JP7369917B2 - parts supply device - Google Patents

Description

The present invention relates to a component supply device that supplies components stored in a carrier tape.

2. Description of the Related Art A tape feeder is often used as a component supply form in a component mounting apparatus that mounts components such as electronic components on a board. The tape feeder feeds a carrier tape containing components to a position from which a mounting head takes out the components. In the tape feeder, the carrier tape is supplied with a component storage section in which components are stored sealed with a cover tape. By peeling off the cover tape before the component removal position during the tape feeding process, the exposed components within the component storage section are taken out and mounted on the board.

As the carrier tape is fed to supply parts, the cover tape is peeled off and separated from the base tape, and is discarded. For this reason, tape feeders have conventionally been provided with various functions for processing the cover tape peeled from the base tape (see, for example, Patent Documents 1, 2, and 3). In the prior art disclosed in Patent Document 1, the cover tape peeled off before the component removal position is sent in the opposite direction to the tape feed, and is stored and collected inside a tape storage box provided at the rear of the tape feeder. .

Further, in the prior art disclosed in Patent Document 2, the cover tape peeled off before the component removal position is guided in the opposite direction of tape feeding, intersects with the carrier tape fed from the upstream side, and is discharged downward. Furthermore, the prior art shown in Patent Document 3 describes a configuration in which a work head that has the function of a mounting head for mounting parts and a function of peeling off a cover tape is movably arranged at an arbitrary position on a base. has been done. Thereby, the peeled end of the top tape can be held by the work head and guided to a storage provided for disposing of the cover tape.

Japanese Patent Application Publication No. 2008-91481 Japanese Patent Application Publication No. 2010-219347 International Publication No. 2013/136423

In the industrial world, including the field of electronic component mounting, there is a growing demand for labor saving and manpower saving, and there is a growing need to promote automation as much as possible in the processing of the above-mentioned cover tape. However, the prior art shown in the above-mentioned patent documents has the following difficulties in achieving automation. That is, in the prior art disclosed in Patent Document 1, the peeled cover tapes stored in the tape storage box are randomly pushed in from one direction and become entangled. For this reason, mechanical handling is difficult, making it extremely difficult to automate it.

Furthermore, in the prior art disclosed in Patent Document 2, the peeled cover tape is crossed with the carrier tape sent from the upstream side and discharged downward, so every time a new carrier tape is set, it is used for mounting. The disadvantage is that it is inevitable that wasteful parts will be discarded without being discarded. In addition, since it is necessary to guide the crossed cover tapes downward through a narrow gap between adjacent tape feeders, there is a problem in that automation is highly difficult.

Although the prior art shown in Patent Document 3 is suitable for automation in terms of equipment configuration and function, since the configuration is new compared to conventional existing equipment, it is difficult to match it with conventional equipment. For this reason, it has been difficult to automate equipment planning that assumes coexistence with existing equipment. As described above, the conventional component supply apparatus has a problem in that it is difficult to efficiently automate the recovery process of the cover tape peeled from the carrier tape in the tape feeder using a simple mechanism.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a component supply device that can efficiently automate the recovery process of cover tape peeled from a carrier tape using a simple mechanism.

The component supply device of the present invention includes a first conveyance path for guiding a carrier tape in which a plurality of component storage portions storing components are arranged in a row, and a carrier tape that moves along the first transportation path to the component storage portions. a cover tape peeling unit that peels off a cover tape covering an upper part of the carrier tape, and a cover tape peeling unit that conveys the carrier tape along the first conveyance path to stop the component storage unit from which the cover tape has been peeled off at a component removal position. a carrier tape conveyance section, a second conveyance path that guides the cover tape peeled from the carrier tape, a cutting section that cuts the peeled cover tape, a control section that drives the cutting section, and the control section. and an input section connected to the control section, and the control section drives the cutting section to cut the cover tape when receiving an input from the input section to cut the cover tape.

Another component supply device of the present invention includes a first conveyance path that guides a carrier tape in which a plurality of component storage units storing components are arranged in a row, and a carrier tape that moves along the first conveyance path. A cover tape peeling section that peels off the cover tape covering the upper part of the component storage section; and a cover tape peeling section that peels off the cover tape covering the upper part of the component storage section, and a component storage section from which the cover tape has been peeled off by conveying the carrier tape along the first conveyance path to a component removal position. a carrier tape conveyance section that stops the carrier tape, a second conveyance path that guides the cover tape peeled from the carrier tape, a cutting section that cuts the peeled cover tape, and a control section that drives the cutting section. , the control section drives the cutting section to cut the cover tape when receiving a command to cut the cover tape from an external device.

According to the present invention, the recovery process of the cover tape peeled from the carrier tape can be efficiently automated with a simple mechanism.

Configuration explanatory diagram of a component mounting system according to an embodiment of the present invention An explanatory diagram of the configuration of a parts supply truck according to an embodiment of the present invention A front view of a parts supply truck according to an embodiment of the present invention Functional explanatory diagram of a tape feeder in an embodiment of the present invention A side view showing a state in which a cover tape collection unit is attached to a tape feeder in an embodiment of the present invention. A side view showing the operation of attaching and detaching the cover tape collection unit to the tape feeder in an embodiment of the present invention A side view showing the operation of attaching and detaching the tape feeder to and from the trolley according to an embodiment of the present invention A side view showing a state in which a cover tape storage container is attached to a tape feeder in an embodiment of the present invention. Functional explanatory diagram of a tape feeder in a modified example of an embodiment of the present invention A side view showing the operation of attaching and detaching the cover tape collection unit to the tape feeder in a modified example of the embodiment of the present invention

Next, embodiments of the present invention will be described with reference to the drawings. First, with reference to FIG. 1, the configuration of a component mounting system 1 according to the present embodiment will be described. In FIG. 1, a component mounting system 1 includes a component mounting apparatus 2 and a component supply section 10. The configuration of the component mounting apparatus 2 will be explained. On the upper surface of the base 2a, substrate transport mechanisms 3 are arranged in the X direction (substrate transport direction). The substrate transport mechanism 3 transports a work target board 4 carried in from an upstream device, positions it at a mounting work position, and holds it. Above the component mounting device 2 and the component supply section 10, a mounting head 5 that performs component mounting work described below is movable by a head moving mechanism (not shown) in a work space enclosed by the device cover 2b. It is set in.

The configuration of the component supply section 10 will be explained. In FIG. 1, a parts supply section 10 has a cart 11 that is movable on a floor using casters. A feeder base 12 is provided on the upper surface of a truck main body portion 11a that constitutes the main body of the truck 11. The feeder base 12 can be set with a plurality of tape feeders 13 lined up. A supply reel 15 that stores a roll of carrier tape 16 for storing parts is set in the main body portion 11a of the truck. The carrier tape 16 is provided with component storage sections (not shown), which are recesses for storing components, arranged in a line in the longitudinal direction, and the upper part of the component storage section is covered with a cover tape 16b (FIGS. 2 and 4(b). ).

The carrier tape 16 supplied from the supply reel 15 is taken into the tape feeder 13. The tape feeder 13 peels off the cover tape 16b that covers the upper part of the component storage section of the carrier tape 16 that stores the components, and transports the component storage section from which the cover tape 16b has been peeled off to a component removal position 13c (see FIG. 2). . The above-described component mounting apparatus 2 performs the work of taking out components from the component storage section and mounting them on the board 4 using the mounting head 5 at the component pick-up positions 13c of the plurality of tape feeders 13. A main body control section 6 is built into the base 2a of the component mounting apparatus 2. The main body control section 6 controls the component mounting operation by the component mounting apparatus 2 and the component supply operation of the tape feeder 13 in the component supply section 10 .

The component mounting apparatus 2 has a cart holding section 7 that can detachably hold the cart 11. A key-shaped engagement member 7a is provided at a portion of the base 2a of the component mounting apparatus 2 facing the trolley main body 11a so as to extend toward the trolley main body 11a. A pin-shaped engaged member 7b is provided at a position corresponding to the engaging member 7a in the truck main body portion 11a so as to be engageable with the engaging member 7a. By bringing the cart 11 close to the base 2a and engaging the engaging member 7a with the engaged member 7b, the cart 11 is detachably held on the component mounting apparatus 2 by the cart holding section 7.

That is, the component mounting system 1 takes out a component from a component takeout position 13c of a tape feeder 13, which is a component supply device set on a feeder base 12 of a trolley 11 held by a trolley holder 7, and places it at a predetermined position on a board 4. The structure is equipped with a component mounting device that is mounted on the device. The component supply trolley 11 in this embodiment is configured such that a plurality of tape feeders 13 having the above-mentioned configuration are set side by side and held by the trolley holding section 7 of the component mounting apparatus 2.

Next, with reference to FIG. 2, the overall configuration and functions of the trolley 11 will be explained. In FIG. 2, the tape feeder 13 has a feeder front part 13a that is fitted into a feeder slot (not shown) formed on the upper surface of the feeder base 12, and a step-shaped rear part (left side in FIG. 2) from the feeder front part 13a. It has a feeder rear part 13b extending from and provided to the feeder rear part 13b. The tape feeder 13 is provided with a first conveyance path 30 leading from the feeder rear portion 13b to the feeder front portion 13a.

The carrier tape 16 pulled out from the supply reel 15 is introduced into the feeder rear part 13b and conveyed along the first conveyance path 30. The component to be mounted, which has reached the component take-out position 13c through this transportation, is taken out by the mounting head 5 (see FIG. 1). During transportation of the carrier tape 16, the cover tape 16b covering the component storage portion of the carrier tape 16 is peeled off from the carrier tape 16 by a cover tape peeling section 34 (see FIG. 4). The peeled cover tape 16b is discharged rearward along the second conveyance path 33 formed in the feeder front section 13a.

In this embodiment, the peeled cover tape 16b is forcibly collected by fluid force such as vacuum suction or air blowing. That is, the cart 11 is provided with a cover tape suction nozzle 21 that is movable toward and away from the outlet 33a of the second conveyance path 33 (see FIGS. 4 and 5), corresponding to each tape feeder 13. ing.

Each cover tape suction nozzle 21 communicates with the duct 20. By vacuum suctioning the duct 20 or by blowing air inside the duct 20 to generate an air flow, the cover tape 16b in the second conveyance path 33 is sucked into the duct 20 via the cover tape suction nozzle 21. be done. The duct 20 is held at both ends by a duct holding part 14, and by moving the duct holding part 14 in the front-back direction, the cover tape suction nozzle 21 can be moved toward and away from the feeder front part 13a.

The base tape 16a, which has become empty after the parts have been removed, is guided downward at the front end of the feeder front section 13a. Furthermore, the base tape 16a reaches a carrier tape cutting section 18 via a chute 17 built into the truck main body 11a, where it is cut and collected in a collection container 19 disposed below the truck main body 11a.

A feeder control section 13e (control section) is built in the feeder rear section 13b. By setting the tape feeder 13 on the feeder base 12, the feeder control section 13e is connected via the connection section 13d and the feeder base 12 to the communication section 11b built in the trolley body section 11a. By holding the cart 11 in the component mounting apparatus 2, the communication section 11b is connected to the main body control section 6 (see FIG. 1) built in the base 2a. Thereby, the operation of the tape feeder 13 is controlled by the main body control section 6. That is, the feeder control section 13e of the tape feeder 13 is capable of communicating with an external device.

Furthermore, an operation panel 13f is provided on the upper surface of the tape feeder 13 as an input section for an operator to perform input and operation. When an operator performs an input operation via the operation panel 13f, it is possible to manually control predetermined operations such as cutting the cover tape 16b in the tape feeder 13 for discharge.

Next, with reference to FIG. 3, the collection function of the above-mentioned cover tape 16b provided on the trolley 11 will be explained. FIG. 3 shows the rear surface of the truck 11 in FIG. 2, and a plurality of supply reels 15 each containing a roll of carrier tape 16 are set on the truck main body 11a. The position of the supply reel 15 corresponds to the position where the tape feeder 13 is set on the feeder base 12, and the carrier tape 16 pulled out from the supply reel 15 is inserted into the feeder rear part 13b of the tape feeder 13.

In FIG. 3, the duct 20 is a hollow tube that extends in the direction in which the tape feeders 13 are arranged on the feeder base 12 and has a suction space 20a inside. A plurality of suction ports 20b for drawing the cover tape 16b into the duct 20 are provided on the side surface of the duct 20 at a plurality of positions corresponding to the tape feeder 13 on the feeder base 12.

Among these suction ports 20b, a plurality of positions corresponding to the plurality of tape feeders 13 set on the feeder base 12 are provided with a plurality of holes that individually access the tape feeders 13 and guide the cover tape 16b to the suction ports 20b. A cover tape suction nozzle 21, which is a nozzle, is connected. Note that a blind plug 20c for preventing leakage is attached to the suction opening 20b corresponding to a position where the tape feeder 13 is not attached.

A hollow shaft member 22 coupled to both ends of the duct 20 is held by the duct holding portion 14 via a bearing 14a so as to be rotatable about an axis in the horizontal direction. The lower end portion of the duct holding portion 14 is held on the upper surface of the truck main body portion 11a via a slide mechanism 14b. Thereby, the duct 20 can freely move forward and backward in the Y direction (front and back direction in FIG. 2).

The duct holding portion 14 on one side is provided with a feed mechanism 26 configured to convert rotation of the feed screw mechanism 26a into linear movement in the Y direction. By rotating the feed screw mechanism 26a forward and backward using the handle portion 26b (arrow c), the duct 20 reciprocates in the Y direction together with the duct holding portion 14 that holds both ends. Thereby, the cover tape suction nozzle 21 attached to the side surface of the duct 20 can be connected to and separated from the outlet 33a of the second conveyance path 33 provided at the feeder front portion 13a of the tape feeder 13.

The shaft member 22 on one side (the left side in FIG. 3) is connected to a connecting pipe 23 arranged in a vertical position. The connecting pipe 23 is connected to a cutting section 24 arranged below, and the cutting section 24 is further connected to a suction source 25 arranged below. By activating the suction source 25, the suction space 20a inside the duct 20 is suctioned through the connecting pipe 23 (arrow a).

Thereby, vacuum suction can be performed from the cover tape suction nozzle 21 communicating with the suction space 20a, and the second conveyance path 33 of the corresponding tape feeder 13 can be vacuum suctioned. By this vacuum suction, the cover tape 16b that is peeled off by the cover tape peeling section 34 (see FIG. 4) and discharged along the second conveyance path 33 can be recovered from the tape feeder 13.

The cover tape 16b sucked from the suction space 20a by the suction source 25 and guided to the connecting pipe 23 is cut into tape pieces by the cutting section 24 before reaching the suction source 25. The tape pieces from which these cover tapes 16b have been cut are guided by a discharge chute 27 and collected into a collection container 19 provided at the bottom of the truck body 11a.

Note that the method of recovering the peeled cover tape 16b is not limited to the method of collecting the peeled cover tape 16b by suction using the suction source 25. For example, as shown in FIG. 3, a blowing device 28 may be provided that blows air into the suction space 20a from the opposite side of the connecting pipe 23 to move the air (arrow b). With this configuration, it is possible to generate an air flow flowing downward from the suction space 20a through the connecting pipe 23, and the peeled cover tape 16b can be similarly collected. That is, in this configuration, the cover tape collecting section described above moves and collects the cover tape 16b using air blow as a fluid force.

As shown in FIGS. 2 and 3, in the configuration for collecting the peeled cover tape 16b, a cover tape suction nozzle 21, a duct 20 to which the cover tape suction nozzle 21 is connected, and a suction source 25 that suctions the inside of the duct 20 Alternatively, the blow device 28 that moves air inside the duct 20 constitutes a cover tape collection section that collects the cover tapes 16b peeled off from the plurality of tape feeders 13. In this configuration, the cover tape collection section includes a duct 20 that uses fluid force to collect the cover tape 16b peeled off from the tape feeder 13.

In the above-described configuration, there are two ways to use fluid force: one is to use the suction source 25 to suction the inside of the duct 20 to collect the cover tape 16b, and the other is to use the air moving inside the duct 20 to collect the cover tape 16b. The cover tape 16b may be moved and collected using air flow. Of course, by using these in combination, even better recovery effects of the cover tape 16b can be obtained. Note that the use of fluid force as the cover tape collecting section is not an essential requirement in the present invention, and it is sufficient that the cover tape collecting section has a function of taking out and collecting the cover tape 16b peeled off from the tape feeder 13.

That is, in the above-described configuration, the component mounting system 1 according to the present embodiment (in other words, the component supplying cart 11 provided in the component mounting system 1) uses a fluid force to peel the components by the tape feeder 13. The configuration includes a duct 20 for collecting the cover tape 16b. The fluid force utilized here is generated by the suction source 25 or blow device 28, which is a fluid force generation source. In the configuration in which the suction source 25 is used as the fluid force generation source, the duct 20 suctions and collects the cover tape 16b. In a configuration in which the blow device 28 is used as a fluid force generation source, the duct 20 uses air moving within the duct 20 to move and collect the cover tape 16b.

The component mounting system 1 and the trolley 11 described above have a suction source 25 and a collection container 19 that stores the cover tape 16b collected through the duct 20. In this embodiment, the collection container 19 is adapted to also collect the empty carrier tape (base tape 16a) from which parts have been removed (see FIG. 2).

Next, the detailed configuration and functions of the tape feeder 13 will be described with reference to FIG. 4. As shown in FIG. 4A, the tape feeder 13 is provided with a first conveyance path 30 that guides the carrier tape 16. The first conveyance path 30 extends from an insertion port 30a opened in the rear end surface of the feeder rear part 13b to the feeder front part 13a along the upper part of the feeder rear part 13b. Here, it obliquely moves upward to reach the component removal position 13c along the upper surface of the feeder front section 13a, and then descends along the front end of the feeder front section 13a to reach the discharge port 30b opened on the lower surface.

A loading section 31 configured to drive a sprocket 31a by a loading drive section 31b is arranged at a position close to the insertion port 30a in the rear portion 13b of the feeder. The loading section 31 has a function of pulling the leading end of the carrier tape 16 pulled out from the supply reel 15 and inserted into the insertion opening 30a of the first transport path 30 to the downstream side of the first transport path 30. There is. The loading section 31 is attached to the rear portion 13b of the feeder as an expansion unit. In other words, the expansion unit adds a loading function to a tape feeder that does not have a loading function (a function of pulling the leading end of the carrier tape 16 to the carrier tape transport section 32 located downstream of the first transport path 30). I can do it.

A cover tape peeling section 34 is arranged at a position where the first conveyance path 30 obliquely moves upward in the feeder front section 13a. The cover tape peeling section 34 has a function of peeling off the cover tape 16b covering the upper part of the component storage section provided on the carrier tape 16 from the carrier tape 16 moving on the first conveyance path 30.

The cover tape peeling section 34 includes a pair of rollers 34a that sandwich and feed the cover tape 16b, and an air blow mechanism 34b that guides the cover tape 16b between the pair of rollers 34a by air blowing. The pair of rollers 34a are arranged close to and above the first conveyance path 30. With this configuration, the cover tape peeling unit 34 peels off the cover tape 16b at the tip of the carrier tape 16 that is drawn downstream by the loading unit 31 and moves on the first conveyance path 30.

That is, the pair of rollers 34a included in the cover tape peeling section 34 can capture the cover tape 16b at the leading end of the carrier tape 16 moving on the first conveyance path 30. These pair of rollers 34a peel the cover tape 16b from the carrier tape 16 by sandwiching the cover tape 16b at the leading end fed in by the air blow by the air blow mechanism 34b and sending it in a direction away from the carrier tape 16.

A carrier tape conveyance section 32 configured to drive two sprockets 32a and 32b by a tape conveyance drive section 32c is arranged downstream of the cover tape peeling section 34 in the feeder front section 13a. The carrier tape transport section 32 has a function of transporting the carrier tape 16 along the first transport path 30 to stop the component storage section from which the cover tape 16b has been peeled off in the carrier tape 16 at the component removal position 13c. are doing.

The feeder front section 13a is provided with a hollow second conveyance path 33 that guides the cover tape 16b peeled off from the carrier tape 16 by the cover tape peeling section 34. The second conveyance path 33 has an inlet 33b for taking in the peeled cover tape 16b and an outlet 33a. The inlet 33b opens at a position facing the air blow mechanism 34b. A pair of rollers 34a are arranged at the inlet 33b and feed the cover tape 16b toward the outlet 33a. Further, the outlet 33a is provided to open at the rear end surface of the feeder front section 13a, and is formed in a position where the cover tape suction nozzle 21 constituting the above-mentioned cover tape collection section can be accessed (see also FIG. 5). ).

Note that the second conveyance path 33 may be provided with an auxiliary blow mechanism 33c that uses a fluid flow to assist the movement of the cover tape 16b sent by the pair of rollers 34a. That is, air blow is performed from the auxiliary blow mechanism 33c so as to generate an air flow toward the outlet 33a in the second conveyance path 33. This assists the movement of the cover tape 16b in the second transport path 33, and allows the cover tape 16b to be reliably discharged from the outlet 33a without clogging the cover tape 16b.

A cutting section 35 (cover tape cutting section) is provided near the outlet 33a in the feeder front section 13a. The cutting section 35 has a function of cutting the cover tape 16b that is peeled off by the tape feeder 13 and guided through the second conveyance path 33, and has a cutting blade 35a that cuts the cover tape 16b and a cutting blade 35a that cuts the cover tape 16b. It is provided with a drive section 35b that is driven to perform a cutting operation.

The drive unit 35b is driven by a command from the feeder control unit 13e, and the feeder control unit 13e drives the drive unit 35b by input from the aforementioned operation panel 13f. That is, when there is an input from the operation panel 13f to cut the cover tape 16b, a driving command for cutting is output to the drive section 35b. Thereby, the cover tape 16b discharged from the second conveyance path 33 can be cut to a desired length.

Note that the feeder control unit 13e is connected to the main body control unit 6 of the component mounting apparatus 2 as shown in FIG. 2, and can communicate with external devices (the component mounting apparatus 2 or other equipment connected to the component mounting apparatus 2). It becomes. As a result, when a command to cut the cover tape 16b is received from these external devices, a drive command for cutting is output to the drive unit 35b.

FIG. 4(b) shows the operations of conveying the carrier tape 16, peeling off the cover tape 16b, and ejecting the tape feeder 13 configured as described above. The carrier tape 16 pulled out from the supply reel 15 and inserted into the insertion opening 30a of the first conveyance path 30 is conveyed downstream by the loading section 31. As a result, the leading end of the carrier tape 16 is drawn toward the downstream side of the first conveyance path 30. Next, when the leading end of the carrier tape 16 reaches the position of the cover tape peeling part 34, the leading end of the cover tape 16b is guided between the pair of rollers 34a by air blowing from the air blowing mechanism 34b.

The guided cover tape 16b is then sandwiched between the pair of rollers 34a and fed, whereby the cover tape 16b is peeled off from the carrier tape 16. The peeled cover tape 16b is guided by the second conveyance path 33 and conveyed toward the outlet 33a. At this time, by performing an auxiliary air blow by the auxiliary blow mechanism 33c (arrow e), the cover tape 16b can be more reliably discharged from the outlet 33a (arrow f).

After the cover tape 16b has been peeled off from the carrier tape 16, the base tape 16a reaches the component removal position 13c with the component storage section exposed. Then, the components are taken out from the component storage section by the mounting head 5 (see FIG. 1), and the empty base tape 16a is sent downward through the discharge port 30b provided at the front end of the feeder front section 13a. .

FIG. 5 shows a state in which the cover tape suction nozzle 21 constituting the cover tape collection section is accessed to the feeder front portion 13a of the tape feeder 13. The cover tape suction nozzle 21 includes an extension pipe 21 a that extends horizontally toward the outlet 33 a of the second conveyance path 33 . A packing 21b is attached to the tip of the extension pipe 21a, and a bellows 21c is interposed in the middle. When the cover tape suction nozzle 21 accesses the feeder front portion 13a, the bellows 21c expands and contracts to reliably press the packing 21b against the outlet 33a. By pressing the packing 21b against the outlet 33a, the airtightness of the connection between the extension pipe 21a and the outlet 33a is ensured.

The cutting section 35 provided on the second conveyance path 33 cuts the cover tape 16b that is peeled from the carrier tape 16 by the cover tape peeling section 34 and conveyed along the second conveyance path 33. As a result, the cover tape 16b beyond the cutting position becomes free and is sucked into the suction space 20a of the duct 20 through the suction port 20b.

In this embodiment, an example is shown in which the cutting section 35 is arranged in front of the outlet 33a in the feeder front section 13a, but the position where the cutting section 35 is provided is not limited to the example shown here. In short, any position before the cover tape 16b reaches the duct 20 can be adopted as the position where the cutting part 35 is arranged. That is, the cutting section 35 in the component mounting system 1 shown in this embodiment is configured to be located at a position where the cover tape 16b is cut before reaching the duct 20.

For example, the cutting part 35 may be arranged near the connection position with the duct 20 in the cover tape suction nozzle 21, like the cutting part 35 shown by the broken line in FIG. With such a configuration, it is possible to use a tape feeder that does not have a cutting section, and the configuration can be simplified and equipment costs can be reduced. Further, instead of the cutting section 35, the cutting section 24 may be used as a cover tape cutting section that cuts the cover tape 16b peeled off by the component supply device. In this case, the tape feeder 13 and the cutting part 35 of the cover tape suction nozzle 21 can be omitted, making it possible to further reduce costs.

However, in this case, when removing the tape feeder 13 from the cart 11, it is necessary to pull out the cover tape 16b drawn into the duct 20. Therefore, in consideration of the work of removing the tape feeder 13, it is preferable to have a structure that can cut the cover tape 16b before it reaches the duct 20, that is, to arrange the cutting part 35 on the tape feeder 13 or the cover tape suction nozzle 21.

Next, referring to FIG. 6, a manner in which the tape feeder 13 is allowed to access the cover tape suction nozzle 21 and the duct 20 that constitute the cover tape collection section, and how the access is released will be described. FIG. 6A shows a state in which the duct 20 and the cover tape suction nozzle 21 held by the duct holding part 14 are slid forward to bring the packing 21b of the extension pipe 21a into close contact with the outlet 33a. In this state, the cover tape suction nozzle 21 is connected to the second conveyance path 33. Collection of the cover tape 16b by the duct 20 shown in FIG. 5 is performed in this state. That is, the position of the duct 20 shown in FIG. 6(a) is the first position where the cover tape 16b can be collected from the plurality of tape feeders 13.

FIG. 6(b) shows a state in which the duct 20 and the cover tape suction nozzle 21 held by the duct holding part 14 are slid backward, and the packing 21b is separated from the outlet 33a. By operating the feed mechanism 26 shown in FIG. 3, the cover tape suction nozzle 21 and duct 20 that constitute the cover tape collection section move rearward together with the duct holding section 14 (arrow g).

As a result, the outlet 33a and the packing 21b are separated by the gap S, and maintenance such as removing clogs in the second conveyance path 33 and the cover tape suction nozzle 21 can be performed. That is, the position of the duct 20 shown in FIG. 6(b) is a second position away from the plurality of tape feeders 13. Thus, in this embodiment, the duct 20 is movable between the first position and the second position described above.

Next, referring to FIG. 7, a description will be given of the operation of attaching and detaching the tape feeder 13 to and from the feeder base 12, which is a predetermined position provided on the trolley body 11a for attaching the tape feeder 13. As shown in FIG. 6, when the duct 20 and the cover tape suction nozzle 21 are accessed to the feeder front part 13a, the cover tape suction nozzle 21 is located at the same height level as the feeder front part 13a. 13 cannot be attached to or detached from the feeder base 12. Therefore, in this embodiment, as shown in FIG. 7(a), the duct 20 is rotatable (arrow h) about the rotation axis [AX] extending in the longitudinal direction (direction perpendicular to the paper surface in FIG. 7). It is composed of

As a result, the posture of the cover tape suction nozzle 21 connected to the duct 20 is changed so that the cover tape suction nozzle 21 is in a horizontal direction and the tip of the extension pipe 21a is positioned above the height level of the feeder front section 13a. The posture can be changed to Therefore, in the mounting operation (arrow i) of sliding the feeder front part 13a forward along the upper surface of the feeder base 12, no interference occurs between the cover tape suction nozzle 21 and the feeder front part 13a. After the tape feeder 13 is mounted on the feeder base 12, by rotating the duct 20 around the rotation axis [AX], the mounting state shown in FIG. 6(a) can be realized.

In addition, when removing the tape feeder 13 from the attached state, the posture of the cover tape suction nozzle 21 is adjusted so that the tip of the extension tube 21a is above the height level of the feeder front section 13a, as in FIG. 7(a). Change the posture to the position. In this state, as shown in FIG. 7(b), a separation operation (arrow j) of sliding the tape feeder 13 backward is performed. Even in this separation operation, the tape feeder 13 can be removed without interference between the extension pipe 21a and the feeder front section 13a.

In this way, the component supply trolley 11 of the component mounting system 1 shown in this embodiment has a configuration in which the relative positions or postures of the duct 20, the cover tape suction nozzle 21, and the feeder base 12 can be changed. . With this configuration, the cover tape collection section can be changed to a posture that does not interfere with attachment and detachment of the tape feeder 13 to and from the feeder base 12, which is a predetermined position.

Next, with reference to FIG. 8, a configuration will be described in which the cover tape 16b from which the tape feeder 13 shown in this embodiment is peeled is stored in the storage case 40 and recovered. The tape feeder 13 shown in FIG. 8(a) has the same configuration as the tape feeder 13 shown in FIGS. 4 and 5, and the second transport path 33 formed in the feeder front part 13a is It opens at the outlet 33a at the rear end of 13a. A storage case 40 for storing the cover tape 16b is removably attached to a compartment formed by the rear end portion of the feeder front portion 13a and the upper surface portion of the feeder rear portion 13b (arrow k). The inside of the storage case 40 is a storage space 40a that stores the cover tape 16b. An inlet 40b is provided at a position corresponding to the outlet 33a when it is attached to the tape feeder 13.

FIG. 8B shows a state in which the storage case 40 having such a configuration is attached to the tape feeder 13 and the tape feeder 13 is operated. That is, similar to the example shown in FIG. 4(b), the carrier tape 16 guided to the first conveyance path 30 is conveyed downstream by the loading section 31. As a result, the leading end of the carrier tape 16 is drawn toward the downstream side of the first conveyance path 30. Next, when the leading end of the carrier tape 16 reaches the position of the cover tape peeling part 34, the cover tape 16b is peeled from the carrier tape 16 by the cover tape peeling part 34.

The peeled cover tape 16b is guided by the second conveyance path 33 and conveyed toward the outlet 33a, and is fed into the storage space 40a via the introduction port 40b (arrow m). When the storage space 40a is filled with the cover tape 16b, the cover tape 16b in the storage space 40a is collected and discarded through a take-out opening (not shown) provided in the storage case 40. That is, the example shown here includes a removable storage case 40 that stores the cover tape 16b discharged from the outlet 33a.

As described above, the component mounting system 1 according to the present embodiment peels off the cover tape 16b that covers the upper part of the component storage section of the carrier tape 16 that stores components, and removes the cover tape 16b from which the cover tape 16b is peeled off. A plurality of tape feeders 13 transport the components to the component take-out position 13c, a component mounting device 2 takes out the components from the component storage section and mounts them on the board 4 at the component take-out position 13c of the plurality of tape feeders 13, and the tape feeder 13 peels off the components. The present invention is configured to include a cutting section 35 that cuts the removed cover tape 16b, and a cover tape collecting section that collects the cover tape 16b peeled off from the plurality of tape feeders 13. Thereby, the recovery process of the cover tape 16b peeled from the carrier tape 16 in the tape feeder 13 can be efficiently automated with a simple mechanism.

Further, the component supply device (tape feeder) shown in the present embodiment includes a first conveyance path 30 that guides the carrier tape 16 in which a plurality of component storage sections storing components are arranged in a row; A cover tape peeling section 34 peels off the cover tape 16b covering the upper part of the component storage section from the moving carrier tape 16, and the cover tape 16b is peeled off by conveying the carrier tape 16 along the first conveyance path 30. a carrier tape conveyance section 32 that stops the component storage section that has been removed at a component take-out position 13c, and a hollow second conveyance path 33 that has an inlet 33b and an outlet 33a and guides the cover tape 16b peeled off from the carrier tape 16. The outlet 33a is formed at a position accessible to a cover tape collecting section for collecting the peeled off cover tape 16b. With this configuration, the recovery process of the cover tape 16b peeled from the carrier tape 16 can be efficiently automated with a simple mechanism.

Further, in the component mounting system and the component supply cart shown in this embodiment, the cover tape 16b covering the upper part of the component storage section of the carrier tape 16 for storing components is peeled off, and the component storage section from which the cover tape 16b is peeled off is removed. A tape feeder 13 that conveys the tape feeder 13 to a component removal position 13c, a cart 11 equipped with a feeder base 12 that can set a plurality of tape feeders 13 side by side, and a cart holding section 7 that can detachably hold the cart 11. and a component mounting device 2 that takes out a component from a component takeout position 13c of a tape feeder 13 set on a feeder base 12 of a trolley 11 held by a trolley holding part 7 and mounts it on a predetermined position on a board 4. In the component mounting system 1, the cart 11 has a duct 20 that collects the cover tape 16b peeled off by the tape feeder 13 using fluid force. With this configuration, the recovery process of the cover tape 16b peeled from the carrier tape 16 in the tape feeder 13 can be efficiently automated with a simple mechanism.

Next, a modification of this embodiment will be described with reference to FIGS. 9 and 10. In the above embodiment, a configuration is used in which the cover tape 16b peeled from the carrier tape 16 is collected by the duct 20 equipped with the cover tape suction nozzle 21. However, in the modification shown below, the cover tape suction nozzle 21 is A duct 120 that does not have this structure is used.

FIG. 9 shows the configuration and function of the tape feeder 113 in a modified example. In FIG. 9, the tape feeder 113 is provided with a feeder front part 113a and a feeder rear part 113b having the same functions as the feeder front part 13a and feeder rear part 13b in the tape feeder 13 shown in FIG. The feeder front portion 113a has a different shape from the feeder front portion 13a, and its rear end portion extends above the feeder rear portion 113b containing the feeder control portion 13e. That is, the overall shape of the tape feeder 113 is such that only the loading portion 31, which is an expansion unit attached to the rear of the feeder rear portion 113b, protrudes rearward.

The tape feeder 113 is provided with a first transport path 130 similar to the first transport path 30 in the tape feeder 13 . That is, the first conveyance path 130 is the same route as the first conveyance path 30, and extends from the insertion port 130a opened in the rear portion 113b of the feeder to the discharge port 130b opened in the front portion 113a of the feeder. The tape feeder 113 is provided with a cover tape peeling section 34 having the same configuration and function as the cover tape peeling section 34 in the tape feeder 13 . The cover tape peeling unit 34 peels off the cover tape 16b at the leading end of the carrier tape 16 moving on the first conveyance path 130.

The feeder front section 113a is provided with a second conveyance path 133 that guides the cover tape 16b peeled off from the carrier tape 16 by the cover tape peeling section 34. The second transport path 133 has an inlet 133b for taking in the peeled cover tape 16b and an outlet 133a for discharging the cover tape 16b. The inlet 133b opens at a position facing the air blow mechanism 34b, and the outlet 133a opens upward into the upper surface of the feeder front section 113a near the rear end of the feeder front section 113a. A seal member 113g is attached to the upper surface of the feeder front portion 113a surrounding the outlet 133a. Furthermore, the second conveyance path 133 is provided with an auxiliary blow mechanism 33c, a cutting section 35, and an operation panel 13f similar to those of the tape feeder 13 shown in FIG.

As shown in FIG. 10(a), a duct 120 is arranged on the upper surface of the feeder front section 113a, above the outlet 133a. The duct 120 has the same function as the duct 20 shown in FIG. 5, and is a hollow tube extending in the direction in which the plurality of tape feeders 113 are arranged. A plurality of suction ports 120b for drawing in the cover tape 16b are provided on the lower side surface of the duct 120 at a plurality of positions corresponding to the plurality of tape feeders 113, corresponding to the arrangement of the tape feeders 113 on the feeder base 12. It is being Further, around the suction port 120b, a convex portion 120c that can be brought into contact with and separated from the seal member 113g is provided to protrude downward. Note that the suction port 120b corresponding to the position where the tape feeder 113 is not arranged is closed with a blind plug.

The duct 120 is held at both ends by the duct holding part 14, and by driving the duct holding part 14 up and down by a lifting mechanism (not shown), the duct 120 moves up and down, and the convex part 120c comes into contact with and separates from the sealing member 113g. do. As shown in FIG. 10(a), by bringing the convex portion 120c into contact with the sealing member 113g, the second conveyance path 133 and the duct 120 communicate with each other via the suction port 120b. Thereby, the cover tape 16b in the second conveyance path 133 can be sucked into the duct 120. The position of the duct 120 shown in FIG. 10A corresponds to a first position where the cover tape 16b can be collected from the plurality of tape feeders 113.

In this way, by directly connecting the suction port 120b and the outlet 133a, the negative pressure generated within the duct 120 is efficiently applied to the second conveyance path 133 with little loss, and the cover tape 16b is The suction can be efficiently drawn into the duct 120. The suctioned cover tape 16b is collected into the collection container 19 via the connecting pipe 23 and the discharge chute 27 by suction by the suction source 25 or air blow by the blow device 28 (see FIG. 3). In this configuration, the suction source 25 and the duct 120 or the blow device 28 and the duct 120 constitute a cover tape collection unit that collects the cover tape 16b using fluid force.

FIG. 10(b) shows a state in which the duct holding part 14 is raised together with the duct 120 (arrow n), and the convex part 120c is separated from the sealing member 113g. In this state, the duct 120 is in a second position away from the plurality of tape feeders 113. That is, the duct 120 is movable between a first position where the cover tape 16b can be collected from the plurality of tape feeders 113 and a second position away from the plurality of tape feeders 113.

Further, in the state shown in FIG. 10(b), the duct 120 is located away from the feeder front portion 113a, and there is no obstacle that prevents the tape feeder 113 from moving in the attachment/detachment direction on the upper surface of the feeder base 12. That is, the position of the duct 120 shown in FIG. 10(b) is a position (retracted position) that does not interfere with attachment and detachment of the tape feeder 113 to and from the feeder base 12, which is a predetermined position where the tape feeder 113 is attached, and the position of the duct 120 shown in FIG. The tape collecting section is movable so that the duct 120 is located at the above-mentioned retracted position.

In the above-mentioned modification, a configuration is adopted in which the duct holding part 14 that holds the duct 120 is moved to a position where it does not interfere with the attachment and detachment of the tape feeder 113, in order to connect or disconnect the duct 120 to the second conveyance path 133. are doing. Here, by arranging the suction port 120b of the duct 120 and the outlet 133a of the second conveyance path 133 to face each other vertically, the duct 120 can be moved up and down by a simple movement of raising and lowering the duct holding part 14. It is possible to connect or disconnect from the line 133. Note that instead of raising and lowering the duct holding part 14, the duct 120 itself may be raised and lowered.

INDUSTRIAL APPLICABILITY The component supply device of the present invention has the effect of efficiently automating the recovery process of cover tape peeled from a carrier tape with a simple mechanism, and is suitable for use in the field of mounting components supplied by a tape feeder on a board. It is useful in

1 Component mounting system 2 Component mounting device 4 Board 7 Cart holding unit 10 Component supply unit 11 Cart 12 Feeder base 13,113 Tape feeder (component supply device)
13c Parts removal position 13e Feeder control section 13f Operation panel (input section)
16 carrier tape 16b cover tape 19 collection container 20, 120 duct 21 cover tape suction nozzle 25 suction source 30, 130 first conveyance path 31 loading section 32 carrier tape conveyance section 33, 133 second conveyance path 33a, 133a outlet 33b , 133b Inlet 34 Cover tape peeling section 34a Roller 35 Cutting section 35a Cutting blade 35b Drive section 40 Storage case

Claims (7)

a first conveyance path that guides a carrier tape in which a plurality of component storage sections storing components are arranged in a row;
a cover tape peeling unit that peels off a cover tape covering an upper part of the component storage section from a carrier tape moving on the first conveyance path;
a carrier tape transport unit that transports the carrier tape along the first transport path to stop the component storage unit from which the cover tape has been peeled off at a component removal position;
a second conveyance path that guides the cover tape peeled from the carrier tape;
a cutting section that cuts the peeled cover tape;
a control unit that drives the cutting unit;
an input section connected to the control section,
The control unit is a parts supply device that drives the cutting unit to cut the cover tape when there is an input from the input unit to cut the cover tape. a first conveyance path that guides a carrier tape in which a plurality of component storage sections storing components are arranged in a row;
a cover tape peeling unit that peels off a cover tape covering an upper part of the component storage section from a carrier tape moving on the first conveyance path;
a carrier tape transport unit that transports the carrier tape along the first transport path to stop the component storage unit from which the cover tape has been peeled off at a component removal position;
a second conveyance path that guides the cover tape peeled from the carrier tape;
a cutting section that cuts the peeled cover tape;
A control unit that drives the cutting unit,
In the component supply device, the control unit drives the cutting unit to cut the cover tape when receiving a command to cut the cover tape from an external device. The component supply device according to claim 1 or 2, wherein the cutting section is arranged in the middle of the second conveyance path. 2. The second conveyance path has an outlet through which the carrier tape is discharged, and the outlet is formed at a position accessible to a cover tape recovery unit that recovers the peeled cover tape. Or the parts supply device according to 2. The component supply device according to claim 1 or 2, wherein the second conveyance path has an outlet through which the carrier tape is discharged, and a removable storage case that stores the cover tape discharged from the outlet. . Furthermore, the cover tape peeling section includes a loading section that draws a leading end of the carrier tape inserted into the entrance of the first transport path to the downstream side of the first transport path, and the cover tape peeling section The component supply device according to claim 1 or 2, wherein the cover tape of the moving tip portion is peeled off. The component supply device according to claim 1 or 2, wherein the cover tape peeling section includes a pair of rollers capable of capturing the cover tape at the leading end of the carrier tape moving on the first conveyance path.

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