WO2013157108A1 - 自動スプライシング装置 - Google Patents
自動スプライシング装置 Download PDFInfo
- Publication number
- WO2013157108A1 WO2013157108A1 PCT/JP2012/060514 JP2012060514W WO2013157108A1 WO 2013157108 A1 WO2013157108 A1 WO 2013157108A1 JP 2012060514 W JP2012060514 W JP 2012060514W WO 2013157108 A1 WO2013157108 A1 WO 2013157108A1
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- WO
- WIPO (PCT)
- Prior art keywords
- tape
- splicing
- cutting
- tapes
- positions
- Prior art date
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Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/02—Feeding of components
- H05K13/021—Loading or unloading of containers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H19/00—Changing the web roll
- B65H19/10—Changing the web roll in unwinding mechanisms or in connection with unwinding operations
- B65H19/18—Attaching, e.g. pasting, the replacement web to the expiring web
- B65H19/1842—Attaching, e.g. pasting, the replacement web to the expiring web standing splicing, i.e. the expiring web being stationary during splicing contact
- B65H19/1852—Attaching, e.g. pasting, the replacement web to the expiring web standing splicing, i.e. the expiring web being stationary during splicing contact taking place at a distance from the replacement roll
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K13/00—Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
- H05K13/02—Feeding of components
- H05K13/0215—Interconnecting of containers, e.g. splicing of tapes
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2301/00—Handling processes for sheets or webs
- B65H2301/40—Type of handling process
- B65H2301/44—Moving, forwarding, guiding material
- B65H2301/449—Features of movement or transforming movement of handled material
- B65H2301/4493—Features of movement or transforming movement of handled material intermittent
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/10—Handled articles or webs
- B65H2701/11—Dimensional aspect of article or web
- B65H2701/113—Size
- B65H2701/1133—Size of webs
- B65H2701/11332—Size of webs strip, tape, narrow web
Definitions
- the present invention provides a tip end portion of a second tape wound around a second reel to be replaced with a rear end portion of a first tape wound around a first reel of a feeder mounted on a component supply device of a component mounter.
- the present invention relates to an automatic splicing device that automatically connects to the device.
- Patent Document 1 describes an automatic splicing device that automatically connects tapes wound around first and second reels.
- the automatic splicing device includes: a first cutting device that cuts an unnecessary portion of the rear end portion of the tape of the first reel; a second cutting device that cuts an unnecessary portion of the tip portion of the tape of the second reel; A connecting device for connecting the rear end portion of one tape and the front end portion of the second tape is provided.
- the operator When performing tape connection with this automatic splicing device, the operator first cuts the rear end portion of the first tape and the front end portion of the second tape by an arbitrary length. Next, the rear end of the first tape and the front end of the second tape are inserted into the first cutting device and the second cutting device, respectively. Then, the first and second cutting devices are activated, and the inserted first and second tapes are respectively conveyed toward the cutting position and stopped at the cutting position. The first and second tapes are positioned by fitting pins into the feed holes drilled in the first and second tapes, respectively, and the first and second tape parts are accommodated by the cutter. The central position of each is cut.
- first and second tapes are respectively conveyed toward the connection position of the connection device and stopped at the connection position.
- the first and second tapes are respectively positioned by fitting pins into the feed holes of the first and second tapes, and adhesive tapes are respectively provided on the upper and lower surfaces of the rear end of the first tape and the front end of the second tape. Affixed.
- the connection of the first and second tapes is completed.
- the present invention has been made in view of the above circumstances, and an object of the present invention is to provide an automatic splicing device capable of processing an unnecessary portion of a cut tape.
- the invention according to claim 1 is a splicing device that connects the first and second tapes, each having a feed hole and a component storage cavity, at a predetermined interval, by a splicing tape at a splicing position.
- the first and second cutting devices for cutting the unnecessary portions at the end portion of the first tape and the start end portion of the second tape at the first and second cutting positions, respectively, and the first and second tapes First and second tape feeders that sequentially convey the cut portions of the first and second tapes along the first and second conveyance paths to the first and second cutting positions and the splicing position, respectively.
- the first and second unnecessary portions, which are provided between the first and second cutting positions and the splicing position, respectively, and cut the first and second tapes are taken in, respectively.
- a second take-in device, and a control device for controlling the operations of the first and second tape feeders, the first and second cutting devices, and the first and second take-in devices are provided between the first and second cutting positions and the splicing position, and first and second movable conveyance paths forming a part of the first and second conveyance paths are formed.
- the first and second take-in members, and the first and second take-in members are arranged such that the first and second movable transfer paths are aligned with the first and second transfer paths.
- the first and second transport positions and the first and second openings for taking in the first and second unnecessary portions of the first and second tapes transported on the first and second transport paths.
- a first and a second opening forming position formed between the first and second cutting positions and the splicing position in the path;
- the control device until the first and second tape feeders position the cut portions of the first and second tapes at the first and second cutting positions.
- the first and second intake member driving devices are operated so that the first and second intake members are positioned at the first and second opening forming positions, and the first and second cutting devices are the first and second cutting devices. 1.
- the first and second intake member driving devices are operated so that the first and second intake members are positioned at the first and second transport positions. is there.
- the first and second tape feeders are The first and second unnecessary portions of the first and second tapes transported along the first and second transport paths are moved to first and second disposal points below the first and second transport paths.
- the first and second ducts for guiding are provided.
- the control device moves the first and second intake members to the first and second positions until the first and second tapes are transported and positioned at the first and second cutting positions.
- the position is moved to the position where two openings are formed.
- the 1st, 2nd unnecessary part of a 1st, 2nd tape can be reliably taken in into the 1st, 2nd opening of a 1st, 2nd taking-in member, and can be processed.
- the first and second take-in members are moved to the first and second transport positions for positioning. Thereby, a 1st, 2nd tape can be smoothly conveyed to a splicing position along the 1st, 2nd movable conveyance path
- the first and second ducts are unnecessary for the first and second tapes of the first and second tapes taken in the first and second openings of the first and second take-in members.
- the portion is surely guided to the first and second disposal points below the first and second transport paths.
- the first and second unnecessary portions of the first and second tapes are not left on the first and second transport paths, and malfunction and failure of the first and second tape feeders can be prevented. Can be prevented.
- FIG. 3 is a cross-sectional view taken along line 3-3 in FIG. It is a perspective view which shows the whole splicing apparatus which shows embodiment of this invention. It is a figure which shows the state which opened the cover body of the splicing apparatus. It is a figure which shows the state which mounted
- FIG. 1 It is a figure which shows the state which adhere
- A is the top view of the carrier tape connected with a splicing apparatus
- B is the figure which looked at this carrier tape from the side. It is a figure which shows according to the kind the carrier tape which can be connected with a splicing apparatus. It is a figure which shows the state which removed the housing and cover body of the splicing apparatus, and exposed the inside. It is a figure which shows schematic structure of a splicing apparatus. It is a flowchart for demonstrating the splicing preparation process by a splicing apparatus.
- FIG. 30 is a cross-sectional view taken along line 31-31 in FIG. 29 and showing the operating state of splicing.
- FIG. 1 shows a tape feeder 10 that is detachably attached to a component supply device of a component mounting machine.
- a reel 12 around which a carrier tape Tc is wound is detachably attached to the tape feeder 10.
- the carrier tape Tc is formed in an elongated shape with a predetermined width, and a large number of cavities Ct are arranged at a constant pitch in the longitudinal direction.
- the carrier tape Tc is mounted on the circuit board in the cavities Ct.
- Each electronic component e is accommodated.
- the upper part of the cavity Ct is opened and covered with a top tape Tt (see FIG. 3) attached to the surface of the carrier tape Tc.
- feed holes Hc are formed at the same pitch interval as the cavity Ct or twice the pitch interval of the cavity Ct. These feed holes Hc are in a fixed positional relationship with the cavity Ct.
- the tape feeder 10 feeds the carrier tape Tc wound around the reel 12 quantitatively, and feeds the electronic components e one by one to the component supply position 17 provided at the tip of the tape feeder 10. Is built-in.
- the fixed amount feeding mechanism 18 is rotatably supported by the main body of the tape feeder 10 and includes a sprocket 19 that engages with the feeding hole Hc of the carrier tape Tc and a motor (not shown) that rotates the sprocket 19 by one pitch. .
- the carrier tape Tc used in the component mounting machine is composed of a plurality of types having different pitches of the cavities Ct, and the pitch interval of the cavities Ct and the relationship between the cavities Ct and the feed holes Hc are determined depending on the type of the carrier tape Tc. It has been. Therefore, as will be described later, the type of carrier tape Tc can be grasped by recognizing the pitch interval of the cavity Ct by image processing, and based on this, the position of the feed hole Hc of the carrier tape Tc is determined. And the cutting position of the carrier tape Tc can be determined at the time of splicing.
- the splicing device 20 automatically changes the end portion of the carrier tape wound around the current reel attached to the feeder attached to the component supply device to the beginning end portion of the carrier tape wound around the next reel to be replaced. It is a device to connect. As shown in FIG. 4, the splicing device 20 includes a box-shaped housing 21 and a lid 22 that can open and close the upper surface of the housing 21. The splicing device 20 is placed on a cart or the like not shown to supply components of the component mounting machine. It is configured to be movable between feeders attached to the apparatus. The lid 22 is closed at the time of splicing and is opened at the time of taking out the carrier tape Tc after the splicing.
- the first carrier tape T1 and the second carrier tape T2 that are spliced by the splicing device 20 include a first cavity Ct1 (second component) in which a component e1 (second component e2) of the same component type is accommodated. Cavities Ct2) are provided at a predetermined pitch Pc and mesh with teeth 131a (131b) of a first sprocket 13a (second sprocket 13b) of a first tape feeder 10 (second tape feeder 11) described later. Possible first feed holes Hc1 (second feed holes Hc2) are bored at a predetermined pitch Ph in parallel with the first cavities Ct1 (second cavities Ct2).
- the first and second carrier tapes T1 and T2 are cut by the automatic splicing device 20 at the first and second cutting points Q1 and Q2, and connected by a splicing tape 30 described later.
- a first cutting point Q1 for example, a first cavity Ct1 (second cavity Ct2) having a first part e1 (second part e2) and a first part e1 (second part e2).
- An intermediate position with respect to the empty first cavity Ct1 (second cavity Ct2) having no gap is selected.
- the first carrier tape T1 (second carrier tape T2) that is continuous with the cut first cavities Ct1 (second cavities Ct2) is discarded as the first unnecessary portion Tf1 (second unnecessary portion tape Tf2).
- adjacent empty first cavities Ct1 (second cavities Ct2) as first cutting points Q1 (second cutting points Q2) The intermediate position can also be selected.
- the first carrier tape T1 (second carrier tape T2) that can be connected by the automatic splicing device 20
- the first feed holes Hc1 second feed holes Hc2
- the second type first carrier tape T1b (second carrier tape T2b) has a position that coincides with the first feed hole Hc1 (second feed hole Hc2) and the adjacent first feed hole Hc1 (second feed hole Hc2).
- the first embossed tape T1e (second embossed tape T2e) in which the first cavity Cte1 (second cavity Cte2) is protruded in the thickness direction. ) Can also be connected by the automatic splicing device 20 (see FIG. 12D).
- the first embossed tape T1e (second embossed tape T2e) is also perforated with the same predetermined pitch Ph in the first feed holes Hc1 (second feed holes Hc2) as in the above-described three types of tapes.
- Two carrier tapes T1 and T2 to be spliced are fed into the splicing device 20 from the left and right of FIG. 5, and a splicing tape 30 connecting the two carrier tapes T1 and T2 from the upper direction of FIG.
- a protective tape 31 to which is attached is sent.
- the splicing position LS where the carrier tapes T1 and T2 and the protective tape 31 intersect the ends of the two carrier tapes T1 and T2 are connected to each other by the splicing tape 30.
- the splicing tape 30 affixed to the protective tape 31 is sent to the splicing position LS with the adhesive surface facing upward, and the two carrier tapes T1 and T2 are located above the splicing tape 30. It is supposed to be sent.
- the splicing tape 30 has two sets of splicing tapes 30 a and 30 b that are bonded to both surfaces of the upper surface of the continuous protective tape 31 across the two carrier tapes T ⁇ b> 1 and T ⁇ b> 2.
- the protective tape 31 is pasted with a predetermined interval in the longitudinal direction.
- a large number of these two splicing tapes 30 a and 30 b are affixed with a distance in the longitudinal direction of the protective tape 31.
- the upper surfaces of the splicing tapes 30a and 30b form an adhesive surface that is bonded to both surfaces of the two carrier tapes T1 and T2, and a continuous paper mount 32 is bonded to the adhesive surfaces.
- a three-layer structure (see FIG. 9) of the tape 30 and the protective tape 31 is wound around a supply reel 33 in a roll shape as shown in FIG.
- the width direction dimension of the protective tape 31 is larger than the width direction dimension of the paper mount 32, and both ends of the protective tape 31 in the width direction protrude from both ends of the paper mount 32 in the width direction.
- the holes 31a are formed with a constant interval in the longitudinal direction.
- the width direction dimension of the splicing tape 30 is equal to the width direction dimension of the paper mount 32, and the splicing tape 30 is affixed to the protective tape 31 as a pair along the width direction inside the hole 31a for feeding.
- One set of two splicing tapes 30a has positioning holes 30a1 at the same pitch intervals as the feed holes Hc1 and Hc2 formed in the carrier tapes T1 and T2, respectively.
- Positioning holes 31b are formed at the same pitch intervals as the feed holes Hc and Hc2 formed in the carrier tapes T1 and T2 at positions close to the other set of splicing tapes 30b.
- the feed hole 31a and the positioning hole 31b formed in the protective tape 31 are formed by forming the positioning hole 30a1 in the splicing tape 30a after the splicing tapes 30a and 30b are attached to the protective tape 31 at predetermined positions. And formed by a punching press.
- the splicing device 20 is rotatable by winding a three-layer structure including the splicing tape 30 in a roll shape on a line crossing a splicing position LS for splicing the two carrier tapes T1 and T2.
- a supply reel 33, a paper board feeding device 35 that feeds the paper board 32 peeled off from the splicing tape 30, and a protective tape feeding device 36 that sends out the protective tape 31 from which the splicing tape 30 has been peeled off are provided.
- the adhesive strength between the paper mount 32 and the protective tape 31 adhered to both sides of the splicing tape 30 is stronger than the protective tape 31. Even if the paper mount 32 is peeled off from the splicing tape 30, the splicing tape 30 is protected. The tape 31 is not peeled off. However, when the carrier tapes T1 and T2 are adhered to the adhesive surface of the splicing tape 30 from which the paper mount 32 has been peeled off, the adhesive strength thereof becomes stronger than the adhesive strength against the protective tape 31, and the protective tape is more than the splicing tape 30. 31 is easily peeled off.
- the three-layer structure of the paper mount 32, the splicing tape 30 and the protective tape 31 is mounted on the splicing jig 20 while being wound around the supply reel 33, and the tip is pulled out from the supply reel 33. Then, the paper mount 32 is peeled off and folded by the operator, and the paper mount 32 is sent out by the paper mount feeder 35 and stored in a paper mount storage box (not shown). As shown in FIG. 10, the paper mount paper feeding device 35 has a drive gear 37 and a driven gear 38 each having a gear formed on the outer peripheral surface thereof.
- the driven gear 38 is supported so as to be able to approach and separate from the drive gear 37, and the outer periphery of the driven gear 38 is normally pressed against the outer periphery of the drive gear 37 by a biasing force of a spring (not shown).
- a biasing force of a spring not shown
- the driven gear 38 is separated from the drive gear 37, the paper mount 32 is sandwiched between the two gears 37, 38, and the drive gear 37 is driven by a motor (not shown) in this state.
- the mount 32 is sent out as the gears 37 and 38 rotate.
- a contact roller 40 capable of contacting the paper mount 32 guided by the guide roller 39 is provided.
- the contact roller 40 is supported by one end of a dog 42 pivotally attached by a hinge pin 41, and the dog 42 is normally at a predetermined angular position where the sensor 43 is turned on by a spring and a stopper (not shown). Is retained.
- the contact roller 40 is pressed by the tension, the dog 42 is rotated, and the sensor 43 is turned off.
- a certain tension is applied to the paper mount 32 so that the paper mount 32 can be peeled off from the protective tape 31 by a necessary amount.
- the protective tape 31 from which the paper mount 32 is peeled off that is, the protective tape 31 to which a large number of splicing tapes 30 are attached with the adhesive surface facing upward passes through the joining device 58 described below so as to cross the center of the splicing position LS.
- the front end is engaged with the feeding reel 46 of the protective tape feeding device 36.
- projections 46 a that engage with the feeding holes 31 a of the protective tape 31 are formed at equal intervals, and the feeding reel (not shown) connected to the feeding reel 46 is connected.
- the protective tape 31 engaged with the protrusion 46a is sent out, and the protective tape 31 is accommodated in a storage box (not shown).
- the splicing tape 30 metal powder is embedded, and the embedded metal is detected by the metal detection sensor 47.
- the metal detection sensor 47 is installed at a position separated from the splicing position LS by a certain distance on the front side of the splicing position LS, and when the end of the splicing tape 30 is detected by the metal detection sensor 47, The splicing tape 30 can be accurately positioned at the splicing position LS by feeding the protective tape 31 by a certain amount from the detection position by the motor of the protective tape feeder 36.
- the automatic splicing device 20 includes first and second tape feeding devices 50 and 51, first and second component detection devices 52 and 53, and first and second cutting devices 54 and 55.
- the first and second take-in devices 56 and 57, the joining device 58, and the control device 59 are configured.
- the first and second tape feeders 50 and 51, the first and second cutting devices 54 and 55, the first and second take-in devices 56 and 57, the joining device 58 (excluding a part) and the control device 59 are:
- the housing 21 and the lid 22 are housed and arranged.
- first and second tape feeders 50 and 51 are arranged on both sides in the housing 21 and the lid body 22, respectively, and between the first and second tape feeders 50 and 51.
- First and second cutting devices 54 and 55 are disposed at (first and second cutting positions Lc1 and Lc2 described later), respectively. Further, between the first and second cutting devices 54 and 55 (between first and second cutting positions Lc1 and Lc2 to be described later and the splicing position LS), the first and second take-in devices 56 and 57 are respectively provided.
- the joining device 58 is disposed between the first and second take-in devices 56 and 57.
- the first and second component detectors 52 and 53 are first and second detection positions Ld1 and Ld2 of first and second transport paths 60a and 60b of first and second tape feeders 50 and 51, which will be described later. It is the structure arrange
- the first and second tape feeders 50 and 51 are provided with first and second transport paths 60a and 60b provided so as to extend horizontally from both side surfaces of the casing 21 toward the center. And first and second sprockets 61a and 61b disposed below the first and second transport paths 60a and 60b, and first and second gear motors 62a connected to the first and second sprockets 61a and 61b, 62b, first and second sprocket tooth detecting devices 63a and 63b disposed in the vicinity of the first and second sprockets 61a and 62b, and a first disposed above the first and second transport paths 60a and 60b.
- the second tape detectors 64a and 64b are provided.
- the first and second tape feeders 50 and 51 transport the first and second carrier tapes T1 and T2 along the first and second transport paths 60a and 60b, respectively, and the first and second carrier tapes T1 and T2.
- the first and second cutting locations Q1 and Q2 are configured to be sequentially positioned at the first and second cutting positions Lc1 and Lc2 and the splicing position LS.
- the first and second transport paths 60a and 60b have widths slightly wider than the widths of the first and second carrier tapes T1 and T2, and the first and second tape inlets 84a, 84b extends in a straight line to first and second cutting positions Lc1 and Lc2 of first and second carrier tapes T1 and T2 by first and second cutters 68a and 68b of first and second cutting devices 54 and 55 described later. It is formed in a groove shape. Furthermore, as shown in the enlarged view A of FIG. 5 (only the second transport path 60b is shown but the first transport path 60a is also the same), the first and second parts e1 are included in the first and second transport paths 60a and 60b. , E2 are formed with first and second narrow grooves 65a, 65b for passing the first and second cavities Cte1, Cte2 of the first and second embossed tapes T1e, T2e.
- first and second leaf springs 66a and 66b are arranged and fixed on the first and second cutting positions Lc1 and Lc2 side in the first and second narrow grooves 65a and 65b.
- the first and second leaf springs 66a and 66b are curved and arranged in a concave shape, and are arranged and fixed so as to incline obliquely upward toward the first and second cutting positions Lc1 and Lc2.
- the first and second leaf springs 66a and 66b are members that act when the first and second embossed tapes T1e and T2e are cut and transported, and will be described in detail later.
- the first and second sprockets 61a and 61b include a plurality of first and second sprockets having the same pitch as the pitch Ph of the first and second feed holes Hc1 and Hc2 drilled in the first and second carrier tapes T1 and T2.
- Two teeth 67a and 67b are formed in the circumferential direction.
- the first and second sprockets 61a and 61b are the first and second teeth 67a and 67b that have rotated to the top of the rotating first and second teeth 67a and 67b, and the first and second transport paths. Below the first and second transport paths 60a and 60b so that the first and second feed holes Hc1 and Hc2 of the first and second carrier tapes T1 and T2 inserted along the lines 60a and 60b can be engaged with each other. Is arranged.
- the first and second gear motors 62a and 62b are, for example, stepping motors, and the first and second carrier tapes T1 and T2 conveyed by the first and second sprockets 61a and 61b connected to each other. This is a motor capable of controlling the positions of two cutting points Q1, Q2.
- the first and second sprocket tooth detection devices 63a and 63b are, for example, photosensors, and one of the first and second teeth 67a and 67b of the first and second sprockets 61a and 61b is vertically upward.
- a sensor that detects that the first and second sprockets 61a and 61b are in their original positions by reading the first and second marks M1 and M2 attached to the side surfaces of the first and second sprockets 61a and 61b. It is.
- the first and second tape detectors 64a and 64b are, for example, touch sensors, and the first and second carrier tapes T1 and T2 from the first and second tape inlets 84a and 84b provided on both side surfaces of the housing 21. Is a sensor that detects the insertion of the first and second carrier tapes T1 and T2. Note that a photo sensor may be used instead of the touch sensor.
- the first and second component detection devices 52 and 53 are, for example, photosensors, and the first and second carrier tapes T1 and T2 that are transported through the first and second transport paths 60a and 60b.
- the sensor detects the tape portion between the cavities Ct1 and Ct2, the first and second cavities Ct1 and Ct2, and the first and second components e1 and e2 in the first and second cavities Ct1 and Ct2 by a change in light quantity.
- a camera may be used instead of the photosensor.
- the first and second cutting devices 54 and 55 include first and second cutters 68a and 68b provided at the first and second cutting positions Lc1 and Lc2, respectively, First and second cams 69a and 69b slidably contactable with the second cutters 68a and 68b; first and second gear motors 70a and 70b connected to the first and second cams 69a and 69b; The first and second cutter springs 71a and 71b having one end attached to the two cutters 68a and 68b and the other end attached to the lid 22 are provided adjacent to the first and second cutters 68a and 68b.
- the first and second pressing members 72a and 72b and the first and second cutters 68a and 68b are attached at one end and the first and second pressing members 72a and 72b are attached at the other end.
- the second pressing springs 73a and 73b and the first and second cutters 68a First, second cutter detector 74a disposed 68b near constituted by a 74b or the like.
- the first and second cutting devices 54 and 55 are configured to cut the first and second unnecessary portions Tf1 and Tf2 at the first and second cutting points Q1 and Q2 of the first and second carrier tapes T1 and T2. ing.
- the first and second cutters 68a and 68b are single-edged cutters having a width wider than the widths of the first and second carrier tapes T1 and T2.
- the first and second cutters 68a and 68b cut the first and second cutting points Q1 and Q2 of the first and second carrier tapes T1 and T2 positioned at the first and second cutting positions Lc1 and Lc2. It is mounted so that it can move in the vertical direction.
- the first and second cams 69a and 69b are connected to the first and second gear motors 70a and 70b so as to be rotatable, and slidably contact the first and second cutters 68a and 68b.
- 68b is a positive cam that moves up and down.
- the first and second cutter springs 71a and 71b are tension springs, bias the first and second cutters 68a and 68b upward, and place the first and second cutters 68a and 68b after completion of cutting into a standby position. It is a spring for returning.
- the first and second pressing members 72a and 72b are plate-like members having a width slightly larger than the width of the first and second carrier tapes T1 and T2.
- the first and second pressing members 72a and 72b are located near the first and second cutting locations Q1 and Q2 of the first and second carrier tapes T1 and T2 positioned at the first and second cutting positions Lc1 and Lc2. In order to press and fix, it is provided to be movable in the vertical direction.
- the first and second pressing springs 73a and 73b are compression springs, and urge the first and second pressing members 72a and 72b downward as the first and second cutters 68a and 68b are lowered. It is a spring which presses the vicinity of the 1st, 2nd cutting location Q1, Q2 of 2nd carrier tape T1, T2.
- the first and second cutter detection devices 74a and 74b are, for example, photosensors, and are sensors that detect that the first and second cutters 68a and 68b are located at the cutting standby positions. Note that a touch sensor may be used instead of the photo sensor.
- the first and second take-in devices 56 and 57 are provided between the first and second cutting positions Lc1 and Lc2 and the splicing position LS, and are first and second movable.
- the first and second take-in devices 56 and 57 are configured to take in the cut first and second unnecessary portions Tf1 and Tf2 of the first and second carrier tapes T1 and T2, respectively.
- the first and second movable members 77a and 77b are rotatably supported by the first and second fixed members 78a and 78b.
- the first and second movable members 77a and 77b include first and second movable conveyance paths 79a and 79b that form part of the first and second conveyance paths 60a and 60b, and the first and second conveyance paths 60a and 60b, respectively.
- First and second openings 80a and 80b for taking in the first and second unnecessary portions Tf1 and Tf2 of the first and second carrier tapes T1 and T2 conveyed on the top 60b are formed.
- first and second movable members 77a and 77b include the taken first and second unnecessary portions Tf1 and Tf2 below the first and second transport paths 60a and 60b. , 81b, first and second ducts 82a, 82b are provided.
- first and second fixing members 78a and 78b have first and second parts forming part of the first and second transport paths 60a and 60b that can be aligned with the first and second movable transport paths 79a and 79b.
- Fixed conveyance paths 83a and 83b are formed.
- the first and second movable members 77a and 77b may be supported by the first and second fixed members 78a and 78b so as to be movable in the vertical direction.
- the first and second intake member driving devices 76a and 76b are, for example, solenoids
- the first and second movable members 77a and 77b are the first and second movable conveyance paths 79a and 79b
- the first and second movable conveyance paths 79a and 79b are the first and second.
- the first and second transport positions Ra1 and Ra2 aligned with the transport paths 60a and 60b and the first and second openings 80a and 80b are connected to the first and second transport paths 60a and 60b. It is connected to the first and second movable members 77a and 77b so as to be movable between the first and second opening forming positions Rb1 and Rb2 formed between Lc2 and the splicing position LS.
- the joining device 58 is provided between the first cutting device 54 and the second cutting device 55, and a transport path 60 that forms part of the first and second transport paths 60a and 60b is formed.
- the joining device 58 is transported along the transport path 60, and the first and second carrier tapes T1, T2 in which the first and second cutting points Q1, Q2 are abutted at the splicing position LS at the center of the transport path 60. Is configured to be connectable.
- the joining device 58 includes a first elevator 91, a holding plate 97, a second elevator 101, a swivel 103, and the like.
- the first lift 91 is guided and supported by the casing 21 so that the legs 92 can be raised and lowered.
- the positioning holes 30a1 formed in the splicing tape 30a and the two carrier tapes T1 and T2 are arranged on both sides centering on the joining position (butting position) of the two carrier tapes T1 and T2.
- Two first positioning pins 93, 94 each engaging with the feed hole Hc are provided so as to project along the feed direction of the carrier tapes T1, T2.
- Each pitch of these two sets of first positioning pins 93 and 94 is determined to be twice the pitch P of the feed holes Hc of the carrier tapes T1 and T2.
- pin holes 95 are formed between the first positioning pins 93 and 94 in the first lifting platform 91, and a second positioning pin on the swivel side, which will be described later, can enter the pin holes 95. It has become.
- a movable table 96 is guided and supported by the housing 21 in a horizontal direction orthogonal to the longitudinal direction of the carrier tapes T1 and T2, and the movable table 96 is positioned above the first positioning pins 93 and 94.
- the presser plate 97 is attached.
- a U-shaped groove 98 that can accommodate the first positioning pins 93 and 94 is formed at the tip of the pressing plate 97, and the pressing plate 97 has a retracted end from which the groove 98 is separated from the first positioning pins 93 and 94, The groove 98 can be moved forward and backward from the forward end position in which the first positioning pins 93 and 94 are accommodated.
- the leg part 102 of the 2nd lifting platform 101 is supported by the housing
- a swivel 103 is supported at both ends so that it can turn 180 degrees around a pivot shaft 104 parallel to the longitudinal direction of the carrier tapes T1 and T2.
- the swivel base 103a is provided with a pressing plate 103a at a position offset from the turning center, and a plurality of second positioning pins 105 and pin holes 106 are provided on the pressing plate 103a.
- the second positioning pins 105 are arranged at corresponding positions between the first positioning pins 93 and 94 provided on the first lifting platform 91 and can enter the pin holes 95 provided on the first lifting platform 91.
- the pin holes 106 are arranged at corresponding positions between the second positioning pins 105, and the first positioning pins 93 and 94 provided on the first lifting platform 91 can be inserted.
- the second positioning pin 105 is engaged with the two carrier tapes T1 and T2 that are positioned at the splicing position LS and the positioning hole 30a1 of the splicing tape 30a by the rotation of the swivel base 103 by 180 degrees, and the two carriers
- the positional relationship between the three of the tapes T1 and T2 and the splicing tape 30 connecting the tapes T1 and T2 is kept constant.
- a pinion 107 is attached to the pivot shaft 104 of the swivel base 103, and a rack 108 that meshes with the pinion 107 is attached to a movable base 109 that is movable in a direction perpendicular to the longitudinal direction of the carrier tapes T1 and T2.
- a cam drum 110 is supported on the casing 21 so as to be rotatable about an axis parallel to the center of rotation of the swivel base 103, and is rotated at a low speed in a fixed direction by a drive motor (not shown).
- Two cam grooves 110 a, 110 b, 110 c, and 110 d are formed on both surfaces of the cam drum 110 so as to be endless in the circumferential direction.
- a first follower roller (not shown) that is pivotally supported by the leg portion 92 of the first lifting platform 91 is engaged with the first cam groove 110a.
- a second follower roller (not shown) that is pivotally supported by a movable base 96 connected to the pressing plate 97 is engaged with the second cam groove 110b.
- a third follower roller (not shown) that is pivotally supported by the leg portion 102 of the second lifting platform 101 is engaged with the third cam groove 110c.
- a fourth follower roller (not shown) that is pivotally supported by a connecting member 112 that is connected to the movable base 107 is engaged with the fourth cam groove 110d.
- splicing verification is performed in which it is usually checked whether a carrier tape containing correct components is connected.
- the barcode attached to the old reel is read by a barcode reader, and the serial ID of the component accommodated in the old reel is transmitted to the management computer.
- the barcode attached to the new reel is read by the barcode reader, and the serial ID of the component accommodated in the new reel is transmitted to the management computer.
- the database of the management computer Since the database of the management computer stores data regarding parts for each serial ID, it is determined whether the parts accommodated in the two carrier tapes T1 and T2 are of the same type based on the read serial ID. Can be verified. If the part is wrong, a collation error is displayed on the operation panel and notified to the operator, and based on this, the operator redoes splicing.
- each end of the two carrier tapes T1 and T2 is cut with scissors. At this time, an empty cavity portion in which no parts are accommodated is usually provided at the end of each of the carrier tapes T1 and T2, and this portion is cut by an operator.
- the cut surface is not a mating surface between the two carrier tapes T1 and T2, so that no particular accuracy is required.
- the splicing preparation process will be described with reference to the flowchart of FIG.
- the operator sets the second carrier tape T2 (the type shown in FIG. 11 (the type shown in FIG. 12A)) to the automatic splicing device 20, and then the first carrier tape T1 (FIG. 11 (FIG. 11)).
- the second carrier tape T2 is set after the first carrier tape T1 is set.
- the control device 59 starts to rotate the first and second sprockets 61a and 61b (step S1), and the detection from the first and second sprocket tooth detection devices 63a and 63b. It is determined whether or not a signal is received, that is, whether or not the first and second sprockets 61a and 61b are in their original positions (step S2).
- the detection signals are received from the first and second sprocket tooth detection devices 63a and 63b, the rotation of the first and second sprockets 61a and 61b is stopped (step S3).
- the control device 59 determines whether or not a detection signal is received from the second tape detection device 64b, that is, whether or not the leading end of the second tape T2 has been inserted from the second tape inlet 84b into the second transport path 60b (Ste S4).
- the detection signal is received from the second tape detection device 64b, as shown in FIG. 16, the second sprocket 61b starts to rotate (step S5), and the second movable member 77b of the second take-in member 75b moves upward. To the second opening forming position Rb2 (step S6).
- the control device 59 determines whether or not the inserted tape is the second tape T2 (step S7). In this case, since the detection signal is received from the second tape detection device 64b, the inserted tape Is the second tape T2, and it is determined whether or not the detection signal of the empty second cavity Ct2 without the second component e2 of the second tape T2 from the second component detection device 53 is received (step S8). . Then, as shown in FIG. 17, when the empty second cavity Ct2 is detected, it is determined whether or not the detection is the second detection (step S9). If it is not the second detection, the process goes to step S8. It returns to determine whether or not the next empty second cavity Ct2 has been detected.
- the control device 59 determines between the second cavities Ct2 based on the detected first and second second cavities Ct2.
- the predetermined pitch Pc is calculated (step S10, corresponding to the “pitch calculation means” of the present invention). Then, it is determined whether or not a detection signal transferred from the empty second cavity Ct2 from the second component detection device 53 to the second cavity Ct2 having the second component e2 is received (step S11).
- the controller 59 determines the predetermined pitch Pc between the second cavities Ct2 obtained in step S10, the known second detection position Ld2, and the second cutting.
- the second cutting point Q2 of the second tape T2 is calculated from the second distance D2 between the position Lc2 (step S12, corresponding to the “second cutting point calculation means” of the present invention). Then, as shown in FIG. 18, the second tape T2 is moved by the second distance D2, and the second unnecessary portion Tf2 is taken into the second taking-in member 75b from the second opening 80b, and the second cutting point Q2 is taken into the second cutting point Q2. 2 Carry and position at the cutting position Lc2.
- step S8 to step S13 will be specifically described.
- the detection signal (light quantity) S from the second component detection device 53 indicates So in the tape portion between the second cavities Ct2 of the second tape T2, there is no second component e2.
- the second cavity Ct2 indicates Sa because the transmitted light amount increases, and the second cavity Ct2 including the second component e2 indicates Sb because the transmitted light amount decreases.
- the predetermined pitch Pc between the second cavities Ct2 can be obtained by obtaining the feed amount of the second tape T2 based on the pulse count number.
- the second gear motor for the second sprocket 61b between the rising point t3 of the detection signal S and the current point t4 at that time is counted. Then, by determining the feed amount of the second tape T2 based on this pulse count, the distance x between the illustrated right end position Lct and the second detection position Ld2 of the second cavity Ct2 where the second part e2 is present can be determined. it can.
- the distance between the illustrated right end position Lct of the second cavity Ct2 where the second part e2 is present and the center position of the tape portion between the second cavities Ct2, that is, the second cutting point Q2 y can be obtained.
- the second tape T2 is conveyed by a distance D2-xy that is obtained by subtracting the distances x and y from the second distance D2 between the known second detection position Ld2 and the second cutting position Lc2.
- the two cutting points Q2 can be conveyed and positioned at the second cutting position Lc2.
- the second tape T2 is conveyed by the second distance D2, thereby conveying and positioning the second cutting point Q2 to the second cutting position Lc2. it can.
- the first spliced first tape T2 It is necessary to obtain the first and second cutting points Q1 and Q2 so that the pitch between the first feed hole Hc1 of the carrier tape T1 and the second feed hole Hc2 of the second carrier tape T2 becomes the predetermined pitch Ph.
- the first and second sprockets 61a and 61b when moving from the empty first and second cavities Ct1 and Ct2 to the first and second cavities Ct1 and Ct2 having the first and second parts e1 and e2, respectively.
- the control device 59 determines whether or not the transport positioning of the second carrier tape T2 and the first carrier tape T1 is completed (step S14). In this case, the transport positioning of the second carrier tape T2 is only completed. Therefore, returning to step S4, whether or not a detection signal is received from the first tape detector 64a, that is, whether or not the rear end portion of the first carrier tape T1 has been inserted from the first tape inlet 84a into the first transport path 60a. Determine.
- the detection signal is received from the first tape detection device 64a, the first sprocket 61a is started to rotate (step S5), and the first movable member 77a of the first intake member 75a is moved upward to form the first opening. Positioning to the position Rb1 (step S6).
- the control device 59 determines whether or not the inserted tape is the second carrier tape T2 (step S7). In this case, since the detection signal is received from the first tape detection device 64a, the control device 59 is inserted. It is determined that the tape is the first carrier tape T1, and the predetermined pitch Pc between the first cavities Ct1 is the same as the predetermined pitch Pc between the second cavities Ct2, which is already determined. The presence or absence of a detection signal transferred from the first cavity Ct1 to the first cavity Ct1 having the first component e1 is determined (step S11).
- the control device 59 detects that the first part e is transferred to the first cavity Ct1
- the control device 59 detects that the predetermined pitch Pc between the first cavities Ct1 is between the first detection position Ld1 and the first cutting position Lc1.
- the first cutting point Q1 of the first carrier tape T1 is calculated from the first distance D1.
- the first carrier tape T1 is moved by the first distance D1
- the first unnecessary portion Tf1 is taken into the first take-in member 75a from the first opening 80a, and the first cutting point Q1 is conveyed to the first cutting position Lc1.
- the control device 59 determines whether or not the conveyance positioning of the second carrier tape T2 and the first carrier tape T1 is completed (step S14). In this case, the conveyance positioning of the second carrier tape T2 and the first carrier tape T1 is performed. As shown in FIG. 20, the first and second cutters 68a and 68b are lowered together with the first and second pressing members 72a and 72b, respectively, and the first and second pressing members 72a and 72b are used for the first. The first and second carrier tapes T1 and T2 positioned at the second cutting positions Lc1 and Lc2 are pressed and fixed in the vicinity of the first and second cutting points Q1 and Q2. Then, as shown in FIG.
- the first and second cutters 68a and 68b are further lowered to cut the first and second cutting points Q1 and Q2 of the first and second carrier tapes T1 and T2, respectively ( Step S15).
- the cut first and second unnecessary portions Tf1 and Tf2 of the first and second carrier tapes T1 and T2 are guided by the first and second ducts 82a and 82b, and the first and second disposal points 81a and 81b. Discarded.
- the first and second carrier tapes T1 and T2 have been described with respect to the type of tape shown in FIG. 11 (FIG. 12A), but the first and second embossed carrier tapes T1e shown in FIG. , T2e will be described.
- FIG. 22 when the first and second embossed carrier tapes T1e and T2e are transported along the first and second transport paths 60a and 60b, the first and second cavities Cte1 and Cte2 are It is conveyed along the first and second narrow grooves 65a and 65b (see FIG. 22A).
- first and second embossed carrier tapes T1e and T2e approach the first and second cutting positions Lc1 and Lc2
- the first and second cavities Cte1 and Cte2 become the first and second leaf springs 66a and 66b, respectively.
- the first and second cutting positions Lc1 and Lc2 are positioned at the first and second cutting positions Lc1 and Lc2 (see FIG. 22B).
- first and second cutters 68a and 68b are lowered together with the first and second pressing members 72a and 72b, the first and second pressing members 72a and 72b are moved to the first and second cutting positions Lc1.
- the first and second embossed carrier tapes T1e and T2e positioned at Lc2 are pressed and fixed in the vicinity of the first and second cutting points Q1 and Q2.
- the first and second cavities Cte1 and Cte2 are housed in the first and second narrow grooves 65a and 65b by elastically deforming the first and second leaf springs 66a and 66b downward (FIG. 22 ( C)).
- the first and second cutting locations Q1 and Q2 of the first and second embossed carrier tapes T1e and T2e are positioned with high accuracy at the first and second cutting positions Lc1 and Lc2.
- the cutting accuracy of the two embossed carrier tapes T1e and T2e can be increased.
- first and second cutters 68a and 68b When the first and second cutters 68a and 68b are lifted together with the first and second pressing members 72a and 72b, the first and second leaf springs 66a and 66b are restored and the first and second cutting positions Lc1, The first and second cavities Cte1 and Cte2 in the vicinity of Lc2 are lifted above the first and second narrow grooves 65a and 65b (see FIG. 22D). As a result, the first and second cavities Cte1 and Cte2 can ride on the first and second leaf springs 66a and 66b and exceed the first and second cutting positions Lc1 and Lc2.
- the carrier tapes T1e and T2e can be smoothly conveyed.
- the control device 59 receives the detection signals from the first and second cutter detection devices 74a and 74b, that is, the first and second carrier tapes T1 and T2 by the first and second cutter tapes 68a and 68b. It is determined whether or not the cutting at the second cutting points Q1 and Q2 has been completed (step S16). And if a detection signal is received from the 1st, 2nd cutter detection apparatuses 74a and 74b, as shown in Drawing 23, the 1st and 2nd movable members 77a and 77b of the 1st and 2nd taking-in members 75a and 75b will be shown. It is moved downward and positioned at the first and second transport positions Ra1 and Ra2 respectively (step S17). Then, as shown in FIG.
- the first and second sprockets 61a and 61b are started to rotate (step S18), and the first and second cutting points Q1 and Q2 of the first and second carrier tapes T1 and T2 are set.
- the third and fourth distances D3 and D4 are respectively moved between the first and second cutting positions Lc1 and Lc2 and the splicing position LS (step S19). Then, the first and second sprockets 61a and 61b are stopped from rotation, and the first and second cutting points Q1 and Q2 are conveyed and positioned at the splicing position LS.
- the tips of the first and second carrier tapes T1 and T2 inserted from the first and second tape inlets 84a and 84b are abutted against each other at the splicing position LS without causing a pitch shift. Since the splicing preparation process is completed as described above, the process proceeds to the splicing process.
- the three-layer structure of the paper mount 32, the splicing tape 30 and the protective tape 31 wound around the supply reel 33 is pulled out from the supply reel 33, and the paper mount 32 is peeled off and sent out by the paper mount feed device 35.
- the protective tape 31 to which the splicing tape 30 is attached is sent out by the protective tape feeding device 36 and conveyed to the splicing position LS.
- the protective tape 31 is protected from the detection position.
- the tape feeding device 36 feeds a predetermined amount S1.
- the splicing tape 30a is positioned at a position where it can be engaged with the first positioning pins 93 and 94 of the joining device 58 provided at the splicing position LS.
- the first and second carrier tapes T1 and T2 Wait until each tip is positioned at the splicing position LS.
- the cam drum 110 is rotated by a drive motor (not shown). By the rotation of the cam drum 110, first, the first lifting platform 91 is lifted through a first follower roller (not shown) that engages with the first cam groove 110a.
- the first positioning pins 93 and 94 are engaged with the positioning holes 30a1 of the splicing tape 30a and the feed holes Hc of the two carrier tapes T1 and T2 by the rising of the first lifting platform 91, respectively.
- the pressing plate 97 is interposed between the splicing tape 30a and the carrier tapes T1 and T2, as shown in FIG. 31A, the carrier tapes T1 and T2 adhere to the splicing tape 30a. There is nothing. As a result, the positional relationship between the three carrier tapes T1 and T2 and the splicing tape 30a connecting them is kept constant.
- the movable base 96 is moved in the horizontal direction via a second follower roller (not shown) that engages with the second cam groove 110b, and the holding plate interposed between the splicing tape 30a and the carrier tapes T1 and T2. 97 is retracted with respect to the first lifting platform 91, and the splicing tape 30a and the carrier tapes T1 and T2 can be bonded.
- the movable table 109 is horizontally moved through a third follower roller (not shown) that engages with the third cam groove 110c, and the movable table 109 is moved horizontally by the rack and pinion mechanism (107, 108).
- 103 is turned clockwise in FIG. With this turning of the swivel base 103, as shown in FIG.
- the protective tape 31 engaged with the second positioning pin 105 is bent, and the other pair (30b) of the splicing tape in one set is
- the carrier tapes T1 and T2 are inverted with their adhesive surfaces facing downward. That is, the protective tape 31 is bent so as to sandwich the carrier tapes T1 and T2, and one splicing tape 30a is disposed on the lower surface side of the carrier tapes T1 and T2, and the other splicing tape 30b is disposed on the upper surface side of the carrier tapes T1 and T2. Be positioned. At this time, the motor of the protective tape feeding device 36 is rotated in the reverse direction, the protective tape 31 is slackened, and the protective tape 31 is allowed to be bent.
- the second lifting platform 101 is lowered via a fourth follower roller (not shown) that engages with the fourth cam groove 110d.
- the second positioning pins 105 are moved from the back side of the protective tape 31 to the positioning holes 31b of the protective tape 31 and the feed holes of the carrier tapes T1 and T2. Hc and the splicing tape 30a are engaged with the positioning holes 30a1.
- the bent protective tape 31 is pressed between the pressing plate 103a of the swivel base 103 and the first lift base 91 with the carrier tapes T1 and T2 being sandwiched by the lowering of the second lift base 101.
- one splicing tape 30a affixed to the protective tape 31 is bonded so as to straddle the lower surfaces (bottom surfaces) of the carrier tapes T1 and T2, and the other splicing tape 30b is attached to the upper surfaces of the carrier tapes T1 and T2. Adhering so as to straddle each top tape Tt, the end portion of the first carrier tape T1 and the start end portion of the second carrier tape Ts2 are connected to each other. This pressing state is maintained for a certain time (several seconds).
- the splicing tape 30 connects the two carrier tapes T1 and T2 with the carrier tapes T1 and T2 and the splicing tapes 30a and 30b being restrained from being displaced relative to each other by the first and second positioning pins 93, 94, and 105.
- the two carrier tapes T1 and T2 can be accurately joined without causing a pitch shift.
- the joining of the two carrier tapes T1 and T2 by the splicing tape 30 described above is achieved by the rotation of the cam drum 110 by approximately 180 degrees, and the remaining 180 degrees of rotation causes the respective constituent members to be moved to their original positions in the reverse operation. Returned to
- the second elevator 101 is raised, the swivel 103 is raised with respect to the first elevator 91, the pressing of the bent protective tape 31 is released, and the second positioning pin 105 is spliced tape. It is separated from the positioning hole 30a1 of 30a and the feed holes Hc of the two carrier tapes T1 and T2.
- the protective tape 31 is easily peeled off from the splicing tape 30 by the spring restoring force of the protective tape 31 by releasing the pressure-sensitive adhesive of the protective tape 31, and the splicing tape 30 is spliced.
- the tape 30 is not peeled off from the carrier tapes T1 and T2.
- the swivel base 103 is swung counterclockwise in FIG. 28 via the rack and pinion mechanism (108, 107), and the motor of the protective tape feeder 36 is rotated forward to remove the slack of the protective tape 31. Is done.
- the holding plate 97 is advanced, the first lifting platform 91 is lowered, and the first positioning pins 93 and 94 are separated from the positioning holes 30a1 of the splicing tape 30a and the feed holes Hc of the two carrier tapes T1 and T2. Is done.
- the paper mount paper feeding device 35 a motor is driven to apply tension to the paper mount 32, and the paper mount 32 is peeled off by a necessary amount. In this way, the joining of the end portion of the first carrier tape T1 and the start end portion of the second carrier tape T2 is completed.
- the lid body 22 of the splicing device 20 is opened, and the spliced first and second carrier tapes T1 and T2 are taken out from the splicing device 20. Then, the reel 12 around which the second carrier tape T2 is wound is set on the tape feeder 10 to complete the splicing process. As a result, the parts are supplied to the tape feeder 10, and the component mounting machine can continue the component mounting operation without stopping the machine.
- the metal powder is embedded in the splicing tape 30 bonded to the carrier tapes T1 and T2, it is possible to easily detect the splicing position by providing a metal detection sensor in the tape feeder 10. .
- the control device 59 performs the first and second cutting on the first and second cutting points Q1 and Q2 of the first and second tapes T1 and T2.
- the first and second take-in members 75a and 75b are moved to the first and second opening forming positions Rb1 and Rb2 until they are conveyed and positioned at the positions Lc1 and Lc2. This ensures that the first and second unnecessary portions Tf1 and Tf2 of the first and second tapes T1 and T2 are placed in the first and second openings 80a and 80b of the first and second intake members 75a and 75b. Capture and process.
- the first and second intake members 75a and 75b are moved to the first and second transport positions Ra1 and Ra2 to be positioned. Yes. Accordingly, the first and second tapes T1 and T2 can be smoothly transported to the splicing position Ls along the first and second movable transport paths 79a and 79b of the first and second intake members 75a and 75b. it can.
- the first and second ducts 82a and 82b are the first and second tapes T1 and T2 that are taken into the first and second openings 80a and 80b of the first and second take-in members 75a and 75b, respectively.
- the second unnecessary portions Tf1 and Tf2 are surely guided to the first and second disposal locations 81a and 81b below the first and second transport paths 60a and 60b.
- the first and second unnecessary portions Tf1 and Tf2 of the first and second tapes T1 and T2 are not left on the first and second transport paths 60a and 60b, and the first and second tapes are not left. It is possible to prevent malfunctions and failures of the feeding devices 50 and 51.
- the rear end portion of the first tape wound on the first reel of the feeder mounted on the component supply device of the component mounter is wound on the second reel to be replaced. This is applicable when automatically connecting to the tip of the tape.
- 1 automatic splicing device
- 50 first tape feeding device
- 51 second tape feeding device
- 54 first cutting device
- 55 second cutting device
- 68a, 68b first, second cutter
- 72a, 72b First and second pressing members
- 56 first take-in device
- 57 second take-in device
- 75a and 75b first and second take-in members
- 79a and 79b first and second movable transfer paths 80a, 80b: first and second openings
- 81a, 81b first and second disposal points
- 82a, 82b first and second ducts
- 58 joining device
- 59 control device.
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- Manufacturing & Machinery (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Supply And Installment Of Electrical Components (AREA)
- Replacement Of Web Rolls (AREA)
Abstract
Description
キャリアテープTcは、図2に示すように、所定の幅で細長く形成され、長手方向に多数のキャビティCtを一定のピッチ間隔で配設しており、これらキャビティCtに、回路基板に実装される電子部品eがそれぞれ収納されている。キャビティCtの上部は開口されていて、キャリアテープTcの表面に貼り付けられたトップテープTt(図3参照)によって覆われている。
テープフィーダ10には、リール12に巻回されたキャリアテープTcを定量ずつ送り出して、電子部品eをテープフィーダ10の先端部に設けられた部品供給位置17に1個ずつ供給する定量送り機構18が内蔵されている。定量送り機構18は、テープフィーダ10の本体に回転可能に支承され、キャリアテープTcの送り穴Hcに係合するスプロケット19と、スプロケット19を1ピッチ分ずつ回転させる図略のモータを備えている。
スプライシング装置20は、図4に示すように、箱状の筺体21と、筺体21の上面を開閉可能な蓋体22とを備え、図略の台車等に載置されて部品実装機の部品供給装置に装着されたフィーダ間を移動可能に構成されている。蓋体22は、スプライシング時には閉じられ、スプライシング後のキャリアテープTcの取り出し時に開かれるようになっている。
なお、図30に示すように、保護テープ31に貼付されたスプライシングテープ30は、接着面を上側にして、スプライシング位置LSに送り込まれ、このスプライシングテープ30の上方に2つのキャリアテープT1、T2が送り込まれるようになっている。
スプライシングテープ30a、30bの上面は、2つのキャリアテープT1、T2に跨ってその両面に接着される粘着面をなし、この接着面に、連続した紙台紙32が接着され、これら紙台紙32、スプライシングテープ30および保護テープ31の3層構造体(図9参照)が、図7に示すように、供給リール33にロール状に巻回されている。
なお、保護テープ31に形成される送り用の穴31aや位置決め穴31bは、保護テープ31にスプライシングテープ30a、30bが所定位置に貼り付けられた後に、スプライシングテープ30aに位置決め穴30a1を形成するのに合わせてパンチングプレスによって形成される。
しかしながら、紙台紙32が剥がされたスプライシングテープ30の接着面に、キャリアテープT1、T2が接着されると、その粘着力は、保護テープ31に対する粘着力よりも強くなり、スプライシングテープ30より保護テープ31を容易に剥がれるようにしている。
紙台紙送り装置35は、図10に示すように、外周面にそれぞれギヤを形成した駆動ギヤ37と従動ギヤ38を有している。従動ギヤ38は駆動ギヤ37に対して、接近離間可能に支持され、通常は図略のスプリングの付勢力によって、従動ギヤ38の外周が駆動ギヤ37の外周に圧接されている。これにより、駆動ギヤ37に対して従動ギヤ38を離間させて、紙台紙32を両ギヤ37、38の間に挟み込み、その状態で、駆動ギヤ37を図略のモータによって駆動することにより、紙台紙32が両ギヤ37、38の回転につれて送り出される。
第1、第2スプロケット歯検知装置63a,63bは、例えば、フォトセンサであり、第1、第2スプロケット61a,61bの第1、第2歯67a,67bの1つが垂直上向きとなったこと、すなわち第1、第2スプロケット61a,61bが原位置になったことを、第1、第2スプロケット61a,61bの側面に付された第1、第2マークM1,M2を読み取ることにより検知するセンサである。
第1、第2部品検知装置52,53は、例えば、フォトセンサであり、第1、第2搬送経路60a,60bを搬送される第1、第2キャリアテープT1,T2の第1、第2キャビティCt1、Ct2、第1、第2キャビティCt1,Ct2間のテープ部分および第1、第2キャビティCt1,Ct2内の第1、第2部品e1,e2を、光量の変化により検知するセンサである。なお、フォトセンサの代わりにカメラとしてもよい。
第1、第2カム69a,69bは、第1、第2ギヤモータ70a,70bに連接されて回転可能に配置され、第1、第2カッター68a,68bに摺接して第1、第2カッター68a,68bを上下方向に移動させる確動カムである。
第1、第2押圧部材72a,72bは、第1、第2キャリアテープT1,T2の幅より若干広い幅を有する板状部材である。第1、第2押圧部材72a,72bは、第1、第2切断位置Lc1,Lc2に位置決めされた第1、第2キャリアテープT1,T2の第1、第2切断箇所Q1,Q2の近傍を押圧して固定するために、上下方向に移動可能に設けられている。
第1、第2カッター検知装置74a,74bは、例えば、フォトセンサであり、第1、第2カッター68a,68bが切断待機位置に位置していることを検知するセンサである。なお、フォトセンサの代わりにタッチセンサとしてもよい。
また、筐体21には、キャリアテープT1、T2の長手方向と直交する水平方向に、可動台96が移動可能に案内支持され、この可動台96に、第1位置決めピン93、94の上方位置において、押さえプレート97が取付けられている。押さえプレート97の先端には、第1位置決めピン93、94を収容できるU字形状の溝98が形成され、押さえプレート97は、溝98が第1位置決めピン93、94より離脱する後退端と、溝98が第1位置決めピン93、94を収容する前進端位置との間で進退できるようになっている。
旋回台103のピボット軸104には、ピニオン107が取付けられ、このピニオン107に噛合うラック108がキャリアテープT1、T2の長手方向に直交する方向に移動可能な可動台109に取付けられている。これにより、可動台109が移動されると、ピニオン107とラック108からなるラックピニオン機構により、旋回台103が旋回されるようになっている。
第1カム溝110aには、第1昇降台91の脚部92に軸支された図略の第1フォロアローラが係合されている。第2カム溝110bには、押さえプレート97に連結された可動台96に軸支された図略の第2フォロアローラが係合されている。第3カム溝110cには、第2昇降台101の脚部102に軸支された図略の第3フォロアローラが係合されている。第4カム溝110dには、可動台107に連結された連結部材112に軸支された図略の第4フォロアローラが係合されている。
このようなスプライシングベルファイが終了すると、2つのキャリアテープT1、T2の各端部をハサミによって切断する。この際、各キャリアテープT1、T2の端部には、通常、部品が収納されていない空のキャビティ部分が数十mm程度設けられているため、この部分を作業者によって切断する。この場合、切断面は、後述する説明から明らかなように、2つのキャリアテープT1、T2の合わせ面となるものではないので、特に正確性は要求されない。
供給リール33に巻回された紙台紙32、スプライシングテープ30および保護テープ31の3層構造体は、供給リール33より引き出され、紙台紙32が剥がされて紙台紙送り装置35により送り出される。一方、スプライシングテープ30を貼付した保護テープ31は、保護テープ送り装置36により送り出され、スプライシング位置LSに搬送される。
第1昇降台91の上昇により、第1位置決めピン93、94が、スプライシングテープ30aの位置決め穴30a1および2つのキャリアテープT1、T2の各送り穴Hcにそれぞれ係合される。この際、スプライシングテープ30aとキャリアテープT1、T2との間には、図31(A)に示すように、押さえプレート97が介在されているため、スプライシングテープ30aにキャリアテープT1、T2が接着することはない。これによって、2つのキャリアテープT1、T2とこれを接続するスプライシングテープ30aの三者の位置関係が一定の関係に保たれる。
次いで、第3カム溝110cに係合する図略の第3フォロアローラを介して、可動台109が水平移動され、この可動台109の水平移動により、ラックピニオン機構(107、108)によって旋回台103が図28の時計回りに旋回される。かかる旋回台103の旋回により、図31(B)に示すように、第2位置決めピン105に係合された保護テープ31が折り曲げられ、2枚で1組のスプライシングテープの他方(30b)が、キャリアテープT1、T2の上方位置に接着面を下向きにして反転される。すなわち、保護テープ31は、キャリアテープT1、T2を挟み込むように折り曲げされ、キャリアテープT1、T2の下面側に一方のスプライシングテープ30aが、キャリアテープT1、T2の上面側に他方のスプライシングテープ30bが位置される。この際、保護テープ送り装置36のモータが逆回転されて、保護テープ31に弛みが与えられ、保護テープ31の折り曲げが許容される。
さらに、第2昇降台101の下降により、キャリアテープT1、T2を挟持した状態で、折り曲げた保護テープ31が、旋回台103の押圧板103aと第1昇降台91との間で押付けられる。この押付けにより、保護テープ31に貼付された一方のスプライシングテープ30aが、キャリアテープT1、T2の下面(底面)に跨るように接着され、他方のスプライシングテープ30bが、キャリアテープT1、T2の上面の各トップテープTtに跨るように接着され、第1キャリアテープT1の終端部と第2キャリアテープTs2の始端部が互いに接続される。かかる押付け状態は、一定時間(数秒間)持続される。
上記したスプライシングテープ30による2つのキャリアテープT1、T2の接合は、カムドラム110のほぼ180度の回転によって達成され、残りの180度の回転によって、上記したと逆の動作で各構成部材が原位置に復帰される。
その後、押さえプレート97が前進されるとともに、第1昇降台91が下降され、第1位置決めピン93、94がスプライシングテープ30aの位置決め穴30a1および2つのキャリアテープT1、T2の各送り穴Hcより離脱される。一方、紙台紙送り装置35においてはモータが駆動されて、紙台紙32にテンションが与えられ、紙台紙32が必要な量だけ剥がされる。このようにして、第1のキャリアテープT1の終端部と第2のキャリアテープT2の始端部との接合が完了する。
なお、キャリアテープT1、T2に接合されたスプライシングテープ30には、金属粉が埋め込まれているため、テープフィーダ10に金属検知センサを設けることにより、スプライシング位置を簡単に検知することが可能となる。
Claims (2)
- 一定の間隔に送り穴と部品収納用キャビティを設けた第1、第2テープをスプライシング位置でスプライシングテープによって接続するスプライシング装置であって、
前記第1テープの終端部および前記第2テープの始端部おける各不要部分を第1、第2切断位置でそれぞれ切断する第1、第2切断装置と、
前記第1、第2テープを、第1、第2搬送経路に沿ってそれぞれ搬送して前記第1、第2テープの切断箇所を第1、第2切断位置および前記スプライシング位置に順次位置決めする第1、第2テープ送り装置と、
前記第1、第2切断位置と前記スプライシング位置との間にそれぞれ設けられ、前記第1、第2テープの切断された前記第1、第2不要部分をそれぞれ取り込む第1、第2取込装置と、
前記第1、第2テープ送り装置、前記第1、第2切断装置および前記第1、第2取込装置の各動作を制御する制御装置とを備え、
前記第1、第2取込装置は、前記第1、第2切断位置と前記スプライシング位置との間に設けられ前記第1、第2搬送経路の一部をなす第1、第2可動搬送経路が形成された第1、第2取込部材と、当該第1、第2取込部材を、前記第1、第2可動搬送経路が前記第1、第2搬送経路と整列する第1、第2搬送位置と、前記第1、第2搬送経路上を搬送される前記第1、第2テープの前記第1、第2不要部分を取り込むための第1、第2開口を前記第1、第2搬送経路に前記第1、第2切断位置と前記スプライシング位置との間に形成する第1、第2開口形成位置との間で移動させる第1、第2取込部材駆動装置と、を有し、
前記制御装置は、前記第1、第2テープ送り装置が前記第1、第2テープの切断箇所を前記第1、第2切断位置に位置決めするまで前記第1、第2取込部材が前記第1、第2開口形成位置に位置するように前記第1、第2取込部材駆動装置を作動させ、前記第1、第2切断装置が前記第1、第2不要部分の切断を完了すると前記第1、第2取込部材が前記第1、第2搬送位置に位置するように前記第1、第2取込部材駆動装置を作動させる自動スプライシング装置。 - 請求項1において、
前記第1、第2取込部材には、前記第1、第2開口形成位置に位置するとき、前記第1、第2テープ送り装置によって前記第1、第2搬送経路に沿って搬送される前記第1、第2テープの前記第1、第2不要部分を前記第1、第2搬送経路より下方の第1、第2廃却箇所に案内する第1、第2ダクトが設けられている自動スプライシング装置。
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JPWO2017098630A1 (ja) * | 2015-12-10 | 2018-09-27 | 株式会社Fuji | スプライシング装置 |
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Also Published As
Publication number | Publication date |
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EP2840876A1 (en) | 2015-02-25 |
CN104221486A (zh) | 2014-12-17 |
EP2840876B1 (en) | 2017-06-14 |
US20150053809A1 (en) | 2015-02-26 |
JPWO2013157108A1 (ja) | 2015-12-21 |
CN104221486B (zh) | 2016-12-07 |
EP2840876A4 (en) | 2015-11-04 |
US9510494B2 (en) | 2016-11-29 |
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