Electronic Elements Feeding Apparatus And Method Thereof
专利摘要:
PURPOSE: An apparatus and a method for supplying electronic components are provided to transfer the mounted electronic components and discharge bad electronic components by supplying continuously a plurality of base plates including the electronic components. CONSTITUTION: A pallet including components is transferred from a magazine to a buffer by an elevator(S100). The empty pallet is transferred to the magazine by the elevator after the components are loaded on a mounter(S200). The pallet is transferred to a working position of the buffer and a head portion. The components are transferred to a pocket portion by the head portion. The components are transferred from the mounter by driving the pocket portion. Bad components are discharged by the head portion and a discharging conveyer. A nozzle is exchanged by an automatic nozzle exchange device. 公开号:KR20040000812A 申请号:KR1020020035769 申请日:2002-06-25 公开日:2004-01-07 发明作者:이상원 申请人:미래산업 주식회사; IPC主号:
专利说明:
Electronic Elements Feeding Apparatus And Method Thereof} [12] BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic component supply apparatus and method, and more particularly, to an electronic component supply apparatus and method for supplying an electronic component to a mounter for various operations. [13] In recent years, miniaturization of products is progressing, as can be easily seen from a mobile phone. Due to this effect, the size of the electronic circuit board is also reduced, and miniaturization corresponding to the high-density mounting of electronic components is progressing. [14] On the other hand, for the high performance and high density of electronic components themselves, large-scale chips such as QFP (Quad Flat Package), CSP (Chip Scale Package), and module chips are also being developed, and connectors such as large electronic components and release components are called. Opportunities for mounting on circuit boards are also increasing. [15] The large-scale electronic components are accommodated in a tray in a flat arrangement so that a plurality of the electronic components can be stably supplied while handling a plurality of small volumes. [16] In addition, in recent years, large-scale products have progressed in multifunctionality, and it is necessary to mount various kinds of electronic components on one circuit board, or in small products, there is a tendency of miniaturization of various kinds of products. In a component mounting apparatus, it is expected to be able to supply various kinds of electronic components as needed every time. [17] Conventionally, a large number of trays containing electronic components of different types are provided, stored in one tray storage unit, and handled, and a tray containing the required electronic components can be taken out and supplied each time. [18] 1 is a view schematically showing a conventional electronic component supply apparatus. As shown in FIG. 1, the tray a containing the electronic components is supported by the support plate b and stored in multiple stages in the tray accommodating part c which is lifted up and down. The tray accommodating part (c) is elevated by the elevating mechanism (e), and each supporting plate (b) or the accommodating part thereof is appropriately corresponding to the height of the component supply part (d), so that the component supply part (d) and the number of trays corresponding thereto. Whenever the support plate b is withdrawn from the storage part of the payment part c by the withdrawal mechanism p, and the withdrawal of the support plate b is carried out, the electronic parts in the tray a supported by it are parts. It is supplied to the handling mechanism f and provided for handling by it. The component handling mechanism f has a mounting head portion i that is moved by moving axes g and h in the XY two directions perpendicular to each other, and an adsorption nozzle j mounted to this mounting head portion i (Fig. In step 1, the electronic component to be supplied is picked up by the tool changing station and transported to the component mounting portion m, and mounted at the predetermined position of the circuit board n positioned thereon. By repeating such an operation, a predetermined electronic component is mounted on the circuit board n to manufacture the electronic circuit board. [19] When the tray a is emptied by the supply of the electronic component in the component supply part d, the component handling mechanism f moves the suction nozzle j of the mounting head part i as shown in FIG. Temporary replacement of the suction pad o is performed at the tool changing station. [20] Subsequently, the empty tray a on the support plate b at the component supply position is sucked up by the replaced tray suction pad o. In this state, the support plate b is accommodated in the storage portion corresponding to the tray storage portion c by the storage mechanism p. At this time, since the upper and lower passages q in the component supply part d open back to the back of the storage mechanism p by the storage of the support plate b, the empty tray lifted up by the tray suction pad o ( The tray a discharged and discharged through the upper and lower passages q opened on the waste conveyor r under the upper and lower passages q is discharged by the waste conveyer r and the waste window s. Are discarded out of the device. [21] However, the conventional apparatus has a problem that the density of the mechanism is complicated because the waste conveyor is stacked in two stages with the parts supply part. In addition, since the empty tray is discarded, the component mounting operation is stopped every time the empty tray is discharged, thereby reducing the work efficiency of component mounting. In addition, each time the mounting head part discharges the empty tray, and each time the discharge head is discharged and returns to the component mounting operation, it is wasteful to replace the suction nozzle with the tray suction pad and the tray suction pad with the suction nozzle. It becomes long and work efficiency falls also by this. [22] Accordingly, an object of the present invention is to solve the conventional problems as described above, to provide an electronic component supply apparatus and method that can be supplied while moving the parts left, right more accurately and quickly while simplifying the overall structure. have. [23] Another object of the present invention is to provide an electronic component supplying apparatus and a method which can improve the efficiency of the work by repeatedly using the electronic components to be supplied as needed sequentially. [1] 1 is a schematic view showing the configuration of a conventional component supply apparatus, [2] 2 to 4 are flowcharts showing the electronic component supplying method of the present invention; [3] 5 is a view showing an electronic component supply apparatus equipped with a buffer of the present invention; [4] 6 is a view showing the back of the electronic component supply apparatus. [5] <Explanation of symbols for main parts of drawing> [6] 100: elevator P: pallet [7] 150: Magazine 160: Frame [8] 200: buffer 210: X axis frame [9] 290: Transfer 300: Head [10] 400: Automatic nozzle changer 500: Pocket part [11] 600: discharge conveyor [24] In order to achieve the above object, the present invention comprises the steps of transporting the pallet mounted parts from the magazine to the buffer by the elevator; Empty pallets having completed mounting parts are conveyed from the buffer to the magazine by the elevator; The pallet is conveyed / conveyed by transfer to the working position of the buffer and the head; The component is transferred to the pocket by the head; Conveying / transferring parts from the drive and mounter of the pocket part; Discharging defective parts by the head and the discharge conveyor; The nozzle is replaced by an automatic nozzle changer. [25] Hereinafter, the electronic component supply apparatus of the present invention will be described with reference to the accompanying drawings. [26] 2 to 4 are flowcharts showing the electronic component supplying method of the present invention. A shown in FIG. 2 is connected with A shown in FIG. 3, B shown in FIG. 3 is connected with B shown in FIG. 4, and C shown in FIG. 3 is connected with C shown in FIG. 4. . [27] As shown in Figures 2 to 4, the electronic component supplying method of the present invention comprises the step of transferring the pallet in which the component is mounted to the buffer from the magazine by the elevator (S100); An empty pallet having finished mounting parts is conveyed from the buffer to the magazine by the elevator (S200); The pallet is transferred / transferred by the transfer to the working position of the buffer and the head portion (S300); Transferring the parts to the pocket part by the head part (S400); Transferring / conveying the parts from the drive and the mounter of the pocket unit (S500); Discharging the defective parts by the head part and the discharge conveyor (S600); The nozzle is exchanged by the automatic nozzle exchanger (S700). [28] The step (S100) of the pallet in which the parts are mounted is transferred from the magazine to the buffer by the elevator (S100), the elevator moves to the end of the magazine (S110), the step of loading the pallet in the elevator (S120), and the elevator Moving to the buffer stage to be loaded is made of the step of loading the pallet in the buffer stage (S130). [29] In step S200, in which the empty pallets in which the parts are completed to be mounted are returned from the buffer to the magazine by the elevator, the step S200 determines whether there is a pallet to be replaced (S210), and the elevator moves to the end of the buffer (S220). And, the step of loading the pallet in the elevator (S230), and the step of moving to the end of the magazine to be loaded consists of the step of loading the pallet to the end of the magazine (S240). [30] The elevator is made to wait if there is no pallet to replace (S215). [31] Step (S300) of the pallet is transferred / transported by the transfer to the working position of the buffer and the head portion (S310) to check whether there is a pallet to be replaced, and if the pallet is transferred to the end of the buffer by the transfer (S320) ), And if there is no pallet is maintained (S330). [32] In the step S400 of transferring the parts to the pocket part by the head part, the head part picks the part (S410), the head part picking the part moves to the pocket part (S420), and the head part is the part in the pocket part. The step (S430) and the head portion is moved to the standby position (S440). [33] The step of transporting / transporting parts from the mounter and the pocket part (S500) includes the step of raising the replacement kit assembly of the pocket part (S510), the step of mounting the part by the mounter head (S520), and mounting of the part by the mounter. Determining whether the product is a good or bad (S530), the mounting head is a step of placing the defective parts (S540), and the replacement kit assembly of the pocket portion (S550) is lowered. [34] In the step S530 of determining whether the part is a good / bad item by the mounter, if it is not a bad part, the replacement kit assembly is descended and waits (S535). [35] The discharging of the defective parts by the head part and the discharge conveyor (S600) includes the step of picking the defective parts by the head part (S610), moving the head part to the discharge conveyor to place the defective parts (S620), and the discharge conveyor. Determining whether the defective part is full in the step (S630), and if the defective part is full, a warning pops up to recover the defective part (S640). [36] If the defective part is not full in the step (S630) of determining whether the defective part is full on the discharge conveyor, the discharge conveyor waits (S635). [37] In the step (S700) of replacing the nozzle by the automatic nozzle changer (S700), the replacement kit assembly descends and waits (S535), and the head part moves to the discharge conveyor to place defective parts (S620), and the nozzle of the head part. To determine whether to replace (S710), and if the nozzle of the head portion needs to be replaced, the operation of the automatic nozzle changer and the nozzle replacement is made (S720). [38] Hereinafter, the operation of the electronic component supply apparatus and method of the present invention is as follows. [39] First, as shown in FIGS. 1 and 2, the pallet P on which parts are mounted is transferred to the buffer 200 from the magazine 150 by the elevator 100 (S100) and completes the mounting of the parts. One empty pallet P consists of the step S200 by which elevator 100 is conveyed from the buffer 200 to the magazine 150. [40] The pallet (P) on which the parts are mounted is transferred from the magazine 150 to the buffer 200 by the elevator 100 (S100), and the elevator 100 of the magazine 200 on which the pallet P is mounted. After moving to the stage (S110), the elevator (100) withdraws and loads the pallet (P). The elevator 100 moves to the end of the buffer 200 to be loaded and loads the pallet at the end of the buffer 200 (S130). [41] The elevator 100 checks whether there is a pallet P to be replaced. (S210) If there is no pallet P to be replaced, the elevator 100 waits, and if there is a pallet P to be replaced, the elevator 100 corresponds. Moving to the end of the buffer 200 (S220), the pallet (P) is loaded on the elevator (100) (S230). The elevator 100 moves to the end of the magazine 200 to load the pallet (P) to load the pallet (P) to the end of the magazine (200) (S240). [42] As shown in FIG. 3, the pallet P is transferred / transferred by the transfer 290 to the working position of the buffer 200 and the head part 300 (S300) and the parts are transferred to the head part 300. By the step (S400) is transferred to the pocket portion 500 by. [43] The transfer 290 is checked whether there is a pallet (P) to be replaced (S310), and if there is a pallet (P) to be replaced, the pallet (P) is transferred to the stage of the buffer 200 by the transfer (290) ( S320), if there is no pallet P to be replaced, the pallet P is maintained by the transfer 290 (S330). [44] In the pallet P, the head picks a part (S410), and the head part 300 picking the part moves to the pocket part 500 (S420), and the head part 300 moves to the pocket part 500. Place the part (S430). The head part 300 on which the component is seated moves to the standby position (S440). [45] As shown in FIG. 4, the step of transferring / conveying parts from the drive and the mounter of the pocket part 500 (S500) and the step of discharging the defective parts by the head part 300 and the discharge conveyor 600 (S600). ), And the nozzle is exchanged by the automatic nozzle exchanger 400 (S700). [46] If the replacement kit assembly 530 of the pocket part on which the part is seated is raised (S510), the mounter head picks the part (S520), and after determining whether the part is a defective or defective part by the mounter (S530), The mounter head seats the defective part in the pocket part 500 (S540). When the defective part is seated, the replacement kit assembly 530 of the pocket part 500 is lowered (S542). If not, the replacement kit assembly 530 descends and waits. [47] In the exchanged kit assembly 530 of the lowered pocket part 500, the head part 300 picks up a defective part (S610), and the head part 300 moves to the discharge conveyor 600 to seat the defective part. After (S620), the discharge conveyor 600 to see if the defective parts are full (S630). When the defective parts are not filled in the discharge conveyor 600, the discharge conveyor 600 waits (S635), and if the defective parts are filled in the discharge conveyor 600, a warning is issued and the defective parts are recovered (S640). [48] After the replacement kit assembly 530 is lowered and in the standby state, and after the head part 300 moves to the discharge conveyor 600 to release the defective part, the nozzles 371 and 381 of the head part 300 need to be replaced. (S710), when the nozzles 371 and 381 of the head portion 300 need to be replaced, the automatic nozzle changer 400 operates to exchange the nozzles 371 and 381 (S720). [49] Referring to the accompanying drawings, the electronic component supply apparatus and method of the present invention are as follows. [50] 5 is a perspective view of the buffer of the present invention mounted on the electronic component supply apparatus. The buffer of the present invention is provided inside the electronic component supply apparatus. As shown in Fig. 5, the elevator 100; A magazine 150 installed at one side of the elevator 100; A buffer 200 installed above the magazine 150; A transfer 290 installed at one side of the buffer 200; An X-axis frame 201 formed of a linear motion (LM) guide installed above the transfer 290; A head portion 300 moving relative to the X-axis frame 201 and configured to pick and place electronic components; A pocket part 500 in which an electronic component is mounted by the head part 300; To the discharge nozzle 600 and the automatic nozzle exchanger 400 which is installed between the head portion 300 and the pocket portion 500 can discharge the defective electronic components conveyed to the pocket portion 500. It is composed. [51] The transfer 290 may be installed at one side of the motor 291, a base block 292 connected to and driven by the motor 291, and one side of the base block 292 to hold one side of the pallet P. And a pallet gripping device 293. [52] The transfer 290 may be located at a lower work position of the head part 300 by drawing in / out the pallet P mounted in the buffer 200. [53] The discharge conveyor 600 may be installed at one side of the electronic component supply apparatus so as to be positioned below the X-axis frame 201, and may discharge a component determined to be defective. [54] Reference numeral 158 denotes a driving cylinder. [55] 6 is a perspective view showing a rear surface of the electronic component supply apparatus of the present invention. As shown in FIG. 6, the electronic component supply device includes a buffer 200 at an inner upper portion of the frame 160 and a magazine 150 at a lower portion of the buffer 200. An elevator 100 is installed at the front of the magazine 150, and the elevator 100 may insert the pallet P into the magazine 150. A drive motor 110 capable of driving the elevator 100 is installed at an upper portion of the frame 160, and a Z belt 111 is installed at one side of the drive motor 110. [56] The magazine 150 is configured to be movable in the direction of the arrow along a pair of guide rails 152 provided on the base plate 162 by driving of the drive cylinder 158 (see FIG. 2). [57] Hereinafter, the configuration and operation of the present invention in more detail as follows. [58] As shown in FIG. 6, the elevator 100 is raised, and the magazine 150 installed inside the rear portion of the frame 160 is driven by the driving cylinder 158 (see FIG. 2) of the frame 160. When moved to the outside, the operator sequentially inserts a plurality of pallets (P) on which a plurality of electronic components are mounted in the magazine 150. In this case, the pallet P inserted by a plurality of alignment bars (not shown) installed at one side of the magazine 150 is stably supported, and the magazine 150 in which the plurality of pallets P is mounted is It is moved back to the inside of the frame 160 and positioned. The elevated elevator 100 descends and is positioned at a predetermined position to wait for the pallet P to be drawn in / out. [59] When the elevator 100 is positioned up / down in order to withdraw the pallet P to one side of the magazine 150, the restraint of the pallet P on which the plurality of alignment bars mounted on one side of the magazine 150 is mounted is mounted. A plurality of gripping apparatuses (not shown) installed on one side of the elevator 100 move forward to hold one side of the pallet P mounted in the magazine 150, and then move backward. It will be seated on top of the elevator (100). [60] When the elevator 100 rises together with the pallet P and is located at one side of the buffer 200, the rear part of the buffer 200 is opened. When the elevator 100 introduces the pallet P into the buffer 200, the rear part is blocked. [61] The buffer 200 is located on one side of the transfer 290 by raising and lowering by the cylinder, in this case, the buffer 200 is opened in front of the pallet (P) on which the electronic component is mounted to the transfer (290) It can be supplied, the front portion is closed when the empty pallet (P) is recovered from the transfer (290). [62] As shown in FIG. 5, the pallet P inside the buffer 200 is gripped by the transfer 290, and then drawn out and positioned at the lower working position of the head part 300, and the head part 300. ) Is lowered to hold the electronic component and then rises. [63] The head portion 300 moves along the X-axis frame 210 to seat the electronic component on the pocket portion 500, and the electronic component seated on the pocket portion 500 is mounted on one side of the electronic component supply device. And picked up by (not shown). The electronic component conveyed by the mounter and defectively conveyed is discharged by the discharge conveyor 600. [64] The electronic component supplying apparatus and method of the present invention can easily move the electronic component provided from the buffer to the pocket portion using the head portion, and the defective portion can be easily discharged by picking the defective portion on the head portion and seating on the discharge conveyor. . [65] In particular, the gripper nozzle can be used in the head, so that connectors of various shapes and types called release parts can be smoothly supplied and discharged. [66] In addition, the electronic component supply apparatus and method of the present invention can improve the efficiency of the repetitive operation in which the electronic component is used, and the component supply interval including the operation of conveying empty pallets is used in the work cycle in the mounter using the electronic component. Can be used without affecting.
权利要求:
Claims (12) [1" claim-type="Currently amended] A pallet in which parts mounted from a magazine are transferred to a buffer by an elevator (S100); An empty pallet having finished mounting parts is conveyed from the buffer to the magazine by the elevator (S200); The pallet is transferred / transferred by the transfer to the working position of the buffer and the head portion (S300); Transferring the parts to the pocket part by the head part (S400); Transferring / conveying the parts from the drive and the mounter of the pocket unit (S500); Discharging the defective parts by the head part and the discharge conveyor (S600); Electronic component supply method comprising the step (S700) of replacing the nozzle by the automatic nozzle exchange device. [2" claim-type="Currently amended] The method of claim 1, The step (S100) of the pallet mounted parts from the magazine is transferred to the buffer by the elevator (S110) the elevator moves to the end of the magazine (S110), the step of loading the pallet in the elevator (S120), and the elevator Moving to the buffer stage to be loaded, the electronic component supply method comprising the step of loading the pallet in the buffer stage (S130). [3" claim-type="Currently amended] The method of claim 1, In step S200, in which the empty pallets in which the parts are completed to be mounted are returned from the buffer to the magazine by the elevator, the step S200 determines whether there is a pallet to be replaced (S210), and the elevator moves to the end of the buffer (S220). And, the step of loading the pallet in the elevator (S230), and moving to the end of the magazine to be loaded step of loading the pallet to the end of the magazine (S240) characterized in that the electronic component supply method. [4" claim-type="Currently amended] The method of claim 3, wherein If there is no pallet to replace in the step (S210) to determine whether there is a pallet to be replaced, the electronic component supply method characterized in that the step of waiting for the elevator (S215). [5" claim-type="Currently amended] The method of claim 1, Step (S300) of the pallet is transferred / transported by the transfer to the working position of the buffer and the head portion (S310) to check whether there is a pallet to be replaced, and if the pallet is transferred to the end of the buffer by the transfer (S320) ), And if there is no pallet is maintained by the transfer (S330). [6" claim-type="Currently amended] The method of claim 1, In the step S400 of transferring the parts to the pocket part by the head part, the head part picks the part (S410), the head part picking the part moves to the pocket part (S420), and the head part is the part in the pocket part. Laying step (S430), and moving the head portion to the standby position (S440) characterized in that the electronic component supply method. [7" claim-type="Currently amended] The method of claim 1, The step of transporting / transporting parts from the mounter and the pocket part (S500) includes the step of raising the replacement kit assembly of the pocket part (S510), the step of mounting the part by the mounter head (S520), and mounting of the part by the mounter. Determining whether the product is defective or defective (S530), mounting (S540) mounting the defective part, and replacing (S550) of the replacement kit assembly of the pocket part. [8" claim-type="Currently amended] The method of claim 7, wherein If it is not a defective part in the step (S530) of determining whether the part is a good or bad part by the mounter, the electronic component supply method, characterized in that performing the step (S535) of waiting for the replacement kit descends. [9" claim-type="Currently amended] The method of claim 1, The discharging of the defective parts by the head part and the discharge conveyor (S600) includes the step of picking the defective parts by the head part (S610), moving the head part to the discharge conveyor to place the defective parts (S620), and the discharge conveyor. Determining whether the defective part is full in the (S630), and if the defective part is full, the electronic component supply method comprising the step (S640) of recovering the defective part. [10" claim-type="Currently amended] The method of claim 9, If the defective component is not full in the step (S630) to determine whether the defective component is full, the electronic component supply method comprising the step of waiting for the discharge conveyor (S635). [11" claim-type="Currently amended] The method of claim 8 or 9, In the step (S700) of replacing the nozzle by the automatic nozzle changer (S700), the replacement kit assembly descends and waits (S535), and the head part moves to the discharge conveyor to place defective parts (S620), and the nozzle of the head part. Step (S710) to determine whether to replace the, and if the nozzle of the head portion to replace the operation of the automatic nozzle exchange device and the nozzle replacement step (S720) is characterized in that the electronic component supply method. [12" claim-type="Currently amended] An electronic component supply apparatus for supplying a plurality of electronic components by picking and placing the electronic components from a buffer using a head at a predetermined position. A frame; A magazine installed inside the frame to accommodate a plurality of pallets; An elevator capable of transporting the pallet by seating the pallet drawn out from the magazine and then moving up and down; A buffer capable of drawing in pallets conveyed from the elevator and drawing out empty pallets housed therein; A transfer that can seat an empty pallet inside the buffer and simultaneously withdraw the pallet from the buffer and transfer it to a working position; A head portion capable of picking up an electronic component from the pallet drawn out by the transfer; An X-axis frame made of an LM guide to move the head portion in the X-axis direction; An automatic nozzle exchanger installed at a lower portion of the X-axis frame and capable of supplying a nozzle by moving in the Y-axis direction with respect to the head portion moving in the X-axis direction; A pocket part which rises and falls when the electronic component is seated by the head part; And an exhaust conveyor capable of discharging the electronic component that is determined to be defective by the head unit.
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同族专利:
公开号 | 公开日 KR100496631B1|2005-06-20|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题
法律状态:
2002-06-25|Application filed by 미래산업 주식회사 2002-06-25|Priority to KR10-2002-0035769A 2004-01-07|Publication of KR20040000812A 2005-06-20|Application granted 2005-06-20|Publication of KR100496631B1
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申请号 | 申请日 | 专利标题 KR10-2002-0035769A|KR100496631B1|2002-06-25|2002-06-25|Electronic Elements Feeding Method| 相关专利
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