CN213123074U - Agricultural product sales exhibition system based on commodity classification - Google Patents

Abstract

The utility model relates to an agricultural product exhibition and sales system based on commodity classification, include: the shooting equipment and the electronic scale are arranged in the commodity classification and goods handling area; the three-dimensional commodity sorting goods shelf system and the sorting equipment are arranged in the warehouse area; the packaging machine is arranged in the logistics area and used for packaging the commodities ordered by the customer; and a network server. The utility model discloses not only satisfy the quick distribution of big batch commodity, still provide semi-real-time commodity shopping guide for each batch commodity and purchase the show, realize high-efficient and good sale and shopping experience.

Description

Agricultural product sales exhibition system based on commodity classification

Technical Field

The utility model relates to an agricultural product exhibition and sales system based on commodity classification.

Background

Online shopping or online remote shopping has become a part of people's daily life. Different from common commodities such as clothes and electronic products, the freshness characteristic of agricultural products requires that the time from ordering to delivering to a customer is as short as possible, the customer needs to know the freshness of the products, and a single default photo or video cannot reflect the freshness of each batch of agricultural products in real time in the process of sales and exhibition. The bulk nature of the produce results in the need for tallying and sorting, which is inefficient with conventional manual sorting and article identification. Furthermore, it has become a challenge how to achieve fast distribution and non-blocking of merchandise display data transmission during, for example, peak online shopping hours.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an agricultural product exhibition and sales system based on commodity classification not only satisfies the quick distribution of big batch commodity, still provides semi-real-time commodity shopping guide show for each batch commodity, realizes high-efficient and good sale and shopping experience.

The technical scheme of the utility model be an agricultural product exhibition and sales system based on commodity classification, it includes: the shooting equipment and the electronic scale are arranged in the commodity classification and goods handling area; the three-dimensional commodity sorting goods shelf system and the sorting equipment are arranged in the warehouse area; the packaging machine is arranged in the logistics area and used for packaging the commodities ordered by the customer; and a network server configured to provide picture or video data of one or more kinds of goods among the plurality of kinds of goods photographed by the goods sorting area to one or more client terminals to realize goods sales and sales in the stereoscopic goods sorting shelf system.

Further, the plurality of types of commodities comprise fresh commodities and non-fresh commodities, and the non-fresh commodities comprise non-standard commodities and standard commodities. In the cargo area, the photographing device is configured to photograph each group of fresh or non-standard goods from one or more angles and transmit image and/or video data to the server. In the goods-handling area, the electronic scale is configured to weigh the fresh goods or non-standard goods of each group and transmit the weighing data and the goods identification data to the server. The server directly stores default pictures or videos of the standard commodities for being associated with the standard commodities after tallying. In the goods storage area and the warehouse area, each group of commodities is carried by a material tray or a material basket with preset specifications.

Further, the shooting equipment comprises one or more cameras which are annularly arranged above the electronic scale, and the cameras are allowed to move along an annular track in the process of shooting the commodity so as to acquire images or videos of the commodity at one or more angles. Or the system also comprises a turntable, wherein the turntable is used for driving the commodity to rotate relative to the shooting equipment, so that the shooting equipment can acquire images or videos of the commodity at one or more angles.

Further, the commodity classification-based agricultural product exhibition and sale system further comprises: the gantry type mechanical arm is used for carrying agricultural products in the raw material area and carrying a material tray or a material basket.

Further, the commodity classification-based agricultural product exhibition and sale system further comprises air conditioning equipment arranged in the goods storage area and the warehouse goods area and used for providing a constant temperature environment for commodities.

Further, the three-dimensional commodity sorting shelf system comprises: at least one group of bin frames and a lifting and carrying device arranged between the bin frames. Each group of bin frames comprises a plurality of bin positions which are arranged in an array mode in the height direction and the horizontal direction, and each bin position is used for containing a material tray or a material basket. The lifting and carrying device comprises a transverse translation mechanism arranged above the bin frame, a linear lifting mechanism arranged downwards from the transverse translation mechanism, and a material basket moving mechanism driven by the linear lifting mechanism. The material basket tray moving mechanism enables the material tray or the material basket to move towards the bin frame in a direction which is basically vertical to the moving direction of the transverse translation mechanism on the bin frame.

Further, three-dimensional commodity letter sorting goods shelves system still include: a water tank for storing fresh and alive aquatic products.

The utility model has the advantages that:

the problems of the prior art are overcome, and an improved commodity classification-based agricultural product exhibition and sale system and method are provided; the client can track semi-real-time pictures, videos and the like of fresh products in a fresh state, and the data transmission flow of pictures or videos shot again in the online shopping peak can be reduced; the mode of sorting, weighing and pricing is adopted in advance, so that the goods distribution efficiency is improved, and the condition that goods are insufficient at the sale peak can be avoided; sorting and processing in batches according to the characteristics of the agricultural products, and simultaneously, storing by using a three-dimensional shelf to improve the distribution capacity; provides a dragon efficient solution for goods selection display, pricing, settlement and distribution.

Drawings

Fig. 1 is a schematic block diagram of an agricultural product sales and display system based on commodity classification according to the present invention.

Fig. 2 shows a diagram of the operation of a system according to the invention.

Fig. 3 is a schematic diagram of a client terminal screen according to an embodiment of the present invention.

Fig. 4 is a top view of an agricultural product display and distribution system in accordance with an embodiment of the present invention.

Fig. 5 is a schematic diagram of a shooting device and an electronic scale of an agricultural product sales and display system according to an embodiment of the present invention.

Fig. 6 is a schematic diagram of a vertical article sorting rack in an embodiment of the system according to the present invention.

Fig. 7 is a schematic diagram of a three-dimensional article sorting rack in another embodiment of the system according to the present invention.

Detailed Description

The conception, specific structure and technical effects of the present invention will be described clearly and completely with reference to the accompanying drawings and embodiments, so as to fully understand the objects, aspects and effects of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly fixed or connected to the other feature or indirectly fixed or connected to the other feature. Furthermore, the description of the upper, lower, left, right, etc. used in the present invention is only relative to the mutual positional relationship of the components of the present invention in the drawings. As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any combination of one or more of the associated listed items.

Referring to fig. 1 to 5, the agricultural product exhibition and sale system according to the present invention sorts of agricultural products in the raw material area, and sorts, stores, sorts, packages and delivers the products. The types of agricultural products or commodities herein generally include fresh commodities (e.g., live fish, live shrimp, shells, etc.) and non-fresh commodities. Non-live goods include non-standard goods (e.g., eggs, slaughtered pork, chicken, picked vegetables and fruits, etc.) and standard goods (e.g., a given weight of bottled sauce, a given weight of bagged rice, etc.).

Continuing to refer to fig. 1, from the agricultural product collection source to the commodity shipment, according to the utility model discloses an agricultural product exhibition and sales system covers tallying district 100, warehouse go, packing district 300 and commodity circulation district 400, the system includes: a photographing apparatus 120 and an electronic scale 130 provided in the goods sorting and sorting area 100; a three-dimensional commodity sorting shelf system and sorting equipment arranged in the warehouse area 200; and the packing machine 310 is arranged in the logistics area 400 and is used for packing the commodities ordered by the customer. The cargo area 100 and the warehouse area 200 are also equipped with air conditioning equipment for providing, for example, a constant temperature storage environment for the commodities. The system further includes a network server located locally or remotely, the network server being configured to provide picture or video data of one or more kinds of goods among the plurality of kinds of goods photographed by the goods management area 100 to one or more client terminals to implement goods exhibition and sale in the stereoscopic goods sorting shelf system.

Further, in the cargo area 100, the photographing device 120 is configured to photograph the goods from one or more angles. Referring to fig. 5, the photographing apparatus 120 includes a plurality of cameras 121 annularly disposed above the electronic scales 130 to capture images or videos of the goods at a plurality of angles, and then to perform splicing to realize full-angle display of the goods. The camera 121 can also be allowed to continuously move along a circular track in the process of shooting the commodity so as to acquire images or videos of the commodity at multiple angles, and the commodity can be displayed at a full angle. The image and/or video data captured by the camera 121 is then transmitted to the server and associated with the corresponding captured article. Further, in an embodiment not shown in the drawings, the photographing apparatus 120 may be fixedly provided and then the article may be rotated by the turntable, thereby enabling the photographing apparatus 120 to photograph a plurality of angles of the article.

To improve the efficiency of distribution, the pictures/videos may be weighed, captured, and associated in different ways depending on the agricultural product or commodity from which the agricultural product is classified. Referring to fig. 2, the electronic scales 130 are configured to weigh each group of fresh goods or non-standard goods carried by the material tray 215 or the material basket 218 and transmit weighing data and goods identification data to the server. The standard goods are known in weight and do not change much in appearance, so that the goods can be displayed by using pictures/videos ready in a server database, and therefore the pictures/videos are not required to be weighed and shot repeatedly during the process of picking up the goods. The standard goods and the weighed and photographed fresh goods and non-standard goods are then identified, for example, bar code labels are distributed, and the real-time record and update are carried out in the server, and then the goods are placed on the stereoscopic goods sorting shelf of the warehouse area 200 by the sorting machine. Due to the fact that the weighing and storage are carried out in the mode that the tray (basket) is in a group, when goods are delivered, the goods in the whole tray (basket) are directly packaged and delivered, and the goods sorting and delivering efficiency is high.

With continued reference to fig. 2, the process of the server and client terminal sales interaction is as follows: providing picture or video data of the goods to one or more client terminals through a network server; tracking the client order placing operation data of the one or more client terminals through the network server, and confirming order payment; packing and delivering the order-related commodities from the stereoscopic commodity sorting shelf of the warehousing area 200; the goods are tracked from the weighing stage to the position of logistics distribution to the client device through the network server, and logistics and order state data are fed back to the client terminal. The client may be a mobile device or a personal computer.

In one embodiment, a client screen UI is shown in FIG. 3, which includes a goods selection bar control, a goods view control, a goods order data display control, and an input control, such that the client screen UI accesses a network server to obtain goods data. For example, as shown in fig. 3, the client may click on item 1 at the UI candidate bar control, and the server may transmit the picture/small video taken when item 1 is being weighed for shipment to the item view control on the client terminal screen for viewing by the client. Because the pictures/videos taken are at multiple angles, the customer can manipulate the view to turn around, viewing multiple angles of the merchandise. While the customer views the status of the article through the screen, the article 1 is already in the stock area 200 and ready for shipment, and the weight and price are determined and displayed in the article order data display control. The customer can choose whether to keep the live state of the product 1, such as fish, or to slaughter it as desired. If the customer selects the commodity 1 and the payment is successful, the server immediately sends out a shipment request.

The utility model has the core advantages that the agricultural products are sorted and tallied in advance, the price is weighed in advance, and enough commodities are stored in the warehouse goods area 200, so as to improve the goods distribution speed and deal with the shopping peak; meanwhile, the method also ensures that the client obtains the picture/video data of the real state of each group of fresh agricultural products.

The commodity classification-based agricultural product exhibition and sale system further comprises: a robot 110 for handling the agricultural products in the raw material zone and for handling a material tray 215 or a material basket 218; a stereoscopic commodity sorting shelf system; the packaging machine 310 is positioned in the packaging area 300 and is used for sealing and packaging the outgoing goods; a flow line in the logistics area 400 for delivering the packaged goods to a delivery vehicle. Fig. 4 is a top view of an agricultural product display and distribution system according to a preferred embodiment of the present invention. In this embodiment, the robot 110, the stereoscopic merchandise sorting rack system, and the packaging machine 310 are arranged in rows and columns with the material handling apparatus 214 disposed between the racks. The tray 215 or the basket 218 is placed on the electronic scale 130 in advance, and then the gantry type robot 110 may pick up the non-standard goods in the raw material area into the tray 215 or the basket 218. The fresh commodity may be manually placed in the material tray 215 or the material basket 218 and then weighed on the electronic scale 130. The electronic scale 130 changes data to trigger the photographing apparatus 120 to operate, as shown in fig. 5.

Referring to fig. 6, in the present embodiment, the stereoscopic merchandise sorting shelf system includes: at least one group of bin frames 213 and a lifting and carrying device arranged between the bin frames 213. Each set of shelves 213 comprises a plurality of bins 212 arranged in a height and horizontal array, each bin 212 being adapted to receive a tray 215 or basket 218 of material. The lifting and carrying device comprises a transverse translation mechanism arranged above the bin frame 213, a linear lifting mechanism arranged downwards from the transverse translation mechanism, and a material basket 218 tray moving mechanism driven by the linear lifting mechanism. The plurality of bin frames 213 are arranged in parallel to form a movement space of the linear elevating mechanism and the material basket 218 tray moving mechanism between two bin frames 213. The tray moving mechanism of the material basket 218 urges the material tray 215 or the material basket 218 to move toward the bin frame 213 in a direction substantially perpendicular to the direction in which the lateral translation mechanism moves on the bin frame 213.

The lateral translation mechanism includes: a base frame 204 fixed with the bin frame 213, a transverse stroke rack 203 arranged on the base frame 204, a transverse stroke gear 202 meshed with the transverse stroke rack 203, a transverse moving platform carried by the transverse stroke gear 202, and a transverse stroke motor 201 fixed with the transverse moving platform, wherein an output wheel of the transverse stroke motor 201 drives the transverse stroke gear 202 to rotate so that the transverse moving platform performs linear motion relative to the transverse stroke rack 203.

The straight line elevating system includes: the linear lifting mechanism comprises a linear lifting fixing frame 205 arranged below a transverse moving platform of the transverse translation mechanism, a linear lifting rack 206 fixed on the linear lifting fixing frame 205, a linear lifting guide rail 207 arranged on the linear lifting fixing frame 205, a linear lifting slider 209 moving along the linear lifting guide rail 207, a lifting stroke gear meshed with the linear lifting rack 206 and a linear lifting motor 208 fixed on the linear lifting slider 209, wherein an output wheel of the linear lifting motor 208 drives the lifting stroke gear to rotate, so that the linear lifting slider 209 performs linear lifting motion relative to the linear lifting guide rail 207.

The material basket 218 tray moving mechanism includes a plurality of strip-shaped discharging clamping plates 211 for supporting the material tray 215 or the material basket 218, and a discharging clamping plate motor 210 for driving the discharging clamping plates 211 to perform telescopic motion, wherein the discharging clamping plates 211 point to the bin 212.

A material conveying position 216 is arranged on the material conveying equipment 214 arranged between the bin frames 213. The transport direction of the material transport apparatus 214 is substantially parallel to the direction of movement of the lateral translation mechanism on the bin rack 213. The material tray 215 or material basket 218, along with the articles therein, are carried by the robot 110 to the material transfer device 214 and then travel in a downstream direction (as indicated by the right arrow in fig. 4) between the bin mounts 213. Under the action of the transverse translation mechanism, the material basket 218 tray moving mechanism descends along the linear lifting mechanism to the idle material conveying position 216 to be standby. When the material tray 215 or the material basket 218 moves to the idle material conveying position 216 together with the commodities in the material tray 215 or the material basket 218, the material tray 215 or the material basket 218 is clamped by the tray moving mechanism of the material basket 218, then the material tray 215 or the material basket 218 is lifted to the height of the idle bin 212 by the linear lifting mechanism, and then the material tray 215 or the material basket 218 is conveyed into the bin 212 by the tray moving mechanism of the material basket 218.

During shipment, the material basket 218 tray moving mechanism is positioned in front of the bin 212 of the shipped goods by the transverse translation mechanism and the linear lifting mechanism, the material tray 215 or the material basket 218 is taken out of the bin 212 and clamped by the material basket 218 tray moving mechanism, then the material basket 218 tray moving mechanism is lowered to the material conveying position 216 for safe shipment along with the transverse translation mechanism and the linear lifting mechanism, and then the material conveying device 214 conveys the material tray 215 or the material basket 218 to the packaging area 300 together with the goods inside. After the goods are packaged by the packaging machine 310, the material tray 215 or the material basket 218 is recycled and transferred to the goods management area 100 through the conveyor belt, as shown in fig. 4.

Referring to fig. 7, the bin 212 of the stereoscopic merchandise sorting shelf system further includes a water tank 217. The material basket 218 placed in the water tank 217 is perforated, so that the aquatic products contained therein can live in the water environment. Therefore, the fresh and alive commodities can be kept in the three-dimensional commodity sorting shelf.

The foregoing is merely a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, as long as the technical effects of the present invention are achieved by the same means, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present disclosure should be included within the scope of the present disclosure. All belong to the protection scope of the utility model. The technical solution and/or the embodiments of the invention may be subject to various modifications and variations within the scope of the invention.

Claims (5)

1. An agricultural product sales exhibition system based on commodity classification, characterized by comprising:

a shooting device (120) and an electronic scale (130) arranged in the commodity classification and goods handling area (100);

the three-dimensional commodity sorting shelf system and the sorting equipment are arranged in the warehouse area (200);

a packing machine (310) arranged at the logistics area (400) and used for packing the goods ordered by the customer;

a gantry robot (110) for handling agricultural products in the raw material area and for handling an article tray (215) or an article basket (218);

air conditioning equipment arranged in the goods storage area (100) and the goods warehouse area (200) and used for providing a constant temperature environment for goods;

and

a network server configured to provide picture or video data of one or more kinds of goods among a plurality of kinds of goods photographed by the goods sorting area (100) to one or more client terminals to realize goods exhibition and sale in the stereoscopic goods sorting shelf system.

2. The commodity classification based produce merchandising system according to claim 1, wherein:

the commodities of the plurality of types comprise fresh commodities and non-fresh commodities, and the non-fresh commodities comprise non-standard commodities and standard commodities;

in the cargo area (100), the shooting device (120) is configured to shoot each group of fresh or non-standard commodities from one or more angles and transmit image and/or video data to the server;

in the goods storage area (100), the electronic scales (130) are configured to weigh the fresh goods or the non-standard goods of each group and transmit weighing data and goods identification data to the server;

the server directly stores default pictures or videos of the standard commodities for being associated with the standard commodities after tallying;

in the cargo area (100) and the warehouse area (200), each group of commodities is carried by a material tray (215) or a material basket (218) with preset specifications.

3. The commodity classification based produce marketing system of claim 1 or 2, wherein:

the shooting equipment (120) comprises one or more cameras (121) which are annularly arranged above the electronic scales (130), and the cameras (121) are allowed to move along an annular track in the process of shooting the commodities so as to acquire images or videos of the commodities at one or more angles; or the device also comprises a turntable, wherein the turntable is used for driving the commodity to rotate relative to the shooting equipment (120), so that the shooting equipment (120) can acquire images or videos of the commodity at one or more angles.

4. The commodity classification-based agricultural product exhibition and sale system of claim 1, wherein the stereoscopic commodity sorting shelf system comprises:

at least one group of bin frames (213) and a lifting and carrying device arranged between the bin frames (213),

each group of bin frames (213) comprises a plurality of bins (212) arranged in a height direction and a horizontal direction array, each bin (212) is used for accommodating a material tray (215) or a material basket (218),

the lifting and carrying device comprises a transverse translation mechanism arranged above the bin frame (213), a linear lifting mechanism arranged downwards from the transverse translation mechanism and a material basket (218) tray moving mechanism driven by the linear lifting mechanism,

the material basket (218) tray moving mechanism enables the material tray (215) or the material basket (218) to move towards the bin frame (213) in a direction which is basically vertical to the direction of the movement of the transverse translation mechanism on the bin frame (213).

5. The commodity classification-based agricultural product exhibition and sale system according to claim 1 or 4, wherein the stereoscopic commodity sorting shelf system further comprises: a water tank (217) for storing the fresh and alive aquatic products.

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