JP2014239264A - Electronic circuit component supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To configure a low-cost electronic circuit component supply device, capable of supplying a variety of types of electronic circuit components.SOLUTION: The electronic circuit component supply device includes: (A) a plurality of first units 102 and 104 each including a component supply unit 110 and a tape-formed component guide unit 114 to guide a tape-formed component 152 to the component supply unit; and (B) an integrated second unit having a plurality of second units 106 and 108 in integration, each including a guide unit retention unit for retaining the tape-formed component guide unit in a state of being movable to the longitudinal direction. Each of the plurality of first units is mounted on the integrated second unit in a manner to be exchangeable with another first unit relative to the integrated second unit. In the mounted state, each component supply unit of the plurality of first units is configured in a manner to be aligned in a direction perpendicular to the longitudinal direction.

Description

  The present invention relates to an apparatus for supplying an electronic circuit component that is provided in an electronic circuit component mounting machine or the like for mounting an electronic circuit component on a circuit board. Improvement of an electronic circuit component supply device for feeding a taped component in which one electronic circuit component is accommodated in each of a plurality of component accommodating recesses in the longitudinal direction and sequentially positioning each of the plurality of component accommodating recesses in a component supply unit It is about.

  An electronic circuit component mounting machine (hereinafter abbreviated as a component mounting machine unless otherwise required) is generally a circuit board holding device for holding a circuit board and an electronic circuit component (hereinafter abbreviated as a component unless otherwise specified). An electronic component supply device (hereinafter, abbreviated as a component supply device unless otherwise required), and a mounting device that receives components from the component supply device and mounts them on a circuit board held by the substrate holding device. It is comprised so that it may contain. And as a component supply apparatus, what contains a some tape feeder and the feeder holding | maintenance apparatus holding it is widely used. The tape feeder feeds, in the longitudinal direction, a taped component in which one component is accommodated in each of a plurality of component accommodating recesses formed side by side at a constant pitch in the longitudinal direction of the carrier tape. The tape feeder is sequentially positioned on the component supply unit, and the tape feeder is held by the feeder holding device in a state where these component supply units are aligned in a direction parallel to a straight line.

  Since each tape feeder supplies one type of component, if there are many types of components to be mounted on the circuit board, it is necessary to hold a large number of tape feeders in the feeder holding device. Since the width of the feeder holding device is limited, the number of tape feeders that can be held is also limited. For this reason, a plurality of component mounting machines are used for mounting components on a single circuit board. Therefore, increasing the number of tape feeders that can be mounted on one component mounting machine is extremely effective in reducing the number of necessary component mounting machines and reducing equipment costs. If the number of tape feeders that can be mounted on a single component mounting machine can be increased, it is possible to hold the tape feeder that supplies components to be mounted on multiple types of circuit boards together in the feeder holding device. By doing so, the effect of reducing the number of man-hours for setting up can be obtained.

  One proposal for this is made in Patent Document 1. The feeder table on which the tape feeder is mounted is arranged in multiple stages in the vertical direction, and the multiple-stage feeder table is moved up and down to position the component feeder part of the tape feeder of each feeder table at the component supply position. It is proposed to be received.

JP 2005-235803 A

As described above, if the feeder tables are arranged in a plurality of stages in the vertical direction, a large number of tape feeders can be mounted on a component mounting machine having a limited width. However, there is still room for improvement in this component supply apparatus. For example, as described above, an elevating device that elevates and lowers a multi-stage feeder table is required, the configuration of the component mounting machine is complicated, equipment costs increase, and time is required to elevate and lower the feeder table. Thus, there is a problem that it is inevitable that the efficiency of the mounting work is reduced accordingly. This problem is an example of a problem that hinders the practicality of a conventional component mounting machine, and the component mounting machine and the component supply device have room for improvement from various viewpoints.
The present invention has been made with an object of improving an electronic circuit component supply apparatus against the background described above.

In order to solve the above problems, an electronic circuit component supply apparatus according to the present invention includes:
A taped component in which one electronic circuit component is accommodated in each of a plurality of component accommodating recesses formed side by side at a constant pitch in the longitudinal direction of the carrier tape is sent in the longitudinal direction, and each of the plurality of component accommodating recesses is a component. An electrical circuit component supply device for sequentially positioning in a supply unit,
A plurality of first parts each including the component supply unit and a taped component guide unit that guides the taped component to the component supply unit;
A plurality of second parts each including a guide part holding part that holds the taped component guide part in a state movable in the longitudinal direction;
The plurality of second parts constitute an integrated second part in which they are integrated, and each of the plurality of first parts is exchanged with another first part for the integrated second part. It is attached to the integrated second part as possible, and the integrated second part is detachably held by the feeder holding device,
In a state where the plurality of first parts are attached to the integrated second part, the component supply units of each of the plurality of first parts are arranged in a direction perpendicular to the longitudinal direction.

  As described above, when the electronic circuit component supply device includes a plurality of the first parts that can be selectively attached to the integrated second part in which the second parts are integrated, the second part is converted into a plurality of parts. By sharing the first part, the electronic circuit component supply device capable of supplying various types of electronic circuit components can be configured at low cost as a whole. In addition, an effect of facilitating replenishment work of taped parts can be obtained.

Aspects of the Invention

  In the following, the invention that is claimed to be claimable in the present application (hereinafter referred to as “claimable invention”. The claimable invention is at least the “present invention” to the invention described in the claims. Some aspects of the present invention, including subordinate concept inventions of the present invention, superordinate concepts of the present invention, or inventions of different concepts) will be illustrated and described. 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 the understanding of the claimable invention, and is not intended to limit the combinations of the constituent elements constituting the claimable invention to those described in the following sections. In other words, the claimable invention should be construed in consideration of the description accompanying each section, the description of the embodiments, the prior art, and the like. The added aspect and the aspect in which the constituent elements are deleted from the aspect of each item can be an aspect of the claimable invention.

In the following description, the side of the component supply device or tape feeder where the component supply unit is provided is referred to as “front”, and the side where the reel holding unit is provided is referred to as “rear”.
(1) Each of the plurality of component receiving recesses formed by arranging a plurality of component receiving recesses arranged at a constant pitch in the longitudinal direction of the carrier tape is sent in the longitudinal direction to each of the plurality of component receiving recesses. A plurality of tape feeders that sequentially position each of the components on the component supply unit;
An electronic circuit component supply device including a feeder holding device for holding the plurality of tape feeders,
The plurality of tape feeders are held by the feeder holding device in a state in which the component supply portions of the tape feeders are arranged in a plurality of rows along each of a plurality of straight lines extending on one plane and parallel to each other. An electronic circuit component supply device.
If the feeder holding device is designed to hold a plurality of tape feeders in a removable manner, the configuration of the component supply device can be changed by replacing multiple types of tape feeders, or a tape feeder with pre-set taped parts can be held in the feeder. Although it is possible to shorten the time required for changing the parts supply, it is not indispensable. It is also possible to attach and detach the taped parts to and from the tape feeder that is detachably held by the feeder holding device.
It should be noted that even if it is said that "a plurality of component supply units are arranged on one plane", it is not necessary to arrange them on one plane in a strict sense, as if multiple component supply units are arranged on one plane. In addition, as long as the electronic circuit component can be taken out by the component holder, there may be a step in a direction perpendicular to the one plane between the plurality of component supply units. For example, when the component holder is a suction nozzle, the suction nozzle is normally configured to be able to advance and retreat relative to the nozzle holding portion and is urged to the forward end position. Variations in the up / down stroke and variations in the height of the component supply unit are absorbed. Therefore, if the absorption is within the allowable range, or if the fluctuation of the urging force of the suction nozzle caused by the absorption is within the allowable range, the plurality of component supply units are arranged in a direction perpendicular to the one plane. Even if there is a step, there is no problem.
The one plane is preferably a horizontal plane, but may be inclined at an angle of 15 degrees or less with respect to the horizontal plane for convenience of peripheral devices such as a take-out device for taking out electronic circuit components. In any case, it is desirable that each component supply unit allows electronic circuit components to be taken out in a direction perpendicular to the one plane.
(2) Each of the plurality of tape feeders includes a reel holding unit that holds a reel around which the taped component is wound, the component supply unit, and a taped component drawn from the reel to the component supply unit. A taped component guide for guiding and a taped component feeder for feeding the taped component to the component supply unit, and the reel holding unit, the component supply unit, and the taped component guide unit are included in the feeder. The electronic circuit component supply device according to item (1), wherein the electronic circuit component supply device is a detachable unit that is detachable integrally with the holding device.
Although the detachable unit is integrally attached to and detached from the feeder holding device, the feeder holding device in this case may or may not include a taped component feeding device. In the latter case, a device including a taped component feeder (which should be called a taped component feeder holding portion of the tape feeder) is attached to and detached from the feeder holding device. It may be attached / detached to / from the feeder holding device indirectly via a device including the feeding device and attached / detached to / from the feeder holding device, or may be directly attached / detached to / from the feeder holding device.
In any case, if the reel holding unit, the component supply unit, and the taped component guide unit are detachable units that can be integrally attached to and detached from the feeder holding device provided with the feeding device, like a conventional tape feeder. Compared with the case where the taped component feeding device and the feeder main body are attached and detached, it is possible to reduce the number of constituent elements to be attached and detached, and the effect of reducing the equipment cost can be obtained. Moreover, since the reel holding unit, the component supply unit, and the taped component guide unit can be integrally attached to and detached from the feeder holding device, a detachable unit in which taped components are set in advance is attached to the feeder holding device. As a result, as in the case of the conventional tape feeder, the time required for the changeover of the component supply device can be shortened. From this point of view, even if the feature described in this section is adopted separately from the feature described in (1), the effect of improving the practicality of the component supply apparatus can be obtained. Of course, the features described in the following items subordinate to this item can also be adopted separately from the features described in item (1).
Further, it is easy to narrow the width of the component supply unit and the taped component guide unit as compared with other portions of the tape feeder. Although it is relatively difficult to reduce the width of the reel holder, the two reel holders that interfere with each other can be moved up and down by, for example, adopting the configuration described in paragraphs (19) and (29) below. It is possible to cope by shifting in the direction. Alternatively, the two reel holding portions that interfere with each other may be shifted in the front-rear direction. Further, it is relatively difficult to reduce the width of the taped component feeding device, but this can be dealt with by adopting, for example, a configuration described in (3) or (6) below.
After all, if the advantage that it is easy to narrow the widths of the component supply unit and the taped component guide unit is used, the configuration of the item (1) can be easily realized. The configurations of the items (8) and (9) described later are examples of effective means for that purpose.
(3) Each of the plurality of tape feeders is separable into a first part including the reel holding part, the part supply part and the taped part guide part, and a second part including the taped part feeder. The electronic circuit component supply apparatus according to (2), wherein the first part is the detachable unit that is detachable from the second part.
In the conventional tape feeder, since the first part and the second part are integrated, the effect of easily narrowing the widths of the component supply unit and the taped component guide unit could not be enjoyed. If the configuration of this section is adopted, the effect can be enjoyed.
(4) The taped component feeder is
A feed member having at least one engaging protrusion capable of engaging with a feed hole formed at a constant pitch on the carrier tape;
A driving device for driving the feeding member;
(3) an engagement / disengagement device that moves at least the feed member to an engagement position where the engagement protrusion engages with the feed hole and a disengagement position where the engagement protrusion separates from the feed hole. The electronic circuit component supply apparatus according to 1.
The engagement / disengagement device can move the driving device to the engagement position and the disengagement position integrally with the feed member, or can move only the feed member.
If the configuration of this section is adopted, the taped part held in the first part is fed by the taped part feeding device held in the second part while the first part and the second part can be separated. Becomes easy.
(5) The electronic circuit component supply device according to (3) or (4), wherein the second part is detachable from the feeder holding device.
Although it is possible to make the second part detachable from the feeder holding device, if it is made detachable, it becomes easy to change the configuration of the component supply device. The width of the tape feeder needs to be changed according to the dimensions of the parts to be supplied. If the width of the tape feeder is changed, the configuration of the parts supply device will change, but this change is easy.
(6) The electronic circuit component supply apparatus according to (5), wherein the second part can hold a plurality of the first parts as a detachable unit group.
If the configuration in this section is adopted, a plurality of second parts are integrated, and if the configuration of the second part is integrated, it is relatively difficult to narrow the width of the taped component feed. It becomes easy to arrange a plurality of devices in the relatively narrow integrated second part, and as a result, the advantage of the configuration of item (2) can be enjoyed particularly effectively.
(7) The taped component guide portion is a linear guide portion that extends straight, and each linear guide portion is positioned such that the end portion on the component supply portion side is positioned above the end portion on the reel holding portion side. The plurality of attachment / detachment units are disposed in a state where the plurality of linear guide portions are inclined and are parallel to a plane including the plurality of straight lines and separated from each other in a direction perpendicular to the straight lines (2 The electronic circuit component supply device according to any one of items) to (6).
By adopting the configuration of this section, it is easy to realize the configuration of the section (1) by arranging a number of taped component guide sections and component supply sections in a narrow area.
(8) Each of the plurality of tape feeders includes a reel holding unit that holds a reel around which the taped component is wound, the component supply unit, and a taped component drawn from the reel to the component supply unit. A taped component guide unit for guiding and a taped component feeding device for feeding the taped component to the component supply unit, and each of the plurality of tape feeders corresponding to each row of the component supply unit Each of the N groups of tape feeders is divided into N groups that are two or more natural numbers. In each of the N groups of tape feeder groups, the widths of the respective component supply units are arranged in an arrangement direction that is a direction parallel to the plurality of straight lines. Are arranged at an arrangement pitch smaller than N times, and when the component feeder section side of each tape feeder is the front and the reel holder section is the rear, the electronic feeders in the component feeder section belonging to the rear row The electronic device according to any one of (1) to (7), wherein the waste carrier tape after the parts are taken out is ejected forward through adjacent parts supply parts belonging to the front row. Circuit component supply device.
The width of the conventional tape feeder has to be considerably wider than the width of the taped component, but the width of the component supply unit can be easily reduced, and the component supply units adjacent to each other in the front row can be easily reduced. Since it is sufficient if there is a space between them to allow the passage of the waste carrier tape discharged from the component supply unit belonging to the rear row, it is eventually compared with the case where the tape feeders are arranged in a row as in the past. Thus, it becomes easy to dispose a large number of component supply units, that is, tape feeders, in the disposition space having the same width, and the effect of the configuration described in the item (1) can be enjoyed effectively.
(9) Further, by twisting each of the waste carrier tapes discharged from the component supply unit belonging to the rear row around a center line extending in the longitudinal direction, the width of the waste carrier tape in the arrangement direction is reduced. The electronic circuit component supply device according to item (8), further including a waste carrier tape twisting device that leads between the component supply portions of the front row.
By adopting the configuration of this section and twisting the waste carrier tape to reduce the width of the waste carrier tape in the arrangement direction of the component supply units, the component supply unit row between the adjacent component supply units in the front row The width of the space necessary for passing the waste carrier tape can be reduced, and the effect of the item (8) can be enjoyed more effectively.
(10) Items (2) to (7), wherein the taped component feeding device, together with the reel holding unit, the component supply unit, and the taped component guide unit, are also detachable integrally with the feeder holding device. The electronic circuit component supply device according to any one of the items.
(11) A taped component in which one electronic circuit component is accommodated in each of a plurality of component accommodating recesses formed side by side at a constant pitch in the longitudinal direction of the carrier tape is fed in the longitudinal direction. A tape feeder for sequentially positioning each of the parts in the component supply unit,
A first part including a reel holding unit that holds a reel around which the taped component is wound, the component supply unit, and a taped component guide unit that guides the taped component drawn from the reel to the component supply unit. And a detachable unit that can be separated into a second part including a taped part feeding device that feeds the taped part to the part supply unit, and the first part is detachable integrally with the second part. A tape feeder characterized by that.
If the first part is an attachment / detachment unit that can be attached / detached integrally with the second part, it should be attached / detached as compared to the case of attaching / detaching the taped component feeder and the feeder body as in the conventional tape feeder. It is possible to reduce the number of components of the portion, and the effect of reducing the equipment cost can be obtained. Moreover, since the reel holding part, the part supply part, and the taped part guide part can be integrally attached to and detached from the second part, a removable unit in which taped parts are set in advance is attached to the second part. As in the case of the conventional tape feeder, the time required for changing the parts supply device can be shortened, and since the parts to be attached / detached are small and lightweight, the effect of facilitating the attachment / detachment work can be obtained. It is done.
This tape feeder was devised directly to realize the electronic circuit component supply device of item (1), but the second part of the obtained tape feeder is a conventional electronic circuit component. As in the case of the supply device, the above-described effect can be obtained even when used in an electronic circuit component supply device of a type in which only one row is provided.
(12) A reel holding portion for holding a reel on which a taped component in which one electronic circuit component is housed is wound in each of a plurality of component housing recesses formed side by side at a constant pitch in the longitudinal direction of the carrier tape; Each of the plurality of component receiving recesses is sequentially positioned so that an electronic circuit component is taken out from each of the component receiving recesses, and a taped component guide unit that guides the taped component drawn from the reel to the component supplying unit Can be attached to and detached from the attachment / detachment target part including the taped part feeding device that sends the taped part, and the taped part can be sent by being attached to the attachment / detachment part. Detachable unit characterized by
The detachable unit described in this section was devised directly to realize the electronic circuit component supply device of (1), but the obtained detachable unit has a conventional detachable target part. As in the case of the tape feeder in the electronic circuit component supply apparatus, the effect described in relation to the item (11) can be obtained even if it is used for the electronic circuit component supply apparatus of the type that is arranged in only one line, and the aspect thereof is also It is one of the embodiments of the invention according to this section.
In addition, although the attachment / detachment unit described in this section is used in combination with a component supply device including an attachment / detachment target portion, it can be manufactured and sold as a product itself.
(13) The attachment / detachment unit according to the item (12), further including a cover tape peeling guide portion that guides peeling of the cover tape that covers the plurality of component receiving recesses from the carrier tape of the taped component.
(14) The detachable unit according to (13), including a cover tape peeling device including the cover tape peeling guide portion and a cover tape feeding device that applies tension to the cover tape guided in the cover tape peeling guide portion. .
Even if it says "the detachable unit includes the cover tape feeder", the cover tape feeder is provided with the main part of the cover tape feeder, such as a pair of feed rotators that feed the cover tape from both sides. The drive source may be provided in the attachment / detachment unit or the attachment / detachment target portion. In the former case, the detachable unit needs to be provided with a connector for receiving driving energy such as current. In the latter case, a rotation transmission unit that can be engaged and disengaged is provided in the rotation transmission device. It is necessary to be provided.
(15) The taped component guide portion includes a passage for the taped component formed inside a connection member that physically connects the reel holding unit and the component supply unit. The detachable unit according to any one of the items).
The configurations described below in this section can also be applied to the electronic circuit component supply apparatus described in any one of (1) to (10).
(16) Further, a positioning protrusion that engages with the feed hole of the carrier tape to define the longitudinal position of the taped component, and biases the positioning protrusion in a direction to engage with the feed hole. The detachable unit according to any one of (12) to (15), including an urging unit that
If the configuration in this section is adopted, the position of the taped part in the longitudinal direction can be determined by the engagement of the positioning protrusion with the feed hole. The protrusion is separated from the feed hole against the urging force of the urging portion, and movement of the taped component in the longitudinal direction is allowed. That is, the taped component can be moved with a sense of moderation by the pitch of the feed hole, for example, by stopping the taped component at the position where the positioning protrusion is engaged with the feed hole, the item (4) When the feed member is moved to the engagement position by the engaging / disengaging device described in (1), the engagement protrusion of the feed member can be engaged with the feed hole.
(17) The taped component guide portion includes a passage for the taped component formed inside a connection member that physically connects the reel holding portion and the component supply portion, and the cover tape is peeled off The device
It is provided in a horizontal posture on the upper side of the connecting member, engages with the cover tape peeled off from the carrier tape of the taped component in the passage, and the tape taped component in the feed direction of the cover tape A turn-back guide for guiding turn-up to the upstream side;
A cover tape feeding device including a pair of feed rotating bodies that are provided on the lower side of the connecting member and feed a portion in which the width direction of the cover tape is horizontal from both sides of the front and back;
The connection member is formed by an outer surface of a portion located between the folding guide portion and the cover tape feeding device, and the connection tape is twisted by 90 degrees in the state where the cover tape is folded by the folding guide portion. The detachable unit according to item (14), including a guide surface that guides the member from the upper side to the lower side.
If the structure of this term is employ | adopted, the cover tape withdraw | derived to the upper side of the connection member can be easily guide | induced to the lower side of the connection member side.
(18) The detachable unit according to (14) or (17), further including a cover tape container that stores the cover tape peeled off by the cover tape peeling device.
(19) Tape formation in which one electronic circuit component is housed in each of a plurality of component housing recesses formed at a constant pitch in the longitudinal direction of the carrier tape, and the plurality of component housing recesses are covered with a cover tape. A taped component guide for guiding the component in the longitudinal direction; and a cover tape peeling guide for guiding the peeling of the cover tape from the carrier tape of the taped component guided by the taped component guide. With one thing,
Each having one type of structure, (a) a reel holding portion that rotatably holds a reel on which the taped part is wound, and (b) the cover tape guided and peeled off by the cover tape peeling guide portion. A plurality of types of cover tape feeding devices, and (c) at least one of a cover tape container for housing the cover tape, which is combined with the one-piece and a plurality of types of combinations. A plurality of types of assemblies combined in a combination manner, and can be integrally attached to and detached from the attachment / detachment target portion provided with the taped component feeding device for feeding the taped component, and attached to the attachment / detachment target portion. A plurality of types of attachment / detachment units that are capable of feeding the taped parts.
If the features described in this section are adopted, a plurality of types of detachable units can be produced by using one type of unit and at least one of a reel holding portion, a cover tape feeder, and a cover tape container. Thus, the production cost can be reduced by mass production.
(21) The component supply units of the plurality of tape feeders are arranged along each of the plurality of straight lines, and a plurality thereof are arranged along a straight line perpendicular to the straight lines. Electronic circuit component supply device.
If the configuration described in this section is adopted, a plurality of component supply units can be completely overlapped with respect to a direction perpendicular to the arrangement direction, so that the effect of the configuration described in (1) can be enjoyed particularly effectively. be able to.
(22) Each of the plurality of tape feeders includes a reel holding unit that holds a reel around which the taped component is wound, the component supply unit, and a taped component drawn from the reel to the component supply unit. A plurality of sets of taped component guides for guiding and a taped component feeding device for feeding the taped components to the component supply unit, and the plurality of sets of the plurality of sets of the component supply units are arranged in the one plane. The electronic circuit component supply device according to (1) or (21), further comprising a feeder main body that is held in a state of being aligned along a straight line orthogonal to the straight line, and is detachably held by the feeder holding device.
(23) In each of the plurality of tape feeders, when the component supply unit side is the front and the reel holding unit side is the rear, the plurality of sets of taped component feeders are arranged side by side in the front-rear direction. The electronic circuit component supply apparatus according to item (22).
(24) Each of the plurality of tape feeders is disposed in a horizontally extending posture, and the taped component guide portion belonging to the group in which the taped component feeding device is disposed forward of the plurality of sets is rearward The electronic circuit component supply device according to item (23), wherein the electronic circuit component supply device is disposed so as to pass under a taped component feeding device disposed in the section.
(25) Each of the plurality of tape feeders is disposed in a horizontally extending posture, and each of the plurality of sets includes the reel holding unit, the component supply unit, the taped component guide unit as a first guide unit, and In addition to the taped component feeder, the component supply unit includes a second guide unit that guides a waste carrier tape that is a carrier tape after the electronic circuit component is taken out, and each second guide unit corresponds to the second guide unit. The electronic circuit component supply apparatus according to any one of (22) to (24), which is provided below each of the first guide portions.
If the configuration described in this section is adopted, the carrier tape that is held forward and is forwarded will be U-turned after the part is taken out, and the supply of the taped part and the discharge of the waste carrier tape will be reduced. Both can be performed behind the component supply unit, the first guide unit, and the second guide unit.
(26) A cover in which each of the plurality of sets covers the plurality of component receiving recesses of the carrier tape in addition to the reel holding unit, the component supply unit, the taped component guide unit, and the taped component feeding device. The electronic circuit component supply device according to any one of (22) to (25), further including a cover tape peeling device that peels the tape from the carrier tape in a state of being folded back to the upstream side in the feeding direction of the carrier tape.
(27) Each of the plurality of tape feeders is disposed in a horizontally extending posture, and in each of the plurality of tape feeders, when the component supply unit side is the front and the reel holding unit side is the rear, The cover tape peeling device corresponding to the component supply unit belonging to the row is disposed below the cover tape peeling device corresponding to the component supply unit belonging to the rear row, and corresponds to the component supply portion belonging to the front row. The cover tape peeled off by the cover tape peeling device is moved from the upper side to the lower side of the cover tape peeling device corresponding to the component supply unit belonging to the rear row in a posture twisted by 90 degrees. Electronic circuit component supply device.
(28) Each of the plurality of tape feeders is disposed in a horizontally extending posture, and in each of the plurality of tape feeders, when the component supply unit side is the front and the reel holding unit side is the rear, (26) The cover tape peeling device corresponding to the component supply unit belonging to the row of the strip peels the cover tape along the path passing over the cover tape peeling device corresponding to the component supply unit belonging to the rear row. Electronic circuit component supply device.
Since the plurality of cover tape peeling devices corresponding to each of the plurality of component supply units held by one feeder body are superposed in the vertical direction, each tape feeder is provided by arranging the plurality of cover tape peeling devices. It is possible to avoid an increase in the width.
(29) The electronic circuit component according to any one of (26) to (28), wherein each of the plurality of sets further includes a cover tape container that accommodates the cover tape peeled off by the cover tape peeling device. Feeding device.
In a mode in which this item is dependent on item (28), the cover tape peeling device corresponding to the component supply unit belonging to the front row includes the cover tape peeling device and the cover tape housing corresponding to the component supply unit belonging to the rear row. The cover tape is to be peeled off along a path passing above the container, or the cover tape container corresponding to the component supply unit belonging to the front row corresponds to the component supply unit belonging to the rear row. It is desirable to be disposed above the tape container.
(30) The electronic circuit component supply apparatus according to any one of (21) to (29), wherein the reel holding portions belonging to each of the plurality of sets are arranged so as to be shifted in the vertical direction.
(31) Each of the plurality of tape feeders includes a reel holding unit that holds a reel around which the taped component is wound, the component supply unit, and a taped component drawn from the reel to the component supply unit. A taped component guide for guiding, a taped component feeder for feeding the taped component to the component feeder, and a feeder for holding the reel holder, the component feeder, the taped component guide, and the taped component feeder. The feeder holding device, the plurality of tape feeders, and the component supply portions of the plurality of tape feeders along each of the plurality of straight lines extending on the one plane and parallel to each other. The electronic circuit component supply device according to item (1), which is held in a state of being arranged in a plurality of rows in the arrangement direction.
As described above, the plurality of tape feeders are arranged in a plurality of rows in the arrangement direction along each of the plurality of straight lines extending in parallel with each other on the same plane. If held by the holding device, a large number of tape feeders can be held by the feeder holding device having a limited width as compared with the case where a plurality of tape feeders are arranged in a line as in the prior art.
The aspect in which the tape feeder is held in the feeder holding device in a posture extending in the up-down direction or in a direction inclined with respect to the up-down direction, and a component supply unit is provided at each upper end portion of the tape feeder is described in this section. It is one mode of a road parts supply device. As another aspect, one tape feeder extends horizontally as before, and the other tape feeder extends in the horizontal direction and then the front end portion extends in the vertical direction or in a direction inclined with respect to the vertical direction. It is also possible that the upper end is positioned at the same height as the upper surface of the one tape feeder, and a component supply unit can be provided at the same height of the tape feeder.
(32) The feeder holding device forms a first feeder row by arranging a plurality of first feeders and a plurality of second feeders, and a plurality of first feeders arranged in a direction parallel to the arrangement direction. The electronic circuit component supply apparatus according to (31), wherein the two feeders are held in a state in which a second feeder row is formed side by side in a direction parallel to the arrangement direction.
Three or more feeder rows may be formed.
(33) The feeder holding device holds the plurality of first feeders and the plurality of second feeders in a state where the first feeder row is located above the second feeder row, The second feeder has a second feeder body having a shape in which the front end extends in a direction having a vertical component, and the height between the upper end of the front end and the upper end of the first feeder body of the first feeder is The electronic circuit component supply apparatus according to item (32), wherein the component supply unit is provided in the same part.
As described in the description relating to the item (31), the feeder holding device can be held in a state where the first feeder row and the second feeder row are aligned in the horizontal direction. However, from the viewpoint of easy attachment / detachment work of the first and second feeders to the feeder holding device, it is desirable to adopt the configuration of this section.
(34) The feeder holding device is
A first feeder holding base including a plurality of first holding portions that detachably support each of the plurality of first feeders from below;
A second feeder holding base provided with a plurality of second holding parts disposed below the first feeder holding base and detachably supporting each of the plurality of second feeders from below. The electronic circuit component supply apparatus according to item 33).
If the structure of this term is employ | adopted, the 1st feeder and the 2nd feeder can each be attached to the upper surface of a 1st feeder holding stand and a 2nd feeder holding stand, and the effect which the attachment or detachment operation | work of a feeder becomes easy will be acquired.
However, the second feeder needs to be arranged in a space between the first feeder holding base and the second feeder holding base, while the second feeder body has a shape in which the front end portion extends in a direction having a vertical component. So that it can be attached to the second feeder holding base from the front, or the front end can be rotated to a horizontally extending posture as described in the paragraphs (37) and (38), for example. It is necessary to take measures such as When the former means is adopted, for example, the first and second feeder holding bases are provided on the carriage, and the second feeder is attached to the second feeder holding base in a state where the carriage is separated from the main body of the component mounting machine. What is necessary is just to employ | adopt the latter means, and it becomes possible to attach a 2nd feeder from back.
(36) The feeder holding device is
A plurality of first holders are provided on the upper surface for holding each of the plurality of first feeders from below and detachably, and a plurality of second holders for holding each of the second feeders on the bottom surface from above are detachable. The electronic circuit component supply apparatus according to item (34), including a feeder holding member including a holding unit.
If the structure of this term is employ | adopted, it will become possible to attach the 2nd feeder provided with the 2nd feeder main body of the shape where the front-end part extends in the direction which has a component of an up-down direction to a feeder holding member with an intact shape. .
(37) A second feeder main body, which is a main body of the plurality of second feeders, includes a main body portion, and a rotating portion held by the main body portion so as to be rotatable around a rotation axis parallel to the arrangement direction. The electronic circuit component supply device according to any one of items (31) to (36), wherein the component supply unit is provided in the rotating unit.
(38) The second feeder rotates the rotating unit upward, and the component supply unit provided in the rotating unit is located on the same plane as the component supply unit of the first feeder. The electronic circuit component supply device according to (37), further including a posture maintaining device that selectively maintains two postures: a first posture and a second posture extending linearly from the main body.
(39) Each of the plurality of tape feeders includes the plurality of component receiving recesses of the carrier tape in addition to the reel holding unit, the component supply unit, the taped component guide unit, and the taped component feeding device. The electronic circuit component supply device according to any one of items (31) to (38), further including a cover tape peeling device that peels off the covering tape from the carrier tape in a state of being folded back to the upstream side in the feeding direction of the carrier tape.
(41) A cover tape that covers the plurality of component receiving recesses of the carrier tape from the carrier tape of the taped component fed by the taped component feeding device is arranged on one side of the row of the component receiving recesses. Maintaining the state of being fixed to the carrier tape, a central portion that covers the row of the component receiving recesses and a side portion opposite to the fixing portion rises with respect to the fixing portions, and opens above the component receiving recesses. The electronic circuit component supply device according to any one of items (1) to (12), (21) to (25), and (31) to (38), including a semi-peeling device to be in a state to be performed.
If the configuration described in this section is adopted, the cover tape can be returned to the original state fixed to the carrier tape after the component receiving recess is opened and the component is taken out. It is possible to process, there is no need to provide a dedicated device for cover tape processing, such as a cover tape peeling device or cover tape container, and the effect described in (1) can be easily realized. Is obtained.

It is a perspective view which shows the external appearance of the mounting system with which the components supply apparatus containing the tape feeder which is one Embodiment of claimable invention is provided. It is a perspective view which removes a part of cover and shows the structure of the mounting module which is one component of the said mounting system. It is a perspective view which takes out and shows the mounting apparatus in the said mounting module. It is a perspective view which shows the feeder holding stand which is a component of the said components supply apparatus. It is a side view which removes a part of a side plate and a main-body member, in order to make an understanding of an internal structure easy for the tape feeder group attached or detached to the said feeder holding stand. It is a side view which shows two types of attachment / detachment units which are the components of the said tape feeder group. It is a side view which expands a part of said tape feeder group, and shows a part in cross section. It is 8-8 sectional drawing in FIG. It is a figure which expands and shows a part of tape feeder group shown in FIG. 7 while changing a cutting plane. It is a top view which shows a part of said tape feeder group. It is a figure which shows a part of main body member in the said tape feeder group, (a) is a top view, (b) is bb sectional drawing in (a), (c) is cc sectional drawing in (a). It is. It is a perspective view which shows the waste carrier tape guide member in the said tape feeder group. It is a top view which shows the tape-ized component 152 sent by each tape feeder of the said tape feeder group. It is a top view which shows notionally the component supply part in the component supply apparatus which is another embodiment, and the discharge path of a waste carrier tape. It is a side view which shows the tape feeder which is one component of the components supply apparatus which is another embodiment. It is a side view which shows the state at the time of component supply of the component supply apparatus which is another embodiment. It is a side view which shows the state at the time of attachment or detachment of the components supply apparatus shown in FIG. It is a figure which expands and shows a part in FIG. It is a figure which expands and shows a part in FIG. It is a figure which shows notionally the components supply apparatus which is another embodiment. It is a figure which shows notionally the components supply apparatus which is another embodiment.

  Hereinafter, an embodiment of the claimable invention will be described with reference to the drawings. In addition to the following embodiment, the claimable invention can be implemented in various modifications based on the knowledge of those skilled in the art, including the aspects described in the above [Aspect of the Invention] section.

  FIG. 1 shows the appearance of the mounting system. In this mounting system, a plurality of mounting modules 10 are arranged side by side and arranged side by side on a common and common base 12, and a plurality of mounting modules 10 are further arranged side by side. It is configured. Each of the plurality of mounting modules 10 is an electronic circuit component mounting machine that performs the mounting of electronic circuit components on a circuit board in parallel.

The mounting module 10 is described in detail in, for example, Japanese Patent Application Laid-Open No. 2004-104075, and parts other than those related to the claimable invention will be briefly described.
As shown in FIG. 2, each of the mounting modules 10 includes a module main body 18 as a main body frame, a substrate transport device 20, a substrate holding device 22, a component supply device 24, a mounting device 26, and a reference mark imaging device 28 (see FIG. 3). ), A component imaging device 30 and an electric control device 32.

  As shown in FIG. 2, the module main body 18 includes a bed 36 that is long in the front-rear direction, two front columns 38 and rear columns 40 that rise from the front end portion and the rear end portion of the bed 36, and four of them. And a crown 42 supported by the columns 38 and 40.

  As shown in FIG. 2, the substrate transfer device 20 includes two substrate conveyors 44 and 46, is provided at the center in the front-rear direction of the bed 36, and the plurality of mounting modules 10 are arranged in a horizontal posture. It is a direction parallel to the direction and is transported in a horizontal transport direction. The substrate holding device 22 is provided for each of the two substrate conveyors 44 and 46, and includes a support member that supports the circuit board from below and a clamp member that clamps both side edges parallel to the conveyance direction of the circuit board. The substrate is held in such a posture that the mounting surface on which the electronic circuit component is mounted is horizontal. The circuit board transport direction by the board transport device 20 is the X-axis direction, and the direction perpendicular to the X-axis direction in the horizontal plane, which is a plane parallel to the mounting surface of the circuit board held by the board holding device 22, is the Y-axis direction. To do.

  The component supply device 24 is provided on one side in the Y-axis direction with respect to the substrate transfer device 20 of the bed 36 and on the front side of the mounting module 10. The component supply device 24 includes a feeder holding base 52 shown in FIG. 4 as a feeder holding device. The feeder holding base 52 includes a horizontal support plate 53, a connection wall 54 that rises vertically from one end thereof, and a connection wall 54 that hangs down from the other end. The support plate 53 includes a plurality of positioning portions. T-grooves 55 (positioning grooves) are formed in parallel to each other, and each connection wall 54 has a plurality of pairs of positioning holes 56 as a first positioning portion and a plurality of connectors 57 as a plurality of connection portions. Is provided. As shown in FIG. 2, a plurality of later-described tape feeders (hereinafter simply referred to as feeders) 58 are held on the feeder holding base 52 to constitute the component supply device 24. The component supply device may include a portion for supplying electronic circuit components by a tray. The feeder holding base 52 can be attached to and detached from the bed 36, and can be replaced with another feeder holding base having a different arrangement of the T groove 55, the positioning hole 56, and the connector 57, and a conventional tape feeder. It is also possible to replace it with a feeder holding base that holds it detachably.

  As illustrated in FIGS. 2 and 3, the mounting device 26 includes a mounting head 60 and a head moving device 62 that moves the mounting head 60. As shown in FIG. 3, the head moving device 62 includes an X-axis direction moving device 64 and a Y-axis direction moving device 66. The Y-axis direction moving device 66 includes a linear motor 70 provided on the crown 42 constituting the module main body 18 so as to straddle the component supply unit of the component supply device 24 and the substrate holding device 22, and a Y axis as a movable member. The slide 72 is moved to an arbitrary position in the Y-axis direction. The X-axis direction moving device 64 is provided on the Y-axis slide 72 and is moved in the X-axis direction with respect to the Y-axis slide 72 and is relatively moved in the X-axis direction with respect to each other. 76 and an X-axis slide moving device 78 for moving these slides 74 and 76 in the X-axis direction (only a moving device for moving the first X-axis slide 74 is shown in FIG. 3). . Each of the two X-axis slide moving devices includes, for example, a servo motor which is a kind of an electric rotary motor serving as a drive source, and a feed screw mechanism including a ball screw and a nut. Move to any position in the axial direction.

  The mounting head 60 is detachably mounted on the second X-axis slide 76, and the head moving device 62 allows the mounting head 60 to be arbitrarily attached in a mounting work area that is a moving area straddling the component supply unit 24 and the substrate holding device 22. Moved to position. The mounting head 60 holds electronic circuit components by a suction nozzle 86 which is a kind of component holder. The mounting head 60 holds the suction nozzle 86 and the number of nozzle holders constituting the holder holding portion is different. A plurality of types of mounting heads 60 are prepared, and selectively attached to the second X-axis slide 76 according to the type of circuit board on which the electronic circuit components are mounted. Although not shown, the nozzle holder 88 in the mounting head 60 is a moving device provided in the head main body, provided in the head main body so as to be movable in the axial direction and in the vertical direction and rotatable about its own axis. It is moved up and down and rotated by the lifting device and the rotating device.

  The plurality of nozzle holders 88 are swung around the rotation axis of the rotating body 90 by the rotation of the rotating body 90 and sequentially moved to a component suction mounting position which is one of a plurality of stop positions, not shown. The head body is lifted and lowered by a lifting device provided at a position corresponding to the component suction mounting position. The nozzle holder 88 is further rotated around its own axis by a holder rotating device provided in the head body. As shown in FIG. 3, the reference mark imaging device 28 is mounted on the second X-axis slide 76 and moved together with the mounting head 60 by the head moving device 62.

Details of the component supply device 24 will be described below.
The component supply device 24 includes the feeder holding base 52 and a plurality of feeder assemblies 100 (see FIG. 5) attached to and detached from the feeder holding base 52. Each feeder assembly 100 includes a plurality (8 in the illustrated example) of the feeders 58. Each feeder 58 is configured to be separable into first parts 102 and 104 and second parts 106 and 108. As shown in FIG. 6B, the first part 102 includes a component supply unit 110, a reel holding unit 112, a taped component guide unit 114, a cover tape peeling device 116, and a cover tape container 118. The first unit 104 also includes a component supply unit 110, a reel holding unit 112, a taped component guide unit 114, a cover tape peeling device 116, and a cover tape container 118 as shown in FIG. A separate cover tape peeling device 116 and a cover tape container 118 are fixed to the component supply unit 110 and the taped component guide unit 114, which are integrated into one unit, in the opposite direction to the first unit 102. Has been. That is, in the first part 102, the cover tape peeling device 116 and the cover tape container 118, which are separate integral parts, are inverted on the lower surface of the integral part supply part 110 and the taped part guide part 114. In contrast, the first portion 104 is fixed to the upper surface in an upright state. The reel holding unit 112 is fixed to the cover tape container 118 in the same direction in the first part 102 and the first part 104, but the cover tape container 118 is as described above. Therefore, the heights of the two reel holding portions 112 are different from each other in the vertical direction. Therefore, the integrated structure of the cover tape peeling device 116 and the cover tape container 118 having the same structure and the cover tape container 118 having the same structure are fixed in two different states, thereby holding the reel. Two types of one-pieces including the portion 112, the cover tape peeling device 116 and the cover tape container 118 are configured, and the two types of one-pieces are mutually connected to the one-piece including the component supply unit 110 and the taped component guide unit 114. It can be considered that two types of first parts 102 and 104 are configured by being fixed in different states.
In any case, two types of first parts 102 and 104 are obtained by differentiating the manner of fixing a plurality of constituent elements of one type each, and a cost reduction effect by mass production can be obtained.

  On the other hand, the second parts 106 and 108 are in a state where four, four in total, share the main body member 120, and the eight feeders 58 can be removed by detaching the main body member 120 from the feeder holding base 52. Can be attached and removed all at once. The main body member 120 is attached to the feeder holding base 52 by fitting the engagement convex portion 122 having a T-shaped cross section provided in the main body member 120 into the T groove 55 of the feeder holding base 52 and 2 of the main body member 120. This is done by fitting positioning pins 125 and 126 as positioning portions provided at the locations and a connector 128 as a connection portion into the positioning hole 56 and the connector 57 of the feeder holding base 52.

As shown in FIGS. 5, 7, and 8, the second part 106 that constitutes one feeder 58 in combination with the first part 102 includes a sprocket 136 that is a feeding member and an electric motor with a speed reducer that is a driving source. 138 and a rotation transmission mechanism 140 are provided. This taped component feeder 142 is held by a rotating arm 146 that is rotatably supported by the main body member 120 via a support shaft 144, and is rotated by an operation of an operation lever 148 (in the example shown in the figure, eccentric). (Cam) 150, the sprocket 136 is moved to an engagement position where the sprocket 136 is engaged with the taped part 152 and a separation position where the sprocket 136 is detached from the taped part 152. Although the illustration and description of the cooperation device that links the operation lever 148 and the cam 150 are omitted, the cooperation device is configured such that when the operation lever 148 is pushed down, the turning arm 146 is turned to the engagement position. The operating lever 148, the linkage device, the cam 150, and the rotating arm 146 constitute an engaging / disengaging device 154.
7 and 8, the positions of the two electric motors 138 are shifted back and forth in the taped component feeder 142 of the two first parts 102 adjacent to each other. For this reason, the arrangements of the components of the two rotation transmission mechanisms 140 are different from each other, but the components themselves are the same.

Similarly, the second part 108 that constitutes one feeder 58 in combination with the first part 104 also includes a taped component feeder 162 including a sprocket 156, an electric motor 158, and a rotation transmission mechanism 160. The taped component feeding device 162 is held by a rotating arm 166 rotatably supported by the main body member 130 via a support shaft 164, and is rotated by an operation of an operation lever 168 (in the illustrated example, an eccentric cam). ) 170 to move to the engagement position and the disengagement position. Further, the taped component feeder 162 of the second part 108 is positioned behind the taped component feeder 142 of the second part 106.
As for the mounting module 10, the left front side in FIG. 2 is referred to as “front” as described above. However, regarding the component supply device 24, the right rear side in FIG. The downstream side in the direction is “front”. It is considered that the mounting device 26 and the component supply device 24 of the mounting module 10 face each other.

Details of the first parts 102 and 104 will be described. Since both have substantially the same configuration as described above, the first portion 102 will be representatively described.
As shown in FIG. 7 and FIG. 9, the taped component guide portion 114 of the first portion 102 is configured by a rectangular pipe 180 having a rectangular cross-sectional shape. The square pipe 180 has a bottom wall that is thicker than the side wall and the top wall, and a passage 182 that allows the taped component 152 to pass therethrough is formed therein. In the present embodiment, the taped component guide 114 is a linear guide, and the square pipe 180 constitutes a connecting member that connects the component supply unit 110 and the reel holding unit 112.

  As shown in FIG. 13, the taped component 152 includes a carrier tape 190 and a cover tape 192 made of synthetic resin. The carrier tape 190 has a relatively thick longitudinal member formed with a plurality of component receiving recesses 194 at a first pitch and a plurality of feed holes 196 formed at a second pitch. After the component 198 is accommodated in each, the cover tape 192 is affixed to the carrier tape 190, so that the component 198 is prevented from falling off from the component accommodating recess 194. Accordingly, the taped component 152 has a flat rectangular cross-sectional shape, and the passage 182 is slightly higher than the thickness of the taped component 152 but centered on the center line extending in the longitudinal direction of the taped component 152. It has a rectangular cross-sectional shape with a height that does not allow rotation, and is wound around a reel 199 rotatably held by a reel holder 112 shown in FIG. 5 with the cover tape 192 side as the outer peripheral side. ing.

  As shown most clearly in FIG. 9, the tip of the square pipe 180 is thinned by removing the upper wall and cutting or grinding the outer surfaces of both side walls. Is covered with a U-shaped cover 200. The upper wall of the front half portion of the cover 200 is inclined so that the front end side is located lower than the upper wall of the square pipe 180. As shown in FIG. It is made to become horizontal in the state inclined so that it may be located above. As shown in FIG. 10, an elongated hole-like opening 204 that allows the plurality of engaging protrusions 202 provided on the outer peripheral surface of the sprocket 136 to enter is formed across the horizontal portion and the adjacent inclined portion. Has been. At a position corresponding to the opening 204, the engagement protrusion 202 engages with the feed hole 196 of the carrier tape 190, and the sprocket 136 is rotated in this state, whereby the taped component 152 is fed in the longitudinal direction. . At that time, the cover tape 192 of the taped component 152 is folded back to the upstream side in the feeding direction of the taped component 152 and is peeled off from the carrier tape 190 while being engaged with the front edge 206 of the horizontal portion. The front edge 206 constitutes a folding guide part as a kind of cover tape peeling guide part.

  The cover tape 192 peeled off as described above is sandwiched between feed gears 208 and 210 as a pair of feed rotating bodies, as shown in FIGS. By being rotated by the electric motor 212, an appropriate tension is applied to the cover tape 192 and the cover tape 192 is pushed into the cover tape container 118. The electric motor 212 is held on the side of the second parts 106 and 108 (specifically, the electric motor 212 is attached to the main body member 120 by a bracket (not shown)), and the first parts 102 and 104 are the second part. When attached to 106, 108, the bevel gear fixed to the feed gear 208 meshes with the bevel gear fixed to the output shaft of the electric motor 212, and the rotation of the electric motor 212 is transmitted to the feed gear 208. The pair of bevel gears constitutes a rotation transmission unit that can be engaged and disengaged, and the electric motor 212, the rotation transmission unit, and the gears 208 and 210 constitute a cover tape feeder 214. The cover tape feeding device 214 constitutes a cover tape peeling device 116 in cooperation with the front edge 206 as the cover tape peeling guide portion described above.

  The front edge 206 of the horizontal portion is located on the upper surface side of the square pipe 180, whereas the cover tape feeder 214 is provided on the lower side of the square pipe 180. Therefore, the cover tape 192 is initially peeled off from the carrier tape 190 in a horizontal posture, but is first twisted by 90 degrees between the front edge 206 and the cover tape feeder 214, and the guide surface of the square pipe 180 in a vertical posture. Then, it is twisted again by 90 degrees to be returned to a horizontal posture and sandwiched between the feed gears 208 and 210. Accordingly, if there is a space having a width slightly larger than the thickness of the cover tape 192, the cover tape 192 can be moved from the upper side to the lower side of the taped component guide 114.

  As described above, since the cover tape 192 is peeled off from the carrier tape 190 while being engaged with the front end edge 206 of the cover 200 fixed to the square pipe 180, the component receiving recess 194 is formed on the front end edge 206 of the cover 200. It becomes an open state on the downstream side, and the part 198 can be taken out. Therefore, in the present embodiment, the vicinity of the front end edge 206 of the taped component guide portion 114 constituted by the square pipe 180 and the cover 200 is the component supply portion 110.

  As shown in FIG. 9, a recess 220 is formed in the bottom wall of the portion of the square pipe 180 covered with the cover 200, and the taped component 152 is positioned in the thickness direction and the longitudinal direction on the bottom surface of the recess 220. A positioning member 222 constituting a positioning device to be performed is fixed in a cantilever manner. The positioning member 222 is formed of a leaf spring material, and one end is fixed to the bottom surface of the recess 222, while the other end is in elastic contact with the lower surface of the cover 200. 152 is pressed against the lower surface of the cover 200 to perform positioning in the thickness direction. In addition, a spherical crown-shaped positioning projection 224 is formed on the upper surface of the contact portion, and the positioning projection 224 is sequentially engaged with each of the feed holes 196 of the carrier tape 190, whereby the taped component 152 is obtained. Positioning in the longitudinal direction is performed. In this positioning device, the positioning member 222 itself, which is formed of a leaf spring material and whose free end is elastically brought into contact with the lower surface of the cover 220, constitutes an urging portion.

  When the taped component 152 is inserted into the passage 182 from the opening on the rear end side of the square pipe 180, the tip of the taped component 152 comes into contact with the positioning member 222 and stops. However, when a larger pressing force is applied to the taped component 152 from that state, the positioning is caused by the wedge effect between the lower surface of the upper wall of the square pipe 180 and the upper surface of the positioning member 222 that forms an acute angle with the lower surface. The member 222 is bent and a gap with the lower surface of the upper wall of the square pipe 180 is widened to allow the taped component 152 to enter the gap. Eventually, the feed hole 196 of the carrier tape 190 engages with the positioning protrusion 224, and the movement resistance of the taped component 152 increases. However, since the positioning projection 224 has a spherical crown shape, if the pushing force against the taped component 152 is increased, the positioning projection 224 is detached from the feed hole 196, and further movement of the taped component 152 is allowed. The When the next feed hole 196 reaches the position of the positioning protrusion 224, the movement resistance of the taped component 152 increases again. By repeating the above, the taped component 152 is sequentially positioned at a plurality of positions with a sense of moderation.

Therefore, the sprocket 136 serving as the feed member is stopped by the control of the electric motor 138 at the rotational position where the engagement protrusion 202 is just engaged with the feed hole 196 of the taped component 152 positioned as described above. Thus, when the taped component feeding device 142 is moved to the engaging position as described above, the sprocket 136 is engaged with the taped component 152 so that the taped component 152 can be fed. Can do. The rotational position detector 228 shown in FIGS. 7 and 8 detects that the sprocket 136 is in a rotational position where the sprocket 136 can be engaged with the taped component 152. In the illustrated example, the rotational position detector 228 includes a transmissive photoelectric switch. And attached to the rotating arms 146 and 166.
In order to allow the sprocket 136 to engage with the taped part 152 as described above, as shown in FIG. 9, a part of the bottom wall of the square pipe 180, in the illustrated example, the positioning member 222 is a taped part. A notch 226 serving as an entry allowing portion for allowing the sprocket 136 to enter is formed in a portion located between the portion engaged with 152 and the front end edge 206 of the cover 200.

As described above, the taped component guide 114 of the first parts 102 and 104 is attached to the second parts 106 and 108 in a state of being inclined so that the front part is positioned upward. Is performed as follows.
The main body member 120 is provided with a guide portion holding portion 230 shown in FIG. As shown in FIG. 11 (b), the guide portion holding portion 230 has a rectangular cross section and a receiving groove 232 having a depth slightly smaller than the height of the square pipe 180 in the cross section bb. In cc, as shown in FIG. 11 (c), the receiving groove 232 is slightly deeper than the height of the square pipe 180, and has a holding groove 236 in which an inward flange 234 is formed at the upper end. Yes. The holding groove 236 surrounds the four outer surfaces of the square pipe 180 in a state where the taped component guide portion 114 is inserted, and holds the taped component guide portion 114 so as to be movable only in the longitudinal direction. On the other hand, the receiving groove 232 simply receives the taped component guide 114 from the lower side or the upper side.

It should be noted that the width of the elongated base material 240 (see FIG. 6) of the cover tape peeling device 116 and the cover tape container 118 that are integrated with each other is slightly narrower than the interval between the flanges 234 on both sides of the holding groove 236. ing. The cover 200 fixed to the square pipe 180 is shaped and dimensioned so as not to protrude outward from the outer surface of the square pipe 180.
Furthermore, the width of the receiving groove 232 and the holding groove 236 and the depth of the holding groove 236 are moved along the side surface of the square pipe 180 as shown in FIG. The cover tape 192 is wide enough to allow passage.
Accordingly, with the taped parts 152 set in the first parts 102 and 104, the taped part guides 114 of the first parts 102 and 104 are inserted into the holding grooves 236 and the receiving grooves 232 from the front end side. The guide part holding part 230 can hold it.

In this way, the first parts 102 and 104 are substantially positioned with respect to the direction perpendicular to the longitudinal direction, but the positioning accuracy is not necessarily sufficient and is movable in the longitudinal direction. In order to accurately position the component supply unit 110, a positioning device 246 shown in FIG. 7 is provided. The positioning device 246 includes a positioning pin 250 fixed to the bracket 248 fixed to the aforementioned rotating arms 146 and 166, and a positioning hole 252 formed in the bottom wall of the square pipe 180 (both are rotating arms 146). When the rotary arms 146 and 166 are rotated to the engagement position, the positioning pin 250 is fitted into the positioning hole 252 so that the first portion 102, The part in the vicinity of the component supply unit 110 is positioned with high accuracy.
As is clear from the above description, the first parts 102 and 104 constitute an attachment / detachment unit, and the second parts 106 and 108 constitute an attachment / detachment target part. Further, the eight second parts sharing the main body member 120 constitute an integrated second part, and the eight attachment / detachment units (first parts 102 and 104) constitute an attachment / detachment unit group.

In the present embodiment, the distal end portion of the positioning pin 250 has a tapered outer peripheral surface, and is fitted to the tapered inner peripheral surface of the positioning hole 252 so that the component supply unit 110 is moved in the longitudinal direction of the taped component guide unit 114 and In addition to positioning in the width direction with high accuracy, the tape supply component guide unit 114 is supported from below in a state where it is elastically deformed slightly upward, thereby positioning the component supply unit 110 in the height direction.
However, the component supply unit 110 is positioned in the height direction by providing a contact surface on the guide unit holding unit 230 or a waste carrier tape guide member 258 described below, and the taped component guide unit 114 on the contact surface. You may carry out by making the front-end | tip vicinity part contact | abut from the downward direction.

  The waste carrier tape guide member 258 is shown in FIG. The waste carrier tape guide member 258 is attached to a plurality of attachment portions 260 of the guide portion holding portion 230 at a plurality of attachment portions 259 (2 in the illustrated example), and is discharged from the first portions 102 and 104. The waste carrier tape 262 (see FIG. 10) after the part 198 has been taken out is guided. For this purpose, the waste carrier tape guide member 258 has a first guide portion 264 and a second guide portion 266 that are generally grooved together. The first guide part 264 has a width slightly larger than the width of the waste carrier tape 262 in order to guide the waste carrier tape 262 of the first part 102 in which the component supply part 110 is disposed in the front in a horizontal posture. Yes. On the other hand, the waste carrier tape 262 discharged from the first part 104 in which the component supply unit 110 is arranged at the rear is a gap between the front end part of the first part 102 located at the front and between the first guide parts 264. Since the gap is smaller than the width of the waste carrier tape 262, as shown in FIG. 10, it is twisted around the center line extending in the longitudinal direction and inclined in the width direction. It needs to be said.

  Accordingly, the second guide portion 266 includes a first guide surface 267 that comes into contact with one side edge portion of the waste carrier tape 262 from below and a second guide surface 268 that comes into contact with the other side edge portion from above. Yes. The width of the intermediate portion in the longitudinal direction of the second guide portion 266 is gradually reduced from a width slightly wider than the width of the waste carrier tape 262 to a narrow width, and the front portion of the second guide surface 268 is the rear side. It is set as the inclination part 268a inclined so that it might become lower than this part. On the other hand, the first guide surface 266 is substantially horizontal. Accordingly, as the waste carrier tape 262 advances, the other side edge portion is pushed downward with respect to the one side edge portion, and is twisted about the center line extending in the longitudinal direction. In addition, although it has been described above that “the first guide surface 266 is substantially horizontal”, in practice, the side edge portion on the first guide surface 266 side is allowed to tilt as the waste carrier tape 262 is twisted. Therefore, it is slightly inclined so that the gap between the front portion and the groove bottom surface of the second guide portion becomes larger. In the present embodiment, the above-mentioned “portion in which the width is gradually reduced from a width slightly wider than the width of the waste carrier tape 262 to the narrow width” of the second guide portion 266 is the waste carrier tape twisting device 270. It constitutes.

  The waste carrier tape guide member 258 is disposed at a position where the front end surface of the first portion 104 abuts on the rear end surface and is located above the first portion 102, but corresponds to the front end portion of the first portion 102. An opening 270 is formed in the portion to allow the tip portion to be exposed upward. The waste carrier tape guide member 258 has a notch 272 extending forward from the rear end surface and the front end of the opening 270, and a tongue piece 274 is cantilevered from one side edge of the notch 272. To prevent the waste carrier tape 262 from floating upward. The component 198 is taken upward from the portion between the component supply unit 110 and the tongue piece 274, and in this sense, the front end portion of the taped component guide portion 114 and the tongue piece 274 are jointly used. Thus, it can be considered that a component supply unit is formed.

In the mounting system configured as described above, in each of the plurality of mounting modules 10, the mounting device 26 takes out the component 198 from the component supply unit 110 arranged in two rows of the component supply device 24, conveys the component 198, and The circuit board is held on the holding device 22. For this purpose, the component supply device 24 needs to be equipped with a plurality of feeders 58 capable of supplying a plurality of types of components 198 to be mounted on the circuit board.
In the component supply device 24 of the present embodiment, as described above, the eight feeders 58 may be exchanged all at once by attaching and detaching the main body member 120 holding the eight feeders 58 to the feeder holding base 52. Moreover, in each feeder 58, each 1st part 102,104 can be separately replaced | exchanged by attaching / detaching each of 1st part 102,104 with respect to each of 2nd part 106,108. Is possible. In either case, the taped component can be obtained with the main body member 120 removed from the feeder holding base 52 together with the feeder 58 or the first parts 102 and 104 removed from the second parts 106 and 108. 152 can be pre-mounted. The taped part 152 is inserted into the taped part guide part 114 of the first part 102, 104 of each feeder 58, and one of the feed holes 196 is set to be engaged with the positioning protrusion 224 of the positioning member 222. At the same time, the tip of the cover tape 192 peeled off from the carrier tape 190 of the taped component 152 can be set in a state of being inserted into the cover tape container 118 via the cover tape feeding device 214.

  When the first parts 102 and 104 set in this way are attached to the second parts 106 and 108, the taped component guide part 114 is inserted into the holding groove 236 of the guide part holding part 230 from the front end side to form a tape. Push in until the front end surface of the component guide 114 abuts against the waste carrier tape guide member. Even in this state, a gap allowing the movement of the cover tape 192 peeled off from the carrier tape and engaged with the front end edge 206 of the cover 200 is formed between the waste carrier tape guide member and the front end edge 206. As described above, the front end edge 206 is slightly retracted from the front end face of the square pipe 180.

  As described above, the operating levers 148 and 168 shown in FIG. 5 are operated to engage the rotating arms 146 and 166 with the front end surface of the taped component guide portion 114 in contact with the waste carrier tape guide member. When it is rotated to the position, the positioning pin 250 of the positioning device 246 is fitted into the positioning hole 252 to position the component supply unit 110 in the longitudinal direction of the taped component guide unit 114 and in all directions perpendicular to the longitudinal direction. . At that time, the engagement protrusions 202 of the sprockets 136 and 156 are fitted into the feed holes 196 of the taped part 152. Therefore, thereafter, if the sprockets 136 and 156 are rotated by a certain angle, the taped component 152 is fed by a length equal to the formation pitch of the component receiving recesses 194. At the same time, in the cover tape feeding device 214, the feed gears 208 and 210 are rotated by a certain angle, so that the cover tape 192 is peeled off from the carrier tape 190, the component receiving recess 194 is opened, and the component supply is performed. Positioned.

In the present embodiment, the plurality of feeders 58 are divided into two groups, a group consisting of the first part 102 and the second part 106, and a group consisting of the first part 104 and the second part 108, and these two groups of tapes. In each feeder group, the component supply units 110 are arranged in an arrangement direction, which is a direction parallel to the two straight lines, at an arrangement pitch smaller than twice the width of each component supply unit 110 (of course, larger than one time). At the same time, when the component supply unit 110 side of each feeder 58 is the front and the reel holding unit 112 side is the rear, the waste carrier tape 262 after the component 198 is taken out in the component supply unit 110 belonging to the subsequent row. However, it is discharged | emitted ahead through the space of the width | variety smaller than the width | variety of the component supply part 110 between the mutually adjacent parts supply parts 110 which belong to the front row | line | column.
However, the number of columns of the component supply unit 110 is not limited to two, and can be generally N columns. In this case, the component supply apparatus changes the number “2” to “N”. As shown in FIG. 14, the waste carrier tape 262 after the parts 198 are taken out by the parts supply unit 110 belonging to the rear row is respectively the top as shown in FIG. It will be discharged | emitted ahead through each guide part 280 of the width | variety smaller than the width | variety of the component supply part 110 between the adjacent parts supply parts 110 which belong to the front row.

  Further, in this embodiment, the taped component feeding devices 142 and 162 are respectively held by the rotating arms 146 and 166, and the rotating arms 146 and 166 are rotated by the cams 150 and 170, thereby forming the tape. Although the component feeding devices 142 and 162 are moved to the engaging position, the taped component feeding devices 142 and 162 are urged to the engaging position by the urging force of the urging device, and the operation lever 148 is operated. It is also possible to move to the disengagement position based on the operation of the operation member such as 168. For example, the rotating arms 146 and 166 holding the taped component feeding devices 142 and 162 are taped by an urging device including at least an elastic member such as a compression coil spring disposed between the main body member 120 and the tape. Energized to the engagement position of the component feeding devices 142 and 162, and moved to the disengagement position against the urging force of the urging device by the cam rotated by the operation of the operation levers 148 and 168. To do.

As shown in FIGS. 5, 7, and 8, the second part 106 that constitutes one feeder 58 in combination with the first part 102 includes a sprocket 136 that is a feeding member and an electric motor with a speed reducer that is a driving source. 138 and a rotation transmission mechanism 140 are provided. This taped component feeder 142 is held by a rotating arm 146 that is rotatably supported by the main body member 120 via a support shaft 144, and is rotated by an operation of an operation lever 148 (in the example shown in the figure, eccentric). (Cam) 150, the sprocket 136 is moved to an engagement position where the sprocket 136 is engaged with the taped part 152 and a separation position where the sprocket 136 is detached from the taped part 152. Although the illustration and description of the cooperation device that links the operation lever 148 and the cam 150 are omitted, the cooperation device is configured such that when the operation lever 148 is pushed down, the turning arm 146 is turned to the engagement position. The operating lever 148, the linkage device, the cam 150, and the rotating arm 146 constitute an engaging / disengaging device 154.
7 and 8, the positions of the two electric motors 138 are shifted back and forth in the taped component feeder 142 of the two first parts 102 adjacent to each other. For this reason, the arrangements of the components of the two rotation transmission mechanisms 140 are different from each other, but the components themselves are the same.

Another embodiment is shown in FIG. This embodiment is an embodiment of a mode in which the component supply units of a plurality of feeders are arranged along each of a plurality of straight lines orthogonal to each other on one plane.
In the present embodiment, the plurality of feeders 300 are arranged in such a posture that the longitudinal direction of the longitudinal feeder body 301 is horizontal. In each feeder 300, when the downstream side in the feeding direction of the taped component 152 is the front and the upstream side is the rear, the first taped component feeding device 302 and the second taped component feeding device 304 are arranged in the front-rear direction. As a result, the first component supply unit 306 and the second component supply unit 308 are formed side by side in a direction parallel to the feeding direction of the taped component 152. Since three or more feeders 300 are mounted in a row in a direction perpendicular to the feeding direction of the taped component 152 on a feeder holding base (not shown) similar to the feeder holding base 52 in the above embodiment. A plurality of component supply units (306, 308) are arranged along two first straight lines and three or more second straight lines on one plane (in this embodiment, a horizontal plane). . The first straight line and the second straight line are orthogonal to each other on one plane.

  Each of the first and second taped component feeding devices 302 and 304 includes a sprocket 312, an electric motor 314, and a rotation transmission mechanism 316 as feeding members. The plurality of gears constituting the sprocket 312 and the rotation transmission mechanism 316 are shown as simple circles for the sake of simplification of the drawing, but each have an engaging protrusion and teeth on the outer peripheral surface.

  Each feeder 300 includes a first reel holding unit 320 and a second reel holding unit 322 positioned above the first reel holding unit 320, and is formed into a tape drawn from a reel 199 that is rotatably held by the first reel holding unit 320. The component 152 passes under the second taped component feeder 304 and is wound around the sprocket 312 of the first taped component feeder 302, and the waste carrier tape 262 after the component 198 is taken out is also second taped. It passes below the component feeder 304 and is discharged out of the feeder 300 in the vicinity of the first reel holder 320. Specifically, the taped component 152 includes a first guide portion formed by a guide groove 326 formed in the guide member 324, a guide tube 328, and a guide groove 332 formed in the guide member 330. The waste carrier tape 262 is guided by the one-tape component guide device 334, and the waste carrier tape 262 is formed by a guide groove 342 formed in the guide member 340, a guide tube 344, and a guide groove 346 formed in the guide member 324. 2 It is guided by the first waste carrier tape guide device 348 as a guide part and moves in the longitudinal direction.

  The taped component 152 drawn from the reel 199 of the second reel holding portion 322 and the waste carrier tape 262 after the component is taken out are also guided by the second taped component guide device 350 and the second waste carrier tape guide device 352. Is the same as the above, but the formation positions of the second taped component guide device 350 and the second waste carrier tape guide device 352 are different. As is apparent from the drawing, the second waste carrier tape guide device 352 is provided above the first taped component guide device 334, and the second taped component guide device 350 is provided thereabove.

The cover tape 192 of the taped component 152 drawn from the reel 199 held by the first reel holding unit 320 and fed by the first taped component feeding device 302 is peeled off from the carrier tape 192 by the first cover tape peeling device 360. And stored in the first cover tape container 362. A first cover 364 that can be opened and closed is provided above the sprocket 312 of the first taped component feeder 302, and one end edge of the opening formed in the first cover 364 (feed direction of the taped component 152) The rear edge of the) constitutes a turn-up guide part. A first cover tape peeling device 360 is configured by the folding guide portion and the cover tape feeding device 366 including a pair of feeding gears. The cover tape 192 is pulled out to the upper side of the cover 364 in a posture where the width direction is horizontal, whereas the cover tape feeding device 366 is provided below the cover 364. After passing through, it is twisted 90 degrees, guided by the guide member 372 in a posture located in the vertical plane, and again twisted by 90 degrees between the guide member 372 and the guide roller 374 and returned to a posture in which the width direction becomes horizontal. Then, it is sandwiched between a pair of feed gears of the cover tape feeding device 366 via another guide roller 376.
The guide member 372 is held by a side plate fixed to the feeder main body 301, but the side plate is removed in order to make it easy to understand the internal structure. Has been.

  On the other hand, the cover tape 192 of the taped component 152 that is pulled out from the reel 199 held by the second reel holding unit 322 and fed by the second taped component feeding device 304 has a posture in which the width direction is horizontal. After being pulled out to the upper side of 377 and wound around the guide rollers 378 and 380 in the same posture, they are sandwiched between a pair of feed gears of the second cover tape feeder 382. The second cover tape peeling device 384 is configured by the folding guide portion provided on the second cover 377 and the second cover tape feeding device 382. The cover tape 192 delivered from the second cover tape feeder 382 is accommodated in the second cover tape container 386.

As is clear from the above description, in the present embodiment, the opening formed in the first cover 364 constitutes the first component supply unit 306, and the opening formed in the second cover 377 is the second component supply unit. 308 is configured.
Further, positioning pins 390 and 392 and a connector 394 are provided at the front part of the feeder main body 301, and positioning pins 396 and 398 and a connector 400 are provided at the rear part. The connector 394 is the first taped component feeding device 302. The connector 400 is for supplying current and control signals to the first cover tape feeder 366, and the connector 400 is for supplying current and control signals to the second taped part feeder 304 and the second cover tape feeder 382. However, the connector 394 is used to supply current and control signals to the first and second taped component feeders 302 and 304, and the connector 400 is supplied to current and control signals to the first and second cover tape feeders 366 and 382. It can also be used.

In the present embodiment, the cover tape 192 peeled off from the taped component 152 fed by the first taped component feeder 302 is twisted 90 degrees and fed by the second taped component feeder 304 in a vertical posture. The first cover tape peeling device 360 and the first cover tape container 362 are moved from the upper side of the taped part 152 to the lower side, and the second cover tape peeling device 384 and the second cover tape container 386 are arranged. It is provided below. With this configuration, there is an advantage that it is easy to avoid interference between the two cover tapes 192.
However, it is also possible to provide the first cover tape feeder 366 above the second cover tape feeder 382 by changing the arrangement of the guide rollers. In that case, the first cover tape container 362 can be provided on the second cover tape container 386, or the first cover tape container 362 can be provided behind the second cover tape container 386. is there. In the former case, the cover tape 192 sent by the first cover tape feeding device 366 passes above the second cover tape peeling device 384. In the latter case, not only the second cover tape peeling device 384 but also the second cover tape peeling device 384 is used. It will also pass over the second cover tape container 386.

Another embodiment is shown in FIGS. This embodiment is also an embodiment of a mode in which the component supply parts of a plurality of feeders are arranged along each of a plurality of straight lines orthogonal to each other on one plane, as in the above embodiment. Different means for its realization.
That is, a plurality (2 in the illustrated example) of the feeders 410 and 412 are arranged so as to overlap in the vertical direction, but the front portion of the feeder 412 arranged below is bent as shown in FIG. It is comprised so that the state extended straight from the rear part shown in FIG. 17 can be taken.

Since the basic internal configuration is the same as that of a known feeder, a brief description will be given, and only different parts will be described in detail.
The feeder 410 disposed above includes a feeder main body 414 and a taped component feeding device 420 and a cover tape feeding device 422 held by the feeder main body 414. These both feeding devices share an electric motor 424 as a driving source. ing. The taped component 152 drawn from the reel 432 rotatably held by the reel holding portion 430 fixed to the rear end portion of the feeder main body 414 passes through a taped component guide portion constituted by a guide plate 434 to be taped. It is fed by the sprocket 436 of the component feeder 420. The cover tape 192 peeled off from the taped component 152 while being guided by the folding guide portion of the cover 438 passes through the cover tape guide portion including the guide roller 440, and the cover tape feeding device 422 provided at the rear portion of the feeder main body 414. And discharged to the outside of the feeder 410. The waste carrier tape 262 after the cover tape 192 is peeled off and the component 198 is taken out in the component supply portion 448 constituted by the opening of the cover 438 is guided by the waste carrier tape guide portion constituted by the guide tube 450. , And discharged from the rear end of the feeder body 414 to the outside of the feeder 410.
The feeder 410 is detachably mounted on the upper surface of a feeder holding base 460 as a feeder holding member. The means for mounting the feeder 410 on the feeder holding base 460 is the same as the feeder 412 disposed below, and will be described later using the feeder 412 as an example.

Since the internal configuration of the feeder 412 disposed below is the same as that of the feeder 410, the corresponding parts are denoted by the same reference numerals, description thereof is omitted, and only different parts will be described.
The feeder main body 470 of the feeder 412 includes a fixing portion 474 that is a main portion that is connected to a connecting shaft 472 so as to be relatively rotatable, and a rotating portion 476. The rotating portion 476 can take the bent posture shown in FIG. 16 that stands vertically and bends with respect to the fixed portion 474, and the extended posture that lies horizontally in FIG. 17 and extends straight from the fixed portion 474. The postures can be fixed to each other. As a fixing device for that purpose, for example, when the rotating portion 476 is in a bending posture, the ball plunger ball fixed to the rotating portion 476 is fitted into the engaging recess formed in the fixing portion 474. On the other hand, when the rotating part 476 is in the extended posture, the lower part of the end surface of the rotating part 476 can be brought into contact with the lower part of the end surface of the fixing part 474. In this embodiment, the combination of the ball plunger and the engagement recess and the combination of the lower portions of the two end surfaces that are in contact with each other select the rotating portion 476 in two postures of a bending posture and an extending posture. Thus, the posture maintaining device that maintains the target is configured.

Since the connecting shaft 472 also serves as a rotating shaft of a timing pulley 480 (see FIG. 18), which is a component of the rotation transmission mechanism of the cover tape feeding device 422, the rotating portion 476 rotates with respect to the fixed portion 474. Even if it moves, the distance from the rotation shaft of the other timing pulley 482 does not change, and the timing belt 484 is not affected.
Since the parts are supplied in the bending posture of the rotating part 476, as shown in FIG. 16, a cover 490 is provided so as to cover the end surface of the rotating part 476, and the opening formed in the cover 490 is the part supply. A portion 492 is formed, and a folding guide portion of the cover tape 192 is formed by an edge on the rear side of the opening.

  As described above, when the parts are supplied in the bent posture of the rotating portion 476, the waste carrier tape 262 is sent from the guide tube 500 of the rotating portion 476 in the bent posture to the guide tube 502 of the fixed portion 474. However, as shown in an enlarged view in FIG. 18, guidance for this is performed by a flexible tube 504 made of a soft synthetic resin and having flexibility. One end of the flexible tube 504 is fitted and fixed to the outside of the guide tube 500, and the other end is slidably fitted to the inside of the guide tube 502. The flexible tube 504 extends linearly and is accommodated in the guide tube 502 in a state where the rotating portion 476 is in the extended posture shown in FIG. 19, but the rotating portion 476 is bent as shown in FIG. In the state of being in the posture, most of the portion is pulled out from the guide tube 502 and curved in an arc shape.

The flexible tube 504 is prevented from being deformed in the direction approaching the gear 506 rotating together with the connecting shaft 472 by the contact preventing member 508 fixed to the guide tube 500, while the flexible tube 504 is separated from the gear 506. It is prevented that the flexible tube 504 is pulled out from the guide tube 502 by defining a limit for the flexible tube 504 to come out of the guide tube 502. For example, the limit of the pull-out limit is defined as a slot 512 in which a stopper 510 that protrudes radially outward from the outer peripheral surface of one end of the flexible tube 504 is formed on the peripheral wall of the guide tube 502 along the longitudinal direction. This can be done by contacting one end.
The stopper 510 can be inserted into the slot 512 by inserting the flexible tube 504 into the guide tube 502 in a state where the flexible tube 504 is elastically deformed in a diametrical direction and restoring the elastic deformation. . Further, the contact preventing member 508 that is curved in an arcuate shape reaches a position close to the timing belt 484 along the outer peripheral surface of the gear 506 as shown in FIG. 19 in a state where the rotating portion 476 is in the extended posture. In order to rotate, a space allowing this movement is provided inside the fixed portion 474.

The feeder 412 configured as described above is detachably mounted on the feeder holding base 520. In this mounting, the feeder 412 is inserted into the space between the upper feeder holding table 460 and the lower feeder holding table 520 from the rotating unit 476 side with the rotating unit 476 in the extended posture. The T-groove 522 provided on the upper surface of the feeder holding base 520 is fitted with a fitting protrusion 524 having a T-shaped cross-section provided on the lower surface of the fixing portion 474, and an operation lever (not shown in the figure, feeder). The operation is performed by setting the lock device 528 operated by the operation of the operation lever 526 of 410) to the locked state.
As the feeder 412 is mounted, the positioning pins 538 and 540 of the connecting portion 536 suspended from the rear end of the fixing portion 474 are inserted into the positioning holes provided in the feeder holding base 520 and the connecting portion. A connector 542 of 536 is connected to a connector of the feeder holding base 520.

Similarly, the feeder 410 is mounted on the feeder holding base 460. When both feeders 410 and 412 are mounted on the feeder holding bases 460 and 520, respectively, the plurality of feeders 410 are front and rear in the feeding direction of the taped part 152. A plurality of feeders 412 are similarly arranged in a line along a straight line perpendicular to the direction. The plurality of component supply units 448 of the plurality of feeders 410 and the plurality of component supply units 492 of the plurality of feeders 412 are arranged in a line along two straight lines parallel to each other on a horizontal plane. At the same time, the component supply unit 448 and the component supply unit 492 one by one are arranged along a straight line extending in the front-rear direction.
In the present embodiment, the electric motor 424 is shared by the taped component feeding device 420 and the cover tape feeding device 422. However, this is not indispensable. It is also possible to provide. Similarly, in the above-described embodiment, the electric motor can be shared by the taped component feeders (142, 162, 302, 304) and the cover tape feeders (214, 362, 382, 384).

In the above-described embodiment, the rotating portion 476 is rotated to a vertical posture in a bent posture, but this is not indispensable, up to a posture inclined (for example, forwardly inclined) with respect to the vertical direction. It is also possible to rotate and rotate the components in that posture.
In addition, it is not essential that the feeder main body includes a main body (fixed portion) and a rotating portion. For example, as shown in FIG. 20, the entire feeder 552 including the integrated feeder main body 550 is inclined. It is also possible to hold the feeder holding member 554 and take out the component from the component supply unit 558 constituted by the opening of the cover 556 provided at the upper end portion thereof.

Furthermore, it is not essential to provide a feeder holding member for each of a plurality of groups of feeders arranged in one row, and one feeder holding member can also be used as two groups of feeders.
For example, as shown in FIG. 21, a group of feeders 562 are attached to the upper surface of the feeder holding member 560, and another group of feeders 564 are attached to the lower surface of the same feeder holding member 560. In this case, if the feeder 564 attached to the lower surface of the feeder holding member 560 is attached from below as indicated by an arrow 566, the feeder main body 568 of the feeder 564 has a shape bent upward. It can be attached to the feeder holding member 560 without hindrance, and the component supply unit 570 of the feeder 564 can be positioned on the same plane as the component supply unit 572 of the other feeder 562.
In this embodiment, the sprocket 580 of the feeder 562 is rotated in the clockwise direction in FIG. 21, but the sprocket 582 of the feeder 564 is rotated in the counterclockwise direction, and the taped parts 152 are rotated in both feeders 562 and 564. Sent in opposite directions. Reference numeral 584 denotes a cover tape container 584.

In the above embodiment, the cover tape 192 is completely peeled off from the carrier tape 190 so that the component receiving recess 194 is opened. However, this is not essential. For example, as described in JP-T-2002-533943, a feeder is used as a cover tape covering a plurality of component receiving recesses of a carrier tape from a carrier tape of a taped component fed by a taped component feeder. The fixing portion on one side of the row of receiving recesses remains fixed to the carrier tape, and the central portion that covers the row of component receiving recesses and the side opposite to the fixing portion rise from the fixing portion. It is also possible to include a semi-peeling device that opens the upper part of the component housing recess.
In this way, the cover tape can be returned to the original state secured to the carrier tape after the component receiving recess is opened and the component is taken out, so that the cover tape can be processed together with the waste carrier tape. Therefore, it is not necessary to provide a dedicated device for cover tape processing such as a cover tape peeling device or a cover tape container, and accordingly, a component supply device in which component supply units are arranged in a plurality of rows on a single plane. Becomes easy.

DESCRIPTION OF SYMBOLS 10: Mounting module 24: Component supply apparatus 26: Mounting apparatus 32: Electric control apparatus 52: Feeder holding stand 53: Support plate 54: Connection wall 55: T groove 56: Positioning hole 57: Connector 58: Feeder (tape feeder) 100 : Feeder assembly 102, 104: First part 106, 108: Second part 110: Parts supply part 112: Reel holding part 114: Tape-formed part guide part 116: Cover tape peeling device 118: Cover tape container 120: Main body Member 122: Engagement convex part 125, 126: Positioning pin 128: Connector 136: Sprocket 138: Electric motor 140: Rotation transmission mechanism 142: Tapered component feeder 144: Support shaft 146: Rotating arm 148: Operation lever 15 : Cam 152: Tape component 154: Engaging / disengaging device 156: Sprocket 158: Electric motor 160: Rotation transmission mechanism 162: Tape component feeding device 164: Support shaft 166: Rotating arm 168: Operation lever 170: Cam 180: Angle Pipe 182: Passage 190: Carrier tape 192: Cover tape 194: Component receiving recess 196: Feed hole 198: Component (electronic circuit component) 199: Reel 200: Cover 202: Engagement protrusion 204: Opening 206: Front edge 208, 210: Feeding gear 212: Electric motor 214: Cover tape feeding device 220: Concave portion 222: Positioning member 224: Positioning protrusion 226: Notch 228: Rotation position detector 230: Guide portion holding portion 232: Receiving Groove 234: Flange 236: Holding groove 240: Base material 246: Positioning device 248: Bracket 250: Positioning pin 252: Positioning hole 258: Waste carrier tape guide member 262: Waste carrier tape 264: First guide portion 266: Second guide 267: first guide surface 268: second guide surface 268a: inclined portion 270: waste carrier tape twisting device 270: opening 272: notch 274: tongue piece 280: guide portion 300: feeder 301: feeder body 302: first 1 taped component feeder 304: second taped component feeder 306: first component supply unit 308: second component supply unit 334: first taped component guide device 348: first waste carrier tape guide device 350: first 2-tape parts guide Device 352: Second waste carrier tape guide device 360: First cover tape peeling device 362: First cover tape container 364: First cover 366: First cover tape feeder 377: Second cover 382: Second cover tape Feed device 384: second cover tape peeling device 386: second cover tape container 410, 412: feeder 414: feeder body 420: taped component feeder 422: cover tape feeder 448: component supply unit 470: feeder body 472 : Connecting shaft 474: fixed part 476: rotating part 490: cover 492; parts supply part 520: feeder holding base 522: T groove 524: fitting protrusion 526: operation lever 528: locking device 550: feeder body 552: Da 554: Feeder holding member 556: Cover 558: component supply unit 560: Feeder holding member 562, 564: Feeder 568: main frame 570: the component supply unit

Claims (4)

A taped component in which one electronic circuit component is accommodated in each of a plurality of component accommodating recesses formed side by side at a constant pitch in the longitudinal direction of the carrier tape is sent in the longitudinal direction, and each of the plurality of component accommodating recesses is a component. An electronic circuit component supply device for sequentially positioning in a supply unit,
A plurality of first parts each including the component supply unit and a taped component guide unit that guides the taped component to the component supply unit;
A plurality of second parts each including a guide part holding part that holds the taped component guide part in a state movable in the longitudinal direction;
The plurality of second parts constitute an integrated second part in which they are integrated, and each of the plurality of first parts is exchanged with another first part for the integrated second part. It is attached to the integrated second part as possible, and the integrated second part is detachably held by the feeder holding device,
In the state where the plurality of first parts are attached to the integrated second part, the component supply parts of each of the plurality of first parts are arranged in a direction perpendicular to the longitudinal direction. Circuit component supply device.   The electronic circuit component supply apparatus according to claim 1, wherein the guide holding unit includes a receiving groove into which the taped component guide is inserted.   The electronic circuit component supply apparatus according to claim 1, wherein the first part is attached to the integrated second part using the guide part holding part. 4. The device according to claim 1, wherein each of the plurality of first parts is configured to be positioned in a state where each of the plurality of first parts is attached to the integrated second part. 5. Electronic circuit component supply device.

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