CN113816058A - Intelligent production equipment and production method of desktop POS cash register - Google Patents

Abstract

The invention discloses intelligent production equipment and a production method of a desktop POS cash register, which are used for producing the desktop POS cash register, realize automatic sorting and distribution under the control of an assembly management system, replace manual sorting and transfer, reduce the error rate and have high speed, thereby improving the production efficiency, and the articles in an accessory area, an assembly area, a test area, an aging area and a box loading area are transferred through a production line and transferred by a lane robot, thereby further improving the production efficiency, reducing labor and reducing the labor cost.

Description

Intelligent production equipment and production method of desktop POS cash register

Technical Field

The invention relates to the technical field of desktop POS cash register production and manufacturing, in particular to intelligent production equipment and a production method of a desktop POS cash register.

Background

Desktop POS cash register is the cash register equipment that the shop was used commonly, and it can ensure to receive silver security and convenience to, along with the continuous renewal of characteristics such as its function and style, desktop POS cash register is also continuously renewing, so, its demand and output are all huge.

The desk POS cash register generally comprises a host, a keyboard, a cashbox, a scanning device, a card swiping device, a bill printer, a main display screen, a customer display screen, a device connecting line and other components, wherein the components are composed of a plurality of accessories, for example, the host comprises a mainboard, a processor, a memory, a hard disk, a power supply, a host connecting line and other accessories, therefore, complex assembly tasks are required to be completed in the later production period, the assembly mode of the existing desk POS cash register in the later production period is that an accessory area, a plurality of production lines, a packaging area and a finished product area are configured in an assembly workshop, each accessory is placed in a classified manner in the accessory area after entering the assembly workshop, when in assembly, for the components needing to be assembled, a sorting worker sorts and transfers the complete accessories of the components to the component assembly line, the assembly worker assembles the components into a spare component, and then the sorting worker sorts and transfers the complete components of the desk POS cash register to the assembly line, assembling the finished products by an assembler, then testing the finished products before aging, aging and testing after aging to obtain qualified finished products, and then boxing and stacking the qualified finished products to finish the assembly task.

However, the observation shows that the existing production method of the desktop POS cash register has the following problems that firstly, manual sorting and transferring according to paper lists and requirements are easy to make mistakes and slow in speed, and the production efficiency is reduced; secondly, the articles in the accessory area, the assembly area, the test area, the aging area and the packing area are conveyed manually, so that the production efficiency is greatly reduced.

In view of the above, the present inventors have made extensive conceptions to overcome many defects and inconveniences caused by the perfection of the production process of the desktop POS cash register, and have actively researched, improved and tried to develop and design the present invention.

Disclosure of Invention

The invention aims to provide intelligent production equipment and a production method of a desktop POS cash register, which are used for improving the production efficiency of the desktop POS cash register.

In order to achieve the above purpose, the solution of the invention is:

intelligent production equipment of desk-top POS cash registering machine, production equipment includes

The material frame is used for containing components or accessories, and a first bar code is pasted on the material frame;

a box dismantling area;

a sorting assembly line;

the warehousing robot moves to and fro between the unpacking area and the sorting production line and is used for transferring the material frames from the unpacking area to the sorting production line;

the three-dimensional accessory warehouse is provided with a plurality of shelf positions for accommodating the material frames, and second bar codes are pasted on the shelf positions;

the assembly line is matched with an assembly pallet;

the material taking robot moves back and forth to the three-dimensional accessory warehouse and the assembly line and is used for transferring the material frame from the three-dimensional accessory warehouse to the assembly line;

a pre-burn-in test line interfaced with the assembly line;

the system comprises a three-dimensional aging warehouse, a testing platform and a control system, wherein the three-dimensional aging warehouse is provided with an aging warehouse assembly line, a lane robot and an aging rack for accommodating an assembly pallet, the aging warehouse assembly line is connected with a pre-aging testing assembly line, and the lane robot moves to and fro between the aging warehouse assembly line and the aging rack and is used for transferring the assembly pallet from the aging warehouse assembly line to the aging rack;

a post-aging test assembly line interfaced with an aging library assembly line;

a boxing assembly line which is connected with the aging test assembly line;

the carton unpacking machine is matched with the front end of the carton packing assembly line;

the box sealing machine is matched in the middle of the boxing assembly line;

the stacking mechanism is matched at the tail end of the boxing assembly line;

and the assembly management system is in communication connection with the sorting assembly line, the warehousing robot, the assembly line, the material taking robot, the pre-aging testing assembly line, the aging warehouse assembly line, the roadway robot, the post-aging testing assembly line, the boxing assembly line, the case unpacking machine, the case sealing machine and the stacking mechanism respectively.

The production equipment further comprises a robot charging pile, the robot charging pile is respectively matched with the warehousing robot and the material taking robot and respectively charges the warehousing robot and the material taking robot, and the robot charging pile is in communication connection with the assembly management system.

The production equipment further comprises a building elevator, and the building elevator is used for lifting and taking the robot between floors.

The production equipment further comprises two aerial assembly lines, wherein one aerial assembly line is used for connecting the aged test assembly line and the boxing assembly line, and the other aerial assembly line is used for connecting the assembling assembly line and the boxing assembly line.

And, a method of producing a desktop POS register, the method comprising the steps of:

step A, unpacking and quantitative sorting: the method comprises the steps that components and accessories of a production batch of desktop POS cash registers are unpacked and taken out through an unpacking area, then conveyed to a sorting production line by a warehousing robot, sorted and loaded into material frames according to a certain quantity by sorting personnel on the sorting production line, and first bar codes on the material frames corresponding to the names, models and quantity information of the components and the accessories are input into an assembly management system;

b, positioning and warehousing: the material frame containing the components or the accessories flows to a first elevator at the tail end through a sorting production line, the material taking robot identifies a first bar code on the material frame and takes the material frame, the material frame is transferred and placed on a goods shelf position of a stereoscopic warehouse, a second bar code on the goods shelf position is identified, and the information of the components and the accessories is recorded into an assembly management system corresponding to the second bar code;

step C, sorting and transporting in a set: the assembly management system automatically controls a plurality of material taking robots to sequentially take out components and accessories from corresponding goods shelves according to assembly tasks, the accessories are transported to an assembly line for assembly personnel to assemble the components, and then the complete components of the desktop POS cash register are transported to a complete machine assembly line for the assembly personnel to assemble the complete components into finished products;

step D, testing and aging: the finished product flows to a pre-aging test assembly line through a complete machine assembly line, a tester performs pre-aging test, the finished product qualified in the pre-aging test flows to an aging warehouse assembly line through the pre-aging test assembly line, a lane robot takes and places the finished product qualified in the pre-aging test on a three-dimensional aging warehouse for aging, the aged finished product is placed on the aging warehouse assembly line again through the lane robot and flows to a post-aging test assembly line through the aging warehouse assembly line, the tester performs post-aging test, and the finished product qualified in the post-aging test flows to a packaging assembly line through the post-aging test assembly line;

step E, boxing and stacking: the overlapped packing box is opened and the bottom of the overlapped packing box is packaged by an automatic case unpacking machine, then the packing box is moved to a packing production line, then a packing person packs a finished product, a specification and a foam lining into the packing box, the packing box flows to the automatic case sealing machine along with the packing production line, the top of the packing box is packaged by the automatic case sealing machine, then the packing box flows to the tail end of the packing production line, and the packing box is taken by an automatic stacking machine and is moved to a stacking plate to stack the packing box into a stack.

By adopting the scheme, the automatic sorting and distribution are realized under the control of the assembly management system, the manual sorting and the manual transfer are replaced, the error rate is reduced, the speed is high, the production efficiency is improved, the objects in the accessory area, the assembly area, the test area, the aging area and the packing area are connected through the assembly line and moved by the lane robot, the production efficiency is further improved, the labor is reduced, and the labor cost is reduced.

Drawings

FIG. 1 is a schematic plan view of a preferred embodiment of the present invention taken out of box into a three-dimensional parts library;

FIG. 2 is a plan view of the preferred embodiment of the present invention assembled to a pallet.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 2, a preferred embodiment of an intelligent production device of a desktop POS register according to the present invention includes a material frame 1, wherein the material frame 1 is used for containing components or accessories, and a first barcode is attached to the material frame 1; a box dismantling area 2; a sorting line 3; a warehousing robot 4; the warehousing robot 4 reciprocates to the unpacking area 2 and the sorting production line 3 and is used for transferring the material frames 1 from the unpacking area 2 to the sorting production line 3; the three-dimensional accessory library 5 is characterized in that the three-dimensional accessory library 5 is provided with a plurality of shelf positions 51 for accommodating the material frames 1, and second bar codes are pasted on the shelf positions 51; the assembly line 6 is matched with an assembly pallet 61; the material taking robot 7 reciprocates to the three-dimensional part warehouse 5 and the assembly line 6 and is used for transferring the material frame 1 from the three-dimensional part warehouse 5 to the assembly line 6; a pre-aging test assembly line 8, the pre-aging test assembly line 8 being connected to the assembly line 6; the three-dimensional aging warehouse 9 is provided with an aging warehouse assembly line 91, a lane robot 92 and an aging rack 93 for accommodating the assembled pallet 61, the aging warehouse assembly line 91 is connected with the pre-aging test assembly line 8, and the lane robot 92 moves to and fro between the aging warehouse assembly line 91 and the aging rack 93 and is used for transferring the assembled pallet 61 from the aging warehouse assembly line 91 to the aging rack 93; the aging test assembly line 10 is connected with the aging library assembly line 91; a boxing assembly line 11, wherein the boxing assembly line 11 is connected with the aged test assembly line 10; the carton unpacking machine 12 is matched with the front end of the carton packing production line 11; the carton sealing machine 13 is matched with the middle part of the carton packaging production line 11; the stacking mechanism 14 is matched at the tail end of the boxing assembly line 11; and an assembly management system (not shown in the figure) which is respectively in communication connection with the sorting assembly line 3, the warehousing robot 4, the assembly line 6, the material taking robot 7, the pre-aging test assembly line 8, the aging warehouse assembly line 91, the roadway robot 92, the post-aging test assembly line 10, the boxing assembly line 11, the box unpacking machine 12, the box sealing machine 13 and the stacking mechanism 14.

When the desktop POS cash register is produced by the intelligent production equipment, the production method of the desktop POS cash register is adopted for production, and the production method comprises the following steps:

step A, unpacking and quantitative sorting: the components and accessories of the desktop POS cash register of a production batch are unpacked and taken out through the unpacking area 2, then are transported to the sorting assembly line 3 by the warehousing robot 4, are loaded into the material frame 1 in the sorting assembly line 3 according to a certain quantity and classification by sorting personnel, and the first bar codes of the components and the accessories, which correspond to the name, the model and the quantity information on the material frame 1, are input into the assembly management system;

b, positioning and warehousing: the material frame 1 containing the components or the accessories flows to a first elevator at the tail end through a sorting assembly line 3, a material taking robot 7 identifies a first bar code on the material frame 1 and takes the material frame 1, the material frame 1 is transferred and placed on a goods shelf position 51 of a stereoscopic warehouse, a second bar code on the goods shelf position 51 is identified, and the information of the components and the accessories is recorded into an assembly management system corresponding to the second bar code;

step C, sorting and transporting in a set: the assembly management system automatically controls a plurality of material taking robots 7 to sequentially take components and accessories to corresponding shelf positions 51 according to an assembly task, the accessories are transported to an assembly line 6 to be assembled into components by an assembler, and then the complete components of the desktop POS cash register are transported to a complete machine assembly line 6 to be assembled into finished products by the assembler;

step D, testing and aging: the finished product flows to a pre-aging test assembly line 8 through a complete machine assembly line 6, a tester performs pre-aging test, the finished product qualified in the pre-aging test flows to an aging warehouse assembly line 91 through the pre-aging test assembly line 8, a lane robot 92 takes and places the finished product qualified in the pre-aging test on a three-dimensional aging warehouse 9 for aging, the aged finished product is placed on the aging warehouse assembly line 91 again through the lane robot 92 and flows to a post-aging test assembly line 10 through the aging warehouse assembly line 91, the tester performs post-aging test, and the finished product qualified in the post-aging test flows to a packaging assembly line through the post-aging test assembly line 10;

step E, boxing and stacking: the superimposed packing box is opened and sealed at its bottom by an automatic case unpacking machine 12, then the packing box is moved to a packing line, then a packing person packs a finished product, a specification and a foam lining into the packing box, the packing box flows to an automatic case sealing machine 13 along with the packing line, the top of the packing box is sealed by the automatic case sealing machine 13, then the packing box flows to the end of the packing line, and the packing box is taken by an automatic stacker 14 and moved to a stacking plate to stack the packing box into a stack.

The key point of the invention is that the automatic sorting and distribution are realized under the control of the assembly management system, the manual sorting and transfer are replaced, the error rate is reduced, the speed is high, and the production efficiency is improved.

The production equipment further comprises a robot charging pile 16, the robot charging pile 16 is respectively matched with the warehousing robot 4 and the material taking robot 7 and respectively charges the warehousing robot 4 and the material taking robot 7, and the robot charging pile 16 is in communication connection with an assembly management system.

During the use, the assembly management system can monitor the electric quantity of the warehousing robot 4 and the material taking robot 7 in real time, and when the electric quantity is found to be small and the material taking robot 7 needs to be charged in time, the warehousing robot 4 and the material taking robot 7 can be controlled to advance to the robot charging pile 16 for charging and supplementing the electric quantity, so that the warehousing robot 4 and the material taking robot 7 are prevented from stopping midway and hindering production.

The production equipment further comprises a building elevator 17, and the building elevator is used for lifting the material taking robot 7 between floors. Through being equipped with the building companion ladder for material robot 7 can come and go up and down the floor, so unpack warehouse entry, assembly, test, ageing and vanning dispatch from the factory can lay by floor, need not to dispose a big place of all production facility of holding, has reduced the restriction of area in place.

The production plant further comprises two aerial flow lines 18, wherein one aerial flow line 18 is used for connecting the aged test flow line 10 and the boxing flow line 11, and the other aerial flow line 18 is used for connecting the assembling flow line 6 and the boxing flow line 11. The two aerial assembly lines 18 are arranged, so that the occupation of the ground area of the field can be reduced; and after the finished product is packed, the assembled pallet 61 can flow back to the assembly line 6 through the aerial assembly line 18 for continuous use, the assembled pallet 61 does not need to be manually recycled, and the labor cost is reduced.

The foregoing description of specific exemplary embodiments of the invention has been presented for the purposes of illustration and description and is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as may be appropriate to those skilled in the art without departing from the scope of the invention.

Claims (5)

1. The utility model provides an intelligent production facility of desk-top POS cash registering machine which characterized in that: the production equipment comprises

The material frame is used for containing components or accessories, and a first bar code is pasted on the material frame;

a box dismantling area;

a sorting assembly line;

the warehousing robot moves to and fro between the unpacking area and the sorting production line and is used for transferring the material frames from the unpacking area to the sorting production line;

the three-dimensional accessory warehouse is provided with a plurality of shelf positions for accommodating the material frames, and second bar codes are pasted on the shelf positions;

the assembly line is matched with an assembly pallet;

the material taking robot moves back and forth to the three-dimensional accessory warehouse and the assembly line and is used for transferring the material frame from the three-dimensional accessory warehouse to the assembly line;

a pre-burn-in test line interfaced with the assembly line;

the system comprises a three-dimensional aging warehouse, a testing platform and a control system, wherein the three-dimensional aging warehouse is provided with an aging warehouse assembly line, a lane robot and an aging rack for accommodating an assembly pallet, the aging warehouse assembly line is connected with a pre-aging testing assembly line, and the lane robot moves to and fro between the aging warehouse assembly line and the aging rack and is used for transferring the assembly pallet from the aging warehouse assembly line to the aging rack;

a post-aging test assembly line interfaced with an aging library assembly line;

a boxing assembly line which is connected with the aging test assembly line;

the carton unpacking machine is matched with the front end of the carton packing assembly line;

the box sealing machine is matched in the middle of the boxing assembly line;

the stacking mechanism is matched at the tail end of the boxing assembly line;

and the assembly management system is in communication connection with the sorting assembly line, the warehousing robot, the assembly line, the material taking robot, the pre-aging testing assembly line, the aging warehouse assembly line, the roadway robot, the post-aging testing assembly line, the boxing assembly line, the case unpacking machine, the case sealing machine and the stacking mechanism respectively.

2. The intelligent production facility of desktop POS cash registers of claim 1, wherein: the production equipment further comprises a robot charging pile, the robot charging pile is respectively matched with the warehousing robot and the material taking robot and respectively charges the warehousing robot and the material taking robot, and the robot charging pile is in communication connection with the assembly management system.

3. The intelligent production facility of desktop POS cash registers of claim 1, wherein: the production equipment further comprises a building elevator, and the building elevator is used for lifting and taking the robot between floors.

4. The intelligent production facility of desktop POS cash registers of claim 1, wherein: the production equipment further comprises two aerial assembly lines, wherein one aerial assembly line is used for connecting the aged test assembly line and the boxing assembly line, and the other aerial assembly line is used for connecting the assembling assembly line and the boxing assembly line.

5. A production method of a desktop POS cash register is characterized by comprising the following steps: the production method comprises the following steps:

step A, unpacking and quantitative sorting: the method comprises the steps that components and accessories of a production batch of desktop POS cash registers are unpacked and taken out through an unpacking area, then conveyed to a sorting production line by a warehousing robot, sorted and loaded into material frames according to a certain quantity by sorting personnel on the sorting production line, and first bar codes on the material frames corresponding to the names, models and quantity information of the components and the accessories are input into an assembly management system;

b, positioning and warehousing: the material frame containing the components or the accessories flows to a first elevator at the tail end through a sorting production line, the material taking robot identifies a first bar code on the material frame and takes the material frame, the material frame is transferred and placed on a goods shelf position of a stereoscopic warehouse, a second bar code on the goods shelf position is identified, and the information of the components and the accessories is recorded into an assembly management system corresponding to the second bar code;

step C, sorting and transporting in a set: the assembly management system automatically controls a plurality of material taking robots to sequentially take out components and accessories from corresponding goods shelves according to assembly tasks, the accessories are transported to an assembly line for assembly personnel to assemble the components, and then the complete components of the desktop POS cash register are transported to a complete machine assembly line for the assembly personnel to assemble the complete components into finished products;

step D, testing and aging: the finished product flows to a pre-aging test assembly line through a complete machine assembly line, a tester performs pre-aging test, the finished product qualified in the pre-aging test flows to an aging warehouse assembly line through the pre-aging test assembly line, a lane robot takes and places the finished product qualified in the pre-aging test on a three-dimensional aging warehouse for aging, the aged finished product is placed on the aging warehouse assembly line again through the lane robot and flows to a post-aging test assembly line through the aging warehouse assembly line, the tester performs post-aging test, and the finished product qualified in the post-aging test flows to a packaging assembly line through the post-aging test assembly line;

step E, boxing and stacking: the overlapped packing box is opened and the bottom of the overlapped packing box is packaged by an automatic case unpacking machine, then the packing box is moved to a packing production line, then a packing person packs a finished product, a specification and a foam lining into the packing box, the packing box flows to the automatic case sealing machine along with the packing production line, the top of the packing box is packaged by the automatic case sealing machine, then the packing box flows to the tail end of the packing production line, and the packing box is taken by an automatic stacking machine and is moved to a stacking plate to stack the packing box into a stack.

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