JP6408599B2 - Component mounting system and feeder - Google Patents

Description

  The technology disclosed in this specification relates to a component mounting system and a feeder.

  An example of a conventional component mounting system is disclosed in Patent Document 1. The component mounting system of Patent Literature 1 includes an apparatus main body and a feeder that supplies components to the apparatus main body. The apparatus main body mounts the components supplied from the feeder on the board.

JP 2014-107455 A

  In the prior art, there are no restrictions on the combination of the apparatus main body and the feeder. Therefore, for example, a feeder owned by the company may be used in an apparatus main body owned by another company. That is, even if a feeder owned by the company is attached to an apparatus main body owned by another company, the feeder operates without any limitation, and parts may be supplied from the feeder owned by the company to the apparatus main body owned by the other company. In such a state, for example, when a feeder owned by the company is stolen by someone, the stolen feeder can be freely used in the main body owned by another company. Alternatively, even when a feeder owned by the company is attached to the apparatus main body owned by the company, the feeder may be used only by a specific apparatus main body from the viewpoint of quality control or the like. In view of this, it is an object of the present specification to provide a component mounting system that can prevent a feeder from being used in an apparatus main body other than an appropriate apparatus main body.

  The component mounting system disclosed in this specification includes an apparatus main body and a feeder that supplies components to the apparatus main body. The feeder can be attached to a plurality of apparatus main bodies, and includes a control unit that controls the operation of the feeder according to the attached apparatus main body, and a storage unit that can store identification information for identifying the apparatus main body. Yes. When the feeder is attached to the apparatus main body specified by the identification information for specifying the apparatus main body stored in the storage unit among the plurality of apparatus main bodies, the feeder control unit can supply components by the feeder. Put it in a state. When the feeder is attached to the apparatus main body that is not specified by the identification information for specifying the apparatus main body stored in the storage unit, the feeder control unit disables the component supply by the feeder.

  According to such a configuration, when the feeder that stores the identification information is attached to the apparatus main body specified by the identification information, the parts are supplied from the feeder to the apparatus main body. On the other hand, when a feeder that stores identification information is attached to an apparatus main body that is not specified by the identification information, parts are not supplied from the feeder to the apparatus main body. Thereby, even if a feeder is attached to the apparatus main body not specified by the identification information, the feeder does not operate, so that it is possible to prevent the feeder from being used by an inappropriate apparatus main body. For example, even if a feeder owned by the company is stolen, and the stolen feeder owned by the company is attached to the equipment body owned by another company, if the equipment body is not specified by the identification information stored in the feeder, Feeded feeders will not work. As a result, it is possible to prevent the use of the feeder owned by the company in the apparatus main body owned by another company. Thus, according to said structure, it can prevent that a feeder is used by apparatus main bodies other than an appropriate apparatus main body.

  The feeder disclosed in the present specification is a feeder that supplies parts to the apparatus main body. The feeder can be attached to a plurality of apparatus main bodies, a control unit that controls the operation of the feeder according to the attached apparatus main bodies, and a storage unit that can store identification information for specifying the designated apparatus main body. It has. When the feeder is attached to the apparatus main body specified by the identification information for specifying the apparatus main body stored in the storage unit among the plurality of apparatus main bodies, the feeder control unit can supply components by the feeder. Put it in a state. When the feeder is attached to the apparatus main body not specified by the identification information for specifying the apparatus main body stored in the storage unit, the control unit of the feeder disables the component supply by the feeder.

It is a block diagram of a component mounting system. It is a block diagram of a part of component mounting system. It is a perspective view which shows schematic structure of a mounting apparatus and a feeder. It is a side view which shows schematic structure of a mounting apparatus and a feeder. It is a side view which shows schematic structure of a feeder. It is a top view of a part of tape. It is a figure which shows typically a response | compatibility with a some feeder and a some mounting apparatus.

  The main features of the embodiments described below are listed. Note that the technical elements described below are independent technical elements, and exhibit technical usefulness alone or in various combinations.

  (Feature 1) The storage unit of the feeder may be capable of storing a flag indicating that identification information is stored.

  (Feature 2) The storage unit of the feeder cannot store new identification information for specifying the apparatus main body when the flag is stored, and specifies the apparatus main body when the flag is not stored. New identification information may be stored.

  (Characteristic 3) When the feeder is attached to the apparatus main body not specified by the identification information for specifying the apparatus main body stored in the storage unit, the feeder control unit may transmit error information to the outside.

  Hereinafter, embodiments will be described with reference to the accompanying drawings. A component mounting system 1 according to the embodiment is a system for mounting components on a board. The component is an electronic component such as a semiconductor chip, for example, and a circuit board is manufactured by mounting a plurality of components on the substrate. As shown in FIG. 1, a general management device 40 and a plurality of line management devices 30 (30a, 30b, and 30c) are provided. The component mounting system 1 includes a plurality of component mounting lines 3 (3a, 3b and 3c). Each component mounting line 3 (3a, 3b or 3c) includes a line management device 30 (30a, 30b or 30c) and a plurality of mounting devices 10 (10a, 10b and 10c). Each component mounting line 3 (3a, 3b, or 3c) may include a printing device 91 and a reflow device 92. The component mounting system 1 includes a plurality of feeders 20. In the present embodiment, the mounting apparatus 10 is an example of an apparatus main body.

  The overall management device 40, each line management device 30, and each mounting device 10 have unique identification information. FIG. 1 shows an example of a unique identification number of each component. Based on the identification information, the overall management device 40, each line management device 30, and each mounting device 10 can be specified. As the identification information, for example, a single number or alphabet, or a character string combining a plurality of numbers and alphabet can be used. For example, in the present embodiment, the overall management apparatus 40 has unique identification information “A”. Further, for example, the line management device 30a managed by the overall management device 40 has unique identification information “A-B1”. For example, the mounting apparatus 10b managed by the line management apparatus 30a has identification information “A-B1-C2”. That is, the mounting apparatus 10b in the component mounting line 3a has the identification information “A-B1-C2”.

  The identification information of the line management device 30 includes the identification information of the overall management device 40 that manages the line management device 30. For example, in the present embodiment, the identification information “A-B1” of the line management device 30 a managed by the overall management device 40 includes the identification information “A” of the overall management device 40. Therefore, the overall management device 40 that manages the line management device 30 can be specified by the identification information of the line management device 30.

  The identification information of the mounting apparatus 10 includes identification information of the line management apparatus 30 that manages the mounting apparatus 10 and identification information of the general management apparatus 40 that manages the line management apparatus 30. For example, in this embodiment, the identification information “A-B1-C1” of the mounting apparatus 10b managed by the line management apparatus 30a is the identification information “A-B1” of the line management apparatus 30a, and the line management apparatus 30a. The identification information “A” of the overall management apparatus 40 to be managed is included. Therefore, the line management device 30 that manages the mounting device 10 and the overall management device 40 that manages the line management device 30 can be specified by the identification information of the mounting device 10.

  As shown in FIG. 2, the overall management apparatus 40 includes a control unit 401, a storage unit 402, a communication unit 403, and an input unit 404. As the overall management apparatus 40, a PC that performs information processing can be used.

  The control unit 401 of the overall management device 40 comprehensively manages information of the plurality of line management devices 30 (30a, 30b, and 30c). The control unit 401 controls the plurality of line management devices 30 (30a, 30b, and 30c) based on information stored in the storage unit 402, information communicated by the communication unit 403, information input from the input unit 404, and the like. Control. The control unit 401 includes a known CPU, for example, and performs information processing by the CPU.

  The storage unit 402 of the overall management device 40 stores various types of information. The storage unit 402 stores a program for managing a plurality of line management devices 30 (30a, 30b and 30c), for example. The storage unit 402 includes, for example, a known RAM and ROM, and stores information using the RAM and ROM. The storage unit 402 stores unique identification information of the overall management apparatus 40.

  The communication unit 403 of the overall management apparatus 40 performs various types of information communication. The communication unit 403 performs information communication with the plurality of line management devices 30 (30a, 30b, and 30c). The communication unit 403 includes, for example, known cables, connectors, and antennas, and transmits and receives information using these. Information communication may be either wired communication or wireless communication.

  The input unit 404 of the overall management apparatus 40 inputs various information. The input unit 404 includes, for example, a known touch panel, and is configured to be able to input information from the touch panel. The input unit 404 can input command information for transmitting the identification information from the mounting apparatus 10 to the feeder 20. The input unit 404 can input completion information indicating that registration of identification information for the feeder 20 has been completed.

  The line management apparatus 30 includes a control unit 301, a storage unit 302, a communication unit 303, and an input unit 304. As the line management device 30, a PC that performs information processing can be used.

  The control unit 301 of the line management device 30 comprehensively manages information on the plurality of mounting devices 10 (10a, 10b, and 10c), information on the printing device 91, and information on the reflow device 92. Based on information stored in the storage unit 302, information communicated by the communication unit 303, information input from the input unit 304, and the like, the control unit 301 includes a plurality of mounting apparatuses 10 (10a, 10b, and 10c), The printing apparatus 91 and the reflow apparatus 92 are controlled. The control unit 301 includes, for example, a known CPU, and performs information processing by the CPU.

  The storage unit 302 of the line management device 30 stores various types of information. The storage unit 302 stores, for example, a program for managing the plurality of mounting apparatuses 10 (10a, 10b, and 10c), the printing apparatus 91, and the reflow apparatus 92. The storage unit 302 includes, for example, a known RAM and ROM, and stores information using the RAM and ROM. The storage unit 302 stores unique identification information of the line management device 30.

  The communication unit 303 of the line management device 30 performs various types of information communication. The communication unit 303 performs information communication with the overall management device 40. The communication unit 303 performs information communication with the plurality of mounting apparatuses 10 (10a, 10b, and 10c), the printing apparatus 91, and the reflow apparatus 92. The communication unit 303 includes, for example, a known cable, connector, and antenna, and transmits and receives information using these. Information communication may be either wired communication or wireless communication.

  The input unit 304 of the line management device 30 inputs various information. The input unit 304 includes, for example, a known touch panel, and is configured to be able to input information from the touch panel.

  Next, an example of the mounting apparatus 10 will be described. As shown in FIGS. 3 and 4, the mounting apparatus 10 includes a conveyor 11 and a head 12. The conveyor 11 is disposed inside the mounting apparatus 10. The conveyor 11 conveys and supports the substrate 50 on which the component 70 is mounted. The conveyor 11 sequentially conveys the plurality of substrates 50 and supports the substrate 50 when the component 70 is mounted on the substrate 50.

  The head 12 is disposed inside the mounting apparatus 10. The head 12 holds a component 70 for mounting on the substrate 50. Further, the head 12 mounts the held component 70 on the substrate 50. The head 12 is configured to be movable in the xy directions in FIG. In addition, the head 12 includes a nozzle 13 for holding the component 70. The nozzle 13 is configured to be movable in the z direction of FIG. The head 12 moves the nozzle 13 in the z direction to pick up the component 70 from the feeder 20, moves in the xy direction while holding the component 70, and transports the component 70 to the substrate 50. Implement. That is, the head 12 picks up the component 70 supplied from the feeder 20 and mounts the component 70 on the substrate 50. In this way, the component 70 is mounted on the substrate 50 by the mounting apparatus 10.

  The plurality of mounting apparatuses 10 (10a, 10b, and 10c) have the same mounting structure with respect to the feeder 20. Therefore, the feeder 20 can be attached to any mounting device 10 among the plurality of mounting devices 10 (10a, 10b, and 10c). A component 70 is supplied to the mounting apparatus 10 from a feeder 20 attached to the mounting apparatus 10.

  As illustrated in FIG. 2, the mounting apparatus 10 includes a control unit 101, a storage unit 102, a communication unit 103, and an input unit 104.

  The control unit 101 of the mounting apparatus 10 controls the operation of the mounting apparatus 10. The control unit 101 controls the mounting apparatus 10 based on information stored in the storage unit 102, information communicated by the communication unit 103, information input from the input unit 104, and the like. The control unit 101 includes, for example, a known CPU, and performs information processing by the CPU.

  The storage unit 102 of the mounting apparatus 10 stores various types of information. For example, the storage unit 102 stores a program for controlling the operation of the mounting apparatus 10. The storage unit 102 includes, for example, a known RAM and ROM, and stores information using the RAM and ROM. The storage unit 102 stores unique identification information of the mounting apparatus 10.

  The communication unit 103 of the mounting apparatus 10 performs various types of information communication. The communication unit 103 performs information communication with the line management device 30. Further, the communication unit 103 performs information communication with the feeder 20. The communication unit 103 includes, for example, known cables, connectors, and antennas, and transmits and receives information using these. Information communication may be either wired communication or wireless communication.

  The input unit 104 of the mounting apparatus 10 inputs various information. The input unit 104 includes, for example, a known touch panel, and is configured to be able to input information from the touch panel.

  Next, an example of the feeder 20 will be described. As shown in FIGS. 3 and 4, the feeder 20 is attached to the mounting apparatus 10. Each feeder 20 is configured to be detachable from the mounting apparatus 10. Each feeder 20 supplies the component 70 to the mounting apparatus 10 while being attached to the mounting apparatus 10.

  As shown in FIG. 5, the feeder 20 includes a reel 21, a sprocket 22, and a tape 23.

  The reel 21 is disposed at the rear part of the feeder 20. The reel 21 holds the tape 23 in a wound state. The reel 21 is rotatably supported, and feeds the tape 23 forward by the rotation.

  The sprocket 22 is disposed at the front portion of the feeder 20. The sprocket 22 is rotatably supported and rotates by driving a motor (not shown). A tape 23 is stretched between the reel 21 and the sprocket 22. The sprocket 22 feeds the tape 23 forward by rotation.

  The tape 23 is stretched between the reel 21 and the sprocket 22. As shown in FIG. 6, the tape 23 holds a plurality of components 70. The plurality of components 70 are arranged side by side along the length direction of the tape 23 at intervals. The component 70 is detachably fixed to the tape 23. The tape 23 is fed forward at a predetermined speed by the rotation of the reel 21. As the tape 23 advances forward, the plurality of components 70 are fed forward at a predetermined interval. The component 70 fed forward is picked up by the head 12 of the mounting apparatus 10.

  The feeder 20 can be attached to a plurality of mounting apparatuses 10 (10a, 10b and 10c). The user can select an arbitrary mounting device 10 from among a plurality of mounting devices 10 (10a, 10b and 10c), and attach the feeder 20 to the selected mounting device 10 (10a, 10b or 10c). That is, the feeder 20 can be attached to an arbitrary mounting apparatus 10 in the component mounting system 1.

  As shown in FIG. 2, the feeder 20 includes a control unit 201, a storage unit 202, and a communication unit 203.

  The control unit 201 of the feeder 20 controls the operation of the feeder 20. The control unit 201 controls the feeder 20 based on information stored in the storage unit 202, information communicated by the communication unit 203, and the like. The control unit 201 includes, for example, a known CPU, and performs information processing by the CPU. The control by the control unit 201 will be described in detail later.

  The storage unit 202 of the feeder 20 stores various types of information. The storage unit 202 stores a program for controlling the operation of the feeder 20, for example. The storage unit 202 includes, for example, a known RAM and ROM, and stores information using the RAM and ROM.

  The storage unit 202 can store identification information of the overall management device 40, identification information of the line management device 30, and identification information of the mounting device 10. In the present embodiment, a case where the storage unit 202 stores the identification information “A-B1-C1” of the mounting device 10a (the mounting device 10a of the component mounting line 3a) managed by the line management device 30a will be described. The identification information stored in the storage unit 202 is determined by the user.

  The storage unit 202 can store a flag “1” or “0” indicating the storage state of the storage unit 202. The flag includes a flag “1” indicating that the storage unit 202 stores identification information and a flag “0” indicating that the storage unit 202 does not store identification information. The storage unit 202 can store either the flag “1” or the flag “0”. The storage unit 202 cannot store new identification information when the flag “1” is stored. That is, the storage unit 202 has already stored identification information, and when the flag “1” is set, new identification information cannot be overwritten and registered. On the other hand, the storage unit 202 can store new identification information when the flag “1” is not stored. That is, the storage unit 202 can write new identification information when the identification information is not yet stored and the flag “1” is not set. Alternatively, the storage unit 202 can store new identification information when the flag “0” is stored. In other words, the storage unit 202 has not yet stored identification information, and can write new identification information when the flag “0” is set. In the initial state of the feeder 20, the storage unit 202 does not store the flag “1”. Alternatively, in the initial state of the feeder 20, the storage unit 202 may store a flag “0”. Therefore, new identification information can be registered in the storage unit 202 in the initial state. The flag in the storage unit 202 is set by the user.

  The communication unit 203 of the feeder 20 performs various types of information communication. The communication unit 203 performs information communication with the mounting apparatus 10. The communication unit 203 includes, for example, known cables, connectors, and antennas, and transmits and receives information using these. Information communication may be either wired communication or wireless communication.

  Next, the operation of the component mounting system having the above configuration will be described. In the component mounting system 1 having the above-described configuration, first, the user performs advance settings. In advance setting, the user selects one feeder 20 from among the plurality of feeders 20. Further, the user selects one mounting apparatus 10 from among the plurality of mounting apparatuses 10. Further, the user attaches the selected feeder 20 to the selected mounting apparatus 10. In the present embodiment, description will be made assuming that the user has selected the mounting apparatus 10b managed by the line management apparatus 30a. That is, description will be made on the assumption that the user has selected the mounting apparatus 10 having the identification information “A-B1-C2”.

  Further, when the identification information is not yet stored in the storage unit 202 of the feeder 20 selected by the user and the flag “1” is not set (or when the flag “0” is set), a new Identification information can be stored in the storage unit 202. On the other hand, when the identification information is already stored in the storage unit 202 of the feeder 20 selected by the user and the flag “1” is set, the new identification information cannot be stored in the storage unit 202.

  Next, the user registers unique identification information of the selected mounting apparatus 10 in the storage unit 202 of the selected feeder 20. Specifically, first, the user inputs registration command information from the input unit 404 of the overall management device 40. For example, the user can input registration command information by touching an icon of registration command information displayed on the touch panel.

  When the registration command information is input, the control unit 401 of the overall management apparatus 40 transmits the input registration command information from the communication unit 403. The registration command information is transmitted from the communication unit 403 of the overall management device 40 to the communication unit 103 of the mounting device 10 via the communication unit 303 of the line management device 30. In the present embodiment, the registration command information is transmitted to the mounting apparatus 10b (the mounting apparatus 10b having the identification information “A-B1-C2”) managed by the line management apparatus 30a.

  When the registration command information is transmitted to the mounting apparatus 10, the control unit 101 of the mounting apparatus 10 receives the transmitted registration command information from the communication unit 103. Further, the control unit 101 of the mounting apparatus 10 transmits the identification information stored in the storage unit 102 from the communication unit 103 based on a command based on the registration command information. In the present embodiment, the control unit 101 of the mounting apparatus 10b managed by the line management apparatus 30a transmits the identification information “A-B1-C2” stored in the storage unit 102. The identification information “A-B1-C2” of the mounting device 10 (the mounting device 10b managed by the line management device 30a) is transmitted from the communication unit 103 of the mounting device 10 to the communication unit 203 of the feeder 20.

  When the identification information is transmitted to the feeder 20, the control unit 201 of the feeder 20 receives the transmitted identification information from the communication unit 203. Further, the control unit 201 confirms whether or not the flag “1” is set in the storage unit 202 of the feeder 20. When the storage unit 202 does not store the flag “1” (or when the storage unit 202 stores the flag “0”), new identification information can be registered in the storage unit 202. On the other hand, when the storage unit 202 stores the flag “1”, new identification information cannot be registered in the storage unit 202. In the present embodiment, description will be made assuming that the storage unit 202 of the feeder 20 does not store the flag “1”. Therefore, the storage unit 202 can store new identification information.

  The control unit 201 of the feeder 20 registers the identification information received from the communication unit 203 in the storage unit 202. Thereby, the identification information “A-B1-C2” of the mounting apparatus 10 (the mounting apparatus 10b managed by the line management apparatus 30a) selected by the user is stored in the storage unit 202 of the feeder 20.

  After the identification information is registered in the storage unit 202 of the feeder 20, the user inputs registration completion information from the input unit 404 of the overall management apparatus 40 in order to set a flag indicating the storage state of the storage unit 202. For example, registration completion information can be input by the user touching an icon of registration completion information displayed on the touch panel.

  When the registration completion information is input, the control unit 401 of the overall management apparatus 40 transmits the input registration completion information from the communication unit 403. The registration completion information is transmitted from the communication unit 403 of the overall management device 40 to the communication unit 203 of the feeder 20 via the communication unit 303 of the line management device 30 and the communication unit 103 of the mounting device 10.

  When the registration completion information is transmitted to the feeder 20, the control unit 201 of the feeder 20 receives the transmitted registration completion information from the communication unit 203. Further, the control unit 201 of the feeder 20 sets a flag “1” indicating that the storage unit 202 stores the identification information based on the registration completion information. The storage unit 202 stores the flag “1”. Thereby, it can be specified that the storage unit 202 stores the identification information. If the storage unit 202 stores a flag “1” indicating that identification information is stored, the storage unit 202 cannot store new identification information. Therefore, when the control unit 201 sets the flag “1” in the storage unit 202, new identification information cannot be overwritten and registered in the storage unit 202 thereafter.

  In the component mounting system 1, the component is supplied by the feeder 20 after performing the above-described pre-setting. Specifically, first, the user selects one feeder 20 to be used from among a plurality of feeders 20. Further, the user selects one mounting apparatus 10 to be used from among the plurality of mounting apparatuses 10. Then, the feeder 20 selected by the user is attached to the selected mounting apparatus 10. The control unit 201 of the feeder 20 controls the operation of the feeder 20 according to the mounting apparatus 10 to which the feeder 20 is attached. More specifically, the control unit 201 of the feeder 20 enables the component supply or disables the component supply in accordance with the mounting apparatus 10. This will be described in more detail below.

  In the following description, the plurality of mounting apparatuses 10 may be classified and described as a specific mounting apparatus and a non-specific mounting apparatus. The specific mounting apparatus is the mounting apparatus 10 having certain unique identification information. The non-specific mounting device is the mounting device 10 having unique identification information different from the unique identification information of the specific mounting device. Specifically, in the present embodiment, the mounting apparatus 10 having the identification information “A-B1-C2” is the specific mounting apparatus, and the mounting apparatus 10 having identification information different from the identification information “A-B1-C2” is used. May be described as a non-specific mounting device. That is, the mounting device 10b managed by the line management device 30a may be described as a specific mounting device, and the mounting device 10 different from the mounting device 10b managed by the line management device 30a may be described as a non-specific mounting device. Further, the specific mounting apparatus may be described with reference numeral 10x.

  Further, in the following description, the plurality of feeders 20 may be described by being classified into specific feeders and non-specific feeders. The specific feeder is the feeder 20 that stores certain unique identification information in the storage unit 202. The non-specific feeder is a feeder 20 in which unique identification information different from the identification information stored in the specific feeder is stored in the storage unit 202. Specifically, in this embodiment, the feeder 20 storing the identification information “A-B1-C2” in the storage unit 202 is used as a specific feeder, and identification information different from the identification information “A-B1-C2” is stored. The feeder 20 stored in the unit 202 may be described as a non-specific feeder. The specific feeder may be described with a reference numeral 20x.

  The correspondence between the plurality of feeders 20 and the plurality of mounting apparatuses 10 is schematically shown in FIG. In FIG. 7, the specific feeder 20x and the specific mounting apparatus 10x are indicated by hatching. First, the case where the specific feeder 20x is attached to the specific mounting apparatus 10x will be described. That is, a case where the feeder 20 selected by the user from the plurality of feeders 20 is the specific feeder 20x and the mounting apparatus 10 selected from the plurality of mounting apparatuses 10 is the specific mounting apparatus 10x will be described.

  When the user attaches the selected specific feeder 20x to the specific mounting apparatus 10x, the specific feeder 20x and the specific mounting apparatus 10x become communicable via the communication units 103 and 203. Further, the control unit 201 of the specific feeder 20x recognizes that the flag “1” is set in the storage unit 202. Then, the identification information “A-B1-C2” stored in the storage unit 102 of the specific mounting apparatus 10x is transmitted from the communication unit 103 of the specific mounting apparatus 10x to the specific feeder 20x. When the identification information “A-B1-C2” is transmitted from the communication unit 103 of the specific mounting apparatus 10x, the control unit 201 of the specific feeder 20x receives the identification information “A-B1-C2” from the communication unit 203 of the specific feeder 20x. Receive. The control unit 201 of the specific feeder 20x compares the received identification information “A-B1-C2” with the identification information “A-B1-C2” stored in the storage unit 202 of the specific feeder 20x. In this case, the identification information “A-B1-C2” received from the specific mounting apparatus 10x matches the identification information “A-B1-C2” stored in the storage unit 202 of the specific feeder 20x. As a result, the control unit 201 of the specific feeder 20x recognizes that the specific feeder 20x is attached to the specific mounting apparatus 10x. That is, the control unit 201 recognizes that the mounting apparatus 10 to which the feeder 20 is attached is the mounting apparatus 10 specified by the identification information stored in the storage unit 202 of the feeder 20.

  When the specific feeder 20x is attached to the specific mounting apparatus 10x, the control unit 201 of the specific feeder 20x enables the component supply by the specific feeder 20x. For example, power is supplied to a motor (not shown) that rotationally drives the sprocket 22 of the specific feeder 20x. Thereby, the specific feeder 20x operates and the component 70 can be supplied from the specific feeder 20x to the specific mounting apparatus 10x. When the specific feeder 20x is ready to supply components, the specific mounting apparatus 10x can mount the components 70 supplied from the specific feeder 20x on the board 50.

  Next, a case where the specific feeder 20x is attached to the non-specific mounting apparatus 10 will be described. That is, the case where the feeder 20 selected by the user from the plurality of feeders 20 is the specific feeder 20x, and the mounting apparatus 10 selected from the plurality of mounting apparatuses 10 is the non-specific mounting apparatus 10 will be described.

  In the present embodiment, description will be made assuming that the specific feeder 20x is attached to the mounting apparatus 10c managed by the line management apparatus 30b. The mounting device 10c managed by the line management device 30b is a non-specific mounting device and has identification information “A-B2-C3”. The storage unit 102 of the non-specific mounting apparatus 10 (the mounting apparatus 10c managed by the line management apparatus 30b) stores identification information “A-B2-C3”. The identification information “A-B2-C3” included in the non-specific mounting apparatus 10 is different from the identification information “A-B1-C2” stored in the storage unit 202 of the specific feeder 20x.

  When the user attaches the selected specific feeder 20x to the non-specific mounting apparatus 10, the specific feeder 20x and the non-specific mounting apparatus 10 become communicable via the communication units 103 and 203. Further, the control unit 201 of the specific feeder 20x recognizes that the flag “1” is set in the storage unit 202. Then, the identification information “A-B2-C3” stored in the storage unit 102 of the non-specific mounting apparatus 10 is transmitted from the communication unit 103 of the non-specific mounting apparatus 10 to the specific feeder 20x. When the identification information “A-B2-C3” is transmitted from the communication unit 103 of the non-specific mounting apparatus 10, the control unit 201 of the specific feeder 20x receives the identification information “A-B2-C3” from the communication unit 203 of the specific feeder 20x. Is received. The control unit 201 of the specific feeder 20x compares the received identification information “A-B2-C3” with the identification information “A-B1-C2” stored in the storage unit 202 of the specific feeder 20x. In this case, the identification information “A-B2-C3” received from the non-specific mounting device 10 does not match the identification information “A-B1-C2” stored in the storage unit 202 of the specific feeder 20x. As a result, the control unit 201 of the specific feeder 20x recognizes that the specific feeder 20x is attached to the non-specific mounting apparatus 10. That is, the control unit 201 recognizes that the mounting apparatus 10 to which the feeder 20 is attached is the mounting apparatus 10 that is not specified by the identification information stored in the storage unit 202 of the feeder 20.

  When the specific feeder 20x is attached to the non-specific mounting apparatus 10, the control unit 201 of the specific feeder 20x disables component supply by the specific feeder 20x. For example, the power supply to a motor (not shown) that rotationally drives the sprocket 22 of the specific feeder 20x is cut off. Alternatively, the rotation of the reel 21 of the specific feeder 20x is inhibited. Thereby, the specific feeder 20x does not operate, and the component 70 cannot be supplied from the specific feeder 20x to the non-specific mounting apparatus 10. When the specific feeder 20x cannot supply components, the non-specific mounting apparatus 10 cannot mount the components 70 on the board 50 because the components 70 are not supplied from the specific feeder 20x.

  Next, a case where the non-specific feeder 20 is attached to the specific mounting apparatus 10x will be described. That is, the case where the feeder 20 selected by the user from the plurality of feeders 20 is the non-specific feeder 20 and the mounting apparatus 10 selected from the plurality of mounting apparatuses 10 is the specific mounting apparatus 10x will be described.

  In the present embodiment, the storage unit 102 of the specific mounting apparatus 10x stores identification information “A-B1-C2”. On the other hand, the storage unit 202 of the non-specific feeder 20 stores identification information different from the identification information “A-B1-C2” for specifying the specific mounting apparatus 10x.

  In this case, as in the case where the specific feeder 20x is attached to the non-specific mounting apparatus 10, the identification information of the mounting apparatus 10 and the identification information of the feeder 20 do not match. As a result, the control unit 201 of the feeder 20 recognizes that the mounting apparatus 10 to which the feeder 20 is attached is the mounting apparatus 10 that is not specified by the identification information stored in the storage unit 202 of the feeder 20.

  When the non-specific feeder 20 is attached to the specific mounting apparatus 10x, the control unit 201 of the non-specific feeder 20 disables component supply by the non-specific feeder 20. If the non-specific feeder 20 is in a state in which the components cannot be supplied, the specific mounting apparatus 10x cannot mount the components 70 on the board 50 because the components 70 are not supplied from the non-specific feeder 20.

  Next, a case where the non-specific feeder 20 is attached to the non-specific mounting apparatus 10 will be described. That is, the case where the feeder 20 selected by the user from the plurality of feeders 20 is the non-specific feeder 20 and the mounting apparatus 10 selected from the plurality of mounting apparatuses 10 is the non-specific mounting apparatus 10 will be described.

  In this case, it depends on the relationship between the identification information stored in the storage unit 202 of the non-specific feeder 20 and the identification information stored in the storage unit 102 of the non-specific mounting apparatus 10. When the identification information of the two matches, the control unit 201 of the feeder 20 is the mounting device 10 in which the mounting device 10 to which the feeder 20 is attached is specified by the identification information stored in the storage unit 202 of the feeder 20. Recognize that there is. Then, the control unit 201 enables the component supply by the feeder 20. On the other hand, when the identification information of both does not match, the control unit 201 of the feeder 20 indicates that the mounting device 10 to which the feeder 20 is attached is not specified by the identification information stored in the storage unit 202 of the feeder 20. Recognize that. Then, the control unit 201 disables the component supply by the feeder 20.

  When the storage unit 202 of the feeder 20 does not store identification information, the feeder 20 can supply the component 70 to any mounting apparatus 10. That is, when the flag “1” is not set in the storage unit 202 of the feeder 20 (or when the flag “0” is set), the feeder 20 places the component 70 on the plurality of mounting apparatuses 10 without limitation. Can supply.

  As described above, the specific feeder and the specific mounting apparatus correspond to each other, and when the specific feeder is attached to the specific mounting apparatus, the parts can be supplied. On the other hand, the specific feeder and the non-specific mounting apparatus do not correspond to each other, and when the specific feeder is attached to the non-specific mounting apparatus, the parts cannot be supplied.

  As is clear from the above description, in the component mounting system 1 described above, the feeder 20 can be attached to a plurality of mounting apparatuses 10 and controls the operation of the feeder 20 according to the mounted mounting apparatuses 10. 201 and a storage unit 202 capable of storing identification information for specifying the mounting apparatus 10. Moreover, the control part 201 of the feeder 20 is the case where the feeder 20 is attached to the mounting apparatus 10 specified by the identification information for specifying the mounting apparatus 10 memorize | stored in the memory | storage part 202 among the some mounting apparatuses 10. Makes the component supply by the feeder 20 possible. When the feeder 20 is attached to the mounting apparatus 10 that is not specified by the identification information for specifying the mounting apparatus 10 stored in the storage unit 202, the component supply by the feeder 20 is disabled.

  Thereby, when the feeder 20 (specific feeder 20x) having the identification information stored in the storage unit 202 is attached to the mounting apparatus 10 (specific mounting apparatus 10x) specified by the identification information, the specific mounting is performed from the specific feeder 20x. The part 70 is supplied to the apparatus 10x. Therefore, in this case, the component 70 can be mounted on the substrate 50. On the other hand, when the feeder 20 (specific feeder 20x) storing the identification information in the storage unit 202 is attached to the mounting apparatus 10 (non-specific mounting apparatus) that is not specified by the identification information, the non-specific mounting apparatus is specified from the specific feeder 20x. The part 70 is not supplied. Therefore, in this case, the component 70 cannot be mounted on the board 50. As described above, whether or not the components can be supplied is controlled not on the mounting device 10 side but on the feeder 20 side. Therefore, even if the specific feeder 20x is attached to the non-specific mounting device 10, the component supply is performed regardless of the specific mounting device 10x. Can be controlled. As a result, it is possible to prevent the specific feeder 20x from being used in the non-specific mounting apparatus 10. For example, even if the specified feeder 20x owned by the company is stolen by someone and the stolen specified feeder 20x is attached to the mounting apparatus 10 of the component mounting system 1 owned by the other company, the mounting apparatus owned by the other company If 10 is a non-specific mounting device, the specific feeder 20x owned by the company does not operate. Thereby, it is possible to prevent the specific feeder 20x owned by the company from being used by the non-specific mounting apparatus 10 owned by another company. As a result, even if the feeder 20 is stolen and used by another mounting apparatus 10, the feeder 20 cannot be used if there is no relationship between the specific feeder 20 x and the specific mounting apparatus 10 x. Become. Thereby, it is possible to suppress the feeder 20 from being stolen.

  Further, the storage unit 202 of the feeder 20 can store a flag “1” indicating that the identification information is stored. Therefore, whether or not the identification information is stored in the storage unit 202 can be determined based on the flag “1”. In addition, when the storage unit 202 of the feeder 20 stores the flag “1”, it cannot store new identification information for specifying the mounting apparatus 10 and does not store the flag “1”. Can store new identification information for specifying the mounting apparatus 10. Therefore, by setting the flag “1” in the storage unit 202 of the feeder 20, overwriting registration of the identification information stored in the storage unit 202 can be prevented. As a result, even if the feeder 20 is stolen, the identification information registered in the storage unit 202 does not change, so that the specific feeder 20x can be prevented from being used by the non-specific mounting apparatus 10 owned by another company.

  As mentioned above, although one embodiment was described, a specific mode is not limited to the above-mentioned embodiment. In the above embodiment, the storage unit 202 of the specific feeder 20x stores one piece of identification information (“A-B1-C2” in the above embodiment), but the number of pieces of identification information stored in the storage unit 202 is particularly limited. Is not to be done. In other embodiments, the storage unit 202 of the specific feeder 20x may store a plurality of pieces of identification information. For example, the identification information “A-B1-C2” and “A-B1-C3” regarding the mounting apparatus 10b and the mounting apparatus 10c managed by the line management apparatus 30a may be registered in the storage unit 202 of the specific feeder 20x. In this case, the mounting device 10b and the mounting device 10c managed by the line management device 30a are the specific mounting device 10x. When the specific feeder 20x is attached to the specific mounting apparatus 10x (the mounting apparatus 10b or the mounting apparatus 10c managed by the line management apparatus 30a), the parts can be supplied by the specific feeder 20x.

  In the above embodiment, the mounting apparatus 10 is described as an example of the apparatus main body. However, a specific example of the apparatus main body is not limited to the mounting apparatus 10. For example, the component mounting line 3 may be another example of the apparatus main body. As shown in FIG. 1, each component mounting line 3 (3a, 3b or 3c) includes a line management device 30 (30a, 30b or 30c) and a plurality of mounting devices 10 (10a, 10b and 10c). I have. When the component mounting line 3 is an example of an apparatus main body, the storage unit 202 of the feeder 20 stores identification information of the line management device 30 in the component mounting line 3. For example, the storage unit 202 of the specific feeder 20x stores the identification information “A-B1” of the line management device 30a of the component mounting line 3a. If it does so, the specific feeder 20x will be in the state which can supply components, when each of the some mounting apparatus 10 (10a, 10b and 10c) which the line management apparatus 30a manages is attached. That is, the specific feeder 20x has a mounting device 10a having identification information “A-B1-C1”, a mounting device 10b having identification information “A-B1-C2”, or “A-B1” in the component mounting line 3a. When it is attached to the mounting apparatus 10c having the identification information “−C3”, the component can be supplied. On the other hand, when the specific feeder 20x is attached to the mounting apparatus 10 in the component mounting lines 3b and 3c other than the component mounting line 3a, the components cannot be supplied.

  As described above, the specific example of the apparatus main body is not particularly limited and can be changed. For example, the entire device including the overall management device 40 may be used as the device body.

  In the above embodiment, when registering the identification information in the storage unit 202 of the feeder 20, the registration command information is input from the input unit 404 of the overall management apparatus 40. However, the present invention is not limited to this configuration. . In another embodiment, for example, registration command information may be input from the input unit 104 of the mounting apparatus 10. Or you may register identification information in the memory | storage part 202 of the feeder 20 using the registration apparatus which is not shown in figure. Further, the identification information may be registered in the storage unit 202 of the feeder 20 in a state where the feeder 20 is not attached to the mounting apparatus 10. Further, the identification information may be registered in the storage unit 202 in advance before the feeder 20 is shipped from the factory. Thus, the method for registering the identification information in the storage unit 202 of the feeder 20 is not particularly limited.

  In the above embodiment, an example of the mounting apparatus 10 and the feeder 20 has been described. However, the specific configurations of the mounting apparatus 10 and the feeder 20 are not limited thereto. For example, in the above-described embodiment, the tape feeder that supplies the component 70 accommodated in the tape 23 is described as an example of the feeder 20, but the present invention is not limited to this. Another example of the feeder 20 may be a stick feeder that supplies components housed in a stick, or a tray feeder that supplies components housed in a tray.

  In another embodiment, when the specific feeder 20x is attached to the non-specific mounting apparatus 10, the control unit 201 of the specific feeder 20x may transmit error information to the outside. For example, the control unit 201 of the specific feeder 20x may transmit error information to the non-specific mounting apparatus 10 to which the specific feeder 20x is attached. Alternatively, error information may be transmitted to the specific mounting apparatus 10x by wireless communication. The error information notifies the non-specific mounting apparatus 10 that the specific feeder 20x has been attached. Alternatively, it is notified by error information that the specific feeder 20x has been stolen.

  Moreover, the system in which the storage unit 102 of the mounting apparatus 10 stores the identification information is not particularly limited. The storage unit 102 may store identification information encrypted by a public key cryptosystem. The public key cryptosystem is a method of performing encryption and decryption using a pair of public key and private key. The information is encrypted with the public key, and the information is decrypted with the secret key. The storage unit 202 of the feeder 20 stores a secret key.

  Specific examples of the present invention have been described in detail above, but these are merely examples and do not limit the scope of the claims. The technology described in the claims includes various modifications and changes of the specific examples illustrated above. The technical elements described in this specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the technology exemplified in this specification or the drawings can achieve a plurality of objects at the same time, and has technical usefulness by achieving one of the objects.

DESCRIPTION OF SYMBOLS 1; Component mounting system 3; Component mounting line 10; Mounting apparatus 11; Conveyor 12; Head 13; Nozzle 20; Feeder 21; Reel 22, Sprocket 23; Tape 30; Line management device 40; Component 91; Printing device 92; Reflow device 101; Control unit 102; Storage unit 103; Communication unit 104; Input unit 201; Control unit 202; Storage unit 203; Communication unit 301; Input unit 401; control unit 402; storage unit 403; communication unit 404; input unit

Claims (5)

The device body;
A feeder for supplying parts to the apparatus main body,
The feeder can be attached to a plurality of apparatus main bodies, a control unit for controlling the operation of the feeder according to the attached apparatus main body, a storage unit capable of storing identification information for specifying the apparatus main body, With
When the feeder is attached to an apparatus main body specified by identification information for specifying an apparatus main body stored in the storage unit among a plurality of apparatus main bodies, the control unit of the feeder uses the feeder. When the feeder is attached to a device main body that is not specified by the identification information for specifying the device main body stored in the storage unit, the component supply by the feeder is disabled. , Component mounting system.   The component mounting system according to claim 1, wherein the storage unit of the feeder is capable of storing a flag indicating that the identification information is stored.   The storage unit of the feeder cannot store new identification information for specifying the apparatus main body when the flag is stored, and specifies the apparatus main body when the flag is not stored. The component mounting system according to claim 2, wherein new identification information can be stored.   The said control part of the said feeder transmits error information outside when the said feeder is attached to the apparatus main body which is not specified by the identification information for specifying the apparatus main body memorize | stored in the said memory | storage part. 4. The component mounting system according to any one of items 1 to 3. A feeder for supplying parts to the device body,
The feeder can be attached to a plurality of apparatus main bodies, and a control unit that controls the operation of the feeder according to the attached apparatus main bodies, and a storage capable of storing identification information for specifying the designated apparatus main bodies. And comprising
When the feeder is attached to an apparatus main body specified by identification information for specifying an apparatus main body stored in the storage unit among a plurality of apparatus main bodies, the control unit of the feeder uses the feeder. When the feeder is attached to a device main body that is not specified by the identification information for specifying the device main body stored in the storage unit, the component supply by the feeder is disabled. ,feeder.

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