KR20200012395A - On-demand robot supply system - Google Patents

Abstract

Disclosed is an on-demand robot supply system comprising: a component management part for providing information on a plurality of components to an orderer terminal; an order management part for receiving an order for the component from the orderer terminal; and a control logic management part which stores a control logic distinct in a corresponding robot required for a robot to be completed according to a combination of a plurality of components received from the orderer terminal, in any one or more of the plurality of components. Therefore, the on-demand robot supply system enables the orderer to conveniently order, assemble, and use various robots desired by the orderer.

Description

Custom Robot Supply System {ON-DEMAND ROBOT SUPPLY SYSTEM}

The present invention relates to an on-demand robot supply system for allowing an orderer to conveniently order, assemble, and use various robots desired by the user.

Robots are used in various industries. It is also used in construction machinery, industrial sites such as factories, and is used in homes. However, the robot industry has been made centered on the producers so far, and the reality is that the robot industry is not diverse enough to satisfy the needs of various consumers.

If necessary, a robot capable of realizing various shapes and functions is required. Since it is difficult to meet all the requirements of these consumers, the robot needs to be defined from the user's point of view, and the parts can be ordered and reliably assembled. We needed a new concept of robot production platform that could be used.

The matters described as the background art are only for the purpose of improving the understanding of the background of the present invention, and should not be taken as acknowledging that they correspond to the related art already known to those skilled in the art.

KR 10-1689190 B1

The present invention has been proposed to solve this problem, it is intended to provide a custom robot supply system for orderers to conveniently order, assemble and use a variety of robots they want.

Custom robot supply system according to the present invention for achieving the above object, the parts management unit for providing information on a plurality of parts to the orderer terminal; An order management unit receiving an order of parts from an orderer terminal; And a control logic management unit for storing the robot-specific control logic required for the robot to be completed according to the combination of the plurality of parts received from the orderer terminal in any one or more of the plurality of parts.

The control logic manager may store the control logic in the component in advance before delivering the plurality of parts to the orderer.

The control logic management unit may store the control logic in the parts of the robot through communication with the robot or the orderer terminal after the plurality of parts are delivered to the orderer or assembled to complete the robot.

The control logic management unit may update the control logic to the parts of the robot through communication with the robot or the orderer terminal when the control logic of the completed robot is required.

It may further include a; simulation unit for providing to the orderer terminal the motion simulation data of the robot to be completed according to the combination of a plurality of parts selected from the orderer terminal.

The simulation unit may provide the ordering terminal with the degrees of freedom and motion range of the robot to be completed as motion simulation data.

The control logic management unit may receive the modified motion simulation data from the orderer terminal and store the control logic capable of implementing the modified simulation motion in any one or more of the plurality of components.

The order management unit may examine the assembly compatibility of the plurality of parts selected from the orderer terminal and provide the review result to the orderer terminal.

It may further include a manual management unit for transmitting a manual consisting of a method of assembling and using the robot to be completed according to the combination of a plurality of parts selected from the orderer terminal to the orderer terminal.

It may further include an assembly guide unit for checking whether a plurality of parts are assembled correctly through the communication with the parts or orderer terminal delivered to the orderer and guides the assembly order and method through the orderer terminal.

The assembly guide unit may check whether the secondary parts are correctly assembled by communicating with the parts corresponding to the main frame directly or through an orderer terminal.

The assembly guide unit receives the communication result between the sensors corresponding to the main frame and the sensors of the secondary parts to check whether the secondary parts are correctly assembled.

Receiving a fault state or inspection state of the robot through a direct communication with the completed robot or through the orderer terminal, the fault management unit for transmitting the action to the orderer terminal may be further included.

According to the custom robot supply system of the present invention, the orderer can conveniently order and assemble various robots desired by the user.

In addition, when ordering / assembling a robot to a general user, when selecting each part, it is easy to verify whether the robot assembled as a whole can implement necessary freedom and motion.

In particular, the control logic for driving the robot is required in various ways depending on the robot to be completed, this control logic is also supplied through the customization can be conveniently assembled directly to the robot.

1 is a block diagram of a custom robot supply system according to an embodiment of the present invention.
Figure 2 is a block diagram of a completed robot according to the custom robot supply system according to an embodiment of the present invention.
3 is a flow chart of the custom robot supply system shown in FIG.

1 is a block diagram of a custom robot supply system according to an embodiment of the present invention, Figure 2 is a block diagram of a completed robot according to a custom robot supply system according to an embodiment of the present invention, Figure 3 is FIG. The flowchart of the custom robot supply system shown in FIG.

1 is a configuration diagram of a custom robot supply system according to an embodiment of the present invention, the custom robot supply system according to the present invention, a parts management unit for providing information on a plurality of parts to the orderer terminal; An order management unit receiving an order of parts from an orderer terminal; And a control logic management unit for storing the robot-specific control logic required for the robot to be completed according to the combination of the plurality of parts received from the orderer terminal in any one or more of the plurality of parts.

Custom robot supply system of the present invention can be seen in the form of a server (100). Custom robot supply system as shown in Figure 1 parts management unit 110, simulation unit 120, order management unit 130, control logic management unit 140, manual management unit 150, assembly guide unit 160 and troubleshooting 170. Server-type on-demand robot supply system will be able to communicate with the orderer terminal 200 in the remote place through the Internet or wireless communication network, and can directly communicate with the completed robot 300 to its parts, the orderer terminal 200 Indirect communication with the robot 300 may be possible. The orderer terminal 200 may be applied to various equipment such as a smartphone or a personal PC.

Specifically, the orderer pre-orders the parts of the robot to be assembled through the orderer terminal 200. To this end, the parts management unit 110 is connected to the orderer terminal 200 and provides information on a plurality of parts. Parts are classified and classified in advance into the parts management unit 110 in a category, the orderer through the orderer terminal 200 equipped with a communication function and a display function (for example, robot base, robot arm, etc.) You can choose to look.

The order management unit 130 receives an order of parts selected by the orderer through communication with the orderer terminal 200. And the control logic management unit 140 stores the control logic unique to the robot required for the robot to be completed according to the combination of the plurality of parts received the order from the orderer terminal 200 in any one or more of the plurality of parts.

That is, in case of control logic, it is very difficult for the orderer to write the logic by himself because of its complexity and expertise. In particular, in the case of the present invention, it is difficult to prepare the logic in advance because there are many kinds of robots to be completed according to the number of cases, so that the control logic management unit when the orderer orders parts and the final simulation of the robot to be completed is confirmed. At 140, a written control logic corresponding to the robot is provided.

In the case of a simple robot, it is also possible to simply generate and integrate the previously prepared control logic, but in the case of a complex robot, an expert may directly create the control logic and upload it to the control logic manager 140. Alternatively, in the case of control logic, it may be possible to disclose the virtual modeling data of the simulated robot and to apply the control logic selected to the custom robot by conspiring control logic to the general public or specific persons.

Specifically, the control logic management unit 140 may store and deliver the control logic to some parts in advance before delivering the plurality of parts to the orderer. Alternatively, the control logic management unit 140 may store the control logic in the parts of the robot through communication with the robot 300 or the orderer terminal 200 after the plurality of parts are delivered to the orderer or assembled to complete the robot.

When the control logic is uploaded to the control logic management unit 140, the control logic management unit 140 may store the control logic in advance in the parts and deliver the parts before the parts are delivered to the orderer. As shown in FIG. 2, the robot 300 may include a plurality of components, and the control logic may be stored in the component 320 on which the main controller 324 on which the main frame is mounted is mounted, or each component ( 340 and 360, when the necessary control logic is stored in advance and then delivered, the orderer completes the assembly of the robot and at the same time completes the robot 300 equipped with the control logic without any further action. Alternatively, the parts are first delivered to the orderer, and when the orderer assembles them, the control logic is uploaded to the robot through communication from the control logic management unit 140 in a state where all or part of the robot is completed. To do this, the robot will have to be assembled until it can communicate.

In addition, after the assembly of the robot is completed, the request of the orderer or the completion of the robot is automatically notified to the control logic management unit 140, the control logic management unit 140 in advance through a unique ID identification with the corresponding robot 300, etc. The written control logic is recorded on the robot. In addition, the control logic may be provided indirectly by using the communication with the orderer terminal 200, or may be directly transmitted through the communication between the control logic manager 140 and the robot 300.

When the control logic update of the completed robot is required, the control logic manager 140 may update the control logic to the parts of the robot through communication with the robot 300 or the orderer terminal 200. Through the management of such control logic, the orderer can easily purchase the parts of the robot, assemble them, and use them immediately.

Meanwhile, the simulation unit 120 may provide the ordering terminal 200 with motion simulation data of a robot to be completed according to a combination of a plurality of components selected from the ordering terminal 200. When selecting parts, the orderer needs to check the shape and operation of the completed robot in advance, and if they do not like it after checking, the option to replace the parts is required. To this end, the simulation unit 120 may perform a simulation of the robot to be completed according to the orderer's request in advance when the selection of the parts is completed, and display it through the orderer terminal 200 to provide specific operations and specifications. .

In detail, the simulation unit 120 may provide the orderer terminal 200 with the degree of freedom and motion range of the robot to be completed as motion simulation data (for example, modeling data). The control logic management unit 140 may receive the motion simulation data modified according to the intention of the orderer from the orderer terminal 200, and store the control logic capable of implementing the motion of the modified simulation in any one or more of the plurality of parts. have. That is, the orderer can virtually drive the robot through the simulation data of the robot provided by the simulation unit 120, and the control logic can also receive a modified robot-driven simulation driven by the orderer and develop a control logic suitable for this. It is possible. In this case, there is an advantage that a more specifically customized control logic can be obtained. Virtual simulations can be easily implemented using a variety of modeling software tools on the market.

In addition, the order management unit 130 may review the assembly compatibility of the plurality of components selected from the orderer terminal 200 and provide the review result to the orderer terminal 200. For example, the communication between the control boards of the components and the specification of voltage, current, etc. must be met, so verifying this in advance so that there is no error in assembly and operation of the robot.

The manual management unit 150 may further include a manual management unit 150 configured to transmit a manual composed of a method of assembling and using a robot to be completed according to a combination of a plurality of components selected from the orderer terminal 200 to the orderer terminal 200. In addition, the electronic device may further include an assembly guide unit 160 which checks whether a plurality of components are correctly assembled through communication with the parts delivered to the orderer or the orderer terminal 200 and guides the assembly order and method through the orderer terminal. .

To this end, as shown in FIG. 2, the assembly guide unit 160 communicates with the parts 320 corresponding to the main frame, directly or through the orderer terminal 200, among the delivered parts 320, 340, and 360. You can check.

In detail, the assembly guide unit 160 receives a communication result between the parts 320 corresponding to the main frame and the sensors 326, 342 and 362 of the additional parts 340 and 360, and thus the additional parts 340 and 360 become the main parts (the main parts). In step 320, it may be checked whether the assembly is performed correctly. That is, the component 340 pre-assembled to the main component 320 confirms the assembly by the sensors 326 and 342 communication, and the pre-assembled component 340 is assembled by the communication with the other components 360 and the sensors 342 and 362 connected thereto. Through this process, the main part 320 can check the assembly of all parts 340 and 360.

The assembly process of the robot can also be very complicated, so it needs to be guided by the orderer. To this end, the assembly guide unit 160 remotely monitors the assembly state of the orderer, which can be solved by communication between a plurality of parts. For example, when each component is properly connected to each other, the sensor detects an electrical but physically and notifies the assembly guide unit 160 to detect misassembly or normal assembly, and guides the orderer through such information. If the assembly is made correctly, the next assembly is guided through the communication with the orderer terminal 200, and if the misassembly is detected, the misassembled parts and the correct assembly process to guide again.

In addition, the fault management unit 170 receives the fault state or the check state of the robot through direct communication with the completed robot or through the orderer terminal 200 by utilizing sensor communication technology between the parts, and the like. It is possible to transmit the action for the orderer terminal 200.

According to the custom robot supply system of the present invention, the orderer can conveniently order and assemble various robots desired by the user.

In addition, when ordering / assembling a robot to a general user, when selecting each part, it is easy to verify whether the robot assembled as a whole can implement necessary freedom and motion.

In particular, the control logic for driving the robot is required in various ways depending on the robot to be completed, this control logic is also supplied through the customization can be conveniently assembled directly to the robot.

While shown and described in connection with specific embodiments of the present invention, it is within the skill of the art that various changes and modifications can be made therein without departing from the spirit of the invention provided by the following claims. It will be self-evident for those of ordinary knowledge.

100: server 200: orderer terminal
300: robot

Claims (13)

A parts management unit which provides information on a plurality of parts to an orderer terminal;
An order management unit receiving an order of parts from an orderer terminal; And
And a control logic management unit for storing the robot-specific control logic required for the robot to be completed according to the combination of the plurality of parts received from the orderer terminal in any one or more of the plurality of parts. The method according to claim 1,
The control logic management unit on-demand robot supply system, characterized in that for storing the control logic in advance before the delivery of a plurality of parts to the orderer. The method according to claim 1,
The control logic management unit is a custom robot supply system, characterized in that the control logic is stored in the parts of the robot through communication with the robot or the orderer terminal when a plurality of parts are delivered to the orderer or assembled to complete the robot. The method according to claim 1,
If the control logic management unit needs to update the control logic of the completed robot on-demand robot supply system, characterized in that for updating the control logic to the parts of the robot through communication with the robot or the orderer terminal. The method according to claim 1,
And a simulation unit for providing motion ordering data of the robot to be completed according to a combination of a plurality of parts selected from the orderer terminal to the orderer terminal. The method according to claim 5,
The simulation unit is a custom robot supply system, characterized in that to provide the orderer terminal with the degree of freedom and motion range of the robot to be completed as motion simulation data. The method according to claim 5,
The control logic management unit receives the modified motion simulation data from the orderer terminal, and stores the control logic capable of implementing the motion of the modified simulation in any one or more of the plurality of parts. The method according to claim 1,
The order management unit examines the assembly compatibility of a plurality of parts selected from the orderer terminal and provides the review result to the orderer terminal. The method according to claim 1,
And a manual management unit for transmitting a manual composed of a method of assembling and using a robot to be completed according to a combination of a plurality of components selected from the orderer terminal to the orderer terminal. The method according to claim 1,
On-demand robot supply system further comprises; an assembly guide unit for checking whether a plurality of parts are assembled correctly through the communication with the orderer terminal or the orderer terminal delivered to the orderer through the orderer terminal; . The method according to claim 10,
The assembly guide part is a custom robot supply system, characterized in that to check whether the additional parts are assembled correctly by communicating with the parts corresponding to the mainframe directly or through the orderer terminal of the delivered parts. The method according to claim 11,
The assembly guide unit receives a communication result between the sensor corresponding to the parts corresponding to the mainframe and the sensors of the additional parts, the on-demand robot supply system, characterized in that the additional parts are assembled correctly. The method according to claim 1,
On-demand robot further comprises a fault control unit for receiving a failure state or inspection state of the robot through direct communication with the completed robot or communication through the orderer terminal, and transmits the measures to the orderer terminal Feeding system.

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