circumferential side of the ring-shaped frame 1, and the height of each packing table 9 is between the height of the discharging layer 8 and the height of the second material conveying layer 7. During the use, take off packing carton and product to packing stage 9 from fortune material layer one 6 and fortune material layer two 7 respectively, pack the back, with the good product of packing push down from packing stage 9, drop and carry on ejection of compact layer 8 to alleviate labourer's manual labor. A plurality of balls 15 are embedded in the surface of the packaging table 9, so that packaged products can be conveniently pushed onto the material discharging layer 8 from the packaging table 9.

A plurality of cylindrical support rods 10 are fixed on the packaging table 9, the number of the support rods 10 is preferably four, one end, far away from the packaging table 9, of each support rod 10 is rotatably connected with a universal wheel 11, and one end, far away from the packaging table 9, of each support rod 10 is rotatably connected with a brake pad 12. When the packaging table is used, the packaging table 9 is pushed to a required position by the universal wheels 11, and then the brake pads 12 are stepped on, so that the brake pads 12 are abutted against the universal wheels 11, the universal wheels 11 are prevented from rotating, and the position of the packaging table 9 is fixed.

The two sides of the annular rack 1 are straight line parts, the two ends of the annular rack are arc-shaped, the conveyor belt motor 3 drives the straight line conveyor belt 2 to be installed on the straight line parts on the two sides of the annular rack 1, the curve steel roller 4 is in a conical shape, one end of the curve steel roller close to the inner side is a thin end, the other end of the curve steel roller is a thick end, and when products or packaging boxes are conveyed on the curve steel roller 4, the products or the packaging boxes can incline to the inner side, so that centrifugal flying out.

The discharging layer 8 is arranged to be a circulating conveyor belt structure which is the same as the first conveying layer 6 and the second conveying layer 7 in structure.

An upper goods area 13 is arranged at one end of the annular rack 1 of the first material conveying layer 6 and the second material conveying layer 7, and the upper goods area 13 is used for supplementing the packing boxes of the first material conveying layer 6 and products on the second material conveying layer 7; one end of the material discharging layer 8 in the conveying direction is provided with a goods receiving area 14, and packaged products fall on the material discharging layer 8 and are conveyed to the goods receiving area 14 for loading and outputting.

The working principle and the beneficial effects of the embodiment are as follows:

the utility model discloses during operation, product and packing carton are placed respectively to fortune material layer one 6 and fortune material layer two 7, and the packing carton is taken off to the packer and the product carries out the joint sealing, and after the joint sealing was accomplished, the product after will packing pushed down from the packing table 9, and the product after the packing drops to ejection of compact layer 8, is carried to receiving goods district 14 by ejection of compact layer 8, is piled up the loading car by workman's sign indicating number at last.

When the utility model is used, no matter products or packages are needed, the products are supplied in different points, and only one product is required to be delivered to the goods feeding area 13, the goods are uniformly fed from the goods feeding area 13, all packing personnel stand on the production line, take the packing box from the top layer, take the products from the second material conveying layer 7, push the products from the packing table 9 after being packed, drop the products to the discharging layer 8 and convey the products to the goods receiving area 14, thereby effectively reducing the physical labor of the packing personnel; the first material conveying layer 6 and the second material discharging layer 8 are circulating conveyor belts, and the packaging boxes and the products which are not used up rotate circularly until all the packaging boxes and the products are completely loaded.

Example two:

as shown in fig. 3, the difference between the integrated packaging line and the first embodiment is that the discharging layer 8 is an unpowered fluent strip inclined slide rail, and when in use, packaged products are pushed to drop from the packaging table 9 onto the discharging layer 8, slide to the lower end of the discharging layer 8 by using the self gravity of the products, move to the receiving area 14, and finally are stacked and loaded by workers.

The working principle and the beneficial effects of the embodiment are as follows: the product is moved to the goods receiving area 14 by the self gravity of the product, and the external drive can not be realized, so that the energy consumption is reduced.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. An organic whole packing assembly line, including annular frame (1), install sharp conveyer belt (2) and bend steel roller (4) on annular frame (1), annular frame (1) divide into two-layerly, and every layer all is equipped with corresponding sharp conveyer belt (2), bend steel roller (4), its characterized in that, two sharp conveyer belt (2) from top to bottom is fortune material layer one (6), fortune material layer two (7) respectively, fortune material layer two (7) below is provided with play material layer (8) that are used for transporting the good product of packing, annular frame (1) both sides are provided with a plurality of packing tables (9), the working surface of packing table (9) is located go out material layer (8) with between the fortune material layer two (7), packing table (9) surface inlays and is equipped with a plurality of ball (15).

2. The integrated packaging production line of claim 1, wherein a plurality of support rods (10) are fixed on the packaging table (9), and universal wheels (11) are rotatably connected to one ends of the support rods (10) far away from the packaging table (9).

3. The integrated packaging line of claim 2, characterized in that the end of the support bar (10) remote from the packaging table (9) is rotatably connected with a brake pad (12).

4. The integrated packaging line according to claim 1, characterized in that the two sides of the ring-shaped frame (1) are straight line portions, and the two ends are arc-shaped; the linear conveying belt (2) is arranged on the linear parts on two sides of the annular rack (1).

5. The integrated packaging line according to claim 1, characterized in that the outfeed layer (8) is an endless conveyor of the same configuration as the first (6) and second (7) conveyor layers.

6. The integrated packaging line of claim 1, wherein the discharging layer (8) is laid obliquely by using an unpowered fluent strip inclined slide rail.

7. The integrated packaging line according to claim 1, characterized in that the first (6) and second (7) layers are provided with an upper cargo area (13) at one end of the ring frame (1); and a goods receiving area (14) is arranged at the outlet of the material discharging layer (8).

8. The integrated packaging line according to claim 3, 4, 5, 6 or 7, characterized in that the first conveyor layer (6) and the second conveyor layer (7) are both endless conveyor belts.

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