JP4226827B2 - Electronic circuit component supply system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention is a feeder that accommodates electronic circuit components.A system that supplies electronic circuit components using a pallet with feeders mounted on multiple palletsIt is related.
[0002]
[Prior art]
In the electronic circuit component supply system, there is a system for supplying an electronic circuit component which is a component of the electronic circuit by a plurality of feeders. Each of the plurality of feeders accommodates one type of electronic circuit component, and the electronic circuit components are sequentially sent to the supply unit. Conventionally, the plurality of feeders have been detachably supported in a state where the supply units are aligned on the table, but the applicant of the present invention has not yet been disclosed. In the 2001-95549 application, it has been proposed to support a plurality of feeders on a pallet and to support the pallet on a moving table.
[0003]
If a plurality of feeders are supported on a pallet, a plurality of feeders can be attached to and detached from the table all at once by attaching and detaching the pallet to the moving table. It can be carried out. For example, when the electronic circuit component supply device is provided in the electronic circuit component mounting system and the electronic circuit component supplied by the electronic circuit component supply device is mounted on the circuit board by the component mounting device, the type of the circuit board is changed, When replacement is performed, in the electronic circuit component supply device, the feeder is replaced with one that accommodates electronic circuit components according to the type of the circuit board. At this time, if a pallet on which a feeder corresponding to the circuit board is mounted is prepared in advance, the feeder on which the electronic circuit components on the table have been supplied is removed from the table together with the pallet and then the electronic circuit component is supplied. The feeder can be quickly replaced by attaching the pallet together with the table. At the time of setup change, the number of feeders to be exchanged is often large, and if the feeders are exchanged for each pallet, the exchange can be performed in a shorter time than when the feeders are exchanged one by one.
[0004]
[Problems to be solved by the invention, means for solving problems and effects]
However, conventionally, the feeder-mounted pallet on which the feeder is mounted has not been stored as it is.
[0005]
  The present invention has been made with the background of the above situation as an object of enabling a pallet with a feeder to be stored as it is, and (A) storing a large number of electronic circuit components of one type each. Multiple feeders that sequentially feed circuit components to the supply unit, multiple pallets with feeders mounted on the pallet with the supply units aligned along a straight line, and (B) at least one of the multiple pallets with feeders A pallet storage device capable of supporting (C) a pallet support base that selectively supports a plurality of pallets with feeders, and supporting and transporting the pallets with feeders by the pallet support bases; and (D) A table for selectively detachably supporting a pallet with a plurality of feeders is provided, and electronic from a plurality of feeders of the pallet with a feeder supported by the table. And a selectively supplying component supplying device road component, between the pallet storage device and the pallet conveying carriage, and between the pallet conveying carriage and the component supplying device, palletized feederAre transferred in a pallet transfer direction orthogonal to the straight line in a substantially horizontal plane.In the electronic circuit component supply system, (i) the first connecting device that can connect the pallet transport cart and the pallet storage device so as not to move relative to each other, and (ii) the pallet transport cart and the component supply device can be connected so as not to move relative to each other. And a second connecting device.
In this way, if the first and second coupling devices are provided, the transfer of the pallet with feeder between the pallet storage device and the pallet conveyance carriage and between the pallet conveyance carriage and the parts supply device is facilitated. The effect becomes.
[0006]
  The present invention further provides a pallet storage unit, a pallet storage device, and an electronic circuit component supply system according to the following aspects. As with the claims, each aspect is divided into sections, each section is numbered, and is described in a form that cites the numbers of other sections as necessary. This is for the purpose of facilitating understanding of the present invention, and should not be construed as limiting the technical features described in the present specification and the combinations thereof to those described in the following sections. . In addition, when a plurality of items are described in one section, it is not always necessary to employ the plurality of items together. It is also possible to select and employ only some items.
  Note that some of the inventions described in the claims and subordinate concepts of the invention are no longer present due to the amendment of the claims, but it is useful for understanding the invention described in the claims. Since there are many such descriptions, they will be left as they are.
[0007]
(1) A plurality of feeders each containing one type of electronic circuit component and sequentially feeding the electronic circuit components to the supply unit, and at least a pallet with feeder mounted on the pallet with the supply units aligned in a straight line A pallet storage unit in which a plurality of storage units each having a storage space for storing one unit can be arranged.
At least one pallet with feeder is stored in one pallet storage unit, and a plurality of pallets with feeder are stored in a plurality of arranged pallet storage units. If the pallet with feeders is stored in the pallet storage unit, for example, a plurality of pallets with feeders on which necessary feeders are mounted can be prepared and stored in advance. Can be provided. Moreover, a plurality of pallets with feeders can be managed together.
Each storage unit has an independent configuration, and a plurality of storage units can be arranged. The storage units can be added, relocated, reduced, etc. according to the number of pallets with feeders to be stored.
(2) The pallet storage unit according to (1), including a unit connecting device that connects a plurality of the pallet storage units.
The connecting device can connect the left and right pallet storage units, or can connect the upper and lower storage units.
A plurality of pallet storage units may be arranged side by side. If the pallet storage units are connected by the pallet connecting device, the pallet storage units are stably installed.
(3) The pallet storage unit according to (1) or (2), wherein the pallet storage space is provided in a plurality of stages in the vertical direction.
According to this section, a plurality of pallets with feeders can be stored vertically in one pallet storage unit, and a plurality of pallets with feeders can be stored in a small space.
The features described in any of (5) to (11) below can be applied to the storage unit described in any of (1) to (3) above.
[0008]
(4) A pallet storage device in which a plurality of pallet storage units according to any one of (1) to (3) are connected.
[0009]
(5) A large number of electronic circuit components of one type are accommodated, a plurality of feeders for sequentially sending the electronic circuit components to the supply unit, and a pallet with feeder mounted on the pallet with the supply units aligned on a straight line. A pallet storage device,
A pallet storage device including a pallet support table that supports the pallet with feeder so as to be movable in a pallet transfer direction orthogonal to the straight line in a substantially horizontal plane.
If the pallet with feeder is stored in the pallet storage device, it is possible to prepare and store in advance the pallet on which the feeders necessary for supplying electronic circuit components are installed, and manage multiple pallets with feeders together. can do.
(6) The pallet support base includes a plurality of support rollers that can rotate around a rotation axis orthogonal to the pallet transfer direction, and the pallet with feeder is supported by the support rollers. The pallet storage device described.
The pallet with a feeder is supported by a support roller, and is smoothly moved by the rotation of the support roller when stored in the pallet storage device or taken out.
[0010]
(7) The pallet storage device according to (5) or (6), wherein the pallet support base is provided in a plurality of stages at a distance greater than the height of the pallet with feeder in the vertical direction.
According to the pallet storage device described in this section, a plurality of pallets with feeders are stored vertically, and a plurality of pallets with feeders are stored in a small space.
[0011]
(8) The pallet storage device according to any one of (5) to (7), including a support base lifting device that moves the pallet support base in the vertical direction.
According to the pallet storage device described in this section, the pallet support base is positioned at a plurality of positions having different heights. Therefore, for example, the pallet with feeder can be transferred at a plurality of positions, or the normal storage position and the transfer position can be made different. The width can be given to handling.
[0012]
(9) a pallet support base that supports the pallet with feeder so as to be movable in a pallet transfer direction orthogonal to the straight line in a substantially horizontal plane;
A support platform lifting device for moving the pallet support platform in the vertical direction;
The pallet storage device according to any one of (4) to (8), further including a movable storage unit having wheels and movable.
According to the pallet storage device described in this section, for example, when a plurality of storage spaces are provided in the pallet storage device, the pallet with feeder can be moved between the storage spaces by moving the movable storage unit.
Since the pallet support base is moved up and down in the movable storage unit, for example, in a pallet storage apparatus in which a plurality of pallet storage units are connected, a plurality of pallet support bases are provided in the upper and lower stages in the fixed storage unit and are not lifted or lowered. Also, the pallet with feeder can be transferred between the pallet support bases. In the fixed storage unit, the number of stages that can store the pallet with feeder can be set arbitrarily, but the height of the pallet with feeder that is actually used and the height or transfer of the fixed storage unit that is normally allowed in the factory From the viewpoint of ease of mounting work, it is desirable to have two or three stages.
Furthermore, when the stored pallet with feeder is transported by a carriage, a pallet is attached between the carriage and the pallet storage device by using a movable storage unit even if the pallet support base of the carriage cannot be raised or lowered. The feeder can be transferred. Further, the position at which the pallet feeder is transferred in the pallet storage device is fixed at one position, and the pallet with feeder is transferred between the pallet storage device and the carriage at that position. it can.
[0013]
(10) The pallet storage device according to any one of (4) to (9), wherein the pallet transport cart that transports the pallet with feeder includes a cart coupling device that can be coupled to the pallet storage device so as not to be relatively movable. .
The pallet transport cart is convenient when transporting the pallet with feeder to a position away from the pallet storage device. When the pallet transport cart receives or delivers a pallet with a feeder from the pallet storage device, if the pallet transport cart is connected to the pallet storage device by the pallet connection device, for example, the pallet transport cart is transferred to the pallet storage device during transfer of the pallet with feeder The pallet with feeder is transferred from the pallet storage device to the pallet transport cart, or the delivery of the pallet with feeder from the pallet transport cart to the pallet storage device is stable. Can be done.
[0014]
(11) A plurality of electronic circuit components of one type are accommodated, a plurality of feeders for sequentially sending the electronic circuit components to the supply unit, and a pallet with feeder mounted on the pallet in a state where the supply units are aligned. A pallet storage device,
A pallet storage device including a trolley coupling device capable of coupling a pallet conveyance cart for conveying the pallet with feeder to the pallet storage device so as not to be relatively movable.
[0015]
(12) The pallet storage device according to any one of (4) to (11);
A pallet carrier for supporting the pallet with feeder, and supporting the pallet with feeder by the pallet carrier;
Including electronic circuit parts supply system.
[0016]
(13) A feeder that accommodates a large number of electronic circuit components of one type each and sequentially sends the electronic circuit components to the supply unit, a pallet that supports the plurality of feeders in a state in which the supply units are aligned, and The electronic circuit component supply system according to item (12), including a component supply device including a table that removably supports the pallet and a bed that supports the table.
The table may be a fixed table provided with a fixed position, or a movable table provided so as to be movable in a direction parallel to a straight line in which the supply units are arranged and moved by a table moving device.
In the electronic circuit component supply system described in this section, the pallet transport carriage receives or stores the pallet with feeder with the pallet storage device, and receives or delivers the pallet with feeder with the component supply device. And carry.
[0017]
(14) The electronic circuit component supply system according to item (12) or (13), including a workbench that supports the pallet with feeder.
If the work table is provided, for example, a pallet with a feeder can be set on the work table, and a feeder replacement operation or a replenishment operation of electronic circuit components for the feeder can be easily performed.
[0018]
(15) A connecting device is provided between the bed and the pallet transport carriage, and is capable of connecting the pallet transport carriage and the bed even when the component supply device supplies electronic circuit components. The electronic circuit component supply system according to item 13) or (14).
The pallet transport carriage is connected to the component supply device, for example, receives a pallet with a feeder from the component supply device, or delivers the pallet with a feeder to the component supply device. The receipt or delivery of a pallet with a feeder between the parts supply device and the pallet transport carriage is performed, for example, to replace the feeder, or to remove the feeder from the table and transport it to a place different from the table. Done. The replacement of the feeder is performed, for example, when the type of the electronic circuit component to be supplied is changed, or when the electronic circuit component is supplied to one of the feeders.
If the pallet transport cart is connected to the bed by the connecting device, the pallet transport cart moves with respect to the component supply device when the pallet with feeder is delivered or delivered between the component supply device and the pallet transport cart. It can be received or delivered stably without shifting.
If the pallet transport cart can be connected to the bed even when the component supply device is supplying the electronic circuit components, for example, the pallet transport cart is previously set prior to receiving or delivering the pallet with feeder. Can be connected to the bed. As a result, if it is necessary to receive or deliver the pallet with feeder due to the end of the supply of the electronic circuit components, it can be performed immediately, and the time required for receiving the pallet with feeder is reduced.
The features described in the items (15) to (34) can be applied to the connecting device and the pallet storage device described in the item (10).
[0019]
(16) The component supply device includes an open / close cover that is movable to a closed position that covers the pallet and the feeder and an open position that does not cover them, with the pallet and the feeder supported by the table, The electronic circuit component supply system according to (15), wherein the connecting device is capable of connecting the pallet transport carriage to the bed in a state where the opening / closing cover is in a closed position.
For example, the opening / closing cover is provided for the purpose of, for example, protecting the operator of the apparatus and sound insulation. Therefore, the opening / closing cover is not normally opened while the feeder supplies the electronic circuit components. According to this section, it is possible to connect the pallet transport carriage to the bed without opening the opening / closing cover, and while the electronic circuit components are being supplied, while maintaining the state where the pallet with feeder is covered with the opening / closing cover, A pallet transport cart can be connected to the bed.
[0020]
(17) The coupling device is
A first connecting portion provided on the pallet transport carriage;
A second connecting part provided on the bed so as to be connectable to the first connecting part;
A connection control device capable of taking a separation preventing state for preventing separation of the first and second connecting portions and a separation allowing state for allowing separation of the first and second connecting portions;
The electronic circuit component supply system according to (15) or (16).
The connecting device described in the item (18) is an example of the connecting device described in the item (17). The connecting device is not limited to the mode of item (18), and various modes can be adopted.
[0021]
(18) The coupling device is
A first engaging portion provided in a state of projecting forward on the pallet transport carriage;
A receiving portion provided in the bed so as to receive the first engaging portion;
A second engagement portion that engages with the first engagement portion in a state in which the first engagement portion is received by the receiving portion and prevents the first engagement portion from being detached from the receiving portion;
The electronic circuit component supply system according to (15) or (16).
(19) The coupling device includes an engagement member driving device that moves the second engagement portion to an engagement position where the second engagement portion is engaged with the first engagement portion and a retracted position which is separated from the first engagement portion. The electronic circuit component supply system according to item (18).
[0022]
(20) The pallet transport cart is
A pallet support for supporting the pallet;
A support base support device provided with a support base support portion for supporting the pallet support base from below, and allowing at least a front portion of the pallet support base to be lifted from the support base support portion;
And at least one of the first engaging portion and the receiving portion is in a position lower than the height at which the first engaging portion is just received by the receiving portion. The electronic circuit component supply system according to (18) or (19), further comprising a guide portion that guides the first engaging portion and guides it to the receiving portion when approached to.
Even if the first engaging portion is at a position lower than the height that is just received by the receiving portion, the front portion of the pallet support base is lifted, so that the first engaging portion is positioned at a position that is just received by the receiving portion. The second engaging portion is engaged in the received state.
If the first engagement part is at a position higher than the height at which it is received by the receiving part, the first engaging part may not be received by the receiving part, and even if it is received, it may not be stably received. On the other hand, according to this section, the first engagement portion is positioned at a position lower than the height that is just received by the receiving portion, so that the receiving portion can be reliably and stably received.
[0023]
(21) The pallet transport cart is
A pallet support for supporting the pallet;
A support base support device provided with a support base support portion for supporting the pallet support base from below, and allowing at least a front portion of the pallet support base to be lifted from the support base support portion;
The electronic circuit component supply system according to any one of (12) to (19).
According to this section, for example, the cart can be reliably connected to the bed by lifting the pallet support at least at the front portion.
[0024]
(22) The pallet transport cart is
A pallet support for supporting the pallet;
A support platform elevating device for elevating the pallet support platform to at least two heights, a first height at which the pallet can be exchanged with the table and a second height different from the first height;
The electronic circuit component supply system according to any one of (12) to (21).
[0025]
(23) A plurality of the pallet support bases are provided at a distance in the vertical direction, and the first height and the second height are such that one of the plurality of pallet support bases is between the table and the pallet. The electronic circuit component supply system according to item (22), wherein a height at which the pallet can be exchanged and a height at which another pallet support can exchange the pallet with the table.
In the electronic circuit component supply system described in this section, a plurality of pallets with feeders can be mounted on the pallet transport carriage. Thereby, for example, reception from the component supply device of the pallet with feeder to the pallet conveyance carriage and delivery from the pallet conveyance carriage to the component supply device can be continuously performed. It is possible to receive a pallet with a feeder from the component supply device in a state in which the pallet transport carriage supports the pallet with a feeder, and to transfer another pallet with a feeder originally supported to an empty table of the component supply device.
(24) The electronic apparatus according to item (23), wherein the plurality of pallet support bases are fixed to each other to form a pallet support frame, and the support base lift device is a support frame lift device that lifts and lowers the pallet support frame. Circuit component supply system.
The support frame lifting / lowering device may be a device in which an operator manually raises / lowers the pallet support frame, or may be a device that automatically raises / lowers. In the case of automatically raising and lowering, the support frame lifting device is, for example, a rotary electric motor (for example, a servo motor or a step motor) as an electric motor that is a kind of drive source, and a rotary motion of the rotary electric motor to lift and lower the pallet support frame. It is good also as an apparatus containing the motion conversion apparatus which converts into (1), or it is good also as an apparatus which has at least one fluid pressure cylinder which is a kind of fluid pressure actuator. When a fluid pressure cylinder is used, for example, a rodless cylinder is used. The rodless cylinder is a pneumatic cylinder without a piston rod. If a rodless cylinder is used, the working space of the support frame lifting device can be reduced.
(25) The electronic circuit component supply system according to (22), wherein the second height is a distance lower than the first height by a distance smaller than a height of the feeder.
According to this section, for example, even when there is a difference in height between the bed and the pallet transport carriage, the pallet with feeder can be delivered without any trouble. For example, the connecting device is configured so that the bed and the pallet transport cart can be connected even when the heights of the bed and the pallet transport cart do not match, and the pallet transport cart is connected to the bed and the pallet transport cart by the connecting device. The height of the pallet support table can be adjusted to the height of the table by the support table lifting device, and the pallet with feeder can be delivered. In addition, if necessary, the height of the pallet support table can be made lower when moving the pallet transport carriage than when the pallet with feeder is delivered to and from the table. Alternatively, if the front part of the pallet support base is allowed to float from the support base support part, the rear part can be raised to make the pallet support base a horizontal posture.
[0026]
(26) The support platform lifting device
Three or more lifting members provided at three or more places separated from each other in a direction parallel to the horizontal plane;
An elevating member driving device for elevating these three or more elevating members all at once;
The electronic circuit component supply system according to item (25).
According to the electronic circuit component supply system described in this section, for example, the pallet support can be lifted and lowered in a horizontal posture.
(27) The elevating member driving device includes:
An operation member operated by an operator;
A motion conversion device for converting the motion of the operating member into the lifting motion of the three or more lifting members;
The electronic circuit component supply system according to item (26), including:
(28) Of the three or more elevating members, at least the one located at the front portion of the pallet transport carriage supports the pallet support base by contacting the pallet support base from below. The electronic circuit component supply system described.
[0027]
(29) The component supply device
A guide member that supports the pallet and guides it in a substantially horizontal direction perpendicular to the straight line;
A lifting guide device for guiding the guide member in a substantially vertical lifting direction;
The electronic circuit component supply system according to any one of (13) to (28).
[0028]
(30) A guide device provided on the bed and supporting the table movably in a direction parallel to the straight line;
Positioning each supply section of the feeder at a predetermined component supply position by moving the table in a direction parallel to the straight line in the component supply area, provided between the bed and the table. A table moving device for retreating from the component supply area to a retreat area deviated in a direction parallel to the straight line;
The pallet on the table is lifted off the table and moved in the direction perpendicular to the straight line in a substantially horizontal plane while the table is moved to the evacuation area. Pallet lifter that supports
The electronic circuit component supply system according to any one of (13) to (29).
Receipt or delivery of a pallet with a feeder between the component supply device and the pallet transport carriage may be performed in a state where the table is located in the component supply region. However, in the electronic circuit component supply system described in this section, the pallet with feeder is received or delivered in a state where the table is retracted to the retracting area. When the table is a moving table, the pallet with feeder is engaged with the table so that it cannot move relative to the table at least in the direction of table movement, and is moved together with the table. Needs to be disengaged from the table. Therefore, the pallet lifter lifts the pallet with the feeder from the table to release the engagement, and the transfer between the pallet with the feeder and the pallet transport cart is allowed.
If a evacuation area is provided in addition to the component supply area, for example, a plurality of tables, for example, two units are provided, and the pallet with feeder is transferred in one table to supply electronic circuit components to the feeder. Thus, the electronic circuit component can be supplied by a feeder of a pallet with a feeder supported on the other table. In the above one table, the supply of electronic components is suspended. For example, even when a bed or the like is covered with a cover, the pallet with feeder can be transferred by opening the opening / closing cover.
[0029]
(31) The component supply device
A guide member that supports the pallet and guides it in a substantially horizontal direction perpendicular to the straight line;
A lifting guide device for guiding the guide member in a substantially vertical lifting direction;
The electronic circuit component supply system according to item (30).
(32) The pallet lifter is
Three or more movable support members provided at three or more locations separated from each other in a direction substantially parallel to the horizontal plane;
The three or more movable support members are moved up and down simultaneously to an operation position where the guide member is brought into contact with the guide member from below and the guide member is raised, and a non-operation position which is separated from the guide member after the guide member is lowered. A movable support member driving device;
The electronic circuit component supply system according to (31), including:
By moving the three or more movable support members up and down all at once, the pallet with feeder can be raised and lowered stably without the feeder tilting in a horizontal posture.
The movable support member is separated from the guide member, and allows the pallet with feeder to move together with the moving table when the electronic circuit component is supplied.
[0030]
(33) A feeder that accommodates a large number of electronic circuit components of one type each and sequentially sends the electronic circuit components to the supply unit, a pallet that supports the plurality of feeders in a state where the supply units are aligned, and A component supply device including a table that detachably supports the pallet;
Receiving the pallet from the component supply device, or delivering the pallet to the component supply device and conveying the pallet;
In an electronic circuit component supply system including
In the pallet transport cart,
A pallet support for supporting the pallet;
A support platform elevating device for elevating the pallet support platform to at least two heights, a first height at which the pallet can be exchanged with the table and a second height different from the first height;
Electronic circuit component supply system provided with.
The features described in the items (23) to (28) are applicable to the electronic circuit component supply system of this item.
[0031]
(34) A feeder that accommodates a large number of electronic circuit components of one type each and sequentially sends the electronic circuit components to the supply unit, a pallet that supports the plurality of feeders in a state where the supply units are aligned, and A component supply device including a table that detachably supports the pallet;
Receiving the pallet from the component supply device, or delivering the pallet to the component supply device and conveying the pallet;
In an electronic circuit component supply system including
A bed that movably supports the table in a direction parallel to the straight line;
Positioning each supply section of the feeder at a predetermined component supply position by moving the table in a direction parallel to the straight line in the component supply area, provided between the bed and the table. A table moving device for retreating from the component supply area to a retreat area deviated in a direction parallel to the straight line;
The pallet on the table is lifted off the table, and is moved in a substantially horizontal direction perpendicular to the straight line, provided on the bed in the retreat area and the table being moved to the retreat area. Supporting pallet lifter and
Electronic circuit component supply system provided with.
According to this section, for example, the operation and effect described in the section (30) can be obtained.
The characteristics described in each of the items (31) and (32) are applicable to the electronic circuit component supply system according to this item.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In FIG. 1, reference numeral 10 denotes a bed of the electronic circuit component mounting system 12. On the bed 10, a printed wiring board holding device 14 (hereinafter referred to as a wiring board holding device 14) as a substrate holding device, a mounting device 16, an electronic circuit component supply device (hereinafter abbreviated as a component supply device) 18, and the like. The electronic circuit component mounting system 12 is configured.
[0033]
The wiring board holding device 14 will be described.
The wiring board holding device 14 horizontally holds a printed wiring board 30 which is a kind of circuit board, and an XY coordinate plane defined by an X axis and a Y axis orthogonal to each other by an XY table 32 which is a board holding device moving device. It can be moved to any position above. The XY coordinate plane is a coordinate plane set for the entire electronic circuit component mounting system 12, and is a horizontal plane in the present embodiment. On the XY coordinate plane, various moving members such as the wiring board holding device 14 are arranged. Movement data and the like are set.
[0034]
The XY table 32 includes an X-axis slide 44 that is guided by a guide device including a guide rail 42 and moved in the X-axis direction by an X-axis slide moving motor 38 and a ball screw 40 as a feed screw, and the X-axis slide. 44, a Y-axis slide 52 that is guided by a guide device including a guide rail 50 and moved in the Y-axis direction by a Y-axis slide moving motor 46 and a ball screw 48 as a feed screw.
[0035]
The Y-axis slide 52 supports the wiring board holding device 14 horizontally from below. Although not shown, the wiring board holding device 14 includes a clamping device that clamps the printed wiring board 30 and a support device that supports the printed wiring board 30. The printed circuit board 30 is mounted with the electronic circuit components. The mounting surface is held in a horizontal position.
[0036]
A plurality of mounting positions where electronic circuit components are mounted are set in advance on the surface or upper surface of the printed wiring board 30, and the printed wiring board 30 is moved in a plane parallel to the surface by the movement of the wiring board holding device 14. Then, it is moved in the horizontal plane, and the mounted positions are sequentially positioned at positions corresponding to the component mounting positions planned for the mounting apparatus 16 described later.
[0037]
As shown in FIG. 1, a plurality of, in this embodiment, two reference marks 64 are provided on the surface of the printed wiring board 30, for example, at positions separated on a diagonal line of the printed wiring board 30. An image is picked up by a reference mark camera 66 as a reference mark image pickup device, and each horizontal position error of a plurality of mounted positions is detected based on the image pickup data. The reference mark camera 66 is fixedly attached to the frame of the mounting device 16 with its position fixed by a holding member (not shown).
[0038]
The mounting device 16 will be described.
In the illustrated example, the mounting device 16 is configured similarly to the mounting device described in, for example, Japanese Patent Laid-Open No. 6-342998, and will be briefly described with reference to FIG.
The mounting device 16 includes a plurality of, for example, 12 sets of mounting heads 70 and a head swiveling device 72 which is a kind of head moving device, and these as a device main body supported by the bed 10 via a column 81. It is provided on a frame (not shown). In the present embodiment, the mounting head 70 holds a suction nozzle 76 (a part of which is shown in FIG. 2), which is a type of component holder, and receives electronic circuit components from the component supply device 18 and prints a printed wiring board. Attach to 30. The suction nozzle 76 sucks the electronic circuit components by negative pressure.
[0039]
The plurality of mounting heads 70 are held at equiangular intervals on the intermittent rotating disk 74 of the head turning device 72, and the intermittent rotating disk 74 is driven by an intermittent rotating device that uses an intermittent rotation motor 78 (see FIG. 25) as a drive source. By intermittently rotating the 12 sets of mounting heads 70 by an angle equal to the arrangement angle interval of the 12 sets of mounting heads 70, the 12 sets of mounting heads 70 sequentially receive a component receiving position, a component holding posture detection position, a component posture correction position, and a component mounting position. The electronic circuit components are received and mounted, etc. In FIG. 1, reference numeral 80 denotes an electronic circuit component imaging system provided at a component holding posture detection position. The electronic circuit component imaging system 80 includes component cameras 82 and 84 as imaging devices, images the electronic circuit components held by the suction nozzle 76, and holds the electronic circuit components by the suction nozzle 76 based on the imaging data. An error is detected.
[0040]
The component supply device 18 will be described.
As shown in FIG. 1, the component supply device 18 moves a first component supply table 120, a second component supply table 122, and a movement table (described later) constituting the tables 120, 122, respectively. Two table moving devices 124 and 126 are provided. The configurations of the first and second component supply tables 120 and 122 are the same, and the first component supply table 120 will be described as a representative.
[0041]
As shown in FIGS. 1 and 3, the first component supply table 120 includes a plurality of feeders 130, a pallet 132 on which the feeders 130 are detachably mounted, and a feeder support base that detachably supports the pallet 132. And a moving table 134 as a table.
[0042]
Each of the plurality of feeders 130 accommodates one type of electronic circuit component. The electronic circuit component 140 (see FIG. 2) supplied by the feeder 130 is a taped electronic circuit component 142 in this embodiment. The taped electronic circuit component 142 is obtained by taping a large number of electronic circuit components with a carrier tape 144 and a cover tape 146 in a state of being arranged at a constant pitch in the longitudinal direction of the tape. It is wound and held on a reel 150 (see FIG. 3) which is a circuit component holder.
[0043]
2 and 3, the feeder 130 includes a reel holding device 170 (not shown in FIG. 2), which is a kind of tape holding device, a first feeding device 172, a second feeding device 174, and A cover tape storage device 176 and the like are provided. Although the feeder 130 is not yet disclosed, it is configured in the same manner as the feeder described in the application of Japanese Patent Application No. 2000-216038 related to the present applicant, and will be briefly described.
[0044]
As shown in FIG. 2, the feeder main body 180, which is the main body of the feeder 130, is formed by integrally fixing a plurality of members to each other for convenience of manufacturing, and the rear part of the feeder main body 180 (attached to the moving table 134). 3, a reel holding device 170 is provided in a portion located on the side opposite to the mounting device 16 side as shown in FIG. 3. In this embodiment, the reel holding device 170 is configured in the same manner as the reel holding device described in JP-A-9-29550, and includes a reel container 190 and a plurality of rotation support members that are a kind of reel support members. A support roller 192 is provided, and the support roller 192 constitutes a reel holding unit.
[0045]
The taped electronic circuit component 142 is pulled out from the reel 150, placed on an upward and horizontal tape support surface provided in the feeder main body 180, and supported from below, and is unidirectionally driven by the first feeding device 172 shown in FIG. In the present embodiment, the electronic circuit components 140 are sequentially sent to the supply unit and positioned by being fed at a constant pitch in the longitudinal direction of the feeder main body 180. When supplying the electronic circuit component 140, the supply unit is located below the suction nozzle 76 positioned at the working position of the mounting head 70 positioned at the component receiving position of the mounting device 16, and electronically is supplied to the suction nozzle 76. This is a part for supplying the circuit component 140. The cover tape 146 is peeled off from the carrier tape 144 by the second feeding device 174 and sent to the cover tape storage device 176, and sent to the storage case 270 and stored.
[0046]
The feeder 130 is positioned on the pallet 132 and fixed detachably. As shown in FIG. 3, the pallet 132 is provided with a positioning device 320, a fixing device 322, and a reel holding device vibration preventing device 324, and each of the plurality of feeders 130 is arranged in the front-rear direction (a direction parallel to the longitudinal direction of the feeder 130). And fixed in a state of being positioned in the horizontal direction (the direction parallel to the Y-axis direction), the left-right direction (the width direction of the feeder 130 and parallel to the X-axis direction), and the vertical direction. The plurality of feeders 130 are removably attached to and supported by the pallet 132 in a state where the supply portions thereof are aligned on a single line, for example, horizontal and parallel to the X axis, and the reel holding device 170 prevents the reel holding device from vibrating. Supported by device 324. The pallet 132 on which the plurality of feeders 130 are thus mounted is referred to as a feeder pallet 326.
[0047]
The reel holding device vibration preventing device 324 includes a bucket 330 and a locking device 334 provided at a front portion of the bucket 330 and provided at a rear portion of the bucket 330 restricting member 332 for supporting the reel 150. The bucket 330 has a size that can accommodate the reel containers 190 of all the feeders 130 mounted on the pallet 132. The positioning device 320, the fixing device 322, and the reel holding device vibration preventing device 324 are configured in the same manner as the device described in Japanese Patent Laid-Open No. 9-29550 in the illustrated example, and detailed illustration and description thereof are omitted. . A handle 340 is provided on the rear surface of the bucket 330 so that an operator can move the pallet 132 by holding the handle 340.
[0048]
The movement table 134 will be described.
The number or types of electronic circuit components 140 to be mounted on the printed wiring board 30 are usually not so many, and the moving table 134 is necessary when mounting electronic circuit components on such a normal printed wiring board 30. Various types or number of feeders 130 can be mounted, and if the first and second component supply tables 120 and 122 are combined, a large number of feeders 130 that supply the most various types of electronic circuit components normally expected can be mounted. It is the size to get.
[0049]
The configurations of the moving tables 134 of the first and second component supply tables 120 and 122 and the first and second table moving devices 124 and 126 are the same, and the moving table 134 and the first table of the first component supplying table 120 are the same. The moving device 124 will be described as a representative.
As shown in FIGS. 1 and 3, the first table moving device 124 uses a table moving motor 350 as a drive source, and its rotation is converted into a linear motion by a ball screw 352 and a nut 354 as a feed screw. 134 is guided by a pair of guide rails 356 provided on the bed 10 and is moved in a direction parallel to the X-axis direction. The table moving device 124 is provided between the bed 10 and the moving table 134, and moves the moving table 134 in the X-axis direction, which is a direction parallel to a straight line in which the feeders of the feeder 130 are arranged. The guide rail 356 constitutes a guide device, and supports the moving table 134 so as to be movable in a direction parallel to the straight line. The moving table 134 is supported by the bed 10 so as to be movable in a direction parallel to the straight line.
[0050]
The moving tables 134 of the first and second component supply tables 120 and 122 are moved independently from each other by dedicated table moving devices 124 and 126, respectively, but the pair of guide rails 356 has two moving tables. The straight line in which the supply parts of the plurality of feeders 130 of the first part supply table 120 are arranged and the straight line in which the supply parts of the plurality of feeders 130 of the second part supply table 122 are arranged are on the same straight line. To position.
[0051]
A component supply position 360 for supplying the electronic circuit component 140 to the suction nozzle 76 is set at a position adjacent to the central portion in the longitudinal direction of the guide rail 356, as shown in FIG. At the time of mounting, the supply unit of each feeder 130 is sequentially positioned at a predetermined component supply position 360 by the movement of the first and second component supply tables 120 and 122, and the electronic circuit component 140 is placed at the component supply position 360. Supply sequentially. The component supply position is a position where the supply unit is located below the suction nozzle 76 positioned at the operating position of the mounting head 70 located at the component receiving position.
[0052]
With this component supply position 360 as a reference, the maximum range in which the first and second component supply tables 120 and 122 move during component supply, that is, the feeders 130 mounted on the moving table 134 are positioned at both ends. A range that moves while being positioned at the position 360 is a component supply area that is a work area common to both the component supply tables 120 and 122. The table moving devices 124 and 126 position each supply unit of the feeder 130 at a predetermined component supply position 360 by moving the component supply tables 120 and 122 in a direction parallel to the X-axis direction in the component supply region. To do.
[0053]
When supplying the components, the component supply tables 120 and 122 are moved alternately or together in the component supply area to supply the electronic circuit components 140. When the component supply tables 120 and 122 alternately supply the electronic circuit component 140, while the one component supply table is in the component supply region, the other component supply table is a portion that forms the component supply region of the guide rail 356. It is evacuated on the adjacent part so as not to interfere with the parts supply table in operation. The component supply tables 120 and 122 are retracted to positions opposite to each other across the component supply area, and this position is stored in the first and second component supply tables 120 and 122, respectively. This is a standby area waiting for 140 supply. The evacuation area is provided away from the component supply area in a direction parallel to the X axis, and is provided for each of the first and second component supply tables 120 and 122. The guide rail 356 is provided for both the component supply tables. The lengths 120 and 122 are long enough to move between the component supply area and the retreat area.
[0054]
As shown in FIG. 3, the moving table 134 includes a pallet positioning device 380 for positioning the pallet 132, a pallet clamping device 384 as a fixing device for fixing the pallet 132 to the moving table 134, and a pallet supporting member for supporting the pallet 132. A pallet support base 382 is provided so as to be movable up and down. The pallet supporter 382 is also a lifting member that supports the pallet 326 with feeder and moves up and down.
[0055]
The pallet positioning device 380 includes a plurality of, for example, two positioning members 390 which are protrudingly provided on the moving table 134. These positioning projections 390 are provided in the vicinity of the center of the portion of the moving table 134 where the pallet 132 is mounted, with a distance in the X-axis direction. The positioning protrusion 390 has a circular cross-sectional shape, and the protruding end portion thereof is a tapered portion 392 whose diameter gradually decreases toward the tip end, and functions as a guide portion. These positioning protrusions 390 are respectively fitted into two positioning holes 394 serving as positioned portions provided on the lower surface of the pallet 132 so that the pallet 132 is positioned with respect to the moving table 134 and moved together with the moving table 134. To be done. The pallet support base 382 is provided so as not to interfere with the positioning projection 390 when positioning the pallet 132 on the moving table 134. For example, the pallet support base 382 has a frame shape surrounding the moving table 134.
[0056]
The pallet support table 382 is provided on the moving table 134 so as to be able to approach and separate from the moving table 134 and to be moved up and down. As shown in FIG. 3, the pallet support base 382 has a plurality of support rollers 404 each serving as a rotary support, which is a kind of support member, at two locations separated in the width direction, that is, the X-axis direction. It is provided so as to be rotatable around an axis parallel to the direction and aligned in the Y-axis direction.
[0057]
As shown in FIGS. 3 and 5, the pallet support table 382 includes a plurality of pallet support tables 382 on the outer side of the two rows of support rollers 404 (the side farther from the center of the pallet support table 382 than the support rollers 404). A guide roller 406 is provided to be rotatable around a vertical axis. These guide rollers 406 are provided above the support roller 404. Therefore, the pallet 132 is placed on the plurality of support rollers 404, supported from below by the support rollers 404, and supported from the side by the plurality of guide rollers 406, and the position in the width direction is determined. The movement in the Y-axis direction is guided by 404 and the guide roller 406. In this embodiment, the Y-axis direction is a direction orthogonal to the X-axis direction in the horizontal plane. In this embodiment, the plurality of support rollers 404 and guide rollers 406 constitute a guide member and support the pallet 132. Then, it guides in a horizontal direction perpendicular to the straight line in which the supply units are arranged.
[0058]
As shown in FIG. 5, the pallet support base 382 is further provided with a pressing part or a clamp part 408 so that the pallet 132 is clamped and fixed to the moving table 134. There are a plurality of clamp portions 408. In the present embodiment, the clamp portion 408 is provided at four locations separated from each other in the X-axis direction and the Y-axis direction of the pallet support base 382, and is provided at each of the four corners (as shown in FIG. Only one is shown), and is formed in a plate shape and engages with a pressed portion or clamped portion 410 provided on the pallet 132 to fix the pallet 132 to the moving table 134, as will be described later. The clamped portions 410 are respectively provided on both side surfaces parallel to the front-rear direction (direction parallel to the Y-axis direction) of the pallet 132, and have a shape that is long in the front-rear direction, as shown in FIG. Although not shown, the pallet support table 382 is provided with a stopper so as to define the transfer limit (transfer position) of the pallet with feeder 326 to the pallet support table 382. The stopper is provided so that its position can be adjusted in the pallet transfer direction (in this embodiment, the direction parallel to the Y-axis direction), and the position of the positioning hole 394 substantially coincides with the position of the positioning protrusion 390 in the pallet transfer direction. Is provided to stop the pallet 326 with a feeder.
[0059]
As shown in FIG. 3, the pallet support base 382 is provided with a plurality of guide bars 412 that are guided members, and can be moved up and down to a guide block 414 that is a plurality of guide members provided on the moving table 134. The elevator guide apparatus including the guide bar 412 and the guide block 414 that are fitted together guides the pallet support base 382 and, in turn, the plurality of support rollers 404 provided on the pallet support base 382 in the vertical ascending / descending direction. In the illustrated example, four guide bars 412 and four guide blocks 414 are provided, and two sets of the guide bars 412 and the guide blocks 414 separated on the diagonal line of the pallet support base 382 have high dimensional accuracy. Two sets of guide bars 412 and guide blocks 414, which are provided with dimensions to guide the raising and lowering of the pallet support base 382 and separated on another diagonal line, are provided so as to fit loosely.
[0060]
The pallet support table 382 is urged downward by a plurality of tension coil springs 416 (hereinafter abbreviated as springs 416) provided between the pallet support table 382 and the moving table 134, that is, in a direction approaching the moving table 134. ing. The spring 416 is a kind of elastic member that is an urging device.
[0061]
The pallet support base 382 is raised by a pallet lifter 426 provided on the bed 10. The pallet lifter 426 is provided at a position corresponding to each of the two retreat areas of the bed 10, and three or more as the movable support members, in this embodiment, four levers 430 and a lever as the movable support member driving device. Drive device 431. Each of these levers 430 is provided so as to be rotatable about an axis parallel to the X-axis direction. The levers 430 are three or more spaced apart from each other in the direction parallel to the horizontal plane, and four in the present embodiment. It is provided at a position corresponding to each of the four vertices. Of these four levers 430, two levers 430 share the rotation shaft 432. The two levers 430 that do not share the rotating shaft 432 are rotatably connected by a connecting rod 434 as a connecting member. A cam surface 436 is provided on each upper surface of the four levers 430.
[0062]
The lever driving device 431 uses a rotary cylinder 438 which is a kind of fluid pressure actuator as a driving source. The rotary cylinder 438 is a hydraulic cylinder, for example. An air cylinder may be used. The rotation of the rotary cylinder 438 is caused by one of the gear 440 provided on the output shaft of the rotary cylinder 438 and the gear 442 provided on each of the four levers 430 to one of the four levers 430. Is transmitted to the other three levers 430 by the pivot shaft 432 and the connecting rod 434, and the four levers 430 are simultaneously rotated in the same direction to raise and lower the cam surface 436. The lever 430 is moved up and down.
[0063]
When the cam surface 436 is raised by the rotation of the lever 430 driven by the rotary cylinder 438, the cam surface 436 engages with a roller 446 which is a cam follower rotatably provided on the pallet support base 382, and the pallet support base 382 is engaged with the spring 416. Move upward against the urging force. The lever 430 contacts the support roller 404 from below via the roller 446 and raises the support roller 404. The position of the lift of the pallet support base 382 that raises the support roller 404 of the lever 430 is defined by, for example, the stroke end of the piston of the rotary cylinder 442. 3, in order to clarify the configuration of the pallet positioning device 380, the position of the pallet 132 in the state where the pallet support base 382 is positioned at the rising end position is illustrated, and the pallet support base 382 is lifted. The state located in the position lower than the end position is illustrated.
[0064]
When the pallet lifter 426 is operated in a state where the moving table 134 on which the pallet 326 with feeder is mounted is moved to the retreat area and the four levers 430 are lifted all at once, the pallet support base 382 is moved to the moving table 134. The pallet 326 with feeder is also raised. As shown in FIG. 5, the pallet with feeder 326 engages with the clamped portion 410 when the electronic circuit component 140 is supplied by the feeder 130, and the pallet with feeder 326 is moved by the urge of the spring 416. The pallet support base 382 is spaced upward from the support roller 404 while being pressed against the clamp 134 and clamped. Therefore, when the pallet support base 382 is raised, first, the clamp part 408 is separated from the clamped part 410 and the clamp of the pallet with feeder 326 is released, and then the support roller 404 comes into contact with the clamped part 410 and moves downward. The pallet 326 with feeder is lifted from the moving table 134 and raised. The clamped portion 410 is also a supported portion. In a state where the lever 430 is rotated to the operating position and the pallet support base 382 is raised to the ascending end position, the pallet with feeder 326 is supported from below by the pallet support base 382 and lifted from the moving table 134. The positioning projection 390 is detached from the positioning hole 394 of the pallet 132, and the pallet 326 with feeder is supported by the pallet support base 382 in a state of being movable in the Y-axis direction, which is a direction orthogonal to the X-axis direction, in a horizontal plane. The
[0065]
If the rotary cylinder 438 is rotated in the opposite direction to that when the lever 430 is rotated to the operating position, the four levers 430 are simultaneously rotated in the opposite direction and the cam surface 436 is lowered. 430 is lowered, and the pallet support base 382 is lowered while the roller 446 follows the cam surface 436 by the bias of the spring 416. If the pallet with feeder 326 is supported by the support roller 404 of the pallet support base 382, the pallet with feeder 326 is also lowered by the lowering of the pallet support base 382, and the positioning projection 390 is fitted into the positioning hole 394. The pallet 326 is positioned with respect to the moving table 134 in both the X-axis and Y-axis directions. If the pallet support base 382 is further lowered, as shown in FIG. 5, the clamped portion 410 of the pallet with feeder 326 abuts on the moving table 134 and is supported from below. The pallet support base 382 is further lowered from this state by the rotation of the lever 430 and the urging of the spring 416, whereby the support roller 404 is separated from the clamped portion 410 and the clamp portion 408 is clamped. The pallet with feeder 326 is clamped in a state where it is positioned on the moving table 382, and moves together with the moving table 134. The lower end position of the pallet support base 382 by the bias of the spring 416 is defined by the clamp portion 408 engaging the clamped portion 410 and the feeder pallet 326 being clamped to the moving table 134, and the feeder pallet 326. Is pressed against the moving table 134 by the bias of the spring 416 and clamped. The lever 430 is further rotated after the pallet support base 382 reaches the lowered end position, and the cam surface 436 is separated from the roller 446 and is separated from the support roller 404. The rotation end of the lever 430, that is, the non-operating position is defined by, for example, the stroke end of the piston of the rotary cylinder 438. The pallet lifter 426, together with the roller 446 and the spring 416, constitutes a support base elevating device 450 that elevates and lowers the pallet support base 382. It is considered that the pallet lifter 426, the roller 446, the spring 416, and the pallet support base 382 constitute a pallet lifting device that lifts and lowers the pallet 326 with feeder. Further, the spring 416 and the clamp portion 408 constitute a pallet clamp device 384.
[0066]
As shown in FIG. 3, each of the positions corresponding to the two rows of support rollers 404 separated in the X-axis direction of the pallet support base 382 of the moving table 134 moved to the retreat area of the bed 10 has a plurality, for example, 2 The guide rollers 460 are provided so as to be rotatable around an axis parallel to the X axis and aligned in the Y axis direction. The guide roller 460 is configured such that the upper end of the guide roller 460 is at the same height as the upper end of the support roller 404 when the pallet support base 382 is raised to the rising end position where the positioning protrusion 390 is separated from the positioning hole 394. The pallet 132 is received and delivered to and from a pallet transport carriage, which will be described later, with the pallet support base 382 positioned at the rising end position. The rising end position of the pallet support base 382 is the pallet delivery position, and the pallet 326 with feeder is positioned at the transfer position.
[0067]
The electronic circuit component mounting system 12 is entirely covered with a cover 470, and is a portion that covers the component supply device 18 of the cover main body 480 that is the main body of the cover 470, and that corresponds to two retreat areas. Open / close covers 472 and 474 are respectively provided. Each of the opening / closing covers 472 and 474 has a handle 476 (only the handle 476 provided on the opening / closing cover 472 is shown in FIG. 3), and is manually opened and closed by an operator. The open / close covers 472 and 474 are guided by rails 482 and 484 provided on the cover main body 480, and in a state where the pallet 132 and the feeder 130 are supported by the moving table 134, a closed position that covers the pallet 132 and the feeder 130, They are moved to an open position that does not cover them. By opening the opening / closing covers 472 and 474, the evacuation area is opened to the outside, and the operator can work on the component supply device 18 and the like, and between the pallet support base 382 and the pallet transport carriage. The pallet 326 with feeder can be transferred.
[0068]
In the present embodiment, the height of the bed 10 is adjusted by the height adjusting device 464 (see FIG. 11), and the height of the component supply device 18 or the electronic circuit component mounting system 12 is adjusted. Yes. The height adjustment device 464 includes a plurality of adjustment bolts 466 and nuts 468.
[0069]
The pallet 326 with a feeder is stored in a pallet storage device 500 (see FIG. 6) and is transported by a pallet transport cart (hereinafter simply referred to as a cart) 502 shown in FIG.
[0070]
The pallet storage device 500 will be described.
As schematically shown in FIG. 7, the pallet storage device 500 is formed by connecting a plurality of pallet storage units (hereinafter referred to as storage units) 504. In the present embodiment, the storage units 504 are arranged in a row horizontally. The plurality of storage units 504 have the same configuration, and one will be described as a representative.
[0071]
As shown in FIG. 8, the storage unit 504 includes a frame 510 and a plurality of pallet support bases 512 and 514 in the present embodiment. The pallet supporters 512 and 514 are provided at a distance greater than the height of the pallet 326 with feeder in the vertical direction. The storage unit 504 is provided with two stages of pallet support bases 512 and 514, and has a storage space 519 for storing two pallets with feeders 326, and these storage spaces are provided in two stages vertically. The pallet storage device 500 of this embodiment has two tiers on the top and bottom and a plurality of pallet storage spaces 519 (see FIG. 8) on the left and right sides, and can store a plurality of pallets 326 with feeders. The height of the frame 510 is adjusted by a height adjusting device 530. In the present embodiment, the height adjusting device 530 includes an adjusting bolt 532 and a nut 534.
[0072]
The pallet support bases 512 and 514 will be described. The pallet support bases 512 and 514 are similarly configured, and the upper pallet support base 512 will be described as a representative.
As shown in FIG. 9, the pallet support table 512 includes a support table body 560, a plurality of support rollers 562 that are a kind of support member, and a pair of guide rails 564. A plurality of support rollers 562 are provided in two positions spaced apart in the width direction of the support base body 560 and arranged in the pallet transfer direction, and can be rotated around a rotation axis perpendicular to the pallet transfer direction in a horizontal plane. Is provided. The pallet transfer direction is a direction orthogonal to the straight line in which the supply parts of the plurality of feeders 130 are arranged in a horizontal plane in a state where the pallet with feeder 326 is supported by the pallet support table 512. The direction in which the supply units are arranged is referred to as a supply unit arrangement direction. The pallet transfer direction is also the front-rear direction of the pallet support table 512, and the supply unit alignment direction is also the width direction. The support rollers 562 are provided in two rows, and support the feeder pallet 326 so as to be movable in the pallet transfer direction. As shown in FIG. 9, the guide rails 564 are provided on the outer sides of the two rows of support rollers 562, respectively, extend in the pallet transfer direction, and include a vertical guide surface 566.
[0073]
The pallet support table 512 is also provided with a stopper 570 that stops the movement of the pallet 326 with feeder. The stopper 570 is made of rubber in this embodiment. The pallet support 512 is further provided with a plunger ball 580, which constitutes a pallet removal prevention device. The plunger ball 580 includes a ball 582 provided in the casing so as to be movable in the vertical direction, and a spring (not shown) that biases the ball 582 in a direction protruding from the opening of the casing. The ball 582 is prevented from being pulled out of the casing by the engagement portion provided at the opening of the casing engaging with the ball 582, and the ball 582 always protrudes upward from the casing and is supported. It is positioned above the upper surface of the roller 562.
[0074]
As shown in FIG. 9, the plunger balls 580 are provided in each row of the support rollers 562 provided in two rows along with the support rollers 562 in the pallet transfer direction. The plunger ball 580 is provided so that the position in the pallet transfer direction can be adjusted. When the pallet 326 with feeder is transferred to the pallet support base 512 and stopped by the stopper 570, the ball 582 is just the pallet 326 with feeder. It is located at a position off the rear end.
[0075]
At the front portion of the frame 510, a plurality of support rollers 586, in the present embodiment, at positions corresponding to the two rows of support rollers 562 and guide rails 564 of the pallet support base 512 are rotated by the support rollers 562. A guide rail 588 is provided along with an axis parallel to the axis and provided side by side in the pallet transfer direction.
[0076]
At the front part of the frame 510, as shown in FIG. 8, at least one, in the present embodiment, two cams 590 are provided to constitute a guide member. A cam surface 592 is provided on each upper surface of the cam 590. As shown in FIG. 10, the cam surface 592 is provided following an inclined surface 594 that is inclined upward toward the pallet support bases 512 and 514, a horizontal plane 596 that follows the inclined plane 594, and a horizontal plane 596. And an inclined surface 598 that is inclined downward toward the pallet support bases 512 and 514 side.
[0077]
Further, as shown in FIG. 8, a cart coupling device 600 is provided at the front portion of the frame 510, so that the cart 502 is coupled to the pallet storage device 500 so as not to be relatively movable. The cart coupling device 600 includes engagement devices 602 provided above the two cams 590, respectively. As shown in FIG. 10, the engaging device 602 includes an engaging pin 604 as a connecting member or engaging member and an engaging pin driving device 606 as a connecting member driving device or engaging member driving device in this embodiment. It has.
[0078]
Two engagement pins 604 and two engagement pin driving devices 606 are provided above the inclined surfaces 598 of the two cams 590, respectively. In the present embodiment, the engagement pin driving device 606 is configured using an air cylinder 608 as a fluid pressure cylinder, which is a kind of fluid pressure actuator, as a drive source, and the engagement pin 604 is provided at the distal end of the piston rod 610. It is provided parallel to the direction of alignment. The engagement pin 604 is moved by the expansion and contraction of the piston rod 610 to an engagement position that engages with an engagement member, which will be described later, of the carriage 502 and a retracted position or a non-engagement position that is separated from the engagement member.
[0079]
Among the plurality of storage units 504, storage units 504 adjacent to the left and right are connected to each other by a unit connecting device 640. As shown in FIG. 9, the unit connecting device 640 includes at least one connecting member 642 and 644 fixed in the upper surface of the frame 510, in this embodiment, as shown in FIG. 9. These connecting members 642 and 644 have a plate shape and are fixed to a front end and a rear end of the upper surface of the frame 510 by a bolt 646 which is a kind of a fixing device at one end in the longitudinal direction. The other ends of the connecting members 642 and 644 are extended from the frame 510 to the adjacent storage unit 504 side, and are fixed to the upper surface of the frame 510 of the adjacent storage unit 504 by bolts 648, so that the two adjacent storage units 504 are connected. Are connected. In FIG. 8, the illustration of the unit connecting device 640 is omitted.
[0080]
The cart 502 will be described.
As shown in FIG. 11, the cart 502 includes a frame 650, a pallet support frame 652 that supports the pallet 132 or the pallet with feeder 326, and a support frame lifting device 654 as a support platform lifting device that lifts and lowers the pallet support frame 652. including. The frame 650 is provided with a plurality of wheels 656, and an operator can move the carriage 502 with a handle 658 (see FIG. 12) provided on the frame 650. In FIG. 11, the handle 658 is not shown. The pallet support frame 652 is configured by fixing a plurality of pallet support frames 660 and 662 to the elevating member 664 and fixing them to each other via the elevating member 664 in this embodiment. The pallet supporters 660 and 662 are fixed to the elevating member 664 in the vertical direction at a distance larger than the height of the pallet 326 with feeder. In the present embodiment, the height of the carriage 502 is adjusted by the height adjusting device 665. The height adjusting device 665 includes a plurality of adjustment bolts 666 and nuts 667.
[0081]
As shown in FIGS. 11 and 12, the support frame lifting device 654 includes a handle 668 as an operation member operated by an operator, and a motion conversion device 670 that converts rotation of the handle 668 into a lifting motion of the lifting member 664. including. The motion conversion device 670 includes gears 672, 674, bevel gears 676, 678, a feed screw 680, and a nut 682 fixed to the elevating member 664 that are rotatably provided on the frame 650, and the handle 668 is rotated. The feed screw 680 is rotated, the elevating member 664 is guided up and down by a guide device including a pair of guide rails 684, and the pallet support frame 652 is raised and lowered.
[0082]
The pallet support frame 652 is stopped at three positions. As shown in FIG. 13, the pallet support frame 652 is located at the lower end, and the lower pallet support base 662 that is the lower pallet support base 662 is the lower pallet support base 514 that is the lower pallet support base 514. A first position for delivering the feeder pallet 326 to and from the pallet support base 514, and an upper pallet support base that is higher than the first position and is the upper pallet support base 660 as shown in FIG. Reference numeral 660 denotes a second position where the feeder pallet 326 is delivered to and from the upper pallet support base 512 which is the upper pallet support base 512 of the pallet storage device 500 or the pallet support base 382 of the component supply device 18, that is, the moving table 134. As shown in FIG. 15, the lower pallet support base 662 is positioned at the rising end position, and the upper pallet support base 512 or Between the let-support base 382 is of being moved to a third position for transferring the feeder with pallet 326. The pallet delivery position of the upper pallet support base 660 and the upper pallet delivery position of the lower pallet support base 662 have the same height.
[0083]
In the present embodiment, the height when the pallet support frame 652 is located at the second position is the first height, and the height when the pallet support frame 652 is located at the third position is the second height. The pallet delivery position of the upper pallet support base 660 and the pallet delivery position on the upper side of the lower pallet support base 662 have the same height. However, when attention is paid to one pallet support base, the pallet delivery position itself is located at the pallet delivery position. The state and the state in which another pallet support is located at the pallet delivery position are located at different heights, one being the first height and the other being the second height.
[0084]
As shown in FIG. 11, the frame 650 is provided with a positioning device 690 so that the pallet support frame 652 is positioned at the three positions. As shown in FIG. 16, the positioning device 690 has a positioning member 692 that can move in the horizontal direction perpendicular to the lifting and lowering direction of the pallet support frame 652 and can be moved closer to and away from the lifting member 664.
[0085]
One end of the positioning member 692 in the axial direction, which is an end on the lifting member 664 side, is a positioning surface or engagement surface 694 inclined at an upper portion and a lower portion so as to approach each other toward the tip. 696 is provided, an engaging portion 702 is provided, and a roller 698 is provided to be rotatable about an axis perpendicular to the ascending / descending direction of the pallet support frame 652 and the axis of the positioning member 692. The roller 698 is slightly protruded from the tip of the positioning member 692. The positioning member 692 is urged in a direction approaching the elevating member 664 by a spring 700 as an elastic member which is a kind of urging device.
[0086]
As shown in FIG. 13 and the like, the positioning member 692 is fitted into any one of the three positioning holes 710, 712, and 714 provided in the elevating member 664, and the pallet support frame 652 is moved to the first position. Position to the position, second position and third position, respectively. The positioning holes 710, 712, and 714 are engaging surfaces 716, 718 or positioning surfaces that are inclined such that the upper side surface and the lower side surface are closer to each other as the distance from the positioning member 692 increases.
[0087]
The pallet supporters 660 and 662 will be described. The pallet support bases 660 and 662 are similarly configured, and the pallet support base 660 will be described as a representative.
As illustrated in FIG. 18, the pallet support base 660 includes a plate-like support base body 720, a plurality of support rollers 722, and a pair of guide rails 724. The plurality of support rollers 722 are arranged in the supply unit arrangement direction, and each of the plurality of support rollers 722 can be rotated around an axis parallel to the supply unit arrangement direction and arranged in the pallet transfer direction. Is provided. Two rows of support rollers 722 are provided. The guide rail 724 has a vertical guide surface 726 that extends outside the support roller 722 and above the support roller 722 in parallel with the pallet transfer direction.
[0088]
The pallet support base 660 is also provided with a stopper 730 for stopping the feeder pallet 326 and a locking device 732 for locking the feeder pallet 326 to the pallet support base 660. The stopper 730 is made of rubber in this embodiment.
[0089]
As shown in FIGS. 17 and 18, the locking device 732 includes a locking member 736. The locking member 736 is attached to an apparatus main body 737 fixed to the support base body 720 so that the position in the pallet transfer direction can be adjusted so as to be rotatable about a rotation axis parallel to the supply unit arrangement direction. In the locking member 736, the front end, that is, the upstream end in the moving direction of the feeder pallet 326 when the feeder pallet 326 is loaded into the pallet support base 660, is inclined upward toward the rear. And a vertical locking surface 740 provided subsequent to the rear end of the guiding surface 738 is provided. A guide surface 738 and a locking surface 740 are urged in a direction protruding upward by a spring 742 which is an elastic member which is a kind of urging device. The rotation limit of the locking member 736 due to the bias of the spring 742, that is, the vertical position of the guide surface 738 and the locking surface 740, is configured by the apparatus main body 737 with an adjustment bolt 744 screwed to the locking member 736. It is defined by contacting the stopper. The rotation limit of the locking member 736 can be adjusted. The locking surface 740 engages with the vertical locking surface 746 of the recess 745 provided in the pallet 132 to lock the pallet 132.
[0090]
As shown in FIGS. 11 and 18, the pallet support base 660 is also provided with a plunger ball 748 to constitute a support base withdrawal prevention device. The plunger ball 748 is configured in the same manner as the plunger ball 580 provided in the storage unit 504, and includes a ball 749. The pallet 326 with a feeder is transferred to the pallet support base 660 and stopped by the stopper 730. The ball 749 is provided so as to be located at a position just off the rear end of the feeder pallet 326, and a part of the ball 749 protrudes upward from the casing and is always positioned above the upper surface of the support roller 722. Yes.
[0091]
The pallet support base 660 is further provided with a pallet drawing / extruding device 750 as shown in FIG. The pallet drawing / extrusion apparatus 750 includes a rod 752 serving as a drawing / pushing member or engagement member. As shown in FIG. 20, the rod 752 has a pipe shape with a circular cross-section, and can be relatively moved in the axial direction and relatively rotatable with respect to the slider 754 provided on the main body 720 so as to be movable in the pallet transfer direction. It is mated. As shown in FIGS. 18 and 19, the slider 754 is slidably fitted on a guide rail 756 provided in the pallet transfer direction on the support base body 720 and is prevented from being lifted. The movement is guided by the guide rail 756. Stopper portions 758 and 759 are provided at both ends in the longitudinal direction of the guide rail 756 so as to stop the movement of the slider 754.
[0092]
The rod 752 has a rear end portion, that is, a downstream end portion in the pallet moving direction when the pallet 326 with a feeder is carried into the carriage 502, and a grip 760 is rotatable about an axis perpendicular to the axis of the rod 752. Is provided. As shown in FIG. 21, the grip 760 has a longitudinal direction parallel to the longitudinal direction of the rod 752 and is concentric with the rod 752, and a position perpendicular to the rod 752, as shown in FIG. Is rotated. As shown in FIGS. 18 and 19, a locking member 762 that engages the grip 760 and locks the bar 752 to the pallet support base 660 is provided on the main body 720. An engaging portion 764 is provided at the distal end portion of the rod 752. The engaging portion 764 has a plate shape and is provided at a right angle to the axis of the rod 752. When the grip 760 is at a right angle to the rod 752, the phases of the grip 760 and the engaging portion 764 match. In the state where the grip 760 is parallel to the rod 752, the grip 760 and the engaging portion 764 are three-dimensionally intersected at a right angle. The engagement portion 764 is fitted into an engagement recess 765 (see FIG. 27) provided at the center of the rear portion of the pallet 132 and is engaged with the pallet 132 in a state where the engagement portion 764 is positioned at the engagement position set up vertically. The grip 760 is kept concentric with the rod 752 by a ball plunger 767 (see FIG. 21). As will be described later, when the carriage 502 is connected to the bed 10 and the pallet with feeder 326 is transferred, the rod 752 is aligned with the engagement recess 765 in the supply unit alignment direction, and the engagement unit 764 is engaged. It is provided at a position where it can be engaged with the mating recess 765.
[0093]
As shown in FIG. 18, the rod 752 is provided with an opening or notch 766 provided in a portion on the distal end side of the peripheral wall thereof in parallel to the axial direction, and an engagement member or a relative movement restricting member screwed into the slider 754. A distal end portion of the loose screw member 768 is fitted. The rod 752 and the slider 754 are relatively movable in the axial direction within a range in which the screw member 768 moves within the notch 766, and can be relatively rotated. The notch 766 is provided in such a size that the rotation necessary for the rod 752 can be obtained in the circumferential direction of the rod 752. For example, when the rod 752 is rotated, the engaging portion 764 is positioned at an engaging position where the engaging portion 764 engages with the feeder-equipped pallet 326 and a non-engaging position where the engaging portion 764 is leveled and not engaged with the feeder-equipped pallet 326. The engagement portion 764 is positioned at the engagement position in a state where one side surface in the rotation direction of the rod 752 of the notch 766 contacts the screw member 768. In a state where the other side surface is in contact with the screw member 768, the engaging portion 764 is positioned at the non-engaging position.
[0094]
As shown in FIG. 18, a regulating member 772 is provided on the support base body 720. The restricting member 772 is long in the pallet transfer direction and includes a horizontal shielding part or restricting part 774. As shown in FIG. 20, the restricting portion 774 is positioned below the distal end portion of the engaging portion 764 in a state where the engaging portion 764 of the rod 752 stands vertically and is positioned at the engaging position. In a state where 764 is horizontal, it is provided so as to be positioned above the engaging portion 764. Further, the portion of the slider 754 corresponding to the restricting portion 774 is made thin so that it does not interfere with the restricting portion 774. In addition, the regulating member 772 and the slider 754 are provided so as to be positioned below the upper end surface of the support roller 722, and interference with the pallet 132 is avoided.
[0095]
On the front surface of the frame 650 of the carriage 502, as shown in FIG. 11 and FIG. 23, the support rollers 780 are arranged around two axes corresponding to the two rows of support rollers 722 around the axis parallel to the rotation axis of the support rollers 722, respectively. It is attached to be rotatable. The height of the support roller 780 is the same as that of the support roller 722. In FIG. 23, the pallet support bases 660 and 662 are not shown.
[0096]
As shown in FIGS. 11, 18 and 23, a plurality of, in the present embodiment, two engagement members 790 are provided on the front surface of the frame 650 of the carriage 502 at a distance in the width direction. Two elevating members 792 are provided on the front surface of the frame 650 so that the elevating members 792 can move up and down, and the elevating members 792 are provided with the engaging members 790 projecting forward to form a first engaging portion. ing. A single-acting air cylinder is provided between the elevating member 792 and the frame 650. When air is supplied, the elevating member 792 is raised and the engaging member 790 is raised. The upper limit of the engaging member 790 is defined by the elevating member 792 coming into contact with a stopper constituted by the adjusting bolt 794. The elevating member 792 is also lowered by the bias of the air cylinder spring.
[0097]
As shown in FIG. 24, rollers 800 as cam followers are rotatably attached to the protruding end portions of the two engaging members 790, respectively. The lower surface of the roller 800 is slightly protruded from the lower surface of the engaging member 790. A groove 804 is also formed in the protruding end portion of the engaging member 790 so as to penetrate in the width direction. A pair of groove side surfaces of the groove 804 are inclined surfaces 806 that are inclined so as to approach each other downward, and a bottom portion of the inclined surface 806 is a vertical surface, and an engaging groove portion 808 is provided. In addition, a vertical contact surface 824 is provided at the base end portion of the engaging member 790.
[0098]
As shown in FIG. 24, an opening 820 is provided in a portion of the cover 470 that covers the component supply device 18 and that corresponds to the two retreat areas of the cover main body 480 (FIG. Only one opening 820 is shown). These openings 820 are provided in a shape and dimensions that allow the pair of engaging members 790 of the carriage 502 to enter the cover 470 without opening the opening and closing covers 472 and 474, and the space covered by the cover 470 Connect with the outside.
[0099]
As shown in FIG. 3, each of the portions corresponding to the two openings 820 of the bed 10 has a plurality of, in this embodiment, two cams 826 equal to the distance between the pair of engaging members 790 of the carriage 502. It is provided at intervals and constitutes a guide part. A part of these cams 826 is located in the opening 820, and a cam surface 828 is provided on the upper surface thereof. As shown in FIG. 24, the cam surface 828 has an inclined surface 830 that is inclined upward in the forward direction (part supply device 18 side), a horizontal plane 832 that follows the inclined plane 830, and a horizontal plane 832. And an inclined surface 834 that is inclined downward toward the front.
[0100]
The bed 10 is also provided with engagement devices 840 at portions corresponding to the two retreat areas. These engaging devices 840 are configured in the same manner, and as shown in FIG. 24, a plurality of engaging pins 842 as engaging members and an engaging pin as an engaging portion driving device in the present embodiment, respectively. Including a drive 844.
[0101]
Two engagement pins 842 and two engagement pin driving devices 844 are provided above the inclined surfaces 834 of the two cams 826, respectively. In the present embodiment, the engagement pin drive device 844 is configured using an air cylinder 846 as a fluid pressure cylinder, which is a kind of fluid pressure actuator, as a drive source, and an engagement pin 842 is attached to the tip of the piston rod 848. ing.
[0102]
The engagement pin 842 is provided in parallel with the X-axis direction. The engagement pin 842 is engaged with the engagement member 790 by being engaged with the engagement groove 808 of the engagement member 790 of the carriage 502 by expansion and contraction of the piston rod 848. The position is moved to the retracted position or the non-engagement position where the engagement position is released from the engagement groove 808 and is separated from the engagement member 790. When the engagement pin 842 is engaged with the engagement member 790, the engagement member 790 is prevented from being detached from the cover 470, and the carriage 502 is connected to the bed 10, and is connected when the engagement is released. Is released.
[0103]
The engaging member 790 can enter the cover 470 through the opening 820 without opening the opening and closing covers 472 and 474. Even when the opening and closing covers 472 and 474 are in the closed position, the carriage 502 can be moved to the bed 10. Can be connected. Therefore, for example, the carriage 502 can be connected to the bed 10 even when the component supply device 18 is supplying the electronic circuit component 140 and the opening / closing covers 472 and 474 are closed. It is. In the present embodiment, the portion including the portion where the opening 820 of the bed 10 is provided constitutes the receiving portion, and the engaging pin 842, the engaging pin driving device 844, and the first engaging that constitute the second engaging portion. The cart connecting device 850 is configured together with the engaging member 790 constituting the section. Further, the engaging member 790 forms a first connecting portion, the engaging pin 842 forms a second connecting portion, and the engaging pin driving device 844 prevents the engaging member 790 and the engaging pin 842 from being separated. The connection control apparatus which can take the space | interval prevention state to perform and the space | gap allowable state which permits those space | intervals is comprised. The engagement pin 842 is provided on the piston rod 848 so as to be slightly swingable in a direction perpendicular to the axis of the piston rod 848 and parallel to the entry direction (pallet transfer direction) of the engagement member 790. It has been.
[0104]
As schematically shown in FIG. 6, a work table 854 is provided separately from the electronic circuit component mounting system 12 and the pallet storage device 500. Although not shown, the work table 854 is provided with a cam, a cart connecting device, a pallet support table, a support roller, a guide rail, a stopper, a plunger ball, and the like, as in the storage unit 504, and the cart 502 is connected. In addition, the feeder-equipped pallet 326 can be supported. The work table 854 may be provided with a pallet support table that can be moved up and down, and may be moved up and down by a support table lifting device. However, in this embodiment, one pallet support table is provided, and the vertical position adjustment is possible. , You can not lift.
[0105]
The electronic circuit component mounting system 12 is controlled by a control device 860 shown in FIG. The control device 860 has a computer as a main body 862, and the computer 862 has a PU (processing unit) 864, a ROM 866, a RAM 868, an input port 870, and an output port 872 connected by a bus line. The input port 870 is connected to various computers and detectors such as an image processing computer 876 and a host computer 878 that analyze data of images picked up by the reference mark camera 66 and the component cameras 82 and 84.
[0106]
Various actuators such as an X-axis slide movement motor 38 are connected to the output port 872 via a drive circuit 880. In the present embodiment, various motors serving as driving sources such as the X-axis slide moving motor 38 are servo motors capable of controlling the rotation angle with high accuracy as an electric motor that is a kind of a rotating motor. A step motor may be used instead of the servo motor. Although not shown, the rotation angle of the X-axis slide movement motor 38 and the like is detected by an encoder, and the motor 38 and the like are controlled based on the detection result. The RAM 868 stores various programs and data, such as a main routine and a program for mounting the electronic circuit component 140 on the printed wiring board 30.
[0107]
When the electronic circuit component 140 is mounted on the printed wiring board 30 in the electronic circuit component mounting system 12, the plurality of mounting heads 70 are swung by the head swiveling device 72 and sequentially stopped at the component receiving position or the like to supply the components. The electronic circuit component 140 is received from the device 18 and attached to the printed wiring board 30. When the electronic circuit component 140 is mounted on the printed wiring board 30, in the component supply device 18, the two component supply tables 120 and 122 are moved in the component supply area alternately or simultaneously to supply the electronic circuit component 140. The supply of the electronic circuit component 140 using the two component supply tables 120 and 122 by the component supply device 18 and the mounting of the electronic circuit component 140 to the printed wiring board 30 by the mounting device 16 are well known and will not be described. To do.
[0108]
In the component supply device 18, the plurality of feeders 130 can be detached from the moving table 134 and attached together with the pallet 132. Attachment / removal of the feeder pallet 326 to / from the moving table 134 is performed, for example, at the time of setup change or when the electronic circuit component 140 is supplied to the feeder 130.
[0109]
The setup change is an operation performed in the electronic circuit component mounting system 12 as the type of the printed wiring board 30 is changed. In the component supply device 18, the electronic circuit component 140 corresponding to the type of the printed wiring board 30 is replaced. The feeder 130 is mounted on the moving table 134. At the time of the setup change, the supply completion pallet 326 that is the pallet 326 with feeder for which the supply of the electronic circuit component 140 has been completed is removed from the moving table 134 and stored in the pallet storage device 500. The pallet storage device 500 stores a plurality of types of pallets with feeders 326 on which the feeders 130 corresponding to the types of the printed wiring boards 30 are mounted. The next supply pallet 326, which is 326, is conveyed by the carriage 502 and mounted on the moving table 134.
[0110]
In this embodiment, the cart 502 includes two pallet support tables, receives the supply completion pallet 326 from the component supply device 18 while supporting the next supply pallet 326, and delivers the next supply pallet 326 to the component supply device 18. be able to. Then, the supply completion pallet 326 is conveyed to the pallet storage device 500 and stored in the pallet storage unit 504, and another next supply pallet 326 is received from the pallet storage device 500.
[0111]
Reception of the supply completion pallet 326 from the parts supply device 18 of the carriage 502 and delivery of the next supply pallet 326 from the carriage 502 to the parts supply apparatus 18 will be schematically described based on FIG. Here, as shown in FIG. 26 (a), the next supply pallet 326 is mounted on the upper pallet support base 660 of the carriage 502, the lower pallet support base 662 is empty, and the supply completion pallet A is received. . In FIG. 26 and the like, the supply completion pallet 326 is represented by A, and the next supply pallet 326 is represented by B.
[0112]
When delivering the pallet, the carriage 502 is connected to the bed 10 by the carriage connecting device 850. Then, as shown in FIG. 26 (b), the pallet support frame 652 of the carriage 502 is raised to the third position, and the empty lower pallet support base 662 is positioned at the upper delivery position. In this state, as shown in FIG. 26 (c), the supply completed pallet A is transferred to the lower pallet support table 662, and after the transfer, the pallet support frame 652 is moved to the second position as shown in FIG. 26 (d). The upper pallet support 660 is positioned at the delivery position. Then, as shown in FIG. 26 (e), the next supply pallet B is transferred to the pallet support base 382 of the component supply device 18.
[0113]
The receipt of the supply completion pallet A and the delivery of the next supply pallet B will be described in detail.
The operator holds the handle 658 (see FIG. 12), pushes the carriage 502, moves the supply completion pallet A of the bed 10 of the component supply device 18 to a position corresponding to the waiting area for receiving, and connects. When the carriage 502 moves, the pallet support frame 652 is normally positioned at the second position. At the time of connection, as shown in FIG. 24, a pair of engaging members 790 provided on the carriage 502 are supported by two cams 826 provided on the bed 10 and the engaging pins 842 are engaged. . An opening 820 is provided in the lower part of the cover main body 480. Even if the operator does not open the opening and closing covers 472 and 474, the engaging member 790 is engaged with the cam 826 through the opening 820, and the carriage 502 is moved to the bed. 10 can be connected. Therefore, the cart 502 is connected to the bed 10 during the supply of the electronic circuit component 140 and is put on standby for receiving and delivering the pallet 326.
[0114]
When the carriage 502 is connected, the positions of the two engaging members 790 and the cam 826 of the component supply device 18 are aligned in the lateral direction (horizontal direction). In the vertical direction, the height of the frame 650 of the carriage 502 is adjusted by the height adjusting device 665 (see FIG. 11), and as shown in FIG. 14, the pallet support frame 652 is positioned at the second position, and the upper pallet In a state where the support base 660 is located at the pallet delivery position, the height of the support roller 722 is set to be the same as the support roller 404 of the pallet support base 382 located at the rising end position. The height of the bed 10 may be adjusted by the height adjusting device 464.
[0115]
Then, air is supplied to an air cylinder provided between the elevating member 792 holding the engaging member 790 and the frame 650 (see FIG. 24), and the carriage 502 moves forward while the engaging member 790 is raised. Be made. In the state where the height of the frame 650 is adjusted as described above, the engaging member 790 of the carriage 502 is lower than the height at which it is placed on the horizontal surface 832 of the cam 826, and the engaging member 790 is the air cylinder. The roller 800 is engaged with the inclined surface 830 of the cam surface 828, the roller 800 is advanced along the cam surface 828, and the engaging member 790 enters the cover 470 through the opening 820. Be made. The carriage 502 is moved until the contact surface 824 of the engagement member 790 contacts the cam 826. In a state where the carriage 502 is stopped, the roller 800 is positioned at a position corresponding to the inclined surface 834 and the groove 804 is positioned directly below the engagement pin 842. Further, the supply of air to the air cylinder is cut off, and the engaging member 790 is pressed against the horizontal plane 832 by the bias of the spring of the air cylinder.
[0116]
When the engaging member 790 is engaged with the cam 826, as shown in FIG. 24, the engaging pin 842 is positioned at the retracted position, and after the carriage 502 is stopped, it is lowered by the engaging pin driving device 844. The engagement member 790 is prevented from being detached from the cover 470 and the carriage 502 is connected to the bed 10. Even if there is a displacement in the pallet transfer direction between the engagement pin 842 and the engagement groove 808, the engagement pin 842 fits into the engagement groove 808 due to the swing of the engagement pin 842 and the guide of the inclined surface 806. Be made. By connecting the carriage 502 to the bed 10, the carriage 502 and the pallet support base 382 are positioned in the supply unit arrangement direction, and the positions of the support rollers 722 and 406 are aligned in the supply unit arrangement direction.
[0117]
When the mounting of the electronic circuit components 140 to all the planned printed wiring boards 30 is completed, the component supply table is retracted to the retreat area, and the feeder pallet 326 is transferred at a pre-set retreat position. In addition to being stopped at the transfer position, it is locked to the bed 10 by a stopper or engagement member (not shown). After the evacuation, the pallet support base 382 is raised by the pallet lifter 426, the support roller 404 is raised, and the pallet with feeder 326 is lifted from the moving table 134 so that it can move in the Y-axis direction, that is, the transfer direction. Supported. In this state, the height of the upper end of the support roller 404 is matched with the height of the upper end of the guide roller 460.
[0118]
In the cart 502, the pallet support frame 652 is raised to the third position, and the empty lower pallet support table 662 is positioned at the upper pallet delivery position. The operator operates the handle 668 to raise the elevating member 664. At this time, the operator moves the positioning member 692 of the positioning device 690 against the urging force of the spring 700, and FIG. As shown in FIG. 5, the engaging surfaces 694 and 696 and the roller 698 are removed from the positioning hole 712 which is the positioning hole currently inserted into the lifting member 664. When the elevating member 664 starts to rise by the operation of the handle 668 and the positioning member 692 is removed from the positioning hole 712, the operator releases the positioning member 692. The positioning member 692 is engaged with the lifting member 664 by the bias of the spring 700, and the roller 698 rolls to allow the lifting member 664 to move up and down. Then, when the elevating member 664 is raised to a position where the pallet support frame 652 is located at the third position, the distal end portion of the positioning member 692 is fitted into the positioning hole 710 by the bias of the spring 700, and FIG. , The engagement surface 694 engages with the engagement surface 716, the pallet support frame 652 is positioned at the third position, and the lower pallet support base 662 is positioned at the upper pallet delivery position. In FIG. 16, engagement and disengagement of the positioning member 692 with respect to the positioning hole 714 are representatively illustrated, but the same applies to the other positioning holes 710 and 712.
[0119]
In this state, the operator opens the opening / closing cover and transfers the supply completion pallet A from the pallet support base 382 onto the lower pallet support base 662 of the carriage 502. The operator removes the grip 760 of the rod 752 provided on the lower pallet support base 662 from the locking member 762 and rotates the grip 760 to be concentric with the rod 752 as shown in FIG. Move forward. At this time, the rod 752 is rotated to bring the engaging portion 764 into a horizontal state. If the rod 752 is rotated 90 degrees in a state where the rod 752 is advanced to the forward end position, the engaging portion 764 is just inserted into the engaging recess 765 of the pallet 132 as shown in FIG. It reaches. In this embodiment, the forward end position of the rod 752 is such that the end surface of the notch 766 of the rod 752 is engaged with the screw member 768 and is engaged with the slider 754, and the movement of the slider 754 is one end of the guide rail 756. It is prescribed | regulated by contact | abutting to the stopper part 758 provided in this. The movement of the rod 752 is guided by the slider 754.
[0120]
In this state, the operator rotates the rod 752, and as shown in FIG. 27, the engaging portion 764 is raised and fitted into the engaging recess 765 provided in the pallet 132, and the rod 752 is pulled in this state. As a result, the engaging portion 764 engages with the pallet 132 and the supply completion pallet A is pulled, and the supply completion pallet A is supported and guided by the support roller 404, the guide roller 406, etc., and the guide roller 460 is moved. , The support roller 780 passes through the support roller 722 of the pallet support table 660, is supported by the support roller 722, is guided by the guide rail 724, is placed on the pallet support table 662, and is transferred to the carriage 502. The carriage 502 receives the supply completion pallet A from the component supply device 18. In the middle of the retraction of the rod 752, the front end surface of the notch 766 is engaged with the screw member 768, and the slider 754 is retracted together with the rod 752.
[0121]
When the supply completion pallet A moves, the ball 749 of the plunger ball 748 is retracted into the casing against the biasing force of the spring, and the transfer of the supply completion pallet A is allowed. Further, the supply completion pallet A engages with the guide surface 738 of the locking member 736 of the locking device 732, rotates against the urging force of the spring 742, and retracts from the movement path of the supply completion pallet A. The movement of the supply completion pallet A is stopped by a stopper 730. In this state, the front portion of the locking member 736 is provided open to the bottom surface of the pallet 132 by the bias of the spring 742 as shown in FIG. The engaging surface 740 engages with the engaging surface 746 and the supply completion pallet A is engaged with the lower pallet support table 662. Further, the ball 749 is just removed from the supply completion pallet A and protruded from the casing, thereby preventing the supply completion pallet A from moving backward or rattling.
[0122]
When the movement of the supply completion pallet A is stopped and transferred from the pallet support base 382 to the lower pallet support base 662 of the moving table 134 in this manner, the bar 752 is opposite to the parts supply device 18 from the carriage 502. It is made to extend to. Therefore, the operator rotates the rod 752 by 90 degrees, disengages the engaging portion 764 from the engaging concave portion 765, and advances it in a horizontal state. At this time, the engaging portion 764 is positioned below the restricting portion 774 of the restricting member 772 and is prevented from being lifted by the restricting portion 774, and the rod 752 does not interfere with the pallet 132 of the engaging portion 764. Advances well.
[0123]
The forward movement of the rod 752 is guided by the slider 754, but if the rear end surface of the notch 766 is engaged with the screw member 768, the slider 754 is advanced together with the rod 752. Then, in a state where the rod 752 is moved forward to a position corresponding to the locking member 762, the grip 760 is rotated with respect to the rod 752 to make a right angle state, and the rod 752 is rotated around the axis. Then, the grip 760 is locked to the locking member 762.
[0124]
Next, the operator operates the handle 668 to lower the elevating member 664, move the pallet support frame 652 to the second position, and position the upper pallet support base 660 at the pallet delivery position. Then, as shown in FIG. 28, the rod 752 provided on the upper pallet support 660 is retracted, and the engaging portion 764 is engaged with the rear surface of the pallet 132 of the next supply pallet 326. When the rod 752 is retracted, the operator removes the grip 760 from the locking member 762 and rotates it with respect to the rod 752 so as to be concentric with the rod 752, and the engaging portion 764 is in a horizontal state, Retract through under part 774.
[0125]
In the middle of this retreat, the rod 752 engages with the slider 754 and retreats. The backward end position of the slider 754 is defined by a stopper portion 759 provided on the guide rail 756. When the slider 754 is moved to the retracted end position, the engaging portion 764 is disengaged from the next supply pallet B, and the rod 752 is turned to bring the engaging portion 764 into a vertical state to be engaged with the rear surface of the pallet 132. .
[0126]
The next supply pallet B is stopped by the stopper 730 and the plunger ball 748 in the upper pallet support 660 and is locked to the upper pallet support 660 by the locking device 732. Therefore, the operator turns the locking member 736 of the locking device 732 to release the locking surface 740 from the recess 745 of the pallet 132 to release the locking of the next supply pallet B, and in that state the rod 752 To advance the next supply pallet B. Until the concave portion 745 comes off the locking member 736, for example, the operator may directly push the rear portion of the next supply pallet B to advance or hold the tip portion of the rod 752 and push it.
[0127]
At this time, the next supply pallet B allows the movement of the plunger ball 748 by retracting the ball 749 into the casing. Further, the restricting portion 774 of the restricting member 772 prevents the engaging portion 764 from falling down and coming off from the next supply pallet B, and the operator can reliably push the next supply pallet B to advance. The engaging portion 764 may be applied to the restricting member 772 and the restricting member 772 may guide the movement of the engaging portion 764 and the rod 752 may be advanced. The regulating member 772 is also a guide member. The next supply pallet B passes from the support roller 722 through the support roller 780 and the guide roller 460 to the support roller 404 of the pallet support base 382 and is supported by the support roller 404 and guided by the guide roller 406 to support the upper pallet. The sample is transferred from the table 660 to the pallet support table 382 and delivered to the component supply device 18. After the transfer, in the cart 502, the rod 752 is retracted, and the grip 760 is used as the locking member 762.
[0128]
At the time of transfer from the upper pallet support base 660 to the pallet support base 382 in the next supply pallet B, the pallet support base 382 is positioned at the ascending end position. The clamp part 408 is located at a position higher than the position where the pallet 326 with feeder is clamped to the moving table 134, and the pallet 326 with feeder is being supported from below by the support roller 404 in the clamped part 410. The clamped portion 410 moves below the clamp portion 408. The transfer of the next supply pallet B is stopped by a stopper (not shown) provided on the pallet support base 382. After the next supply pallet B is transferred onto the pallet support table 328, the pallet support table 382 is lowered, the positioning projection 390 of the moving table 134 is fitted into the positioning hole 394 of the pallet 132, and the next supply pallet B is moved. While being positioned on the table 134, the clamp portion 408 is pressed against the clamped portion 410 by the bias of the spring 416, and the next supply pallet B is pressed against the moving table 134 and clamped, and moves together with the moving table 134. The When the next supply pallet B is transferred from the carriage 502 to the component supply device 18, the operator closes the opening / closing cover. When the opening / closing cover is closed and the next supply pallet B is lowered and clamped on the moving table 134, the stopper for stopping the movement of the moving table 134 is released, and the movable table 134 can be moved to the component supply area.
[0129]
After the operator closes the opening / closing cover, the connection between the carriage 502 and the bed 10 by the carriage coupling device 850 is released. The engaging pin 842 is retracted to the retracted position, and the operator moves the carriage 502 backward to cause the engaging member 790 to come out of the cover 470. At this time, air is supplied to an air cylinder provided between the elevating member 792 and the frame 650 to raise the elevating member 792, and the roller 800 gets over the cam surface 828. After the engaging member 790 is detached from the cam 826, the supply of air to the air cylinder is cut off, and the engaging member 790 is positioned at the lowered position by the bias of the spring. Then, the operator moves the carriage 502 with the handle 658 and conveys the supply completion pallet A to the pallet storage device 500.
[0130]
As described above, each operation for transfer between the parts supply device 18 and the carriage 502 of the supply completion pallet A and the next supply pallet B described above is detected and confirmed by a sensor (not shown). Based on this, the following operations are performed. For example, the parts supply tables 120 and 122 are moved to the retreat area, stopped at the retreat position, locked to the bed 10 by the stopper, the positioning (clamp) of the feeder pallet 326 relative to the movement table 134 is released, and the bed of the carriage 502 10, engagement of the engagement member 790 by the engagement device 840, positioning of the pallet support frame 652 to a predetermined position, transfer of the supply completion pallet A to the carriage 502 and completion of transfer, next supply pallet The transfer of B to the moving table 134 and the completion of the transfer, the completion of positioning of the next supply pallet B with respect to the moving table 134, the release of the locking of the component supply tables 120, 122 to the bed 10 by the stopper, etc. are detected by the sensor Is confirmed. In the present embodiment, the open / close covers 472 and 474 are electromagnetically locked, and the electromagnetic lock is released based on confirmation of completion of necessary operations, and the operator can open and close the open / close cover. Permissible. Further, after the next supply pallet B is transferred, if the operator closes the open / close covers 472 and 474, an electromagnetic lock is applied. A signal from a sensor provided on the cart 502 side is supplied to the control device 860 when the cart 502 is connected to the bed 10.
[0131]
Storage of the supply-completed pallet A to the pallet storage device 500 and reception of the next supply pallet C from the pallet storage device 500 to the carriage 502 will be described.
The storage space 519 for storing the supply completion pallet A is a storage space 519 that is set in advance. For example, the storage space 519 in which the supply completion pallet A is previously stored may be used. 519 may also be used. Here, for example, as shown in FIG. 29, the supply completion pallet A is stored in the lower storage space 519 of one of the storage units 504, and the storage space 519 above the same storage unit 504 is stored. Suppose that the pallet 326 with a feeder stored in is received as the next supply pallet C.
[0132]
The storage of the supply completion pallet A and the reception of the next supply pallet C in this case will be briefly described with reference to FIG.
As shown in FIG. 30 (a), if the cart 502 is moved to the front of the storage unit 504 that delivers the pallets A and C, the cart 502 is connected to the storage unit 504 by the cart connecting device 600. Then, as shown in FIG. 30 (b), the supply completion pallet A is transferred from the lower pallet support base 662 of the carriage 502 to the lower pallet support base 514 of the storage unit 504. After the transfer, the next supply pallet C is transferred from the upper pallet support 512 of the storage unit 504 to the upper pallet support 660 of the carriage 502 as shown in FIG.
[0133]
The storage of the supply completion pallet A and the reception of the next supply pallet C will be described in detail.
The operator pushes the cart 502 to move to the pallet storage device 500, and connects the cart 502 to the storage unit 504 that stores the supply completion pallet A by the cart coupling device 600. This connection is performed in the same manner as the connection of the carriage 502 to the bed 10, and the position of the two engagement members 790 of the carriage 502 and the storage unit 504, as shown in FIG. 8, one of the two engagement members 790. These two cams 590 are aligned, and the carriage 502 is advanced in a state where air is supplied to the air cylinder of the elevating member 792.
[0134]
The height of the frame 510 of the storage unit 504 is adjusted by a height adjusting device 530 (see FIG. 8). The height of the frame 510 is determined by the engagement member 790 of the carriage 502 as shown in FIG. The support roller 722 of the upper pallet support base 660 of the carriage 502 and the support of the upper pallet support base 512 of the storage unit 504 with the pallet support frame 652 positioned at the second position in the state supported by the horizontal plane 596 of 590. The height of the roller 562 is adjusted to be the same. Further, in this state, the height of the lower pallet support base 514 coincides with the height of the lower pallet support base 662 in a state where the pallet support frame 652 is located at the first position, and the feeder between the lower pallet support bases 512 and 662. The attached pallet 326 can be transferred. The first position of the pallet support frame 652 (see FIG. 13) causes interference between the cam 590 and the cart connection device 600 between the lower pallet support table 662 of the carriage 502 and the lower pallet support table 514 of the storage unit 504. The height is set so that the pallet 326 with a feeder can be transferred.
[0135]
By the supply of air to the air cylinder, the engagement member 790 is advanced while being raised, is engaged with the cam surface 592 of the cam 590, and is advanced while being guided by the cam surface 592. If the heights of the component supply device 18 and the carriage 502 are adjusted by adjusting the height of the bed 10, the heights of the carriage 502 and the storage unit 504 are adjusted by adjusting the height of the carriage 502. Also good.
[0136]
As shown in FIGS. 8 and 10, in a state where the contact surface 824 of the engagement member 790 is in contact with the cam 590 and the forward movement of the carriage 502 is stopped, the engagement member 790 is placed on the horizontal plane 596. The engagement groove 808 is located directly below the engagement pin 604. Therefore, the engagement pin 604 is lowered, the engagement pin 604 is fitted into the engagement groove 808, and the carriage 502 is connected to the storage unit 504. In the state where the carriage 520 is connected to the storage unit 504, the supply of air to the air cylinder is cut off, and the engaging member 790 is pressed against the horizontal surface 596 of the cam surface 592 by the bias of the spring. It may be considered that the engaging member 790 is also a component of the cart coupling device 600.
[0137]
After connecting the carriage 502 to the storage unit 504, the operator operates the handle 668 to lower the lifting member 664, move the pallet support frame 652 to the first position, and move the lower pallet support base 662 to the lower delivery position. To be located. In this state, the operator releases the locking of the supply completion pallet A by the locking member 736 of the locking device 732, operates the bar 752 in the same manner as when the next supply pallet B is delivered to the component supply device 18, The supply completion pallet A is pushed and transferred onto the lower pallet support 514 and stored in the storage space 519 of the storage unit 504.
[0138]
The supply completion pallet A is guided while being supported by the support rollers 722, 780, 586, etc., moved to the lower pallet support base 514, supported by the support rollers 562, and guided by the guide rail 564 to be stored in the storage unit 504. It is stored in. The supply completion pallet A is advanced while being retracted into the casing against the urging force of the spring 582 of the plunger ball 580, and is stopped by the stopper 570. In this state, the ball 582 is protruded upward from the support roller 562 by the bias of the spring, and the supply completion pallet A is prevented from being pulled out. After storage, the rod 752 is returned to the lower pallet support base 662.
[0139]
After transfer of the supply completion pallet A onto the lower pallet support table 514, the pallet support frame 652 of the carriage 502 is moved to the second position, and the upper pallet support table 660 is positioned at the pallet delivery position. In this state, in the same manner as when receiving the supply completion pallet A from the component supply device 18, the operator advances the bar 752 to engage the engagement portion 764 with the engagement recess 765 of the next supply pallet C, and 752 is retracted and the next supply pallet C is drawn onto the carriage 502.
[0140]
When the next supply pallet C is transferred to the carriage 502, the engagement pin 606 is moved to the retracted position, and the connection of the carriage 502 to the storage unit 504 is released. After releasing the connection, the operator moves the carriage 502 to disengage the engaging member 790 from the cam 590. At this time, air is supplied to an air cylinder provided between the elevating member 792 and the frame 650, the elevating member 792 gets over the cam surface 828, and after the engagement member 790 is detached from the cam 590, Air supply is cut off. Then, the worker moves the carriage 502 and conveys the next supply pallet C.
[0141]
The transfer of the pallet 326 with a feeder between the cart 502 and the pallet storage device 500 can be performed in various modes in addition to the above mode.
For example, as shown in FIG. 31, the supply completion pallet A mounted on the lower pallet support base 662 of the carriage 502 is stored in the lower pallet support base 514 of the storage unit 504, and the lower pallet support base 514 of another storage unit 504 is stored. Can be mounted on the upper pallet support 512 of the carriage 502.
[0142]
In this case, as shown in FIG. 31 (a), after the carriage 502 is moved and connected to the storage unit 504, the pallet support frame 652 is positioned at the first position, and the supply as shown in FIG. 31 (b). Return the completed pallet A onto the lower pallet support 514. Then, the connection between the carriage 502 and the storage unit 504 is released, and the carriage 502 is moved to the storage unit 504 in which the next supply pallet C is stored in the lower pallet support base 514 as shown in FIG. To do. Then, with the pallet support frame 652 positioned at the first position, as shown in FIG. 31 (d), after the next supply pallet C is once received by the lower pallet support table 662 of the carriage 502, FIG. As shown in (e), the pallet support frame 652 is raised to the third position, the lower pallet support stand 662 is positioned at the upper pallet delivery position, and as shown in FIG. Transfer to the upper pallet support 512 of the storage unit 504. Next, as shown in FIG. 31 (g), the pallet support frame 652 is lowered to the second position, the upper pallet support base 660 is positioned at the delivery position, and as shown in FIG. 31 (h), the next supply pallet C Are transferred from the upper pallet support table 512 to the upper pallet support table 660.
[0143]
Alternatively, the pallet with feeder 326 supported by the lower pallet support base 662 of the carriage 502 can be stored on the upper pallet support base 512 of the storage unit 504, or the pallet with feeder 326 of the upper pallet support base 660 can be stored in the lower pallet. The pallet with feeder 326 supported by the upper pallet support table 660 can be stored on the upper pallet support table 512. Alternatively, the feeder pallet 326 of the upper pallet support table 512 can be received on the lower pallet support table 662, and the pallet with feeder 326 of the lower pallet support table 514 can be received on the lower pallet support table 662.
[0144]
The replenishment of the electronic circuit component 140 will be described.
When the parts supply device 18 is out of parts, a feeder pallet 326 on which the same type of feeder 130 as the feeder 130 that is currently supplying the electronic circuit component 140 is prepared is prepared, and the pallet 326 is replaced. The circuit component 140 can be replenished. Therefore, the carriage 502 supports a pallet 326 with a feeder on which a feeder 130 having a sufficient number of electronic circuit components 140 is mounted. If a component failure is detected by a component failure detection device (not shown), the component supply device 18. The pallet with feeder 326 in which parts are cut out is received, and the pallet with feeder 326 having sufficient electronic circuit components 140 is delivered to the component supply device 18.
[0145]
Then, the feeder pallet 326 having the feeder 130 in which the parts are cut is conveyed to the work table 854 by the carriage 502. The cart 502 is connected to the work table 854 by a cart connecting device, and the pallet 326 with a feeder is transferred from the cart 502 to the work table 854. The transfer is performed by pushing a pallet 326 with a feeder by a bar 752, and the pallet 326 with a feeder is supported and locked by a pallet support base provided on a work table 854, and the electronic circuit component 140 is moved by an operator. Replenishment work is performed.
[0146]
The electronic circuit component 140 is supplied by, for example, splicing of the taped electronic circuit component 142. Splicing is to connect the tip of a new taped electronic circuit component 142 to the end of the taped electronic circuit component 142 that is actually set in the feeder 130. The feeder-equipped pallet 132 for which splicing has been completed is transferred to the carriage 502 by the operation of the bar 752, transported to the pallet storage apparatus 500, and stored in the storage unit 504.
[0147]
Splicing may be performed in a state where the pallet with feeder 326 is stored in the pallet storage device 500. The supply of the electronic circuit component 140 is not limited to splicing. For example, the taped electronic circuit component 142 remaining in the feeder 130 is removed from the feeder 130 together with the reel 150, and a new taped electronic circuit component 142 is wound around the feeder 130. The reel 150 may be set on the reel holding device 170 and the taped electronic circuit component 142 may be fed by the tape feeding device. Alternatively, the electronic circuit component 140 may be replenished by replacing the feeder 130 together.
[0148]
It is not indispensable to supply the electronic circuit component 140 to the component supply device 18 by replacing the pallet 326 with a feeder. For example, when the electronic circuit component mounting system 12 may be stopped while the electronic circuit component 140 is being replenished, or between the two component supply tables, the component supply table including the feeder 130 in which the component has run out If the replenishment time can be secured relatively long by supplying the electronic circuit component 140 by another component supply table, the feeder-supplied pallet 326 that has been replenished may be returned to the component supply device 18.
[0149]
In the above embodiment, the cart 502 is provided with the two pallet support tables 660 and 662, but the cart may have one pallet support table. Further, in the storage unit of the pallet storage device, a plurality of pallet support tables provided in the vertical direction may be moved up and down. Those embodiments will be described with reference to FIGS.
[0150]
The component mounting system including the electronic circuit component supply system of the present embodiment is configured in the same manner as the electronic circuit component mounting system 12 of the above embodiment except for the pallet storage device 900 and the carriage 902.
[0151]
The pallet storage device 900 will be described.
The pallet storage device 900 includes a plurality of storage units 1100. These storage units 1100 are arranged in a row horizontally. The plurality of storage units 1100 have the same configuration, and one will be described as a representative.
As shown in FIG. 32, the storage unit 1100 includes a frame 1110, a plurality of pallet support bases 1112 and 1114 provided in the frame 1110 that can be moved up and down, and a support base lifting device 1116 in the present embodiment. ing. The pallet support bases 1112 and 1114 are vertically connected by a plurality of connecting members 1118, and are provided in two stages at a distance greater than the height of the pallet 326 with feeder in the vertical direction. The pallet support bases 1112 and 1114 are provided in two upper and lower stages, and have a storage space 1119 for storing two pallets 326 with feeders, and these storage spaces 1119 are provided in two upper and lower stages. The pallet storage device 900 of this embodiment has two tiers on the top and bottom and a plurality of pallet storage spaces on the left and right, and can store a plurality of pallets 326 with feeders. Note that the height of the frame 1110 is adjusted by a height adjusting device 1102. In the present embodiment, the height adjusting device 1102 includes a plurality of adjusting bolts 1104 and nuts 1106.
[0152]
The support platform lifting / lowering device 1116 is a motion that converts the expansion / contraction of the hydraulic cylinder 1120 as a fluid pressure cylinder as a drive source and the piston rod 1122 of the hydraulic cylinder 1120 into the lift motion of the pallet support platforms 1112 and 1114. The pallet support bases 1112 and 1114 are moved in the vertical direction.
[0153]
The motion conversion device 1124 includes two pairs of links including two links 1126 and 1128 as shown in FIGS. 32 and 33. Each pair of links 1126 and 1128 is connected to each other so as to be rotatable relative to each other. One end of the link 1126 is rotatably connected to the frame 1110, and a roller 1130 is rotatably attached to the other end. And is rotatably fitted to a guide rail 1132 provided on the lower pallet support 1114. In addition, one end of the link 1128 is rotatably connected to the lower pallet support 1114, and a roller 1134 is rotatably attached to the other end, and the guide rail 1136 provided on the frame 1110 is rotated. It can be fitted.
[0154]
The hydraulic cylinder 1120 is rotatably attached to the frame 1110 in the cylinder housing 1140, and the piston rod 1122 is fitted to a shaft 1142 connecting the two pairs of links 1126 and 1128 by the link 1138 so as to be relatively rotatable. It is connected to the sleeve 1144.
[0155]
The supply of the hydraulic oil to the hydraulic cylinder 1120 is switched by the operator operating the lever 1148 as an operation member and switching the switching valve device. In the state where the piston rod 1122 is contracted, as shown in FIG. 32, the links 1126 and 1128 are contracted, the pallet support bases 1112 and 1114 are positioned at the lower end position, and the piston rod 1122 is expanded. For example, as shown in FIG. 35, the links 1126 and 1128 are guided and moved by the guide rails 1132 and 1136, and are extended to move the pallet support bases 1112 and 1114 to the raised end positions. The pallet support bases 1112 and 1114 are raised and lowered by a guide device including two guide rods 1146 serving as guide members.
[0156]
As shown in FIG. 32, the lower end positions of the pallet support bases 1112 and 1114 are defined by a stopper device 1150 or a lower end position defining device provided on the frame 1110. In the present embodiment, the stopper device 1150 includes a plurality of adjustment bolts 1152 and nuts 1154, and the lower end position can be adjusted. Further, the rising end positions of the pallet support bases 1112 and 1114 are defined by a stopper device or a rising end position defining device (not shown). This stopper device is configured similarly to the stopper device 1150, for example.
[0157]
The pallet support bases 1112 and 1114 will be described. The pallet support bases 1112 and 1114 are configured similarly, and the upper pallet support base 1112 will be described as a representative.
As shown in FIG. 34, the pallet support base 1112 includes a support base main body 1160, a plurality of support rollers 1162 as a kind of support member, and a pair of guide rails 1164. A plurality of support rollers 1162 are provided side by side in the width direction of the support base body 1160, and a plurality of the support rollers 1162 are arranged in the pallet transfer direction. It is provided so as to be rotatable around an orthogonal rotation axis. The support rollers 1162 are provided in two rows, and support the feeder pallet 326 so as to be movable in the pallet transfer direction. The guide rail 1164 is provided outside the two rows of support rollers 1162 and includes a vertical guide surface 1166 located above the support rollers 1162.
[0158]
As shown in FIG. 34, the pallet support base 1112 is also provided with a plurality of lifting prevention parts or pressing parts 1168 that prevent the pallet 326 with feeder from lifting. These holding portions 1168 are positioned above the support roller 1162, and the clamped portion 410 of the feeder pallet 326 is sandwiched between the holding roller 1162 and the feeder pallet 326 is prevented from rising.
[0159]
As shown in FIG. 34, the pallet support base 1112 is further provided with a stopper 1170 for stopping the movement of the pallet 326 with feeder. The stopper 1170 is made of rubber in this embodiment.
[0160]
Further, as shown in FIGS. 32 and 34, the pallet support base 1112 is provided with a plurality of anti-extraction devices 1174 for preventing the pallet 326 with feeder from being extracted from the pallet support base 1112. In this embodiment, two are provided. Yes. The pull-out prevention device 1174 is provided at two positions that are separated from the pallet with feeder 326 in a state where the pallet with feeder 326 is in contact with the stopper 1170 and separated in the supply unit alignment direction. An extraction preventing member 1176 provided to be rotatable around an axis parallel to the part arranging direction is included.
[0161]
As shown in FIGS. 34 and 46, the extraction preventing member 1176 has a generally plate shape and is bent in the middle of the longitudinal direction, and a bracket 1177 that rotatably supports the extraction preventing member 1176. A spring 1178 as an elastic member, which is a kind of biasing device provided between the two, is biased in a direction toward the extraction preventing position or the engagement position. The position of the rotation preventing position of the pull-out prevention member 1176 due to the urging of the spring 1178 is defined by the pull-out prevention member 1176 coming into contact with a protrusion 1180 serving as a stopper provided on the bracket 1177. Is done. In this state, one end portion of the extraction preventing member 1176, here, the end portion on the downstream side in the movement direction when the pallet 326 with feeder is transferred from the carriage 902 to the storage unit 1100 is in the movement path of the pallet 326 with feeder. The locking surface 1182 constituted by the end surface of the downstream end portion thereof is substantially vertical, and the upper surface of the downstream end portion is inclined in the upward direction toward the downstream side in the pallet moving direction. It becomes surface 1184. An operation unit 1185 is provided at the other end of the extraction preventing member 1176, and the operator holds the operation unit 1185 to rotate the extraction preventing member 1176 against the urging force of the spring 1178, The locking surface 1182 is moved to a non-engagement position or a movement allowable position where the movement of the pallet with feeder 326 is allowed and below the movement path of the pallet with feeder 326.
[0162]
As shown in FIGS. 33 and 34, a plurality of, in the present embodiment, two supports are provided at the front portion of the frame 1110 at positions corresponding to the two rows of support rollers 1162 of the pallet support base 1112 in the width direction. A roller 1186 is provided so as to be rotatable about an axis parallel to the rotation axis of the support roller 1162 and aligned in the pallet transfer direction. A guide rail 1188 is provided adjacent to the support roller 1186. The guide rail 1188 is provided with a pressing portion 1189 that protrudes above the support roller 1186. The pressing portion 1189 sandwiches the clamped portion 410 of the pallet 132 between the support roller 1186 and prevents the pallet 132 from lifting.
[0163]
The lower end position of the pallet support bases 1112 and 1114 is adjusted to a position where the support roller 1162 of the upper pallet support base 1112 is located at the same height as the support roller 1186, and the upper end position is the lower pallet support base 1114. The support roller 1162 is adjusted to a position located at the same height as the support roller 1186. The positions at which the heights of the support rollers 1162 of the pallet support bases 1112 and 1114 coincide with the support rollers 1186 are the pallet delivery positions of the pallet support bases 1112 and 1114. In the storage unit 1100, the pallet delivery position is 1 One.
[0164]
As shown in FIGS. 32 and 33, at the front portion of the frame 1110, at least one, in the present embodiment, two cams 1190 are provided to constitute a guide member. Cam surfaces 1192 are provided on the upper surfaces of the two cams 1190, respectively. As shown in FIG. 36, the cam surface 1192 is provided following an inclined surface 1194 that is inclined upward toward the pallet support bases 1112 and 1114, a horizontal surface 1196 that follows the inclined surface 1194, and a horizontal surface 1196. And an inclined surface 1198 which is inclined downward toward the pallet support bases 1112 and 1114.
[0165]
A carriage coupling device 1200 is also provided at the front portion of the frame 1110 so that the carriage 902 is coupled to the pallet storage device 900 so as not to be relatively movable. As shown in FIG. 36, the cart connecting device 1200 is provided above the two cams 1190, and is provided with a device main body 1201 fixed to the frame 1110 and capable of moving up and down on the device main body 1201 to constitute an engaging portion. A connecting member or engaging member 1202 and a connecting member driving device or engaging member driving device 1204 for driving the engaging member 1202 are included. The engaging member 1202 has a longitudinal shape, and an engaging portion 1205 having a V-shaped cross section is provided at the lower end portion thereof. The engaging portion 1205 has a pair of inclined surfaces 1206 and 1207 that approach each other toward the bottom. The engagement member 1202 is urged downward by a spring 1208 as an elastic member which is a kind of urging device, and is urged toward an engagement position where the engagement member 1202 engages with the carriage 902.
[0166]
The engaging member driving device 1204 includes a driving member 1210 attached to be rotatable about an axis parallel to the width direction of the storage unit 1100 and a releasing member 1212 provided so as to be movable up and down. The drive member 1210 is engaged with an engagement member 1202 at one end thereof so as to be relatively rotatable, and a partial cylindrical action surface 1214 is provided on the lower surface of the other end. The release member 1212 is provided above the drive member 1210 and is urged upward by a spring 1216 as an elastic member which is a kind of urging device. As shown in FIG. 33, the release members 1212 of the two engaging member driving devices 1204 are connected by a connecting member 1218, and are simultaneously lowered when the operation member 1220 supported by the frame 1110 so as to be movable up and down is pushed down. Be made. The movement limit of the release member 1212 due to the bias of the spring 1216 is defined by the contact portion provided perpendicular to the longitudinal direction of the connecting member 1218 contacting the frame 1110, and the drive member 1210 is driven by the spring 1208 bias. The engagement member 1202 is always brought into contact with the release member 1212, and the engagement portion 1205 of the engagement member 1202 is positioned at an engagement position that engages with an engagement member described later of the carriage 902. In addition, guide surfaces 1222 and 1228 are provided in the front portion of the frame 1110 so as to guide the engagement of an engagement member (described later) of the carriage 902 to the cam 1190 in the vertical direction and the horizontal direction.
[0167]
In this way, the carriage connecting device 1200 is provided on the frame 1110, and the pallet support bases 1112 and 1114 are provided on the frame 1110 so as to be lifted and lowered by the support stand lifting and lowering device 1116, so that the carriage 902 is moved by the carriage connecting device 1200. Even in a state where the storage unit 1100 is connected to the frame 1110 and is connected to the storage unit 1100, the pallet support bases 1112 and 1114 can be moved up and down.
[0168]
Among the plurality of storage units 1100, storage units 1100 adjacent to the left and right are connected by a unit connecting device 1240. As shown in FIGS. 33 and 34, the unit connecting device 1240 includes at least one connecting member 1242, 1244 fixed to the upper surface of the frame 1110, and in this embodiment, as shown in FIGS. These connecting members 1242 and 1244 are plate-shaped, and are fixed to the front end and the rear end of the upper surface of the frame 1110 by bolts 1246 which are a kind of fixing device at one end in the longitudinal direction. The other ends of the connecting members 1242 and 1244 extend from the frame 1110 to the adjacent pallet storage unit 1100 side, and are fixed to the upper surface of the frame 1110 of the adjacent pallet storage unit 1100 by bolts 1248.
[0169]
The cart 902 will be described.
As shown in FIG. 37, the carriage 902 includes a frame 908 as a carriage body, a pallet support base 910, a support base lifting device 912, and a support base support device 914. A plurality of, in the illustrated example, four wheels 916 are attached to the frame 908, and the carriage 902 is caused to travel.
[0170]
As shown in FIGS. 41 and 42, a plate-like attachment member 918 is provided at the upper end of the frame 908, and a plurality of attachment members 918, in the present embodiment, four levers 920 as lifting members are provided on the shaft 922. Accordingly, the pallet 326 with feeder is attached so as to be rotatable about a rotation axis that is orthogonal to the transfer direction of the pallet 326 with the feeder and parallel to the supply unit arrangement direction. These four levers 920 are provided at four positions separated from each other in the direction parallel to the horizontal plane, respectively, at positions corresponding to the four vertices of the rectangle in the present embodiment.
[0171]
Each of the four levers 920 is provided with a roller 926 as a rotation support member, which is a kind of support member, rotatably attached to an axis parallel to the rotation axis of the lever 920 and provided on the lower surface of the pallet support base 910. The fitting hole 928 is rotatably fitted. The fitting hole 928 is a long hole provided in the vertical direction on the bracket 930 fixed to the lower surface of the support base 510, and the two fitting holes 928 provided in the front part of the carriage 902 are provided in the rear part. The length is longer than the two fitting holes 928. Therefore, the roller 926 engages with the upper side surface of the fitting hole 928 and supports the pallet support base 910 from below by contacting the pallet support base 910 from below, but the front part of the pallet support base 910 is The lever 920 is allowed to lift from the roller 926 with the contact portion between the roller 926 of the side lever 920 and the upper end surface of the fitting hole 928 as a fulcrum. In the present embodiment, a plurality of, for example, four rollers 926 constitute a support base support portion, and a support base support device 914 is configured with a fitting hole 928 formed by a long hole. The lever 920 that holds the roller 926 supports the pallet support base 910 by coming into contact with the pallet support base 910 via the roller 926 from below.
[0172]
The four levers 920 are simultaneously rotated by a lever driving device 932, which is a lifting member driving device, and the portions holding the rollers 926 are moved up and down all at once. The lever driving device 932 includes a handle 934 as a rotation operation member that is a kind of operation member manually operated by an operator, and a rotational movement of the handle 934 is a rotation movement of the lever 920 and an up-and-down movement of the roller 926. A motion conversion device 936 for converting.
[0173]
As shown in FIGS. 40 and 41, the motion conversion device 936 has a screw shaft 938 provided at the rear portion of the mounting member 918 so as to be rotatable about a rotation axis parallel to the pallet transfer direction and immovable in the axial direction. And a nut 940 screwed to the screw shaft 938 so as not to be relatively rotatable and to be relatively movable in the axial direction. The screw shaft 938 is rotated by the operation of the handle 934, whereby the nut 940 is moved in the front-rear direction.
[0174]
The movement of the nut 940 is transmitted to the four levers 920 by the pair of links 942, the connecting rod 944 and the pair of connecting bars 946, and the four levers 920 are simultaneously rotated in the same direction. The portions of the lever 920 where the rollers 926 are provided are lifted and lowered simultaneously. If the roller 926 is raised by the rotation of the lever 920, the pallet support base 910 is raised, and if the roller 926 is lowered, the pallet support base 910 follows the roller 926 by its own weight. In the present embodiment, a pair of links 942, a connecting rod 944 and a connecting bar 946 constitute a motion converting device 936 together with a screw shaft 938 and a nut 940, and a lever driving device 932 including a motion converting device 936 and a handle 934 is provided. Together with the four levers 920, the support base lifting device 912 is configured.
[0175]
The upper side surface of the frame 908 is covered with a cover 950 as shown in FIGS. Further, the pallet support base 910 is provided with a cover 952 extending in the downward direction. As shown in FIG. 38, a scale 954 is provided in the vertical direction on the rear surface of the cover 950 that covers the frame 908, and the value of the scale 954 indicated by the lower end edge of the cover 952 provided on the pallet support base 910 The height of the pallet support base 910 (the vertical position with respect to the frame 908) is known.
[0176]
The pallet support base 910 includes a support base body 958 having a rectangular shape, a plurality of support rollers 960, and a pair of guide rails 962, as shown in FIGS. A plurality of support rollers 960 are perpendicular to the pallet transfer direction at two positions separated from each other in a direction orthogonal to the pallet transfer direction of the support base body 958, are rotatable about a horizontal rotation axis, and are in the pallet transfer direction. It is provided side by side. Two rows of support rollers 960 are provided. The guide rail 962 is provided outside the two rows of support rollers 960 in parallel with the pallet transfer direction, and has a vertical guide surface 966 positioned above the support rollers 960.
[0177]
As shown in FIGS. 38 and 39, the pallet support base 910 is provided with a plurality of lifting prevention parts or pressing parts 963 that prevent the pallet 326 with feeder from lifting. The holding portion 963 is provided adjacent to the rear ends of the pair of guide rails 962, is located above the support roller 960, and sandwiches the clamped portion 410 of the feeder pallet 326 with the support roller 960. This prevents the pallet 326 with feeder from being lifted.
[0178]
Further, as shown in FIGS. 38 and 39, a plurality of handles 964, a stopper 970, and a locking device 980 are provided at the rear portion of the pallet support base 910. The stopper 970 is made of rubber which is a kind of elastic member. When the pallet 326 with feeder is transferred to the carriage 902 and the pallet 326 with feeder is supported on the pallet support 910, the movement limit of the pallet 326 with feeder is limited. And the transfer position or carry-in position.
[0179]
As shown in FIGS. 43 and 44, the locking device 980 includes a plunger 982 that is a locking member provided on the pallet support base 910 so as to be movable up and down on the device main body 981. The plunger 982 has a circular cross-sectional shape, is fitted in a fitting hole 984 provided in the apparatus main body 981 so as to be movable up and down, and is held by a lever 986. The lever 986 is attached to the apparatus main body 981 by a shaft 992 so as to be rotatable about an axis parallel to the supply unit arrangement direction.
[0180]
The plunger 982 is provided with a pin 998 perpendicular to the axis of the plunger 982 and penetrating in the left-right direction of the carriage 902, and both ends of the pin 598 are respectively provided in the apparatus main body 981 in the vertical direction. Is inserted into the notch 1001 of the lever 986 through the elongated hole 1000.
[0181]
The plunger 982 is urged in a direction protruding from the fitting hole 984 by a compression coil spring 1004 (hereinafter, abbreviated as a spring 1004) which is an elastic member which is a kind of urging means disposed in the fitting hole 984. Has been. The protrusion limit of the plunger 982 due to the bias of the spring 1004 is defined by the operation portion 1002 of the lever 986 coming into contact with the stopper 1006 provided on the pallet support base 910. In this embodiment, the stopper 1006 is formed of an adjusting bolt, and the amount of protrusion of the plunger 982 from the pallet support base 910 is adjusted by adjusting the screwing amount. The stopper 1006 constitutes a protrusion limit defining member or a protrusion amount defining member.
[0182]
The protruding end portion of the plunger 982 is inclined with respect to the axis of the plunger 982 in the upward direction toward the rear side of the pallet support base 910 (downstream side in the loading direction when the feeder pallet 326 is loaded). An inclined surface 1010 is provided, and a locking surface 1012 is provided in parallel to the axis of the plunger 982 adjacent to the rear end of the inclined surface 1010. As shown in FIG. 44, the pallet 132 is provided with a locking hole 1016 that opens at the rear part of the lower surface thereof and has a rectangular cross section. The locking surface 1012 of the plunger 982 engages and locks with a locking surface 1018 that is a forward-facing surface of the locking hole 1016. The movement limit of the plunger 982 due to the bias of the spring 1004 is adjusted so that the locking surface 1012 is located at a position where the locking surface 1012 can be engaged with the locking surface 1018.
[0183]
As shown in FIGS. 39 and 40, a plurality of, in the present embodiment, two engaging members 1020 are provided on the front portion of the pallet support base 910 so as to protrude forward. These engagement members 1020 are provided at positions spaced apart in the width direction of the pallet support base 910, and a roller 1022 serving as a cam follower is provided at the supply end of the pallet support base 910 at the protruding end of the engagement member 1020. The roller 1022 is rotatably attached around an axis parallel to the alignment direction, and the lower end of the roller 1022 protrudes downward from the lower surface of the engagement member 1020. Further, a vertical contact surface 1024 or a stopper surface is provided at the base end portion of the engagement member 1020.
[0184]
The engaging member 1020 is also provided with a groove 1026 that opens on the upper surface of the engaging member 1020 and extends in the left-right direction at a position in front of the rotation axis of the roller 1022. The upper part of the pair of groove side surfaces 1028 of the groove 1026 is a guide surface that is inclined so as to approach each other toward the lower side, and the lower part is a vertical surface, and extends to the bottom of the groove 1026 in the left-right direction. An engagement groove 1030 having a rectangular shape is provided. In the present embodiment, the engagement member 1020 constitutes a first engagement portion, and the cart coupling device 1040 together with the engagement device 840 provided in the component supply device 18 and the portion provided with the opening 820 of the cover main body 480. Is configured.
[0185]
Next, the operation will be described.
In this embodiment, since the carriage 902 has one pallet support base, for example, at the time of setup change, the carriage 902 receives a supply completion pallet from the component supply device 18 and transports it to the pallet storage device 900. And storage in the storage unit 1100. Then, the next supply pallet is received from the pallet storage device 900, conveyed, and delivered to the component supply device 18.
[0186]
Reception of the supply completion pallet A from the parts supply device 18 of the carriage 902 will be described.
The cart 902 is first coupled to the bed 10 by the cart coupling device 1040. Similarly to the cart 502, the cart 902 causes the engaging member 1020 to enter the cover 470 through the opening 820 even when the component supply device 18 is supplying the electronic circuit component 140, and the bed 10. Can be linked to. Here, the carriage 902 is connected to the bed 10 with the opening / closing cover 472 or 474 being closed. When connecting the carriage 902 to the bed 10, the operator moves the carriage 902 with the handle 964, and the horizontal position of the pair of engaging members 1020 and the pair of cams 826 provided on the bed 10. In a state where the two are aligned, the carriage 902 is advanced, and the roller 1022 provided on the engaging member 1020 is moved along the cam surface 828.
[0187]
Prior to connection to the bed 10, the height of the pallet support base 910 is adjusted by the support base elevating device 912 so that the engagement member 1020 is placed on the horizontal plane 832 of the cam 826 and supported from below. The side of the pair of engaging members 1020 is at a position lower than the height at which the pair of engaging members 1020 are positioned and at a position where the roller 1022 can be engaged with the inclined surface 830 of the cam surface 828. The directional position is adjusted to the cam 826 and guided and advanced by the cam 826. The height at which the first engaging portion constituted by the engaging member 1020 is just received by the receiving portion constituted by the portion including the opening 820 of the cover body 480, that is, the height supported by the horizontal surface 832 of the cam 826. It is brought close to the receiving part in the low position, guided by the cam 826 and guided to the receiving part and guided into the cover 470. This height is the second height of the pallet support 910. When the height of the pallet support base 910 is adjusted by the support base lifting device 912, the operator operates the handle 934 to rotate the four levers 920 to raise and lower the pallet support base 910, thereby causing the pallet support base 910 to move up and down. The lower edge of the cover 952 points to a predetermined position of a scale 954 (see FIG. 38) provided on the cover 950.
[0188]
Therefore, when the roller 1022 is advanced along the inclined surface 830, the front portion of the pallet support base 910 is lifted with respect to the rear portion, and the engaging member 1020 is advanced while being guided by the cam 826. The front fitting hole 928 of the pallet support base 910 is longer than the rear fitting hole 928, and the front part of the pallet support base 910 is formed between the upper end surface of the rear fitting hole 928 and the roller 926. The carriage 902 is allowed to move forward with the contact portion as a fulcrum.
[0189]
As shown in FIG. 45, the carriage 902 is advanced until the vertical contact surface 1024 provided at the base end portion of the engagement member 1020 contacts the cam 826. When the carriage 902 is stopped by this contact, the engaging member 1020 is placed on the horizontal surface 832 of the cam surface 828 and supported from below, and the roller 1022 is slightly upward with respect to the inclined surface 834. It will be in a position. In this state, the operator operates the handle 934 to rotate the four levers 920 to raise the rear portion of the pallet support base 910.
[0190]
The lever 920 is rotated until the roller 926 provided on the front lever 920 contacts the upper end surface of the fitting hole 928. By rotating the rear lever 920, the rear part of the pallet support base 910 is raised, and in this state, the height of the front part and the rear part of the pallet support base 910 becomes the same and becomes horizontal. The operator also operates the handle 934 while looking at the scale 954 provided on the rear surface of the frame 908 of the carriage 902, and the pallet support base 910 according to the value of the scale 954 indicated by the lower end of the cover 952 provided on the pallet support base 910. You can see the height. Therefore, even if it is difficult to obtain a feeling of contact with the end face of the fitting hole 928 of the roller 926, if the handle 934 is operated until the scale 954 shows a preset value, the carriage 902 is engaged with the bed 10. Thus, a state in which the pallet support base 910 is horizontal is obtained. When the operator stops operating the handle 934, the screw shaft 938 does not rotate, and the pallet support base 910 is raised to a predetermined height, that is, the height of the support roller 960 is raised to the rising end position of the component supply device 18. Further, the position is the same as the height of the support roller 404 and the guide roller 460 of the pallet support base 328, and is maintained in the state of being positioned at the pallet delivery position of the component supply device 18 in the vertical direction. This height is the first height of the pallet support 910, and the second height is a height that is lower than the first height by a distance smaller than the height of the feeder 130. Further, by connecting the carriage 902 to the bed 10, the carriage 902 is positioned with respect to the pallet support base 382 in the supply unit alignment direction, and the support rollers 960 and 404 are aligned in the supply unit alignment direction.
[0191]
Further, when the carriage 902 is stopped by the contact surface 1024 of the engaging member 1020 coming into contact with the cam 826, the engaging pin 842 is lowered by the pin driving device 844 to be fitted into the engaging groove portion 1030 of the groove 1026. Thus, the engagement member 1020 is prevented from being detached from the cover 470, and the carriage 902 is connected to the bed 10 so as not to be relatively movable. Insertion of the engagement pin 842 into the engagement groove portion 1030 is guided by the inclined surface of the groove side surface 1028. Further, even if there is a slight misalignment between the engaging groove portion 1030 of the groove 1026 and the engaging pin 842 in the pallet transfer direction or the moving direction when the carriage 502 is connected, the engaging pin 842 swings to absorb it. Then, the engaging pin 842 is fitted into the engaging groove 1030.
[0192]
Then, when the mounting of the electronic circuit components is completed and the setup is changed, the operator opens the opening / closing cover. In the component supply device 18, after the component supply table is retracted to the storage area, the pallet support base 382 provided on the moving table 134 is raised to the rising end position by the pallet lifter 426, and the supply completion pallet A is moved. It is lifted from the table 134, clamped and positioned with respect to the moving table 134 is released, and supported by the support roller 404 in a movable state in the Y-axis direction, which is the pallet transfer direction, and the height of the upper end of the support roller 404 is The height of the upper end of the guide roller 460 is made coincident. Therefore, if the operator holds the handle 340 provided in the bucket 330 and pulls the supply completion pallet A toward the carriage 902, the supply completion pallet A is supported by the support roller 404 and guided by the guide roller 406. It moves to the 902 side, passes through the guide roller 460, and rests on the support roller 960 of the carriage 902. The supply completion pallet A is supported by the support roller 960, moved while being guided by the pair of guide rails 962 on the support roller 960, and moved until it contacts the stopper 970.
[0193]
At this time, the rear end surface of the pallet 132 is engaged with the inclined surface 1010 of the plunger 982 of the locking device 980, and the plunger 982 is retracted into the fitting hole 984 against the urging force of the spring 1004 by the action of the inclined surface. Movement of the feeder pallet 326 is allowed. When the pallet 132 is brought into contact with the stopper 970 and stopped, the locking hole 1016 provided in the pallet 132 is opposed to the plunger 982, and the plunger 982 protrudes from the fitting hole 984 by the urging force of the spring 1004. And the tip end portion is fitted into the locking hole 1016. As a result, as shown in FIG. 44, the locking surface 1012 provided on the plunger 982 faces the locking surface 1018 of the locking hole 1016, and the engagement of these locking surfaces 1012 and 1018 and the stopper 970 are engaged. The contact prevents the pallet 132 from moving in the pallet transfer direction or the front-rear direction, and is locked to the carriage 902. Further, the clamped portion 410 of the pallet 132 reaches below the pressing portion 963 provided on the carriage 902, and the lift is prevented.
[0194]
After the supply completion pallet A is transferred to the carriage 902, the opening / closing cover is closed, the engagement pin 842 is raised and pulled out of the engagement groove 1030, and the carriage 902 is disconnected from the bed 10. In this state, the operator holds the handle 964 and moves the carriage 902 backward to disengage the pair of engaging members 1020 from the cam 826. At this time, the roller 1022 provided on the engaging member 1020 is guided by the upward inclined surface 834 in the backward direction of the carriage 902 and gets over the cam 826. After the engaging member 1020 is removed from the cover 470, the operator operates the handle 934 to rotate the lever 920 to lower the pallet support base 910. The four levers 920 are simultaneously rotated, and the supply completion pallet A is lowered in a horizontal posture. The operator operates the handle 934 while looking at the scale 954 (see FIG. 38) provided on the frame 908, and the position where the lower end of the cover 952 provided on the pallet support base 910 indicates a preset value of the scale 954. The pallet support base 910 is lowered. When the feeder-attached pallet 326 is thus transferred to the carriage 902, the operator moves it to the pallet storage device 900, stores it in the storage unit 1100, and receives the next supply pallet.
[0195]
Here, as schematically shown in FIG. 47, the supply completion pallet A is stored in the space above the lower pallet support 1114 (hereinafter simply referred to as the lower pallet support 1114) of the storage unit 1100 of the pallet storage device 900. Then, the pallet with feeder stored in the lower pallet support 1114 of another storage unit 1100 is received as the next supply pallet. Even when the carriage 902 is connected to the storage unit 1100, the pallet support bases 1112 and 1114 can be moved up and down, so that the pallet 326 with a feeder can be easily stored and received in the pallet storage device 900. For example, when the storage and reception are performed on the same storage unit 1100, the carriage 902 need not be disconnected and connected to the storage unit 1100 every time the pallet support bases 1112 and 1114 are moved up and down. Because.
[0196]
First, the carriage 902 is connected to the storage unit 1100.
As shown in FIG. 35, the horizontal positions of the pair of engaging members 1020 of the carriage 902 and the pair of cams 1190 of the storage unit 1100 are aligned, and the carriage 902 is advanced. In the storage unit 1100, the height of the frame 1110 is adjusted by the height adjustment device 1102. In this embodiment, the height of the cam 1190 is set to be the same height as the cam 826 of the component supply device 18. In the carriage 902, the engaging member 1020 is lower than the state supported by the horizontal surface 1196 (see FIG. 36) of the cam 1190, and the roller 1022 is positioned at a height at which the inclined surface 1194 can be engaged. Similarly to the connection to the bed 10, the roller 1022 is advanced along the cam surface 1192 while the front part of the pallet support base 910 is lifted from the rear part as the carriage 902 advances.
[0197]
In the state where the carriage 902 is not coupled, the carriage coupling device 1200 of the storage unit 1100 is driven by the engagement member 1202 being lowered by the biasing force of the spring 1208 as shown in FIG. The member 1210 is brought into contact with the release member 1212. When the carriage 902 is advanced and the engaging member 1020 is advanced, the front end of the engaging member 1020 abuts on the inclined surface 1206 of the engaging member 1202, and the engaging member 1202 is attached to the spring 1208 by the action of the inclined surface. Retracted against the force, allowing the engagement member 1020 to enter. When the carriage 902 is advanced until the contact surface 1024 comes into contact with the cam 1190, the engaging portion 1205 fits into the groove 1026 of the engaging member 1020 and connects the carriage 902 to the storage unit 1100. Advancement of the engaging member 1020 is guided by the guide surfaces 1222 and 1228. After connecting the cart 902 to the storage unit 1100, the operator operates the handle 934 (see FIG. 37) to raise the rear part of the pallet support table 910 to make it horizontal. It may be considered that the engaging member 1020 is also a component of the cart coupling device 1200.
[0198]
In the storage unit 1100, the pallet support bases 1112 and 1114 are at the lower end position, and the upper pallet support base 1112 is positioned at the pallet delivery position. Therefore, in a state where the carriage 902 is connected to the storage unit 1100, the height of the support roller 960 of the pallet support base 910 of the carriage 902 and the support roller 1162 of the upper pallet support base 1112 are the same.
[0199]
As shown in FIG. 47A, after the carriage 902 is moved to and connected to the storage unit 1100, the supply completion pallet A is transferred onto the lower pallet support base 1114. Prior to transfer, in the storage unit 1100, as schematically shown in FIG. 47 (b), the lower pallet support 1114 is raised and moved to the pallet delivery position. At the time of transfer, the operator operates the lever 986 of the locking device 980 of the carriage 902 to release the plunger 982 from the locking hole 1016 of the pallet 132 and release the locking of the supply completion A to the carriage 902, Holding the handle 340, the supply completion pallet A is moved into the storage unit 1100 and stored in the storage space 1119.
[0200]
The supply completion pallet A is supported by the support roller 1162 and moved while being guided by the guide rail 1164. In the middle of the movement, the supply pallet A is engaged with the inclined surface 1184 of the extraction preventing member 1176 of the extraction preventing device 1174, By the action of the slope, the extraction preventing member 1176 is rotated against the urging force of the spring 1178 and retracted to the non-engagement position, and the movement of the supply completion pallet A is allowed. The movement of the supply completion pallet A is stopped by a stopper 1170. As shown in FIG. 47 (c), when the supply completion pallet A is transferred onto the pallet support 1114 and stored in the storage unit 1100, the extraction preventing member 1176 is detached from the feeder pallet 326 and the spring 1178 is removed. Is moved to the removal preventing position to prevent the supply completed pallet A from being pulled out from the storage unit 1100. After the transfer, as shown in FIG. 47 (d), the pallet support 1114 is lowered to the lowered end position.
[0201]
After the transfer, the connection between the carriage 902 and the storage unit 1100 is released, and the carriage 902 is moved to the storage unit 1100 that receives the next supply pallet. When releasing the connection, the operator pushes the operation member 1220 of the carriage connecting device 1200 to lower the release member 1212 against the urging force of the spring 1216, and the engaging member 1202 is moved to the spring 1208 by the rotation of the drive member 1210. The engagement portion 1205 is lifted against the urging force to be pulled out of the groove 1026 of the engagement member 1020 and moved to a non-engagement position where the engagement member 1020 is not engaged. The operator pushes the operation member 1220 to keep the engaging portion 1205 in the disengaged position and moves the carriage 902 in a direction away from the storage unit 1100 while holding the portion close to the engaging member 1020 of the carriage 902. Let At this time, even if the end of the drive member 1210 opposite to the side engaged with the engagement member 1202 may be located in the movement path of the engagement member 1020, the engagement member 1020 is driven. The member 1210 is rotated against the urging force of the spring 1204 to allow passage. The distal end portion of the engaging member 1020 rotates the driving member 1210 against the urging force of the spring 1204 by the action of the inclined surface of the operating surface 1214 of the driving member 1210 to allow its passage.
[0202]
When the operator moves the carriage 902 back to a position where the groove 1026 of the engagement member 1020 is disengaged from the engagement portion 1205 of the engagement member 1202, the operator releases the operation member 1220 and moves to the front of the carriage 902. The handle 964 is rotated and the carriage 902 is moved. A maintenance device that keeps the operating member 1220 pressed and keeps the engaging member 1202 in the disengaged position may be provided, and the operator may move the carriage 902 during that time. The worker moves the carriage 902 while keeping the engaging member 1020 in the disengaged position.
[0203]
The operator moves the cart 902 to the storage unit 1100 that supplies the next supply pallet B as shown in FIG. Since the next supply pallet B is stored in the lower pallet support 1114 of the storage unit 1100, as shown in FIG. 47 (f), the lower pallet support 1114 is moved to the rising end position and moved to the pallet delivery position. Be made. Then, the operator pulls the handle 340 of the next supply pallet B and pulls it onto the carriage 902 as shown in FIG. 47 (g).
[0204]
Prior to the transfer, the operator releases the prevention of the extraction of the next supply pallet B by the extraction preventing device 1174. The operator holds the operation portion 1185 of the extraction preventing member 1176, rotates the extraction preventing member 1176 against the urging force of the spring 1178, and moves the locking surface 1182 to the next supply pallet B. It is evacuated from the route. The worker maintains the state and moves the next supply pallet B to the cart 902 side by a short distance so that the next supply pallet B is positioned on the extraction preventing member 1176 and prevented from rotating to the engagement position. Then, the operation unit 1185 is released and the next supply pallet B is moved. The next supply pallet B is supported by the support roller 1162 of the lower pallet support table 1114 and guided by the guide rail 1164, and the cart is the same as when the supply completion pallet A is transferred from the component supply device 18 to the cart 902. 902 is transferred and locked. After the transfer, the lower pallet support 1114 is lowered to the lower end position as shown in FIG. 47 (h).
[0205]
After the transfer, the connection of the carriage 902 to the storage unit 1100 is released, and the operator moves the carriage 902 and conveys the next supply pallet B to the component supply device 18. When the next supply pallet B is transferred to the component supply device 18, the carriage 902 is connected to the bed 10 in the same manner as when the supply completion pallet A is received, and the locking by the locking device 980 is released. Is transferred onto the pallet support table 382 of the component supply device 18.
[0206]
The supply completion pallet may be stored in the upper pallet support 1111 of the storage unit 1100, and the next supply pallet may be received from the upper pallet support 1112. The storage of the supply completion pallet and the reception of the next supply pallet may be performed on the same storage unit.
[0207]
When the carriage is a carriage having one pallet support base, the pallet storage device may be an apparatus in which a plurality of pallet support bases cannot be raised and lowered, as in the embodiment shown in FIGS. In this case, the delivery of the pallet with feeder between the carriage and the pallet storage device is performed using the movable auxiliary unit. The embodiment will be briefly described with reference to FIGS.
[0208]
As schematically shown in FIG. 48, the pallet storage device 1300 of the present embodiment includes a plurality of fixed storage units 1302 and one movable storage unit 1304 that are provided at fixed positions. The fixed storage unit 1302 is configured similarly to the storage unit 504 of the above-described embodiment, for example.
[0209]
Although detailed illustration and description are omitted, the movable storage unit 1304 has, for example, one pallet support base, and the pallet support base is supported by the frame so that it can be lifted and lowered. The pallet storage device 900 is configured to be moved to a rising end position and a falling end position by a support base lifting device having the same configuration as the support base lifting device 1116 of the storage unit 1100. The ascending end position is an upper delivery position where the pallet support table delivers a pallet with a feeder to the carriage or the upper pallet supporting table of the fixed storage unit 1302, and the descending end position is a lower pallet of the fixed storage unit 1302. This is the lower delivery position for delivering the pallet with feeder to / from the support base.
[0210]
The movable storage unit 1304 is provided with wheels on a frame so that it can be run by an operator. The movable storage unit 1304 is also provided with a pair of cams and a dolly connecting device for connecting the dolly 1306 on one side in the pallet transfer direction of the frame. The cart connecting device may be a device including an engaging device having the same configuration as that of the engaging device 840 provided on the bed 10, or may be a device having the same configuration as the cart connecting device 1200 of the storage unit 1100. Good. A pair of engaging members for connecting the movable storage unit 1304 to the fixed storage unit is provided on the other side in the pallet transfer direction of the frame. These engaging members are provided so that they can be raised and lowered, for example, like the engaging members 790 of the carriage 502, and are raised and lowered by an air cylinder. Similarly to the pallet support base 910 of the carriage 902, the pallet support base may be lifted up to engage the engaging member with the fixed storage unit. In addition, the pallet support table is provided with, for example, a plunger ball to prevent the pallet with feeder from being pulled out from the pallet support table. Similarly to the cart 902 and the storage unit 1100 of the embodiment, a locking device and an extraction preventing device may be provided. However, these are provided so that the pallet with feeder on the pallet support table can be transferred to the pallet support table from both the front and rear sides in the pallet transfer direction and can be retracted from the pallet support table. It may be provided so as to allow the movement of the pallet by automatically retreating from the locking position or the removal preventing position as the pallet is transferred, so that the movement of the pallet is allowed by the operator's operation. May be provided. The fixed storage unit 1302 is provided with a cart connecting device so that the cart 1306 and the movable storage unit 1304 can be similarly connected. The cart connecting device is also a movable storage unit connecting device. The cart 1306 is configured similarly to the cart 902, for example. Further, the movable storage unit 1304 is provided with a height adjusting device so that the height is adjusted.
[0211]
The delivery of a pallet with a feeder using the movable storage unit 1304 will be briefly described.
The plurality of fixed storage units 1302 are arranged in a line in the horizontal direction, and the movable storage unit 1304 is always at a position adjacent to the fixed storage unit 1302 positioned at the extreme end as shown in FIG. When the cart 1306 delivers or receives the feeder pallet to the storage unit, it is moved to the fixed storage unit 1302 and connected by the cart connecting device as shown by the solid line in FIG. 48 (b). The
[0212]
When the supply completion pallet A is stored in the fixed storage unit 1302, for example, if the supply completion pallet A conveyed by the carriage 1306 is stored in the lower pallet support base of the fixed storage unit 1302, the carriage 1306 is stored in the movable storage unit 1304. Connected. As shown in FIG. 49 (a), the pallet support base of the movable storage unit 1306 is positioned at the upper delivery position, and is supplied from the carriage 1306 to the pallet support base of the movable storage unit 1304 as shown in FIG. 49 (b). The completed pallet A is transferred. After the transfer, the carriage 1306 is disconnected from the movable storage unit 1304 and the movable storage unit 1304 is connected to the fixed storage unit 1302. Then, as shown in FIG. 49 (c), the pallet support base is lowered to the lower delivery position and transferred to the lower pallet support base of the fixed storage unit 1302 as shown in FIG. 49 (d).
[0213]
When the next supply pallet B is received by the cart 1306, first, the movable storage unit 1304 is connected to the fixed storage unit 1302. As shown in FIG. 50 (a), if the next supply pallet B is stored in the lower pallet support of the fixed storage unit 1302, the movable storage unit 1304 has a structure as shown in FIG. 50 (b). The pallet support is lowered to the lower delivery position, and the next supply pallet B is transferred as shown in FIG. 50 (c). After the transfer, the connection of the movable storage unit 1304 to the fixed storage unit 1302 is released, and the carriage 1306 is connected to the movable storage unit 1304. As shown in FIG. 50 (d), the pallet support base is moved to the upper delivery position. As shown in FIG. 50 (e), the next supply pallet B is transferred to the carriage 1306. In a state where the fixed storage unit 1302, the movable storage unit 1304, and the carriage 1306 are connected at the same time, the pallet with feeder can be transferred between the carriage 1306 and the fixed storage unit 1302 via the movable storage unit 1304. For example, the pallet transfer operation may be performed by connecting them simultaneously.
[0214]
If the trolley delivers the pallet with feeder to the upper pallet support base of the fixed storage unit, the pallet may be delivered via the movable storage unit 1304, and the trolley is directly connected to the fixed storage unit. Alternatively, direct delivery may be performed. The storage unit storing the supply completion pallet and the storage unit storing the next supply pallet may be different or the same.
[0215]
In each of the above embodiments, one of the carriage and the storage unit is provided with a plurality of pallet support bases in the vertical direction, and the one pallet support base is lifted and lowered by the support base lifting device. Each of the plurality of pallet support bases provided in each may be moved up and down by the support base lifting device. In this case, the pallet with feeder can be received and stored in various manners by combining each position of the plurality of pallet support bases of the carriage and the storage unit.
[0216]
For example, as schematically shown in FIG. 51, a feeder pallet A mounted on a carriage 1332 is stored in a storage unit 1330 in which pallets B and C with feeders are stored on both upper and lower pallet support bases. Attached pallet B can be received. First, the pallet B with feeder is received on the lower pallet support base of the carriage, and then the pallet support base of the storage unit 1330 is moved up and down to store the pallet A with feeder on the empty lower pallet support base.
[0217]
Alternatively, as schematically shown in FIG. 52, one of the pallets A and B with feeders mounted on the upper and lower pallet support bases of the carriage 1332 is stored in the storage unit 1330, and the pallet C with feeder is received from the storage unit 1330. You can also. If the pallet A with feeder is stored in the storage unit 1330, the pallet support base of the carriage 1332 is first raised to store the pallet A with feeder on the pallet support base on the upper side of the storage unit 1330, and then the pallet of the truck 1332 The support table is lowered, and the pallet C with feeder is received on the empty pallet support table.
[0218]
A carriage having one pallet support base, a plurality of pallet support bases that are moved up and down by a support base lifting device, a storage unit in which a plurality of pallet support bases provided in the vertical direction are moved up and down, Storage unit having a plurality of pallet support bases fixed in the direction and a pallet support base, and the pallet support base can be moved up and down by a support base lifting device and movable storage unit, pallet support A movable storage unit that has a plurality of bases and can be moved while being moved up and down by raising and lowering the support base can be appropriately combined, whereby receiving and delivery of the pallet with feeder from the component supply device 18 Storing and receiving in the pallet storage device can be performed in various ways.
[0219]
In each of the above-described embodiments, the mounting head is provided on the intermittent rotating body, and is rotated around the rotation axis of the intermittent rotating body to receive and mount the electronic circuit component by the intermittent rotation. The mounting head moving device may be moved to an arbitrary position in a plane parallel to the surface of the circuit board to receive and mount the electronic circuit component. The embodiment will be described with reference to FIGS. 53 and 54. FIG. The basic configuration of the electronic circuit component mounting system is the same as that of the electronic circuit component mounting system described in Japanese Patent No. 2824378, and will be described briefly.
[0220]
In FIG. 53, reference numeral 1400 denotes a bed of the electronic circuit component mounting system 1401. On the bed 1400, there are provided a wiring board conveyor 1404, a printed wiring board holding device 1406, a mounting device 1408, component supply devices 1410, 1412, and the like that convey the printed wiring board 1402 in the X-axis direction (left and right in FIG. 53). It has been.
[0221]
In this embodiment, the printed wiring board 1402 is conveyed in a horizontal posture by the wiring board conveyor 1404, stopped at a predetermined component mounting position by a stop device (not shown), and corresponds to the component mounting position of the bed 1400. The surface is held in a horizontal posture by a printed wiring board holding device 1406 provided in the portion to be fixed.
[0222]
As shown in FIGS. 53 and 54, the component supply devices 1410 and 1412 are provided at fixed positions on both sides of the wiring board conveyor 1404 so as to be separated from each other in the Y-axis direction orthogonal to the X-axis direction in the horizontal plane. . The component supply device 1410 is a feeder-type component supply device that supplies electronic circuit components by a feeder, and the component supply device 1412 is a tray-type component supply device that supplies electronic circuit components by a tray.
[0223]
The component supply device 1410 includes one component supply table 1414. The component supply table 1414 includes a fixed table 1416 supported at a fixed position on the bed 1400, a pallet 1418 detachably mounted on the fixed table 1416, and a plurality of feeders 1420 detachably mounted on the pallet 1418. Have The pallet 1418 on which the feeder 1420 is mounted is referred to as a pallet 1422 with a feeder. The bed 1400 is provided with a pallet support base and a clamp device (not shown) so as to support the pallet 1418 and clamp it to the fixed table 1416. The pallet support may be omitted. The clamp device is configured using, for example, an air cylinder as a drive source, and clamps the pallet 1418 to the fixed table 1416 or releases the clamp by an operator's switch operation. Each of the feeders 1418 includes a tape holding device and a feeding device, and each supply unit is mounted on a fixed table 1416 in a state of being aligned on a straight line parallel to the X-axis direction. The component supply device 1412 supplies electronic circuit components by a tray in which one electronic circuit component is accommodated in each of the plurality of component accommodating recesses.
[0224]
The mounting device 1408 will be described. 54, the mounting head 1430 shown in FIG. 54 is moved by the mounting head moving device 1432 in a direction having at least one component of the X-axis direction and the Y-axis direction orthogonal to each other to convey the electronic circuit component 1434. The printed wiring board 1402 is attached to a surface which is a mounting surface or an upper surface.
[0225]
Therefore, the mounting head moving device 1432 includes an X-axis slide 1440, an X-axis slide moving device 1442, a Y-axis slide 1444, and a Y-axis slide moving device 1446, as shown in FIGS. The X-axis slide moving device 1442 includes an X-axis slide moving motor 1448, a ball screw 1450, and a nut 1452, and moves the X-axis slide 1440 in the X-axis direction. The Y-axis slide 1444 and the Y-axis slide moving device 1446 are provided on the X-axis slide 1440. The Y-axis slide moving device 1446 includes a Y-axis slide moving motor 1456, a ball screw 1458, and a nut 1460, and moves the Y-axis slide 1444 in the Y-axis direction.
[0226]
The mounting head 1430 is provided on the Y-axis slide 1444 and is moved to an arbitrary position in a horizontal plane parallel to the surface of the printed wiring board 1402. As shown in FIG. 54, the Y-axis slide 1444 is provided with a mounting head 1430, a head lifting / lowering device 1466 for moving the mounting head 1430 up and down, and a head rotating device 1468 for rotating the mounting head 1430 around its axis. The mounting head 1430 and the like constitute a component mounting unit 1470. In this embodiment, the component mounting unit 1470 is configured in the same manner as the component mounting unit described in Japanese Patent Laid-Open No. 4-372199, and a description thereof will be omitted.
[0227]
The mounting head 1430 includes a nozzle holder and holds the suction nozzle 1472 so as to be detachable. The suction nozzle 1472 is a component holder that sucks the electronic circuit component 1434 by negative pressure, and is selectively communicated with a negative pressure source, a positive pressure source, and the atmosphere by switching of an electromagnetic direction switching valve device (not shown). Thus, the electronic circuit component 1434 is held and released. A plurality of sets of component mounting units 1470 may be provided. For example, a plurality of component mounting units can be arranged on the Y-axis slide 1444 in a line parallel to the Y-axis direction.
[0228]
As shown in FIG. 53, the Y-axis slide 1444 also includes a reference mark camera 1476 that is an image pickup device for picking up an image of a reference mark provided on the printed wiring board 1402 and an illuminating device 1478 that illuminates the reference mark and its periphery during image pickup. Is provided.
[0229]
The X-axis slide 1440 is located at a position corresponding to each of the two ball screws 1450 that move the X-axis slide 1440 and between the component supply devices 1410 and 1412 and the printed wiring board 1402. System 1480 is provided immovably. Each of these component imaging systems 1480 is, for example, not yet disclosed, but is configured in the same manner as the component imaging system described in the specification of Japanese Patent Application No. 2000-343641 relating to the present applicant, and includes a component camera 1482 and a light guide device 1484. And a lighting device 1486.
[0230]
Although not shown in the figure, the portion of the bed 1400 provided with the component supply device 1410 is provided with an engagement device and a cam for connecting the carriage, as in the component supply device 18. Although not shown, the electronic circuit component mounting system 1401 is covered with a cover, and an opening / closing cover is provided at each of the parts corresponding to the component supply devices 1410 and 1412. An opening is provided in the lower part of the opening / closing cover provided corresponding to the component supply device 1410, and the engagement member of the carriage can be engaged with the cam without connecting the opening / closing cover to connect the carriage to the bed 1400. Has been.
[0231]
The electronic circuit component mounting system 1401 is controlled by a control device 1490 mainly composed of a computer as in the case of the control device 860, although detailed illustration and description are omitted.
[0232]
When the electronic circuit component 1434 is mounted on the printed wiring board 1402 in the electronic circuit component mounting system 1401, for example, if the electronic circuit component 1434 is received from the component supply device 1410, the mounting head 1430 is fed by the mounting head moving device 1432 to the feeder 1418. The electronic circuit component 1434 is received by being moved to the supply section of the printer, and after receiving, the electronic circuit component 1434 is mounted by being moved to the printed wiring board 1402. In the middle of this movement, imaging of the electronic circuit component 1434, posture correction of the electronic circuit component 1434, and the like are performed.
[0233]
For example, when the type of the printed wiring board 1402 on which the electronic circuit component 1434 is mounted changes and the setup is changed, the feeder 1420 is exchanged together with the pallet 1418. For example, the pallet 1418 on which the feeder 1420 for supplying the electronic circuit component 1434 is mounted next is mounted on a cart similar to the cart 502, for example, and the cart is connected to the bed 1400 during the supply of the electronic circuit component. When the supply of the electronic circuit component 1434 is completed, the operator opens the opening / closing cover, releases the clamp on the fixed table 1416 of the supply completion pallet, and transfers the pallet 1418 to the empty pallet support base of the carriage. Then, the next supply pallet mounted on the carriage is transferred to the pallet support base of the bed 1400 and clamped by the clamp device. The supply completion pallet is transported by a cart to a pallet storage device (not shown). The pallet storage device may be configured in the same manner as the pallet storage device 500 or the pallet storage device 900. The cart may be configured similarly to the cart 902. The feeder 1420 may be replaced with the pallet 1418 for replenishment of electronic circuit components.
[0234]
In each of the above embodiments, the storage unit has two pallet support bases. However, the storage unit may have one or three or more pallet support bases. In that case, the pallet support may be raised and lowered by a support raising / lowering device, or may be fixed without being raised or lowered.
[0235]
Further, in the cart having one pallet support base, a pallet drawing / extrusion device may be provided as in the cart 902. The movable storage unit may be provided with a pallet drawing / extruding device.
[0236]
Further, the pallet support provided on the moving table of the component supply device may be constituted by a plurality of support members. For example, on both sides separated in the moving direction of the moving table, support members that are perpendicular to the moving direction of the moving table in the horizontal plane and that are long in the front-rear direction of the moving table are provided to be movable up and down with respect to the moving table. Each of these support members is provided with a plurality of support rollers, guide rollers, clamp portions, etc., and is simultaneously lifted and lowered simultaneously by a lifting device similar to the support platform lifting device 450. The raising and lowering of the support member is guided by a guide device including a pair of guide bars and guide blocks.
[0237]
As mentioned above, although some embodiment of this invention was described in detail, these are only illustrations and this invention was described in the above-mentioned section of [the subject which invention intends to solve, a problem-solving means, and an effect]. The present invention can be implemented in various forms including various modifications and improvements based on the knowledge of those skilled in the art.
[Brief description of the drawings]
FIG. 1 is a plan view schematically showing an electronic circuit component mounting system including an electronic circuit component supply system according to an embodiment of the present invention.
FIG. 2 is a side view showing a feeder of the component supply apparatus.
FIG. 3 is a side view showing a component supply device of the electronic circuit component supply system.
FIG. 4 is a diagram illustrating a saving area and a component supply area of a component supply table of the component supply apparatus.
FIG. 5 is a rear view showing a state in which a pallet holding the feeder is clamped to a moving table.
FIG. 6 is a plan view schematically showing the arrangement of the electronic circuit component mounting system, the pallet storage device, and the work table.
FIG. 7 is a front view schematically showing the pallet storage device.
FIG. 8 is a side view (partial cross section) showing a storage unit of the pallet storage device.
FIG. 9 is a plan view showing the storage unit.
FIG. 10 is a side view showing a cart connecting device of the storage unit.
FIG. 11 is a view showing a state in which a carriage for conveying a pallet on which the feeder is mounted is connected to a bed of the electronic circuit component mounting system.
FIG. 12 is a rear view showing the cart.
FIG. 13 is a side view showing a state where the pallet support frame of the carriage is located at the first position.
FIG. 14 is a side view showing a state where the pallet support frame of the carriage is located at the second position.
FIG. 15 is a side view showing a state in which the pallet support frame of the carriage is located at a third position.
FIG. 16 is a side view showing a positioning state and a positioning release state of a positioning device for positioning the pallet support frame.
FIG. 17 is a side view showing a locking device provided on the carriage.
FIG. 18 is a plan view showing a pallet support base constituting the pallet support frame.
FIG. 19 is a rear view showing a pallet drawing / extruding device provided on the pallet support.
FIG. 20 is a rear view (partial cross section) showing the pallet drawing / extruding apparatus.
FIG. 21 is a plan view showing a rod and a grip of the pallet drawing / extruding apparatus.
FIG. 22 is a side view showing a state where the grip is bent at a right angle with respect to the rod.
FIG. 23 is a front view showing the cart.
FIG. 24 is a side view showing a state where the engagement member of the carriage is engaged with the cam of the component supply device.
FIG. 25 is a block diagram showing a portion deeply related to the present invention in the control device for controlling the electronic circuit component mounting system.
FIG. 26 is a diagram illustrating transfer of a supply completion pallet and a next supply pallet between the component supply device and the carriage.
FIG. 27 is a side view showing a state in which the bar of the pallet drawing / extruding device is engaged with the supply completion pallet of the component supply device.
FIG. 28 is a side view showing a state in which the bar of the pallet drawing / extruding device is engaged with the next supply pallet of the carriage.
FIG. 29 is a diagram schematically showing a storage state of a pallet with a feeder in the pallet storage device.
FIG. 30 is a diagram illustrating transfer of a supply completion pallet and a next supply pallet between the cart and the storage unit.
FIG. 31 is a diagram illustrating another mode of transfer of the supply completion pallet and the next supply pallet between the carriage and the storage unit.
FIG. 32 is a side view showing a storage unit of an electronic circuit component supply system according to another embodiment of the present invention.
33 is a front view showing the storage unit shown in FIG. 32. FIG.
34 is a plan view showing a pallet support of the storage unit shown in FIG. 32. FIG.
35 is a side view showing a state in which the pallet support of the storage unit shown in FIG. 32 is raised to the raised end position.
36 is a side view showing the cart coupling device of the storage unit shown in FIG. 32. FIG.
37 is a side view showing a carriage of the electronic circuit component supply system shown in FIG. 32. FIG.
38 is a rear view of the carriage shown in FIG. 37. FIG.
39 is a plan view of the carriage shown in FIG. 37. FIG.
40 is a side view showing the support lifting device of the carriage shown in FIG. 37. FIG.
41 is a plan view showing the support base lifting device shown in FIG. 40. FIG.
42 is a rear view (partially cross-sectional view) showing the support platform elevating device. FIG.
FIG. 43 is a plan view showing a locking device provided on the pallet support.
44 is a side sectional view showing the locking device. FIG.
45 is a side view showing a state in which the engaging member of the carriage shown in FIG. 37 is engaged with the cam of the component supply device.
46 is a side view (partially cross-sectional view) showing the extraction preventing device provided in the storage unit shown in FIG. 32. FIG.
47 is a view for explaining transfer of the supply completion pallet and the next supply pallet between the cart shown in FIG. 37 and the storage pallet shown in FIG. 32;
FIG. 48 is a plan view schematically showing a pallet storage device of an electronic circuit component supply system according to another embodiment of the present invention.
49 is a diagram illustrating transfer of a supply completion pallet between the fixed storage unit, the movable storage unit, and the carriage of the pallet storage device shown in FIG. 48. FIG.
50 is a diagram illustrating transfer of the next supply pallet between the fixed storage unit, the movable storage unit, and the carriage of the pallet storage device shown in FIG. 48. FIG.
FIG. 51 is a diagram illustrating transfer of a pallet with a feeder between a storage unit and a carriage of an electronic circuit component supply system according to another embodiment of the present invention.
FIG. 52 is a diagram for explaining another mode of transferring the pallet with feeder between the storage unit and the carriage performed in the electronic circuit component supply system in which the transfer of the pallet with feeder is described with reference to FIG. 51;
FIG. 53 is a plan view schematically showing an electronic circuit component mounting system including an electronic circuit component supply system according to another embodiment of the present invention.
54 is a front view (partially cross-sectional view) showing a mounting device of the electronic circuit component mounting system shown in FIG. 53. FIG.
[Explanation of symbols]
10: Bed 12: Electronic circuit component mounting system 18: Component supply device
120: First component supply table 122: Second component supply table 124: First table moving device 126: Second table moving device 130: Feeder 132: Pallet 134: Moving table 140: Electronic circuit component
404: Support roller 406: Guide roller 426: Pallet lifter
430: Lever 431: Lever driving device 470: Cover 472, 474: Open / close cover 500: Pallet storage device 502: Pallet transport carriage 504: Pallet storage unit 512, 514: Pallet support base
562: Support roller 640: Unit connecting device 652: Pallet support frame
654: Support frame lifting device 660, 662: Pallet support base 668: Handle 670: Motion conversion device 722: Support roller 750: Pallet retracting / extrusion device 790: Engagement member 826: Cam 840: Engagement device
842: Engagement pin 844: Engagement pin drive device 850: Dolly coupling device
860: Control device 900: Pallet storage device 902: Pallet transport carriage 910: Pallet support base 912: Support base lifting device 914: Support base support device 920: Lever 926: Roller 932: Lever drive device
934: Handle 936: Motion conversion device 960: Support roller 1020: Engagement member 1040: Dolly coupling device 1100: Storage unit
1112, 1114: Pallet support base 1116: Support base lifting device 1119: Storage space 1162: Support roller 1200: Cart connection device 1240: Unit connection device 1400: Bed 1401: Electronic circuit component mounting system 1408: Mounting device 1410, 1412: Components Supply device
1414: Parts supply table 1416: Fixed table 1418: Pallet 1420: Feeder 1490: Control device

Claims (11)

A plurality of feeders each containing one type of electronic circuit component, and a plurality of feeders that sequentially send the electronic circuit components to the supply unit, a plurality of pallets with feeders mounted on the pallet in a state where the supply unit is aligned along a straight line,
A pallet storage device capable of storing at least one of the plurality of pallets with feeders;
A pallet support carriage for selectively supporting the plurality of pallets with feeders, and supporting the pallet with feeders by the pallet support base;
A component supply device comprising a table for selectively detachably supporting the plurality of pallets with feeders, and a component supply device for selectively supplying electronic circuit components from the plurality of feeders of the pallets with feeders supported by the table; The pallet with feeder is moved in the pallet transfer direction orthogonal to the straight line in a substantially horizontal plane between the pallet storage device and the pallet transfer carriage and between the pallet transfer carriage and the parts supply device. In the electronic circuit component supply system to be mounted,
A first connecting device capable of connecting the pallet transport carriage and the pallet storage device so as not to move relative to each other;
An electronic circuit component supply system comprising: a second connection device capable of connecting the pallet transport carriage and the component supply device so as not to move relative to each other. The first connecting device is
A first connecting portion provided on the pallet transport carriage;
A second connecting part provided in the pallet storage device so as to be connectable to the first connecting part;
A first connection control device capable of taking a separation preventing state for preventing separation of the first and second connection portions and a separation permissible state for allowing separation of the first and second connection portions; The device
The first connecting portion;
A third connecting part provided in the component supply device so as to be connectable to the first connecting part;
2. The second connection control device according to claim 1, comprising: a separation preventing state that prevents separation of the first and third connection portions; and a second connection control device that can take a separation allowable state that allows separation of the first and third connection portions. Electronic circuit component supply system.   The electronic circuit component supply system according to claim 2, wherein the second connection unit and the third connection unit, and the first connection control device and the second connection control device have the same structure.   When the first connecting part can be moved up and down with respect to the frame of the pallet transport carriage, and the first connecting part is brought closer to the second connecting part in a state lower than the second connecting part, the first connecting part The electronic circuit component supply system according to claim 2, further comprising a guide portion that guides the portion and raises the height to a height that matches the second connecting portion.   The said 1st connection part is attached to the said frame of the said pallet conveyance trolley, The means to which raising / lowering with respect to the flame | frame of a 1st connection part is provided between these 1st connection parts and a frame. Electronic circuit component supply system. The pallet transport cart is
A pallet support for supporting the pallet;
A support base that includes a support base support portion that supports the pallet support base from below, and that allows at least a front portion of the pallet support base to float from the support base support portion while preventing horizontal movement of the pallet support base. And the first connection part is provided on the pallet support table, whereby the support table support device functions as means for allowing the first connection part to move up and down relative to the frame. The electronic circuit component supply system described in 1.   The first connecting portion includes a first engaging portion provided in a state of protruding forward from the pallet transport carriage, and the second connecting portion can receive the first engaging portion in the pallet storage device. And a second engagement member that engages with the first engagement part in a state where the first engagement part is received by the reception part and prevents the first engagement part from being detached from the reception part. The electronic circuit component supply system according to any one of claims 2 to 6, including a joint portion. The first coupling device includes an engagement member driving device that moves the second engagement portion to an engagement position where the second engagement portion is engaged with the first engagement portion and a retracted position where the second engagement portion is separated from the first engagement portion. Item 8. The electronic circuit component supply system according to Item 7.   The pallet transport carriage includes a plurality of pallet support bases that support the pallet with feeder in the vertical direction, and each of the pallet support bases includes a plurality of pallet support bases. The electronic circuit component supply system according to any one of claims 1 to 8, further comprising a support platform elevating device that elevates and lowers to a plurality of heights at which the pallet with feeder can be exchanged with the table.   The electronic circuit component supply system according to any one of claims 1 to 9, wherein the pallet storage device includes a plurality of storage spaces arranged in a vertical direction.   11. The electronic circuit component according to claim 1, wherein the pallet storage device is configured such that a plurality of storage units each having the storage space are arranged in a horizontal direction, and the plurality of storage units are connected to each other. Supply system.

Images