CN221273741U - Sorting and packaging system - Google Patents

Abstract

The utility model relates to a sorting and packaging system, comprising: the automatic packaging machine comprises an upper conveying line, a lower conveying line and a lifting transfer mechanism, wherein the lifting transfer mechanism is arranged at the front end of the upper conveying line, the lifting transfer mechanism is used for transferring a material box sent by the lower conveying line to the upper conveying line, a feeding area and a packaging area are arranged on one side of the upper conveying line, a feeding assembly arranged at a plurality of intervals is arranged in the feeding area, a first code scanning mechanism is arranged at the front end of the feeding area, a plurality of packaging platforms are arranged in the packaging area, a buffer assembly is arranged on one side of each packaging platform, a pushing assembly is further arranged on one side of each buffer assembly, and the pushing assemblies and the buffer assemblies are respectively arranged on two sides of the upper conveying line. The system is favorable for rapidly taking out required products from the storage bin and putting the products into corresponding boxes for packaging.

Description

Sorting and packaging system

Technical Field

The utility model relates to the field of sorting packaging, in particular to a sorting packaging system.

Background

The product needs to be packaged in the production process. Firstly, it is necessary to take out a product corresponding to the pack from the magazine, then place the product of this type in the pack, and finally pack the pack. Because the variety of the products placed on the bin is more, how to take out the required products from the bin quickly and put the products into corresponding packaging boxes for packaging becomes a problem to be solved.

Disclosure of utility model

Based on this, a sort package system is provided. The system is favorable for rapidly taking out required products from the storage bin and putting the products into corresponding packaging boxes for packaging.

A sortation packaging system, comprising:

The lifting transfer mechanism is arranged at the front end of the upper layer conveying line and is used for transferring the material boxes sent by the lower layer conveying line to the upper layer conveying line,

A feeding area and a packaging area are arranged on one side of the upper conveying line, a plurality of feeding components are arranged in the feeding area at intervals, a first code scanning mechanism is arranged at the front end of the feeding area, a plurality of packaging platforms are arranged in the packaging area, a buffer component is arranged on one side of each packaging platform,

The upper layer conveying line is provided with a carrier plate assembly, the carrier plate assembly comprises a bottom plate, a supporting frame, a limiting frame, a lifting cylinder and a supporting plate, the supporting frame is arranged on the bottom plate, the top surface of the supporting frame is provided with the limiting frame, the supporting frame is provided with the lifting cylinder, the supporting frame is provided with a plurality of linear bearings, the supporting plate is connected with the lifting cylinder, the lower end of the supporting plate is also provided with a plurality of guide rods, each guide rod is matched with the corresponding linear bearing,

One side of each buffer storage component is also provided with a pushing component, and the pushing components and the buffer storage components are respectively positioned at two sides of the upper conveying line.

In one embodiment, a plurality of blocking cylinders are further arranged at the upper layer conveying assemblies corresponding to the packaging areas.

In one embodiment, a plurality of blocking cylinders are arranged at the lower conveying assembly corresponding to the packaging area.

In one embodiment, the pushing assembly comprises a mounting frame, and a pushing cylinder is arranged on the mounting frame and connected with the pushing plate.

In one embodiment, the packaging platform is provided with a second code scanning mechanism.

In one embodiment, the feeding assembly comprises two bins arranged at intervals, a plurality of storage positions are arranged in the bins, and a material taking manipulator is arranged between the two bins.

In one embodiment, a display and an alarm are also provided on the bin.

In one embodiment, the lifting and transferring mechanism comprises a lifting assembly and a transferring and conveying assembly mounted on the lifting assembly.

The beneficial effects of the application are as follows:

The carrier plate assembly on the upper conveying line is used for placing the material box, the material box is provided with the label, in the conveying process of the material box, the label of the material box is scanned by the first code scanning mechanism to bind the material box with an order, then the upper conveying line conveys the material box to the corresponding feeding assembly, the feeding assembly places a product on the order in the material box, then the material box is conveyed to the cache assembly of the packaging area, then an operator takes out the material box at the cache assembly, takes out the product of the material box, packages the product on the packaging table, namely, places the product in the corresponding packaging box, and packages the packaging box. And the operator puts the empty material box on the lower conveying line for conveying and refluxing, and the empty material box is conveyed to the carrier plate assembly on the upper conveying line again through the lifting and transferring mechanism. The operation process is rapid and convenient, efficient and accurate.

In addition, the second type code scanning mechanism is arranged on the packaging table, and an operator can firstly scan codes of the material boxes when packaging is carried out, so that binding of the material boxes and which order is carried out is confirmed, and the operator can be prevented from taking the material boxes corresponding to other orders for packaging.

The bin is also provided with a display and an alarm, the quantity of products in the bin can be displayed on the display in real time, and when certain products in the bin are taken out, the alarm can give an alarm. Thus being convenient for timely feeding the bin.

Drawings

Fig. 1 is a schematic view of a sortation packaging system in accordance with an embodiment of the present application.

Fig. 2 is an enlarged view of region a of fig. 1.

Fig. 3 is a schematic view of a carrier assembly according to an embodiment of the application.

Fig. 4 is a schematic view of a cushioning assembly and a packaging platform according to an embodiment of the present application.

Fig. 5 is a schematic view of a pushing assembly according to an embodiment of the present application.

FIG. 6 is a schematic diagram of a feed assembly according to an embodiment of the application.

Fig. 7 is a schematic view of a lifting and transferring mechanism according to an embodiment of the present application.

Wherein:

110. An upper layer conveying line; 120. a lower layer conveying line; 130. a lifting and transferring mechanism; 140. a feed assembly;

131. A lifting assembly; 132. A transfer delivery assembly;

141. a material taking manipulator; 142. A storage bin; 143. A display;

150. A feed zone; 160. a packaging area; 170. a packaging platform; 180. a cache component;

191. A bottom plate; 192. a support frame; 193. a limiting frame; 194. a support plate; 195. a lifting cylinder; 196. a linear bearing; 197. a guide rod; 198. a material box;

200. Blocking the cylinder;

210. A pushing component;

211. a mounting frame; 212. a pushing cylinder; 213. and (5) pushing the material plate.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

As shown in fig. 1, an embodiment of the present application provides a sort package system comprising: the upper conveying line 110, the lower conveying line 120 and the lifting transfer mechanism 130, wherein the lifting transfer mechanism 130 is arranged at the front end of the upper conveying line 110, and the lifting transfer mechanism 130 is used for transferring the material boxes 198 sent by the lower conveying line 120 to the upper conveying line 110. Both the conveyor lines and the lower conveyor line 120 may use existing motor driven conveyor lines.

As shown in fig. 1 to 3, a feeding area 150 and a packaging area 160 are disposed on one side of the upper conveying line 110, a plurality of feeding assemblies 140 disposed at intervals are disposed in the feeding area 150, a first type code scanning mechanism is disposed at the front end of the feeding area 150, a plurality of packaging platforms 170 are disposed in the packaging area 160, a buffer assembly 180 is disposed on one side of each packaging platform 170, and the buffer assembly 180 may be a roller conveying line disposed obliquely. The upper conveying line 110 is provided with a carrier plate assembly, the carrier plate assembly comprises a bottom plate 191, a supporting frame 192, a limiting frame 193, a lifting cylinder 195 and a supporting plate 194, the supporting frame 192 is arranged on the bottom plate 191, the top surface of the supporting frame 192 is provided with the limiting frame 193, the supporting frame 192 is provided with the lifting cylinder 195, the supporting frame 192 is provided with a plurality of linear bearings 196, the supporting plate 194 is connected with the lifting cylinder 195, the lower end of the supporting plate 194 is further provided with a plurality of guide rods 197, each guide rod 197 is matched with the corresponding linear bearing 196, one side of each buffer assembly 180 is further provided with a pushing assembly 210, and the pushing assembly 210 and the buffer assembly 180 are respectively located on two sides of the upper conveying line 110.

Specifically, the material box 198 is placed on the supporting plate 194, the lifting cylinder 195 descends to drive the supporting plate 194 to descend, and after the supporting plate 194 descends, the material box 198 is limited by the limiting frame 193. The labels on the material boxes 198 are scanned by a first type of scanning mechanism, and the codes of the material boxes 198 are bound with orders. Next, according to the order information, the upper conveyor line 110 conveys the material box 198 to the corresponding feeding assembly 140, and the corresponding product is placed in the material box 198 through the feeding assembly 140. The upper conveyor line 110 then conveys the magazine 198 to the packing area 160 and pushes the magazine 198 through the pusher assembly 210 to the buffer assembly 180. The operator removes the magazine 198 from the buffer assembly 180, removes and packages the product from the magazine 198, and places the empty magazine 198 in the lower conveyor line 120 for delivery. The empty material cassette 198 is returned to the carrier plate assembly on the upper conveyor line 110 under the transport of the lifting and transporting mechanism 130. Specifically, the lifting and transferring mechanism 130 includes a lifting assembly 131 and a transferring and conveying assembly 132 mounted on the lifting assembly 131, the lifting assembly 131 may be composed of an air cylinder, etc., and the transferring and conveying assembly 132 may be composed of a synchronous belt conveying mechanism.

On the basis of the above, in one embodiment, the second code scanning mechanism is disposed on the packaging platform 170. In this way, when an operator performs packaging, the operator can firstly sweep the code of the material box 198, confirm whether the order bound by the material box 198 is the order which needs to be processed by himself, and if not, the operator does not process the material box 198, and transfer the material box 198 to the corresponding other operators for processing.

In one embodiment, as shown in fig. 2, a plurality of blocking cylinders 200 are further disposed at the upper layer conveying assemblies corresponding to the packaging areas 160. For example, at a position corresponding to each pushing assembly 210, a blocking cylinder 200 may be provided, where the blocking cylinder 200 is used to block the carrier plate assembly, for example, the bottom plate 191 of the carrier plate assembly may be blocked. This allows the carrier plate assembly to be positioned at the pusher assembly 210.

In one embodiment, a plurality of blocking cylinders 200 are disposed at the lower conveying assembly corresponding to the packaging area 160.

In one embodiment, as shown in fig. 5, the pushing assembly 210 includes a mounting frame 211, and a pushing cylinder 212 is disposed on the mounting frame 211, where the pushing cylinder 212 is connected to a pushing plate 213. Corresponding guide mechanisms may also be provided.

Specifically, the pushing cylinder 212 is used to drive the pushing plate 213 to perform telescopic motion. When the material box 198 needs to be pushed, the lifting cylinder 195 lifts the supporting plate 194, so that the material box 198 is not limited by the limiting frame 193, and at this time, after the material pushing plate 213 extends out, the material box 198 can be aligned into the buffer assembly 180.

In one embodiment, as shown in fig. 6, the feeding assembly 140 includes two bins 142 disposed at intervals, a plurality of storage levels are disposed in the bins 142, and a material taking manipulator 141 is disposed between the two bins 142.

Specifically, after the first type of code scanning mechanism scans codes, the codes of the material boxes 198 are bound with orders, the material boxes 198 are conveyed to the corresponding material feeding assemblies 140, and then the material taking manipulators 141 of the material feeding assemblies 140 take out the products in the corresponding material bins 142 and place the products in the material boxes 198. Further, a sensor may be provided at each storage level to count the products.

In one embodiment, the bin 142 is further provided with a display 143 and an alarm. The display 143 is used to display the number of each product in the bin 142. The alarm is used to alarm when the quantity of a certain product in the bin 142 is 0.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (8)

1. A sortation packaging system, comprising: the lifting transfer mechanism is arranged at the front end of the upper layer conveying line and is used for transferring the material boxes sent by the lower layer conveying line to the upper layer conveying line,

A feeding area and a packaging area are arranged on one side of the upper conveying line, a plurality of feeding components are arranged in the feeding area at intervals, a first code scanning mechanism is arranged at the front end of the feeding area, a plurality of packaging platforms are arranged in the packaging area, a buffer component is arranged on one side of each packaging platform,

The upper layer conveying line is provided with a carrier plate assembly, the carrier plate assembly comprises a bottom plate, a supporting frame, a limiting frame, a lifting cylinder and a supporting plate, the supporting frame is arranged on the bottom plate, the top surface of the supporting frame is provided with the limiting frame, the supporting frame is provided with the lifting cylinder, the supporting frame is provided with a plurality of linear bearings, the supporting plate is connected with the lifting cylinder, the lower end of the supporting plate is also provided with a plurality of guide rods, each guide rod is matched with the corresponding linear bearing,

One side of each buffer storage component is also provided with a pushing component, and the pushing components and the buffer storage components are respectively positioned at two sides of the upper conveying line.

2. The sortation packaging system as recited in claim 1 wherein a plurality of blocking cylinders are also provided at corresponding upper conveyor assemblies of said packaging area.

3. The sortation packaging system as recited in claim 1 wherein a plurality of blocking cylinders are disposed at respective ones of said lower conveyor assemblies of said packaging area.

4. The sortation packaging system as recited in claim 1 wherein said pusher assembly includes a mounting bracket having a pusher cylinder disposed thereon, said pusher cylinder being connected to a pusher plate.

5. The sortation packaging system as recited in claim 1 wherein said packaging platform is provided with a second type code scanning mechanism.

6. The sortation packaging system of claim 1, wherein said feed assembly includes two bins disposed in spaced relation, a plurality of storage locations being disposed within said bins, and a pick-up robot being disposed between said two bins.

7. The sortation packaging system of claim 6, wherein said bin is further provided with a display and an alarm.

8. The sortation packaging system of claim 1, wherein said elevation transport mechanism comprises an elevation assembly and a transport conveyor assembly mounted on the elevation assembly.