Feeder preparation system
The reel attachment/detachment device addresses inefficiencies in reel replacement by enabling controlled tape unwinding and cutting, ensuring efficient and damage-free reel operations in feeder systems.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- FUJI CORP
- Filing Date
- 2026-04-08
- Publication Date
- 2026-06-18
AI Technical Summary
Existing reel replacement operations in feeders are inefficient due to limited automation and potential damage to components during tape processing, especially when attaching a new reel, as the number of feeders is limited and reels are often reused.
A reel attachment/detachment device equipped with a feeder set unit, reel transfer unit, holding portion, and control device that allows for controlled unwinding and cutting of tape, ensuring efficient removal and attachment of reels while preventing component damage.
Facilitates quick and appropriate reel removal and attachment, reducing operational time and minimizing component damage by rewinding tape to a predetermined length and aligning it with the guidance path, enhancing production efficiency.
Smart Images

Figure 2026099971000001_ABST
Abstract
Description
Technical Field
[0001] This specification discloses a reel attaching / detaching device and a feeder preparation system.
Background Art
[0002] Conventionally, there has been proposed a device that automatically attaches and detaches a reel around which a tape containing components is wound from / to a feeder. For example, Patent Document 1 describes storing a reel removed from a feeder in a reel storage, or attaching a reel taken out from the reel storage to the feeder. It is stated that this enables the replacement operation of the reel to be performed without bothering the operator.
Prior Art Documents
Patent Documents
[0003]
Patent Document 1
Summary of the Invention
Problems to be Solved by the Invention
[0004] Promoting the automation of the reel replacement operation as described above can be said to be an important issue for increasing production efficiency. Here, since the number of feeders to which a reel can be attached is limited and the feeders are often reused, when attaching a new reel, it is first necessary to remove the reel attached to the feeder. At that time, it is necessary to appropriately process and remove the tape so that the efficiency when the removed reel is automatically attached next does not decrease.
[0005] The main object of the present disclosure is to more appropriately remove a reel in an apparatus that automatically attaches and detaches the reel.
Means for Solving the Problems
[0006] The present disclosure has taken the following means to achieve the above main object.
[0007] The reel attachment / detachment device of this disclosure is A reel attachment / detachment device for attaching and detaching a reel around which a tape containing the components is wound, to a feeder that supplies the components by driving a feeding unit, A feeder set unit in which the feeder is set so that the aforementioned dispensing unit can be driven, A reel transfer unit having a rotating part that rotates the reel around an axis, and capable of moving relative to the feeder set unit to transfer the reel, A holding portion capable of holding the tape of the reel mounted on the feeder, The tape has a cutting section that can cut it, A control device that performs removal control to control the feeder set unit and the reel transfer unit to remove the reel from the feeder, while the feeder to which the reel is attached is set in the feeder set unit, by driving the feeder set unit and the rotating unit so that the tape is unwound and wound onto the reel, and then driving the holding unit and the cutting unit so that the tape is held and cut in the portion to which the component has been supplied, and The gist of it is that it is equipped with the following features.
[0008] In the reel attachment / detachment device of this disclosure, the feeder is set in the feeder set unit so that the tape delivery section can be driven, allowing for quick rewinding of the tape when removing the reel. Furthermore, the rotating part of the reel transfer unit allows for proper rewinding of the tape onto the reel. Additionally, by rewinding the tape to the portion where the parts have been supplied and cutting it, it is possible to prevent damage to the parts during tape tip processing when attaching the next reel. As a result, reel removal can be performed more appropriately. [Brief explanation of the drawing]
[0009] [Figure 1] Schematic diagram of component mounting system 1. [Figure 2]Schematic configuration diagram of the feeder 100. [Figure 3] Schematic configuration diagram of the recovery drum 115. [Figure 4] Layout diagram showing the layout of a part of the preparation line 20. [Figure 5] Schematic configuration diagram of the reel attaching / detaching device 30. [Figure 6] Block diagram showing the electrical connection relationship of the reel attaching / detaching device 30. [Figure 7] Schematic configuration diagram of the tape connection part 46. [Figure 8] Explanation diagram of the state where the connection tape 116 and the cover tape 134 are connected. [Figure 9] Schematic configuration diagram of the cover opening / closing unit 50. [Figure 10] Schematic configuration diagram of the reel transfer unit 60. [Figure 11] Schematic configuration diagram of the pushing and rotating disk 67 attached to the reel transfer unit 60. [Figure 12] Schematic configuration diagram of the drum set unit 70. [Figure 13] Schematic configuration diagram of the fixing unit 71. [Figure 14] Schematic configuration diagram of the moving unit 81. [Figure 15] Schematic configuration diagram of the tape cutting unit 90. [Figure 16] Expanded configuration diagram of the tape cutting unit 90. [Figure 17] Flowchart showing an example of the reel removal process. [Figure 18] Flowchart showing an example of the reel attachment process.
Mode for Carrying Out the Invention
[0010] Next, embodiments for implementing the present disclosure will be described while referring to the drawings. FIG. 1 is a schematic configuration diagram of a component mounting system 1 according to this embodiment. The component mounting system 1 includes a mounting line 10 for mounting components on a substrate, a preparation line 20 for preparing the supply of components, and a management device 2 for managing the entire system, and these are installed in a factory or the like. The management device 2 is configured as a computer including a CPU, ROM, RAM, and HDD (not shown), and outputs information and instructions related to mounting to each device of the mounting line 10, and outputs information and instructions related to preparation to each device of the preparation line 20. In this embodiment, the left-right direction (X-axis), the front-back direction (Y-axis), and the up-down direction (Z-axis) are as shown in FIG. 1.
[0011] As shown in FIG. 1, the mounting line 10 includes a printing device 12 for printing solder on a substrate, a printing inspection device 14 for inspecting the state of the printed solder, and a mounting device 16 for mounting components on the substrate. A plurality of mounting devices 16 are arranged side by side along the conveyance direction (X-axis direction) of the substrate, and a plurality of feeders 100 for component supply can be mounted on the front surface. Each mounting device 16 is configured to pick up components supplied from the mounted feeder 100 and mount them on the substrate. Further, the mounting line 10 includes a feeder storage 18 installed between the mounting device 16 on the most upstream side in the conveyance direction of the substrate among the plurality of mounting devices 16 and the printing inspection device 14, and a loader 19 that moves along the conveyance direction of the substrate in front of the plurality of mounting devices 16 and in front of the feeder storage 18. An AGV (Automated Guided Vehicle) 4 or an operator stores the necessary feeder 100 in the feeder storage 18 or collects the unnecessary feeder 100 from the feeder storage 18. Further, the loader 19 is configured to take out the necessary feeder 100 from the feeder storage 18 and supply it to the mounting device 16, or collect the unnecessary feeder 100 from each mounting device 16 and return it to the feeder storage 18. Note that the mounting line 10 may include a reflow device or the like for performing a reflow process on the substrate on which components are mounted, among other things.
[0012] Here, Figure 2 is a schematic diagram of the feeder 100. The feeder 100 supplies parts by dispensing the tape 130, with a reel 120 around which a tape 130 containing parts is wound, detachably attached to the main body 101. A label 122 is attached to the reel 120 indicating the ID of the reel 120 and information about the type of part contained in the tape 130. The tape 130 consists of a bottom tape 132 in which a plurality of cavities (recesses) are formed at predetermined intervals in the longitudinal direction and parts are contained in each cavity, and a cover tape 134 attached to cover the surface of the bottom tape 132. The tape 130 has engagement holes formed at equal intervals in the longitudinal direction.
[0013] The feeder 100 comprises a main body 101, a tape feeding unit 102, a tape guide 104, a reel cover 106, a connector 108, a positioning pin 109, a tape retrieval unit 110, and a control unit (not shown).
[0014] The tape feeding unit 102 includes a sprocket with projections on its outer circumference that engage with engagement holes in the tape 130, and a motor 103 (see Figure 6) that drives the sprocket. With the tape 130 engaged with the sprocket, the tape feeding unit 102 intermittently rotates the sprocket by the forward rotation of the motor to feed the tape 130 towards the component supply position. The tape feeding unit 102 can also rewind the tape 130 towards the reel 120 by the reverse rotation of the motor. The tape guide 104 is provided on the upper part of the main body 101 and guides the cover tape 134, which has been peeled off from the tape 130, so that it folds back and heads toward the tape retrieval unit 110, and also guides the bottom tape from which the cover tape 134 has been peeled toward the component supply position. The tape guide 104 is configured to move slightly up and down (open and close) relative to the main body 101. The reel cover 106 is provided on the lower edge of the main body 101 so as to be openable and closable. When closed, it covers the reel 120 to prevent it from falling out, and when open (as shown in Figure 2), it exposes the reel 120 so as to be detachable. The connector 108 and positioning pin 109 are provided so as to protrude from the end face of the main body 101. Although not shown, the feeder stand, such as the mounting device 16 or the feeder storage area 18, is provided with a connector to which the connector 108 can be connected and a pin hole to which the positioning pin 109 can engage. Therefore, when the feeder 100 is mounted on the feeder stand, the connector 108 is connected to the connector on the feeder stand and the positioning pin 109 engages with the pin hole. The control unit of the feeder 100 (not shown) can communicate with the control unit of the mounting device 16, etc., via the connector connection, and controls the tape feeding unit 102 to feed the tape 130 in a pitch manner upon receiving instructions to supply parts.
[0015] The tape recovery unit 110 recovers the cover tape 134 that has been peeled off from the tape 130. As an example, a type (first type) is shown in which the cover tape 134 is recovered while being wound up using a recovery drum 115. The tape recovery unit 110 includes a drum shaft 111 to which an annular recovery drum 115 is detachably attached and which is rotated by a motor (not shown), and a plurality of guide pins 113 that form a guidance path for guiding the cover tape 134, which has been folded back by the tape guide 104, to the recovery drum 115. Figure 3 is a schematic diagram of the recovery drum 115, which includes a connecting tape 116 extending from an annular drum body 115a. The connecting tape 116 includes a fixing piece 117 fixed to its tip, a U-shaped loop 118 with both base ends attached to the end faces of the fixing piece 117, and a sliding piece 119 that is slidably attached along the extending direction of the loop 118 (direction of the arrow in Figure 3). As described later, the sliding of the slide piece 119 connects the loop 118 of the connecting tape 116 to the cover tape 134. The tape retrieval unit 110 rotates the drum shaft 111 to which the retrieval drum 115 is attached using a motor drive, thereby winding up and retrieving the cover tape 134 together with the connecting tape 116. In addition to this, there is a type (second type) in which, for example, a pair of gears rotate around the cover tape 134 to pull in and retrieve the cover tape 134, but this is a well-known configuration and will not be explained.
[0016] As shown in Figures 1 and 4, the preparation line 20 includes an automatic reel storage unit 22, a reel transfer robot 24, a reel storage area 25, a feeder storage unit 26, a feeder storage area 28, a loader 29, and a reel attachment / detachment device 30. The automatic reel storage unit 22 is configured to automatically store reels 120 placed on a support base 22a located at the front of the unit, and to automatically retrieve the required reels 120 from the unit and place them on the support base 22a. The reel transfer robot 24 is equipped with a vertical articulated robot arm. The reel transfer robot 24 transfers reels 120 placed in the reel storage area 25 by an operator to the support base 22a of the automatic reel storage unit 22, and transfers reels 120 dispensed onto the support base 22a into the reel attachment / detachment device 30. AGV4 and workers return the feeders 100 recovered from the assembly line 10 to the feeder storage area 28, or take the necessary feeders 100 from the feeder storage area 28 and store them in the feeder storage area 18 on the assembly line 10. Loader 29 moves in front of the multiple feeder storage units 26 and in front of the feeder storage area 28, taking feeders 100 from the feeder storage area 28 and storing them in the feeder storage unit 26, or taking feeders 100 from the feeder storage unit 26 and storing them in the feeder storage area 28. Loader 29 also transfers the feeders 100 to be attached to or detached from the reels 120 into the reel attachment / detachment device 30. In Figure 1, two reel storage areas 25 are shown as examples: one for used (out of parts) reels 120 and one for new reels 120.
[0017] The reel attachment / detachment device 30 comprises a reel set base 35, a control device 39, a feeder set unit 40, a cover opening / closing unit 50, a reel transfer unit 60, a drum set unit 70, and a tape cutting unit 90, all of which are mounted on a base 31.
[0018] As shown in Figure 5, the reel set stand 35 comprises a base 36 and a support pin 37. The base 36 is a flat plate-shaped member fixed to the upper plate 32 of the base 31 so as to stand vertically. The support pin 37 is an axial member that stands vertically from the right-hand plate surface of the base 36 in the figure and can be inserted into the central hole of the reel 120. The reel 120 is detachably set on this reel set stand 35 by the reel transfer robot 24 or the reel transfer unit 60 so that the central hole of the reel 120 is inserted into the support pin 37.
[0019] The feeder set unit 40 is configured such that the feeder 100 to which the reel 120 is to be attached and detached is transferred by the loader 29 onto a base 40a fixed to the upper plate 32 of the base 31. The base 40a, like the feeder stand of the mounting device 16, is provided with a connector to which the connector 108 of the feeder 100 can be connected and a pin hole to which the positioning pin 109 can be engaged. Therefore, the control device 39 can control the tape feeding unit 102 by communicating with the control unit of the feeder 100 attached to the feeder set unit 40 via the connection of the connector.
[0020] Furthermore, as shown in Figure 6, the feeder set unit 40 includes a guide opening / closing section 42, a tape pulling section 44, and a tape connection section 46. The guide opening / closing section 42, although not shown in the figure, includes clamps that grip the tape guide 104 from both sides, an opening / closing cylinder for opening and closing the clamps, and a lifting / lowering cylinder for raising and lowering the clamps, and the clamps grip the tape guide 104 from both sides and move it up and down. The tape pulling section 44 includes a clip that grasps the tip of the cover tape 134 of the reel 120 attached to the feeder 100, a moving section for moving the clip, and an actuator that opens and closes the clip via a wire connected to the clip. The tape pulling section 44 pulls out the cover tape 134 by inserting the clip into the tape guide 104 while the tape guide 104 is in an upward position due to the guide opening / closing section 42, grasping the tip of the cover tape 134, and then retracting the clip.
[0021] Figure 7 is a schematic diagram of the tape connection section 46. The tape connection section 46 comprises a fixed clamp section 47, a movable clamp section 48, and a slide section 49. The fixed clamp section 47 comprises a pair of clamp members 47a and 47b that clamp the fixed piece 117 of the connecting tape 116, and a clamp cylinder 47c that clamps and releases the clamp by raising and lowering the clamp member 47a. The movable clamp section 48 comprises a pair of clamp members 48a and 48b that clamp the slide piece 119 of the connecting tape 116, and a clamp cylinder 48c that clamps and releases the clamp by raising and lowering the clamp member 48a. The slide section 49 comprises a slide block 49a connected to the clamp cylinder 48c of the movable clamp section 48, and a slide cylinder 49b that slides the movable clamp section 48 together with the slide block 49a. As shown in Figure 7A, the tape connection section 46 is configured such that the fixed clamp section 47 clamps the fixed piece 117 and the movable clamp section 48 clamps the slide piece 119. In this state, the feeder set unit 40 inserts the tip of the cover tape 134, which has been pulled out by the tape pull-out section 44, into the loop 118. Then, as shown in Figure 7B, the tape connection section 46 moves the movable clamp section 48 toward the tip of the loop 118 by operating the slide cylinder 49b, thereby shortening the loop 118 and connecting it to the loop 118 to prevent the cover tape 134 from coming out. In this way, the connecting tape 116 and the cover tape 134 are connected (see Figure 8).
[0022] As shown in Figure 9, the cover opening / closing unit 50 comprises a base 50a, support columns 52, a rotating plate 53, a suction cup 54, a motor 55, and a pulley 56. Here, the upper plate 32 of the base 31 has an opening 32a (see Figure 4) formed on the front side (right side) of the feeder set unit 40. The cover opening / closing unit 50 is positioned below the upper plate 32 by fixing four support columns 52, which are erected at the four corners of the rectangular flat base 50a, to the edge of the opening 32a. The rotating plate 53 is formed in a roughly T-shape, with its base end rotatably supported by the base 50a and suction cups 54 attached to both ends of its tip. The motor 55 is attached to the base 50a and transmits driving force via the pulley 56 to rotate the rotating plate 53. The suction cup 54 is connected to a negative pressure source, such as a vacuum pump, via a tube, and switches between suction and non-suction depending on whether the vacuum pump is operating or not. When the motor 55 rotates the cover opening / closing unit 50 in the forward direction, the rotating plate 53 rotates until it is approximately perpendicular to the base 50a, causing the suction cup 54 to come into contact with the reel cover 106 of the feeder 100. In this state, the cover opening / closing unit 50 uses the operation of the vacuum pump to suction the reel cover 106 onto the suction cup 54, and then rotates the motor 55 in the reverse direction to rotate the rotating plate 53, thereby opening the reel cover 106 so that it fits into the opening 32a.
[0023] As shown in Figure 10, the reel transfer unit 60 comprises a slide base 60a, a support pin 61, an expanding cylinder 61a, a motor 62, a push plate 63, a push cylinder 63a, a chuck 64, a chuck cylinder 64a, a guide pin 65, a cutter 66, and a cutter cylinder 66a. The slide base 60a is slidable in the X-axis and Y-axis directions by a slide unit 33 disposed on the upper plate 32. The slide unit 33 has a well-known configuration that includes a slide rail laid in the sliding direction and a slider that slides along the slide rail by the drive of an actuator such as a motor. The support pin 61 is, for example, a pin formed by combining two semi-cylindrical members with a semicircular cross-section to form a cylindrical shape, and can be inserted into the central hole of the reel 120 in its cylindrical state. Furthermore, when the expansion cylinder 61a moves the two semi-cylindrical members apart from each other, the outer diameter of the support pin 61 expands, and it fits into the central hole of the reel 120 to hold the reel 120 in place and prevent it from falling out. The support pin 61 rotates around its axis when the driving force of the motor 62 is transmitted to it via a pulley (not shown). The push plate 63 is a flat plate-shaped member formed to have a notch where the support pin 61 is installed, and when the push cylinder 63a is operated, it moves along the extending direction of the support pin 61 to push the reel 120 into the feeder 100 or the like for installation. The chuck 64 holds the tip of the tape 130 of the reel 120 when the chuck cylinder 64a is operated. The guide pin 65 guides the tip of the tape 130 of the reel 120 so that it faces the chuck 64. The cutter 66 cuts the tip of the tape 130 when the cutter cylinder 66a is operated.
[0024] Furthermore, the reel transfer unit 60 is configured such that the push-rotating disc 67 shown in Figure 11 can be attached to and detached from the support pin 61. This push-rotating disc 67 is used when pushing and rotating the reel 120, and is a disc-shaped member into which the cylindrical support pin 61 can be inserted into a central hole, with a plurality of cushioning members 68 provided on the disc surface. The cushioning members 68 are rectangular parallelepiped members formed from, for example, urethane rubber or sponge, and are provided so that their longitudinal direction extends in the radial direction. When the outer diameter of the support pin 61 is expanded by the operation of the diameter-expanding cylinder 61a, the support pin 61 fits into the central hole of the push-rotating disc 67 and can rotate integrally with the push-rotating disc 67. Although not shown in the figure, a place for the push-rotating disc 67 is provided at a predetermined position on the upper plate 32, and the reel transfer unit 60 can move to the place to attach the push-rotating disc 67 to the support pin 61 or detach the push-rotating disc 67 from the support pin 61.
[0025] As shown in Figures 5 and 12, the drum set unit 70 includes a fixed unit 71 having a fixed base 71a fixed to stand upright on the upper plate 32, and a movable unit 81 having a slide base 81a that can slide in the X-axis and Y-axis directions by a slide unit 34 disposed on the upper plate 32. As shown in Figure 13, the fixed unit 71 includes a Y-axis slider 72, a motor 73 (see Figure 6), a pulley 74, a Z-axis slider 75, a motor 76, a pulley 77, a chuck 78, and a chuck cylinder 78a. The Y-axis slider 72 moves along the Y-axis direction (front-back direction) on the front side of the fixed base 71a (right side in Figure 13) by means of the drive force of the motor 73 disposed on the back side of the fixed base 71a (left side in Figure 13) being transmitted via the pulley 74. The Z-axis slider 75 is mounted on the Y-axis slider 72 and moves along the front surface of the Y-axis slider 72 in the Z-axis direction (vertical direction) by the driving force of the motor 76 transmitted via the pulley 77. The chuck 78 is mounted on the Z-axis slider 75 and holds the connecting tape 116 of the recovery drum 115 by the operation of the chuck cylinder 78a.
[0026] As shown in Figures 12 and 14, the moving unit 81 comprises a rotating transfer platen 82, a motor 83, a drum chuck 84, a chuck cylinder 84a (see Figure 6), a guide pin 85, a pin cylinder 85a (see Figure 6), a tape chuck 86, a chuck cylinder 86a, a motor 87, and a pulley 88. The rotating transfer platen 82 is a disc-shaped member having a support shaft 82a to which the drum body 115a of the recovery drum 115 is detachably attached, and the drum body 115a can be rotated by the drive of the motor 83. The rotating transfer platen 82 also has a plurality (for example, three) of elongated holes 82b that extend radially at equal intervals in the circumferential direction. The drum chuck 84 has multiple (three) chuck jaws that move within the elongated hole 82b by the operation of the chuck cylinder 84a, and each chuck jaw opens and closes by the operation of the chuck cylinder 84a to grip and release the recovery drum 115. Multiple guide pins 85 are provided so as to be erected from the left side of the moving unit 81 toward the fixed unit 71. The multiple guide pins 85 are provided at positions corresponding to at least each guide pin 113 so as to be able to form a path similar to the guidance path that guides the cover tape 134 to the recovery drum 115 in the feeder 100. Therefore, the drum set unit 70 can guide the connecting tape 116 along the guide pins 85 by moving the chuck 78 holding the tip of the connecting tape 116 along the path formed by the guide pins 85 using the Y-axis slider 72 and the Z-axis slider 75, thereby forming a path similar to the guidance path in the feeder 100. Furthermore, some of the guide pins 85 can move by the drive of the pin cylinder 85a, allowing the guide pins 85 to hold the connecting tape 116 together. The tape chuck 86 can hold the tip of the connecting tape 116, which has formed a guide path, by the operation of the chuck cylinder 86a, and the driving force of the motor 87 is transmitted via the pulley 88 to move in the Y-axis direction, allowing the tip position of the held connecting tape 116 to be adjusted.
[0027] As shown in Figures 15 and 16, the tape cutting unit 90 comprises a base 90a, a cutting table 91, a tape feeding unit 92, a first tape cutter 95, a second tape cutter 96, a third tape cutter 97, and a slider 98. The tape feeding unit 92 comprises a sprocket 93 with projections on its outer circumference that engage with engagement holes in the tape 130, and a motor 94 that drives the sprocket 93. The tape feeding unit 92 engages the tape 130, which has been fed from the reel 120 of the reel transfer unit 60 with respect to the right end of the cutting table 91, with the sprocket 93, and rotates the sprocket 93 by the forward rotation of the motor 94 to feed the tape 130 toward the cutting position.
[0028] The first tape cutter 95 has scissor-shaped cutting blades positioned perpendicular to the tape 130's feeding direction and cuts the tape 130 when driven by a cutter cylinder 95a. The second tape cutter 96 has cutting blades positioned diagonally to the tape 130's feeding direction and cuts the right side of the tape 130's tip in a tapered shape when driven by a cutter cylinder 96a. The third tape cutter 97 has cutting blades positioned diagonally to the tape 130's feeding direction and cuts the left side of the tape 130's tip in a tapered shape when driven by a cutter cylinder 97a. This third tape cutter 97 is mounted on a slider 98 that slides in the X-axis direction (left-right direction) above the cutting table 91 and is movable left and right. Therefore, the tape cutting unit 90 can adjust the position of the third tape cutter 97 according to the width of the tape 130, thereby cutting the left side of the tape 130's tip, which is fed out with the right end of the cutting table 91 as the reference point, in a tapered shape. Furthermore, by cutting the tip of tape 130 (cover tape 134) in a tapered shape, snagging is prevented when inserting the tip into loop 118, allowing for smooth insertion (see Figure 7).
[0029] The control device 39 includes a CPU 39a, ROM 39b, RAM 39c, etc. Status information is input to the control device 39 from each unit of the reel attachment / detachment device 30, and status information of the reel transfer robot 24 and loader 29, as well as instructions for attaching and detaching the reel 120, are input from the management device 2. Based on this information and the instructions, the control device 39 outputs control signals to each unit of the reel attachment / detachment device 30 to attach and detach the reel 120 to the feeder 100 set in the feeder set unit 40. In addition to these configurations, the reel attachment / detachment device 30 may also include a camera capable of capturing images of the label 122 on the reel 120 attached to the feeder 100. Furthermore, when removing the reel 120 from the feeder 100 set in the feeder set unit 40, a temporary fixing section may be provided to secure the tape 130 with temporary fixing tape, and when attaching the reel 120, a peeling section may be provided to peel off the temporary fixing tape.
[0030] The following is a description of the operation of the reel attachment / detachment device 30 configured in this way. Figure 17 is a flowchart showing an example of the reel removal process. This process is performed by the control device 39 when the feeder 100 from which the reel 120 is to be removed is set in the feeder set unit 40. First, the control device 39 controls the cover opening / closing unit 50 to open the reel cover 106 (S100). As described above, the cover opening / closing unit 50 holds the reel cover 106 within the opening 32a, so that the open reel cover 106 does not interfere with the movement or operation of other units. Next, the control device 39 controls the slide unit 33 so that the reel transfer unit 60 moves to the feeder set unit 40 (S105). The reel transfer unit 60 is configured with the push-turn plate 67 attached to the support pin 61. Next, the control device 39 controls the feeder 100 and the reel transfer unit 60, which are set in the feeder set unit 40, to rewind the tape 130 to a predetermined length (S110). In S110, the control device 39 controls the tape feeding section 102 of the feeder 100 to rotate in the reverse direction, and controls the reel transfer unit 60 to push and rotate the reel 120 in the reverse direction using the push-turning plate 67. After S110 is completed, the control device 39 controls the reel transfer unit 60 to remove the push-turning plate 67 from the support pin 61.
[0031] In the first type of feeder 100, which uses a retrieval drum 115, the tip of the cover tape 134 is connected to the connecting tape 116 when the reel 120 is next attached (see Figure 8). Therefore, the length of the tape 130 (cover tape 134) that needs to be secured when removing the reel 120 can be short. On the other hand, in the second type of feeder 100, which uses a winding gear, it is necessary to secure the length required for the cover tape 134 to reach the winding gear when the reel 120 is next attached. In this embodiment, in order to accommodate whichever type of feeder 100 the reel 120 is next attached to, S110 secures a predetermined length that matches the type that requires the most length (in this case, the second type).
[0032] When the tape 130 is rewound, the control device 39 controls the reel transfer unit 60 to cut the tape 130 and remove the reel 120 from the feeder 100 (S115). The reel transfer unit 60 cuts the tape 130 by inserting the cutter 66 into the feeder 100. Next, the control device 39 controls the slide unit 33 to move the reel transfer unit 60 to the reel set stand 35 (S120), and controls the reel transfer unit 60 to set the removed reel 120 on the reel set stand 35 (S125). If there are any remaining parts on the tape 130, the reel 120 set on the reel set stand 35 is transferred to the receiving stand 22a of the automatic reel storage unit 22 by the reel transfer robot 24. Furthermore, reels 120 with no remaining parts are either transferred to a used reel storage area 25 by a reel transfer robot 24, or discharged from an outlet (not shown) formed on the upper plate 32.
[0033] Next, the control device 39 determines whether the feeder 100 is of the first type that uses a recovery drum 115 (S130). If the control device 39 determines that it is of the first type, it controls the slide unit 34 so that the moving unit 81 of the drum set unit 70 moves to the feeder set unit 40 (S135). Next, the control device 39 controls the drum chuck 84 of the moving unit 81 so that the recovery drum 115 is removed from the feeder 100 (S140). Then, the control device 39 controls the slide unit 34 so that the moving unit 81 moves to a standby position such as in front of the fixed unit 71 (S145). If the control device 39 determines in S130 that it is not of the first type, it skips S135 to S145. The recovery drum 115 removed in S140 is to be collected into a dust box or the like through an outlet (not shown) formed on the upper plate 32 while the moving unit 81 is moving to the standby position. Furthermore, the worker can remove the cover tape 134 from the collection drum 115 collected in the dustbin and discard it, and then set the collection drum 115 in a designated location where the mobile unit 81 of the drum set unit 70 can receive it.
[0034] The control device 39 then determines whether or not to attach the reel 120 to the feeder 100 set in the feeder set unit 40 (S150). If the control device 39 determines that the reel 120 will not be attached, it controls the cover opening / closing unit 50 to close the reel cover 106 (S155) and terminates the reel removal process. On the other hand, if the control device 39 determines that the reel 120 will be attached, it skips S155 and terminates the reel removal process with the reel cover 106 open.
[0035] Next, the reel mounting process will be explained. Figure 18 is a flowchart showing an example of the reel mounting process. This process is performed by the control device 39 when the feeder 100 to which the reel 120 is to be mounted is set in the feeder set unit 40, for example, when the reel removal process in Figure 17 is completed with the reel cover 106 left open. First, the control device 39 controls the slide unit 33 so that the reel transfer unit 60 moves to the reel set base 35 (S200). The reel transfer unit 60 is in a state where the push-turn plate 67 has been removed from the support pin 61. Next, the control device 39 controls the reel transfer unit 60 so that it receives the reel 120 set in the reel set base 35 (S205). Subsequently, the control device 39 controls the slide unit 33 so that the reel transfer unit 60 moves to the tape cutting unit 90 (S210). Then, the control device 39 controls the reel transfer unit 60 and the tape cutting unit 90 to feed out the required amount of tape 130 from the reel 120 and cut the end of the tape 130 into the required shape (S215). If the feeder 100 to be installed is of the first type that uses a recovery drum 115, the control device 39 controls the tape cutting unit 90 to cut the end of the tape 130 in a tapered shape to facilitate insertion into the loop 118, as described above. If such a tapered cut is not necessary, the control device 39 controls the tape cutting unit 90 to cut only in a direction perpendicular to the longitudinal direction of the tape 130, for example. Alternatively, the end of all the tapes 130 may be cut in a tapered shape. When the tape 130 is cut by the tape cutting unit 90, the control device 39 controls the reel transfer unit 60 to rewind the tape 130 and hold the end of the tape 130 with the chuck 64.
[0036] Next, the control device 39 controls the slide unit 33 so that the reel transfer unit 60 moves to the feeder set unit 40 (S220). If the reel cover 106 of the feeder 100 set in the feeder set unit 40 is closed, the control device 39 controls the cover opening / closing unit 50 to open the reel cover 106 prior to S220. Next, the control device 39 controls the reel transfer unit 60 and the slide unit 33 so that the reel 120 is attached to the feeder 100 set in the feeder set unit 40 and moves to a predetermined standby position (S225).
[0037] The control device 39 then determines whether the feeder 100 is of the required first type for the recovery drum 115 (S230). If the control device 39 determines that it is of the first type, it controls the drum set unit 70 to lay the connecting tape 116 along the path formed by the guide pins 85, hold the connecting tape 116 with the guide pins 85, and grasp and hold its tip with the tape chuck 86 (S235). Next, the control device 39 controls the slide unit 34 so that the moving unit 81 moves to the feeder set unit 40 (S240). Subsequently, the control device 39 controls the drum set unit 70 to attach the recovery drum 115 and the connecting tape 116 to the feeder 100 of the feeder set unit 40 (S245). The control device 39 attaches the connecting tape 116, which is laid along the path formed by the guide pins 85, to each guide pin 113 of the feeder 100 in that state, and then controls the drum set unit 70 to release the connection tape 116 from being held by the guide pins 85. This allows the connecting tape 116 to be attached along the guidance path of the feeder 100. Also, if the control device 39 determines in S230 that a recovery drum 115 is not necessary, it skips S235 to S245. The control device 39 may execute S235 to S245 before S200 to S215, or in parallel with S200 to S215.
[0038] The control device 39 then controls the feeder set unit 40 to perform the tip processing on the tape 130 (S250). For example, if the feeder 100 is of the first type, the control device 39 controls the feeder set unit 40 to pull out the cover tape 134 and connect it to the connecting tape 116. If the feeder 100 is of the second type, the control device 39 controls the feeder set unit 40 to pull out the cover tape 134 and send it to the guide path. Once the reel 120 is installed in this way, the control device 39 controls the cover opening / closing unit 50 to close the reel cover 106 (S255), and the reel installation process is completed. If the reel attachment / detachment device 30 is equipped with a camera capable of capturing images of the label 122 on the reel 120, the control device 39 may have the camera capture images of the label 122 before closing the reel cover 106, and then process the captured images to recognize the information on the label 122. The control device 39 can then verify whether the correct reel 120 has been installed based on the recognized information, register it in association with the feeder 100, and transmit the recognized information to the management device 2 along with a message indicating that the reel 120 has been installed.
[0039] Here, the correspondence between the components of this embodiment and the components of the present disclosure will be clarified. The reel attachment / detachment device 30 of this embodiment corresponds to the reel attachment / detachment device of the present disclosure, the feeder set unit 40 corresponds to the feeder set unit, the reel transfer unit 60 corresponds to the reel transfer unit, the chuck 64 corresponds to the holding part, the cutter 66 corresponds to the cutting part, and the control device 39 corresponds to the control device. The recovery drum 115 corresponds to the drum-shaped recovery part. The guide pin 85 corresponds to the path forming part, the chuck 78, the Y-axis slider 72, and the Z-axis slider 75 correspond to the guidance part, the drum set unit 70 corresponds to the recovery part set unit, and the tape connection part 46 corresponds to the connection part. The reel cover 106 corresponds to the opening / closing cover, and the cover opening / closing unit 50 corresponds to the cover opening / closing unit. Furthermore, the preparation line 20 corresponds to the feeder preparation system, the feeder storage unit 26 corresponds to the feeder storage unit, the loader 29 corresponds to the feeder preparation device, the reel setting stand 35 corresponds to the reel setting stand, and the reel transfer robot 24 corresponds to the reel preparation device.
[0040] In the reel attachment / detachment device 30 described above, the feeder 100 is set in the feeder set unit 40 so that the tape feeding unit 102 (delivery unit) can be driven, allowing the tape 130 to be quickly rewound when the reel 120 is removed. In addition, the reel transfer unit 60 rotates the push turntable 67, allowing the tape 130 to be properly rewound onto the reel 120. Furthermore, by rewinding the tape 130 to the portion where the parts have been supplied and cutting it, it is possible to prevent parts from falling off during the tape 130 end processing when attaching the reel 120 next time. As a result, the removal of the reel 120 can be performed more appropriately.
[0041] Furthermore, since the tape 130 (cover tape 134) is rewound to ensure a predetermined length, the time required for retrieving the cover tape 134 when the reel 120 is next attached can be reduced. Also, since the drum set unit 70 attaches the connecting tape 116 to the feeder 100 after aligning it with the guidance path of the cover tape 134, the retrieval drum 115 can be attached efficiently. In addition, since the reel attachment / detachment device 30 removes and attaches the reel 120 with a common device, it can be configured more compactly compared to devices that perform these operations separately. Furthermore, since the cover opening / closing unit 50 holds the open reel cover 106 in a position that does not interfere with the movement of other units, the removal and attachment of the reel can be performed even more efficiently.
[0042] It goes without saying that this disclosure is not limited in any way to the embodiments described above, and can be implemented in various forms as long as they fall within the technical scope of this disclosure.
[0043] For example, in the embodiment described above, the tape 130 was rewound to a predetermined length when the reel 120 was removed, but the invention is not limited to this. For example, when the reel 120 is next attached, an extension tape of the required length may be added to the end of the tape 130.
[0044] In the embodiment described above, both the chuck 64 and the cutter 66 are provided on the reel transfer unit 60, but the invention is not limited to this, and either one or both may be provided elsewhere, for example, on the feeder set unit 40.
[0045] In the above-described embodiment, a first type of feeder 100 that recovers using a recovery drum 115 is exemplified, and a drum set unit 70 is provided for attaching and detaching the recovery drum 115 and forming the path for the connecting tape 116, but the invention is not limited to this. For example, instead of the drum set unit 70, a reel transfer unit 60 may remove the recovery drum 115 together with the reel 120. Also, the path for the connecting tape 116 may be formed by the feeder set unit 40 or the reel transfer unit 60 after the recovery drum 115 has been attached to the feeder 100. In such cases, or when the first type of feeder 100 is not used, the drum set unit 70 may not be provided.
[0046] In the embodiment described above, the reel cover 106 is shown as being attached to the lower edge of the feeder 100 in a manner that allows it to be opened and closed. However, the embodiment is not limited to this, and it is sufficient that the reel cover 106 is attached to the feeder 100 in a manner that allows it to be opened and closed, and the opening and closing direction may be left to right.
[0047] In the embodiment described above, the feeder set unit 40 is configured to set the feeder 100 so that it can drive the tape feed unit 102, but it is not limited to this, and the feeder 100 may be configured so that it cannot drive the tape feed unit 102. Also, the reel transfer unit 60 is configured to push and rotate the reel 120 using a push-rotating plate 67, but the reel 120 may be rotated by a method other than pushing and rotating. Alternatively, the reel transfer unit 60 may not rotate the reel 120 (it may not have a rotating part). Furthermore, the control device 39 only needs to drive the chuck 64 (holding part) and cutter 66 (cutting part) to hold and cut the tape 130 in the portion where the parts have been supplied, when the feeder 100 with the reel 120 attached is set in the feeder set unit 40.
[0048] In the embodiment described above, a preparation line 20 (preparation system) is exemplified that includes, in addition to the reel attachment / detachment device 30, a loader 29 for setting the feeder 100 into the feeder set unit 40 and a reel transfer robot 24 for setting the reel 120 into the reel set stand 35, but it is not limited to this. The reel attachment / detachment device 30 may be arranged independently, and the setting of the feeder 100 and the reel 120 may be performed by another device such as an AGV, or by an operator. Furthermore, the arrangement and function of each unit of the reel attachment / detachment device 30 are examples only, and it is sufficient that the reel attachment / detachment device 30 as a whole is configured to automatically attach and detach the reel 120 to the feeder 100.
[0049] Herein, the reel attachment / detachment device of the present disclosure may be configured as follows. In the reel attachment / detachment device of the present disclosure, the tape has a bottom tape that accommodates the component and a cover tape that covers the component, and the component can be supplied when the cover tape is peeled off. The feeder may be of a plurality of types, including a type that has a drum-shaped recovery section that recovers the cover tape while winding it together with a connecting tape whose tip is connected to the cover tape, and a type that pulls the cover tape to a recovery section different from the drum shape and recovers it. In the removal control, the control device may drive the drive unit and the rotating unit to rewind the cover tape to a length that can accommodate either type when the reel is next attached to the feeder. This allows for appropriate removal of the reel, taking into account when the reel will be attached next. Therefore, the time required for processing to recover the cover tape when the reel is next attached can be reduced, and the automatic attachment of the reel can be performed efficiently.
[0050] In the reel attachment / detachment device of the present disclosure, the feeder is provided with a guide path for guiding the cover tape to the retrieval unit, is configured to be movable relative to the feeder set unit, and has a path forming unit that forms a path along the guide path, and a guide unit that guides the connecting tape to lie along the path forming unit, and includes a retrieval unit set unit on which the drum-shaped retrieval unit can be transferred, the feeder set unit has a connecting unit that connects the tip of the connecting tape and the tip of the peeled cover tape, and the control device may control the retrieval unit set unit to attach the connecting tape and the retrieval unit to the feeder set in the feeder set unit after the connecting tape has been laid along the path forming unit in advance, and to connect the tip of the connecting tape and the tip of the cover tape to the feeder set unit, and control the feeder set unit to connect the tip of the connecting tape and the tip of the cover tape. In this way, the reel and retrieval unit can be attached efficiently in a feeder of the type that uses a drum-shaped retrieval unit.
[0051] In the reel attachment / detachment device of the present disclosure, the control device may perform attachment control such that, with the feeder from which the reel has been removed set in the feeder set unit, the control device attaches the reel to the feeder, drives the holding unit and the rotating unit so that the leading edge of the tape is fed from the reel to the feeding unit, and drives the feeding unit until the leading edge of the tape reaches a predetermined position. In this way, the removal and attachment of the reel can be performed with a common attachment / detachment device, and the attachment / detachment device can be made compact.
[0052] In the reel attachment / detachment device of the present disclosure, the feeder may have an opening / closing cover that exposes the reel in an open state, and the feeder set in the feeder set unit may be configured to open and close the opening / closing cover of the feeder, and may also have a cover opening / closing unit that holds the opening / closing cover in the open state in a position that does not interfere with the relative movement of other units with respect to the feeder set unit. This would allow the reel to be attached and detached even more efficiently.
[0053] Another reel attachment / detachment device of the present disclosure is a reel attachment / detachment device for attaching and detaching a reel around which tape containing parts is wound, to a feeder that supplies parts by driving a delivery unit to deliver the parts, comprising: a feeder set unit on which the feeder is set; a holding part of the reel mounted on the feeder that can hold the tape; a cutting part that can cut the tape; and a control device that drives the holding part and the cutting part to hold and cut the tape in the portion where the parts have already been supplied, while the feeder to which the reel is attached is set in the feeder set unit. In this way, by cutting the tape in the portion where the parts have already been supplied, it is possible to prevent the tape tip from affecting the parts when the reel is attached next, thus enabling more appropriate removal of the reel in a device that automatically attaches and detaches reels.
[0054] The essence of the feeder preparation system of this disclosure is that it comprises any of the reel attachment / detachment devices described above, a feeder preparation device that can transfer the feeders between a feeder storage unit that houses a plurality of the feeders and the feeder set unit, and prepares the feeders to which the reels are to be attached or detached, a reel set stand on which the reels are set so that the reel transfer unit can be transferred, and a reel preparation device that can transfer the reels between a reel storage unit that houses a plurality of the reels and the reel set stand, and prepares the reels to which the reels are to be attached or detached to the feeders.
[0055] The feeder preparation system of this disclosure automatically attaches and detaches reels to the feeder using one of the reel attachment / detachment devices described above, allowing for more efficient removal of reels. Furthermore, since feeder preparation and reel preparation can also be performed automatically, the automatic attachment and detachment of reels can be made even more efficient. [Industrial applicability]
[0056] This disclosure can be used in industries such as the manufacturing of component mounting systems. [Explanation of Symbols]
[0057] 1 Component mounting system, 2 Management device, 4 AGV, 10 Mounting line, 12 Printing device, 14 Printing inspection device, 16 Mounting device, 18 Feeder storage area, 19 Loader, 20 Preparation line, 22 Automatic reel storage unit, 22a Receiving stand, 24 Reel transfer robot, 25 Reel storage area, 26 Feeder storage unit, 28 Feeder storage area, 29 Loader, 30 Reel attachment / detachment device, 31 Base, 32 Top plate, 32a Opening, 33,34 Slide unit, 35 Reel set stand, 36 Base, 37 Support pin, 39 Control device, 39a CPU, 39b ROM, 39c RAM, 40 Feeder set unit, 40a Base, 42 Guide opening / closing section, 44 Tape pulling section, 46 Tape connection section, 47 Fixed clamp section, 47a, 47b, 48a, 48b Clamp member, 47c, 48c Clamp cylinder, 48 Moving clamp section, 49 Slide section, 49a Slide block, 49b Slide cylinder, 50 Cover opening / closing unit, 50a Base, 52 Support column, 53 Rotating plate, 54 Suction cup, 55 Motor, 56 Pulley, 60 Reel transfer unit, 60a Slide base, 61 Support pin, 61a Diameter expanding cylinder, 62 Motor, 63 Push plate, 63a Push cylinder, 64 Chuck, 64a Chuck cylinder, 65 Guide pin, 66 Cutter, 66a Cutter cylinder, 67 Push-rotating plate, 68 Cushioning member, 70 Drum set unit, 71 Fixed unit, 71a Fixed base, 72 Y-axis slider, 73 Motor, 74 Pulley, 75 Z-axis slider, 76 Motor, 77 Pulley, 78 Chuck, 78a Chuck cylinder, 81 Moving unit, 81a Slide base, 82 Transfer platen, 82a Support shaft, 82b Slotted hole, 83 Motor, 84 Drum chuck, 84a Chuck cylinder, 85 Guide pin, 85a Pin cylinder, 86 Tape chuck, 86a Chuck cylinder, 87 Motor, 88 Pulley, 90 Tape cutting unit, 90a Base, 91 Cutting table, 92 Tape feeding section, 93 Sprocket, 94 Motor, 95 First tape cutter, 95a, 96a,97a Cutter cylinder, 96 Second tape cutter, 97 Third tape cutter, 98 Slider, 100 Feeder, 101 Main body, 102 Tape feeding section, 103 Motor, 104 Tape guide, 106 Reel cover, 108 Connector, 109 Positioning pin, 110 Tape retrieval section, 111 Drum shaft, 113 Guide pin, 115 Retrieval drum, 115a Drum body, 116 Connecting tape, 117 Fixing piece, 118 Loop, 119 Slide piece, 120 Reel, 122 Label, 130 Tape, 132 Bottom tape, 134 Cover tape.
Claims
1. A reel attachment / detachment device for attaching and detaching a reel around which a tape containing the components is wound, to a feeder that supplies the components by driving a feeding unit, A feeder set unit in which the feeder is set so that the aforementioned dispensing unit can be driven, A reel transfer unit having a rotating part that rotates the reel around an axis, and capable of moving relative to the feeder set unit to transfer the reel, A holding portion capable of holding the tape of the reel mounted on the feeder, The tape has a cutting section that can cut it, A control device that performs removal control to control the feeder set unit and the reel transfer unit to remove the reel from the feeder, while the feeder to which the reel is attached is set in the feeder set unit, by driving the feeder set unit and the rotating unit so that the tape is unwound and wound onto the reel, and then driving the holding unit and the cutting unit so that the tape is held and cut in the portion to which the component has been supplied, and A reel attachment / detachment device equipped with [a specific feature].
2. A reel attachment / detachment device according to claim 1, The tape comprises a bottom tape for housing the component and a cover tape for covering the component, and the component can be supplied when the cover tape is peeled off. The feeder includes multiple types, including a type having a drum-shaped collection section that winds and collects the cover tape together with a connecting tape whose tip is connected to the cover tape, and a type that pulls and collects the cover tape to a collection section different from the drum shape. In the removal control, the control device drives the drive unit and the rotating unit to rewind the cover tape to a length that can accommodate any type when the reel is next attached to the feeder. Reel attachment / detachment device.
3. A reel attachment / detachment device according to claim 2, The feeder is provided with a guide path for guiding the cover tape to the collection section. A collection unit set unit is provided on which the drum-shaped collection unit can be transferred, and which is configured to be movable relative to the feeder set unit, and has a path forming unit that forms a path along the guidance path, and a guidance unit that guides the connecting tape so as to lie along the path forming unit, The feeder set unit has a connecting portion that connects the leading edge of the connecting tape and the leading edge of the peeled cover tape, The control device controls the recovery unit set unit to first lay the connecting tape on the path forming unit, then to attach the connecting tape and the recovery unit to the feeder set unit, and controls the feeder set unit so that the connecting unit connects the tip of the connecting tape and the tip of the cover tape. Reel attachment / detachment device.
4. A reel attachment / detachment device according to any one of claims 1 to 3, The control device performs mounting control to control the feeder set unit and the reel transfer unit so as to attach the reel to the feeder with the feeder from which the reel has been removed set in the feeder set unit, drive the holding unit and the rotating unit so that the leading edge of the tape is fed from the reel to the feeding unit, and drive the feeding unit until the leading edge of the tape reaches a predetermined position. Reel attachment / detachment device.
5. A reel attachment / detachment device according to any one of claims 1 to 4, The feeder has an opening / closing cover that, when open, detachably exposes the reel. The feeder set in the feeder set unit is configured to open and close the opening / closing cover of the feeder, and the cover opening / closing unit is configured to hold the open opening / closing cover in a position that does not interfere with the relative movement of other units relative to the feeder set unit. Reel attachment / detachment device.
6. A reel attachment / detachment device for attaching and detaching a reel around which a tape containing the components is wound, to a feeder that supplies the components by driving a feeding unit, A feeder set unit in which the aforementioned feeder is set, A holding portion capable of holding the tape of the reel mounted on the feeder, The tape has a cutting section that can cut it, A control device that drives the holding unit and the cutting unit to hold and cut the tape in the portion where the component has been supplied, with the feeder to which the reel is attached set in the feeder set unit, A reel attachment / detachment device equipped with [a specific feature].
7. A reel attachment / detachment device according to any one of claims 1 to 6, A feeder preparation device that allows the transfer of the feeders between a feeder storage unit that houses multiple feeders and the feeder set unit, and prepares the feeders to be attached to and detached from the reels, The reel transfer unit includes a reel set stand on which the reel is set so as to be transferable, A reel preparation device that allows the reels to be transferred between a reel storage section that houses multiple reels and a reel set stand, and prepares the reels to be attached to and detached from the feeder, A feeder preparation system equipped with the following features.