JPWO2017026030A1 - Mounting device and waste tape recovery unit - Google Patents

Abstract

The mounting device (11) is formed between the chute part (40) through which the waste tape obtained by cutting the tape member after the parts are collected passes, and the chute part (40) and the waste tape storage part (32). A transfer path (30) and a transfer part (37) for transferring the waste tape from the chute part (40) to the waste tape storage part (32). The transfer section (37) includes a negative pressure applying section (38) for applying a negative pressure to the transfer path (30) from the waste tape storage section (32) side, a transfer path (30) on the waste tape storage section (32) side, and A positive pressure applying section (39) for applying a positive pressure to the transfer path (30) toward the chute section (40).

Description

  The present invention relates to a mounting apparatus and a waste tape recovery unit.

  2. Description of the Related Art Conventionally, as a mounting device, a device has been proposed in which waste tape generated by supply of components by a tape feeder is transferred between waste tape transport devices of mounting devices adjacent to each other (for example, see Patent Document 1). In this mounting apparatus, the waste tapes output from the plurality of mounting apparatuses arranged are transported by, for example, compressed air and collected in one place, so that the waste tape can be collected more efficiently. In addition, as a waste tape recovery device, a device in which a duct for sucking and transporting cut tape waste to a storage unit is directly attached to the lower portion of the cutting unit and a suction device is provided at the opposite end thereof (for example, Patent Document 2). In this apparatus, tape scraps are reliably collected.

International Publication No. 2015/045018 Pamphlet Japanese Patent Laid-Open No. 11-68382

  However, in the apparatus described in Patent Document 1, it is difficult to collect waste tape using compressed air unless the transfer path is closed by a shutter. Further, in the apparatus described in Patent Document 2, for example, depending on the location of the duct where the waste tape has fallen, even if suction is performed by the suction device, air flows from the suction port of the duct and sufficient negative pressure is not applied. In some cases, the tape could not be collected.

  The present invention has been made in view of such a problem, and a mounting apparatus and a waste tape recovery unit that can more reliably recover waste tape generated by cutting a tape member after the parts are collected. The main purpose is to provide

  The present invention adopts the following means in order to achieve the main object described above.

The mounting apparatus of the present invention is
A mounting apparatus that mounts the component on a substrate, including a component supply unit that supplies the component by feeding out a tape member that houses a plurality of components,
A chute part through which the waste tape obtained by cutting the tape member after the parts are collected passes;
A transfer path formed between the chute and the waste tape container;
A negative pressure applying unit that applies a negative pressure to the transfer path from the waste tape storage unit side, and a positive pressure that applies a positive pressure to the transfer path toward the transfer path and the chute unit side of the waste tape storage unit side. A transfer unit for transferring the waste tape from the chute unit to the waste tape storage unit,
It is equipped with.

  In this apparatus, a negative pressure is applied from the side of the waste tape storage unit that collects the waste tape, and a positive pressure is applied toward the transfer path and the chute unit on the side of the waste tape storage unit to thereby dispose the waste tape storage unit from the chute unit. Transport waste tape to In this apparatus, for example, the waste tape is moved by a negative pressure, and the transfer path is moved by applying a positive pressure to the waste tape or the like that has dropped to a portion where the negative pressure is difficult to be applied. Therefore, this mounting apparatus can collect the waste tape more reliably.

  In the mounting apparatus of the present invention, the transfer unit may be configured such that the positive pressure applying unit applies a positive pressure with a smaller flow rate than the negative pressure applying unit. In this apparatus, when the waste tape is moved by the positive pressure applying unit, a sufficient negative pressure can be applied from the negative pressure applying unit. Further, in this apparatus, it is possible to suppress the waste tape from rising at the chute portion due to positive pressure. At this time, the said transfer part is good also as what the said positive pressure provision part provides the positive pressure of the flow volume below 1/10 of the flow volume of the said negative pressure provision part. In this apparatus, waste tape can be more reliably collected by maintaining a balance between positive pressure and negative pressure.

  In the mounting apparatus of the present invention, the transfer unit may be configured such that the positive pressure applying unit applies a positive pressure in one direction from the terminal end side of the transfer path toward the chute unit side. In this apparatus, for example, the positive pressure airflows do not collide and cancel each other, so that the waste tape can be recovered more reliably.

  In the mounting apparatus of the present invention, the transfer path includes a first chute portion disposed on the waste tape housing portion side, and a second chute portion disposed on the terminal end side of the transfer path. The negative pressure applying unit may apply a negative pressure from the waste tape housing unit side, and the positive pressure applying unit may apply a positive pressure from the terminal end side toward the second chute unit side. In this apparatus, waste tape can be more reliably collected in a device having a larger number of chute parts such as two chute parts.

  In the mounting apparatus of the present invention, the transfer unit may apply the negative pressure and the positive pressure in a state where the chute passes through the waste tape. In this apparatus, for example, the waste tape can be collected without blocking the chute with a shutter or the like.

The waste tape recovery unit of the present invention is
A waste tape recovery unit used in a mounting apparatus that includes a component supply unit that supplies a component by sending out a tape member that houses a plurality of components, and that mounts the component on a substrate,
A chute part through which the waste tape obtained by cutting the tape member after the parts are collected passes;
A transfer path formed between the chute and the waste tape container;
A negative pressure applying unit that applies a negative pressure to the transfer path from the waste tape storage unit side, and a positive pressure that applies a positive pressure to the transfer path toward the transfer path and the chute unit side of the waste tape storage unit side. A transfer unit for transferring the waste tape from the chute unit to the waste tape storage unit,
It is equipped with.

  This waste tape recovery unit can recover the waste tape more reliably, similarly to the mounting apparatus described above. In this chute unit, various aspects of the mounting apparatus described above may be adopted, and a configuration that realizes each function of the mounting apparatus described above may be added.

1 is a schematic explanatory diagram illustrating an example of a mounting system 10. FIG. An explanatory view showing the outline of the composition of mounting device. Explanatory drawing of the waste tape accommodating part 32. FIG. The block diagram showing the structure of the electrical connection of the mounting apparatus. The flowchart showing an example of a waste tape collection | recovery process routine. Explanatory drawing of the process which transfers the waste tape 26. FIG. Explanatory drawing of another waste tape collection | recovery unit 115. FIG. Explanatory drawing of the mounting apparatus 11B provided with another waste tape collection | recovery unit 15B.

  Preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic explanatory diagram illustrating an example of the mounting system 10. FIG. 2 is an explanatory diagram illustrating the outline of the configuration of the mounting apparatus 11. FIG. 3 is an explanatory diagram of the waste tape storage portion 32. FIG. 4 is a block diagram illustrating a configuration of electrical connection of the mounting apparatus 11. The mounting system 10 is a system that executes, for example, a process of mounting components on the board S. The mounting system 10 includes a mounting device 11 and a management computer (PC) 70. The management PC 70 is a computer that manages information of each device of the mounting system 10. In the mounting system 10, a plurality of mounting apparatuses 11 that perform a mounting process for mounting components on a substrate S are arranged from upstream to downstream. In FIG. 1, only one mounting apparatus 11 is shown for convenience of explanation. In the present embodiment, the left-right direction (X-axis), the front-rear direction (Y-axis), and the up-down direction (Z-axis) are as shown in FIGS.

  As shown in FIGS. 2 and 4, the mounting apparatus 11 includes a substrate transport unit 12, a mounting unit 13, a component supply unit 14, a waste tape collection unit 15, and a control device 60. The substrate transport unit 12 is a unit that carries in, transports, fixes and unloads the substrate S at the mounting position. The substrate transport unit 12 has a pair of conveyor belts provided at intervals in the front-rear direction and spanned in the left-right direction. The board | substrate S is conveyed by this conveyor belt.

  The mounting unit 13 collects components from the component supply unit 14 and arranges them on the substrate S fixed to the substrate transport unit 12. The mounting unit 13 includes a head moving unit 20, a mounting head 21, and a suction nozzle 22. The head moving unit 20 includes a slider that is guided by the guide rail and moves in the XY directions, and a motor that drives the slider. The mounting head 21 is detachably mounted on the slider and is moved in the XY direction by the head moving unit 20. One or more suction nozzles 22 are detachably mounted on the lower surface of the mounting head 21. The mounting head 21 incorporates a Z-axis motor, and the height of the suction nozzle 22 is adjusted along the Z-axis by the Z-axis motor.

  The component supply unit 14 is disposed on the front side of the mounting apparatus 11 and has a plurality of feeders 24 on which reels are disposed. A tape member 25 is wound around each reel. A cavity is formed in the tape member 25, and parts are accommodated in the cavity. The tape member 25 is unwound from the reel toward the rear, and is sent out by the feeder 24 to a sampling position where the part is exposed and is sucked by the suction nozzle 22. As shown in FIG. 2, a tape duct 27 and an introduction duct 29 are provided downstream of the feeder 24 to feed the tape member 25 after the parts are collected. A cutter 28 is provided between the tape duct 27 and the introduction duct 29. The tape member 25 that has passed through the tape duct 27 is finely cut by the cutter 28 to become the waste tape 26 and falls in the introduction duct 29. A chute 40 is installed below the introduction duct 29, and the waste tape 26 that has fallen is collected by the waste tape collection unit 15.

  As shown in FIG. 1, the waste tape collecting unit 15 is a unit that collects the waste tape 26 (see the blowout in FIG. 2) obtained by cutting the tape member 25 after the parts are collected by the parts supply unit 14. The waste tape collecting unit 15 includes a transfer path 30, a waste tape storage unit 32, a transfer unit 37, and a chute unit 40. As shown in FIG. 1, the transfer path 30 is a tube-shaped member that transfers the waste tape 26, and includes a straight path 30a and a curved path 30b. A part of the transfer path 30 is disposed on a pedestal 19 formed in the lower part of the mounting apparatus 11. The transfer path 30 is disposed between the chute unit 40 and the waste tape storage unit 32. In the waste tape collecting unit 15, the transfer path 30 is provided with a first chute 40 a on the waste tape storage part 32 side and a second chute 40 b on the end (terminal) side of the transfer path 30. ing. In the waste tape collecting unit 15, one waste tape storage portion 32 and a transfer portion 37 are disposed for the two chute portions 40. The first chute portion 40a and the second chute portion 40b are collectively referred to as the chute portion 40.

  The waste tape storage unit 32 stores the recovered waste tape 26. As shown in FIGS. 3 and 4, the waste tape storage unit 32 includes a direction designation shutter 33, a drive unit 34, a first dust box 35, and a second dust box 36. The direction designation shutter 33 is a member that moves between a first position where the transferred waste tape 26 is dropped into the first dust box 35 and a second position where it is dropped into the second dust box 36. The direction specifying shutter 33 is supported by a support shaft and rotates between a first position (solid line) and a second position (dotted line). The drive unit 34 is a motor that rotates the direction designation shutter 33. The drive unit 34 rotationally drives the direction specifying shutter 33 so that the same amount of waste tape 26 is dropped into the first dust box 35 and the second dust box 36. The direction designation shutter 33 may be a mechanism that does not have the drive unit 34 and rotates between the first position and the second position depending on the weight of the dropped waste tape 26. The 1st dust box 35 and the 2nd dust box 36 are box bodies, and are accommodated in the waste tape accommodating part 32 so that extraction is possible. In the waste tape storage portion 32, the waste tape 26 is stored in two compact dust boxes, so that the burden on the operator such as taking out the dust box is small.

The transfer part 37 transfers the waste tape 26 from the chute part 40 to the waste tape storage part 32 by applying a negative pressure and a positive pressure. The transfer unit 37 includes a negative pressure application unit 38 and a positive pressure application unit 39. The negative pressure application unit 38 applies a negative pressure to the transfer path 30 from the waste tape storage unit 32 side, and is configured by, for example, a turbo pump. The positive pressure application unit 39 is disposed at the end of the transfer path 30 and is configured by a blower (small fan). The positive pressure application unit 39 applies a positive pressure in one direction toward the transfer path 30 and the chute unit 40 on the waste tape storage unit 32 side. As for this transfer part 37, the negative pressure provision part 38 provides a negative pressure from the waste tape accommodating part 32 side, and the positive pressure provision part 39 applies a positive pressure toward the 2nd chute | shoot part 40b side from the terminal side of the transfer path 30. Give. The transfer unit 37 is configured to apply a negative pressure and a positive pressure while the chute 40 passes through the waste tape 26, that is, with the opening 42 of the chute 40 being opened. For example, in the transfer unit 37, the positive pressure applying unit 39 applies a positive pressure with a smaller flow rate than the negative pressure applying unit 38. At this time, in the transfer unit 37, the positive pressure applying unit 39 may apply a positive pressure with a flow rate of 1/10 or less of the flow rate of the negative pressure applying unit 38. Negative pressure applying part 38, depending on the length and thickness of the transfer path 30, for example, may be those which confer negative pressure in 10 m ³ / min ~25m ³ / min flow rate. Positive pressure application unit 39, depending on the size of the distance and the openings 42 of the chute 40 adjacent, for example, those which confer a positive pressure in the 1.0 m ³ / min ~2.5m ³ / min flow rate It is good.

  The chute 40 is a member that drops the waste tape 26 onto the transfer path 30 through the opening 42. The chute 40 is disposed on the base 19 of the mounting apparatus 11 on which the feeder 24 is mounted. For example, the chute 40 is not disposed on the base 19 of the printing device that prints the solder paste on the substrate S or the inspection device 19 that inspects the substrate S. As shown in FIG. 2, the chute 40 is a box having rectangular openings on the upper surface and the lower surface, and a plurality of the chute portions 40 that are inclined like a mortar so that the opening 42 on the lower surface side becomes smaller. A flat wall 41 is provided.

  As shown in FIG. 4, the control device 60 is configured as a microprocessor centered on a CPU 61, and includes a ROM 62 that stores processing programs, an HDD 63 that stores various data, a RAM 64 that is used as a work area, an external device and an electrical device. An input / output interface 65 for exchanging signals is provided, and these are connected via a bus 66. The control device 60 outputs control signals to the substrate transport unit 12, the mounting unit 13, the component supply unit 14, and the waste tape collection unit 15, and inputs signals from the mounting unit 13 and the component supply unit 14.

  Next, the operation of the mounting system 10 of this embodiment configured as described above, specifically, the mounting process of the mounting apparatus 11 will be described. When the mounting process is started, the CPU 61 of the control device 60 controls the feeder 24 so that, for example, the suction nozzle 22 corresponding to the component to be collected is mounted on the mounting head 22 and the tape member 25 is pulled out from the component supply unit 14. Next, the CPU 61 controls the mounting unit 13 to collect components. Then, the CPU 61 causes the suction nozzle 22 to collect the components housed in the tape member 25 and mounts the collected components at a predetermined arrangement position on the substrate S. The CPU 61 repeats such processing until all the components are placed on the board S.

  Next, the waste tape recovery process executed by the waste tape recovery unit 15 in this mounting process will be described. FIG. 5 is a flowchart illustrating an example of a waste tape collection processing routine executed by the CPU 61 of the control device 60. This routine is stored in the HDD 63 of the control device 60 and executed when the mounting process is performed. When this routine is started, the CPU 61 first determines whether or not it is the cutting timing of the tape member 25 based on the mounting status of the mounting apparatus 11 (step S100). The cutting timing may be determined, for example, at a timing when the number of parts collected by the suction nozzle 22 since the previous cutting is a predetermined number. When it is the cutting timing of the tape member 25, the CPU 61 drives the cutter 28 to cut the tip of the tape member 25 to obtain the waste tape 26 (step S110). The cut waste tape 26 falls from the introduction duct 29 to the chute 40. Next, the CPU 61 operates the transfer unit 37 (the negative pressure applying unit 38 and the positive pressure applying unit 39) for a predetermined time (step S120). At this time, the negative pressure application unit 38 applies a negative pressure to the transfer path 30 and the waste tape storage unit 32, while the positive pressure application unit 39 starts from the end of the transfer path 30 to the second chute unit 40 b and the first chute unit. A positive pressure is applied toward 40a. The predetermined time for operating the transfer unit 37 may be set to a time for transferring the waste tape 26 in the transfer path 30 to the waste tape storage unit 32, for example. The waste tape 26 that has fallen into the transfer path 30 is transferred toward the waste tape container 32 by negative pressure and positive pressure.

  Then, after step S120 or after it is not the cutting timing in step S100, the CPU 61 repeatedly executes the processes after step S100 until the mounting process is completed.

  FIG. 6 is an explanatory diagram of the process of transferring the waste tape 26 by the waste tape recovery unit 15. The waste tape collecting unit 15 transfers the waste tape 26 to the waste tape storage unit 32 by pressure. Here, for example, when the waste tape 26 is transferred only by the negative pressure, the waste tape 26a that has fallen to the side to which the negative pressure is applied in the first chute portion 40a is fully accommodated by the negative pressure. It can move to the part 32. On the other hand, in the waste tape 26b that has fallen to the transfer path 30 on the side opposite to the side to which the negative pressure is applied, there is a case where air flows in from the opening 42a, and the negative pressure is not sufficiently applied and may not move. . Also, in the second chute 40b, since the negative pressure is weakened by the inflow of air from the opening 42a, the waste tape 26c dropped to the side to which the negative pressure is applied may not easily move. In addition, the waste tape 26d that has fallen to the terminal end side of the transfer path 30 is further reduced in negative pressure due to the inflow of air from the opening 42b of the second chute 40b, and is more difficult to move. Although it is conceivable to close the opening 42, there is a disadvantage that the waste tape 26 cannot be dropped while the opening 42 is closed. In this mounting apparatus 11, a positive pressure application unit 39 is provided at the end of the transfer path 30, and the waste tape 26 is moved by the positive pressure applied from the positive pressure application unit 39 with the opening 42 opened. . On the other hand, if the positive pressure applied by the positive pressure applying section 39 is too large, the wind flies upward from the openings 42a and 42b, and the waste tape 26 is blown up. In the transfer unit 37, the positive pressure from the positive pressure application unit 39 is set to be sufficiently smaller than the negative pressure from the negative pressure application unit 38, and blowing up at the openings 42a and 42b is prevented. If the positive pressure is applied by the positive pressure applying unit 139 from both sides of the transfer path 130 as in the waste tape collecting unit 115 shown in FIG. 7, a portion where the flow of wind cancels out occurs, and the waste tape 26 is removed. There may be cases where it cannot move. In the waste tape recovery unit 15 of this embodiment, the chute unit 40 is provided in two units, the transfer path 30 is set to a negative pressure, and a positive pressure that is weaker than the negative pressure is applied in one direction from the terminal end side of the transfer path 30 to be discarded. The tape 26 is more reliably moved to the waste tape storage portion 32.

  Here, the correspondence between the components of the present embodiment and the components of the present invention will be clarified. The component supply unit 14 of the present embodiment corresponds to the component supply unit of the present invention, the chute unit 40 corresponds to the chute unit, the transfer path 30 corresponds to the transfer path, the transfer unit 37 corresponds to the transfer unit, and is negative. The pressure application unit 38 corresponds to a negative pressure application unit, the positive pressure application unit 39 corresponds to a positive pressure application unit, and the waste tape storage unit 32 corresponds to a waste tape storage unit. In this embodiment, an example of the waste tape recovery unit of the present invention is also clarified by explaining the waste tape recovery unit 15.

  The mounting apparatus 11 according to the embodiment described above applies a negative pressure from the waste tape housing part 32 side that collects the waste tape 26, and also applies a positive pressure toward the transfer path 30 and the chute part 40 on the waste tape housing part 32 side. The waste tape 26 is transferred from the chute unit 40 to the waste tape storage unit 32. In this apparatus, for example, the waste tape is moved by negative pressure, and the transfer path 26 is moved by applying a positive pressure toward the waste tape 26 that has fallen to a portion of the transfer path 30 where it is difficult to apply negative pressure. Therefore, the mounting apparatus 11 can collect the waste tape 26 more reliably.

  Further, since the positive pressure applying unit 39 applies a positive pressure at a smaller flow rate than the negative pressure applying unit 38, the transfer unit 37 has a negative pressure applying unit 39 when moving the waste tape 26 by the positive pressure applying unit 39. A sufficient negative pressure can be applied from 38. Moreover, in this mounting apparatus 11, it can suppress that the waste tape 26 flies up from the opening part 42 of the chute | shoot part 40 by a positive pressure. Furthermore, since the positive pressure applying unit 39 applies a positive pressure with a flow rate equal to or less than 1/10 of the flow rate of the negative pressure applying unit 38, the transfer unit 37 maintains the balance between the positive pressure and the negative pressure. Can be recovered more reliably. Furthermore, since the transfer part 37 applies a positive pressure in one direction from the terminal end side of the transfer path 30 toward the second chute part 40b, for example, the positive pressure airflows collide with each other. Therefore, the waste tape 26 can be recovered more reliably.

  Further, in the transfer path 30, a first chute 40a is disposed on the waste tape container 32 side, a second chute 40b is disposed on the terminal end side of the transfer path 30, and the transfer part 37 is negative. The pressure applying unit 38 applies a negative pressure from the waste tape housing unit 32 side, and the positive pressure applying unit 39 applies a positive pressure from the terminal end side of the transfer path 30 toward the second chute unit 40b side. In the mounting apparatus 11, the waste tape 26 can be more reliably collected in a device having a larger number of chute parts 40 such as two chute parts 40. Further, the transfer unit 37 applies a negative pressure and a positive pressure when the opening portion 42 through which the chute 40 passes through the waste tape 26 is open, so that the waste tape 26 is not blocked by, for example, a shutter. Can be recovered.

  It should be noted that the present invention is not limited to the above-described embodiment, and it goes without saying that the present invention can be implemented in various modes as long as it belongs to the technical scope of the present invention.

  For example, in the embodiment described above, the waste tape recovery unit 15 has been described as including one transfer unit 37 for the two chute units 40, but is not particularly limited thereto, and for one chute unit 40. It is also possible to provide one transfer unit 37. FIG. 8 is an explanatory diagram of a mounting apparatus 11B provided with another waste tape recovery unit 15B. The waste tape recovery unit 15B includes a waste tape recovery unit 15B for each mounting apparatus 11B. The mounting apparatus 11B includes a waste tape recovery unit 15B having a chute 40, a transfer path 30B, a waste tape storage part 32B, a negative pressure application part 38B, and a positive pressure application part 39B. Also in the waste tape recovery unit 15B, as described in the first chute 40a in FIG. 6, when the waste tape 26 falls on the transfer path 30B on the opposite side to the negative pressure applying unit 38B, the negative pressure alone is sufficient. The waste tape 26 cannot be collected. In the waste tape collecting unit 15B, the positive pressure applying unit 39B applies a positive pressure from the end of the transfer path 30B and sends the waste tape 26 to the transfer path 30B on the negative pressure applying unit 38B side. Can be recovered.

  In the embodiment described above, the present invention has been described as the mounting apparatus 11, but may be a waste tape collection unit 15.

  The present invention can be used in an apparatus for performing a mounting process for arranging components on a substrate.

DESCRIPTION OF SYMBOLS 10 mounting system, 11, 11B mounting apparatus, 12 board | substrate conveyance unit, 13 mounting unit, 14 component supply unit, 15, 15B, 115 waste tape collection unit, 19
Pedestal, 20 head moving part, 21 mounting head, 22 suction nozzle, 24 feeder, 25 tape member, 26, 26a-26d waste tape, 27 tape duct, 28 cutter, 29 introduction duct, 30, 30B, 130 transport path, 30a Straight path, 30b
Curved path, 32, 32B Waste tape storage part, 33 direction designation shutter, 34 drive part, 35 1st dust box, 36 2nd dust box, 37 transfer part, 38, 38B Negative pressure application part, 39, 39B, 139 Positive pressure application Part, 40 chute part, 40a first chute part, 40b second chute part, 41 wall part, 42, 42a, 42b opening part, 60 control device, 61 CPU, 62 ROM, 63 HDD, 64 RAM, 65 input / output interface , 66 bus, 70 management computer, S board.

Claims (7)

A mounting apparatus that mounts the component on a substrate, including a component supply unit that supplies the component by feeding out a tape member that houses a plurality of components,
A chute part through which the waste tape obtained by cutting the tape member after the parts are collected passes;
A transfer path formed between the chute and the waste tape container;
A negative pressure applying unit that applies a negative pressure to the transfer path from the waste tape storage unit side, and a positive pressure that applies a positive pressure to the transfer path toward the transfer path and the chute unit side of the waste tape storage unit side. A transfer unit for transferring the waste tape from the chute unit to the waste tape storage unit,
Mounting device.   The mounting apparatus according to claim 1, wherein the transfer unit applies a positive pressure at a flow rate smaller than that of the negative pressure application unit.   The mounting device according to claim 2, wherein the transfer unit applies a positive pressure with a flow rate of 1/10 or less of a flow rate of the negative pressure application unit.   The mounting device according to claim 1, wherein the transfer unit applies the positive pressure in one direction from the terminal end side of the transfer path toward the chute unit. In the transfer path, a first chute part is disposed on the waste tape housing part side, and a second chute part is disposed on the terminal side of the transfer path,
The transfer unit is configured such that the negative pressure applying unit applies a negative pressure from the waste tape housing unit side, and the positive pressure applying unit applies a positive pressure from the terminal side toward the second chute unit. Item 5. The mounting apparatus according to any one of Items 1 to 4.   The mounting device according to claim 1, wherein the transfer unit applies the negative pressure and the positive pressure in a state where the chute passes through the waste tape. A waste tape recovery unit used in a mounting apparatus that includes a component supply unit that supplies a component by sending out a tape member that houses a plurality of components, and that mounts the component on a substrate,
A chute part through which the waste tape obtained by cutting the tape member after the parts are collected passes;
A transfer path formed between the chute and the waste tape container;
A negative pressure applying unit that applies a negative pressure to the transfer path from the waste tape storage unit side, and a positive pressure that applies a positive pressure to the transfer path toward the transfer path and the chute unit side of the waste tape storage unit side. A transfer unit for transferring the waste tape from the chute unit to the waste tape storage unit,
Waste tape collection unit equipped with.

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