JPWO2014049820A1 - Parts supply device - Google Patents

Abstract

A component supply apparatus for supplying electronic components to a chip mounter is disclosed. The component supply device is attached to the holder and is attached to the holder, the holder holding the at least one electronic component, a storage device having a plurality of storage portions each capable of storing the holder, and the holder. An identifier in which the identification information is recorded, an identification information assigned to the holder, a storage device for storing the one storage unit in which the holder is to be set, and a reading for reading the identification information recorded in the identifier of the holder Device. The storage device enables an operator to set a holder for one storage unit stored in the storage device when the identification information read by the reading device matches the identification information stored in the storage device. To do.

Description

  The present technology relates to a component supply device that supplies an electronic component to a chip mounter (also referred to as a surface mounter or an electronic component assembly device) that mounts the electronic component on a circuit board.

  Japanese Unexamined Patent Application Publication No. 2006-11445 discloses a conventional component supply apparatus. The component supply apparatus includes a holder for holding at least one electronic component, a plurality of storage portions each capable of storing the holder, and a delivery mechanism for sending the holders stored in the storage portion to the chip mounter. Yes.

  In this type of component supply apparatus, when an operator replenishes an electronic component, the electronic component is set in a holder, and the holder is set in a designated accommodating portion. At this time, if an operator makes a mistake in the housing part in which the holder is set, the component supply device supplies an incorrect electronic component to the chip mounter. In order to avoid such a problem, the conventional component supply apparatus described above is configured to read a barcode attached to the holder when the holder is sent to the chip mounter. Thereby, it is verified whether or not the holder sent out to the chip mounter is a correct holder (that is, a correct electronic component).

  In the conventional component supply apparatus, the holder is verified when the holder is sent to the chip mounter. In such a configuration, even if the operator makes a mistake in the storage unit in which the holder is set, the mistake cannot be detected at that stage. For this reason, if the operator makes a mistake in the storage unit in which the holder is set, the operation of the chip mounter is stopped thereafter, and there is a problem that the production plan is delayed.

  In view of the above problems, the technology disclosed in the present specification aims to prevent an artificial error in which an operator sets a holder in a wrong storage unit.

  The present specification discloses a component supply apparatus that supplies electronic components to a chip mounter. The component supply device is attached to the holder and is attached to the holder, the holder holding the at least one electronic component, a storage device having a plurality of storage portions each capable of storing the holder, and the holder. An identifier in which the identification information is recorded, an identification information assigned to the holder, a storage device for storing the one storage unit in which the holder is to be set, and a reading for reading the identification information recorded in the identifier of the holder Device.

  In this component supply device, when the storage device matches the identification information read by the reading device with the identification information stored in the storage device, the worker holds one storage unit stored in the storage device. Allow the tool to be set. In other words, the operator cannot set the holder for the other storage units. According to such a configuration, the operator can set the holding tool only in the accommodating portion designated as the holding portion. Thereby, the human error that an operator sets a holder in the wrong accommodating part is prevented.

  In one embodiment, the above-described storage device is formed in a magazine provided with a plurality of storage portions, a housing for storing the magazine, and the housing, and an operator sets a holding tool on the magazine. It is preferable to provide a replenishing port. In this case, it is preferable that the supply port has a size corresponding to one size of the plurality of accommodating portions. And it is preferable that the accommodating apparatus is comprised so that the relative position of a magazine and a supply port can be changed. According to such a configuration, the storage device adjusts the position of the one storage portion in which the holder is to be set and the supply port by changing the relative position between the magazine and the supply port, and the one storage portion. Can be opened to the outside.

  In the above-described embodiment, it is preferable that the above-described storage device further includes a magazine moving device that moves the magazine within the housing. Alternatively or in addition, it is preferable that the storage device further includes a supply port moving device that moves the supply port relative to the housing. The storage device includes at least one of the magazine moving device and the supply port moving device, so that the relative position between the magazine and the supply port can be changed.

  It is preferable that the above-described supply port moving device can change the size of the supply port. According to such a configuration, for example, when a holder for holding a large electronic component is set, the supply port can be enlarged accordingly. In this case, the supply port may be enlarged to a size corresponding to two or more accommodation units. If the size of the replenishing port corresponds to the size of the holder and the electronic parts held by it, even if the replenishing port is enlarged to a size corresponding to two or more accommodating parts, the operator incorrectly accommodates the holding device. You can avoid the human error that you set in the club.

  The replenishing port moving device includes a first closing member that closes an opening formed in the housing from one side, and a second closing member that closes the opening from the other side, the first closing member and the second closing member, It is preferable to form a supply port between the two. According to such a configuration, the position and size of the supply port can be changed by changing the range in which the opening is closed by the first closing member and the range in which the opening is closed by the second closing member. it can.

  In another embodiment, the storage device described above can move each of the plurality of storage portions between an open position where the operator can set the tray and a closed position where the operator cannot set the tray. It is preferable that According to such a configuration, the storage device can move only one storage portion in which the holder is to be set to the open position, and open the storage portion to the outside. Thereby, the human error that an operator sets a holder in the wrong accommodating part is prevented.

  This specification discloses another component supply apparatus. The component supply device includes a holder that holds at least one electronic component, a storage device that includes a storage unit that can store the holder, and an identification information assigned to the holder. A storage device that stores the recorded identifier, identification information of the holder to be set in the housing unit, and a reading device that reads the identification information recorded in the identifier of the holder. In this component supply device, the storage device is configured to allow the holder to be set in the storage portion when the identification information read by the reading device matches the identification information stored in the storage device. Has been.

  In this component supply device, the storage device is movable between a first position that prohibits the holder from being set in the storage portion and a second position that allows the holder to be set in the storage portion. It is preferable to provide a movable member. In this case, it is preferable that the movable member moves from the first position to the second position when the identification information read by the reading device matches the identification information stored in the storage device. According to such a configuration, when the read identification information and the stored identification information do not match, the operator cannot set the holder in the storage unit. Thereby, the human error that an operator sets a holder in the wrong accommodating part is prevented.

  In the component supply apparatus described above, when the movable member is in the first position, at least a part of the movable member is located in the accommodating portion, and when the movable member is in the second position, the movable member is located outside the accommodating portion. It is preferable to do. According to such a configuration, when the movable member is in the first position, the movable member physically interferes with the holder, thereby prohibiting the operator from setting the holder in the wrong accommodating portion. .

  It is preferable that the movable member described above is capable of discharging at least a part of the holding portion located in the accommodating portion to the outside of the accommodating portion by moving from the second position to the first position. According to such a structure, when an operator takes out a holder from a storage part, it is easy to specify the holder to be taken out, and further, it is easy to take out the holder.

  In another one of the component supply devices described above, the reading device preferably reads the identifier of the holder when a part of the holder is located in the accommodating portion. According to such a configuration, since the identifier of the holding tool is automatically read when the worker sets the holding tool in the housing portion, it is possible to avoid an artificial mistake such as the operator forgetting to read the identifier. .

FIG. 3 is a perspective view schematically showing the component supply apparatus according to the first embodiment. Sectional drawing which shows the pallet accommodation apparatus of Example 1 typically. The tray pallet which is an example of a pallet is shown. A wafer pallet which is an example of a pallet is shown. 5 is a flowchart illustrating processing executed by the component supply apparatus according to the first embodiment. The perspective view which shows the components supply apparatus of Example 2 typically. Sectional drawing which shows the pallet accommodation apparatus of Example 2 typically. FIG. 6 is a perspective view schematically showing a component supply device according to a third embodiment. Sectional drawing which shows the pallet accommodation apparatus of Example 3 typically. The perspective view which shows the components supply apparatus of Example 4 typically. The perspective view which shows typically the pallet accommodation apparatus of Example 4. FIG. In Example 4, the pallet accommodation apparatus which moves a magazine in order to discharge a tray is shown. In Example 4, the pallet accommodation apparatus which discharges | emits a pallet with a discharge device is shown. In Example 4, the reading apparatus which reads the barcode of a pallet is shown. In Example 4, the pallet accommodation apparatus which retract | saves the extrusion head of a discharge device and permits a worker to set a pallet is shown. In Example 4, the pallet accommodation apparatus which prohibits an operator from setting a pallet without retracting the extrusion head of a discharge device is shown.

  The component supply apparatus 20 of Example 1 is demonstrated. As shown in FIG. 1, the component supply device 20 is a device that supplies an electronic component 8 to the chip mounter 2. The chip mounter 2 is a device for mounting the electronic component 8 on a circuit board (not shown), and is also referred to as a surface mounter or an electronic component assembly device. The component supply device 20 includes a plurality of pallets 10 that hold the electronic components 8, a storage device 22 that stores the plurality of pallets 10, and a take-out device 28 that transports the pallet 10 between the storage device 22 and the chip mounter 2. And a control device 21 for controlling the operations of the storage device 22 and the take-out device 28.

  The pallet 10 is an example of a holder that holds the electronic component 8. In the component supply device 20, the electronic component 8 is handled using the pallet 10. The pallet 10 on which the electronic component 8 is set is set in the storage device 22 through the supply port 34 provided in the storage device 22. The replenishment of the electronic component 8 is performed by exchanging the pallet 10. The operator replenishes the electronic component 8 by replacing the empty pallet 10 in the storage device 22 with the pallet 10 on which the electronic component 8 is set.

  3 and 4 show specific examples of the pallet 10. The pallet 10 shown in FIG. 2 is called, for example, a tray pallet, and can hold a tray 12 that accommodates a plurality of electronic components 8 in a lattice shape. The pallet 10 shown in FIG. 3 is called a wafer pallet, for example, and can hold the electronic component 8 in a state where the semiconductor wafer 16 is diced. In addition, these pallets 10 are examples of a holder for holding the electronic component 8, and the form of the holder is not particularly limited.

  Each pallet 10 is provided with a barcode 14 for recording identification information assigned to the pallet 10. In the component supply device 20, the flow of the electronic component 8 is managed using the barcode 14 of the pallet 10. Here, the barcode 14 is an example of an identifier, and may be another identifier capable of recording identification information, such as a two-dimensional code, a magnetic tape, and an RFID. In addition, information may be recorded by an uneven arrangement.

  As shown in FIG. 2, the accommodating device 22 includes a housing 23, a magazine 24 accommodated in the housing 23, and an elevating device 30 that raises and lowers the magazine 24 within the housing 23. The elevating device 30 is an example of a magazine moving mechanism that moves the magazine 24 within the housing 22. The operation of the lifting device 30 is controlled by the control device 21. The magazine 24 has a plurality of accommodating portions 36. Each accommodating portion 36 can accommodate at least one pallet 10. The plurality of accommodating portions 36 are arranged in the vertical direction. The take-out device 28 supplies one of the plurality of pallets 10 accommodated in the magazine 24 to the chip mounter 2. At this time, the lifting device 30 moves the magazine 24 up and down, so that the pallet 10 to be supplied to the chip mounter 2 is selected. The housing 23 is provided with an outlet 26 through which the pallet 10 passes. The electronic component 8 on the pallet 10 is mounted on a circuit board (not shown) by the head 4 of the chip mounter 2. The head 4 is provided with a nozzle 6 that sucks the electronic component 8.

  As shown in FIGS. 1 and 2, the storage device 22 includes an opening 32 formed in the housing 23, a lower shutter 42 that closes the opening 32 from below, and an upper shutter 44 that closes the opening 32 from above. It has. The lower shutter 42 and the upper shutter 44 are driven by a lower motor 46 and an upper motor 48, respectively. The lower motor 46 and the upper motor 48 are controlled by the control device 21. The control device 21 controls the lower motor 46 and the upper motor 48, respectively, so that the lower shutter 42 closes the opening 32 and the upper side. The range in which the shutter 44 closes the opening 32 can be adjusted. Accordingly, the storage device 22 is configured such that the supply port 34 is formed between the lower shutter 42 and the upper shutter 44 and the position and size of the supply port 34 can be changed. The lower shutter 42 and the upper shutter 44 are an example of a closing member that closes the opening 32, and can be replaced with a closing member having another configuration. In addition, the lower motor 46 and the upper motor 48 are not limited to motors, and may be other types of actuators that can drive the closing member. The lower shutter 42, the upper shutter 44, the lower motor 46, and the upper motor 48 are an example of a supply port moving device that changes the position and size of the supply port 34.

  As shown in FIG. 1, the component supply device 20 includes a reading device 60 and a management device 70. The reading device 60 is a so-called bar code reader and can read the identification information recorded on the bar code 14 of the pallet 10. The reading device 60 is prepared for the operator to read the barcode 14 on the pallet 10 when the worker sets the pallet 10 in the storage device 22. The reading device 60 can communicate with the management device 70 and can transmit the read identification information to the management device 70.

  The management device 70 is configured using a computer, and includes an arithmetic device and a storage device. The management device 70 manages the operation of the component supply device 20 and the chip mounter 2 and can communicate with the control device 21 of the component supply device 20. Various types of data including pallet management data are recorded in the management device 70. In the pallet management data, the identification information assigned to the pallet 10 and the current state of the pallet 10 are described for each of the plurality of pallets 10. For example, with respect to the pallet 10 newly set in the storage device 22, the electronic component 8 to be set on the pallet 10 and one of the plurality of storage portions 36 of the magazine 24, the pallet 10 should be set. A container 36 is described.

  FIG. 5 is a flowchart showing processing executed by the component supply device 20 when the worker sets the pallet 10 in the storage device 22. First, in step S <b> 12, the operator reads the barcode 14 on the pallet 10 using the reading device 60. The reading device 60 acquires the identification information of the pallet 10 from the barcode 14 and transmits the acquired identification information to the management device 70. In step S14, the management device 70 searches the pallet management data using the identification information received from the reading device 60 as a key. Thereby, the storage unit 36 stored in association with the identification information is extracted. In step S <b> 16, the management device 70 specifies the storage unit 36 extracted in step S <b> 14 as the storage unit 36 in which the pallet 10 is to be set, and teaches the control device 21.

  In step S <b> 18, the control device 21 confirms the current position of the magazine 24. In step S <b> 20, the control device 21 determines the position of the supply port 34 to be formed based on the taught storage unit 36 and the current position of the magazine 24. Thereby, the position of the replenishing port 34 is determined in accordance with the current position of the accommodating portion 36 in which the pallet 10 is to be set. The size of the replenishing port 34 is normally set to a size corresponding to one storage portion 36. However, the size of the supply port 34 may be changed according to the size of the electronic component 8 (tray 12) held on the pallet 10. In this case, the control device 21 may further acquire information regarding the size of the electronic component 8 (tray 12) from the management device 70 in step S14 described above. Depending on the size of the electronic component 8 (tray 12), the replenishing port 34 may be sized corresponding to two or more accommodating portions 36. In step S22, the control device 21 operates the lower shutter 42 and the upper shutter 44 to form the supply port 34 at the determined position. Thereby, only the accommodating part 36 in which the pallet 10 should be set is opened to the outside through the supply port 34. The operator can set the pallet 10 in the correct accommodating portion 36 by inserting the pallet 10 into the housing 23 from the supply port 34.

  As described above, when the identification information of the pallet 10 read by the reading device 60 matches the identification information stored in the management device 70, the storage device 22 of the present embodiment stores the storage stored in association with it. Only the part 36 is opened to the outside so that the worker can set the pallet 10. Thereby, it is possible to avoid a human error such as an operator setting the pallet 10 in the wrong storage unit 36.

  The component supply apparatus 120 of Example 2 is demonstrated. As shown in FIGS. 6 and 7, the component supply device 120 of this embodiment is also a device that supplies the electronic component 8 to the chip mounter 2. The component supply device 120 according to the present embodiment is different from the component supply device 20 according to the first embodiment in a part of the configuration of the storage device 122. The other points are substantially the same as those of the component supply device 20 of the first embodiment, and thus the same description is omitted by giving the same reference numerals.

  As shown in FIG. 7, in the storage device 122 of the present embodiment, the supply port 34 is formed in the housing 23, and the position thereof is fixed. The size of the supply port 34 is a size corresponding to one accommodating portion 36 of the magazine 24. Thereby, the replenishing port 34 can open only one selected storage portion 36 to the outside.

  In the component supply device 120 of the present embodiment, as in the case of the component supply device 20 of the first embodiment, when the operator reads the barcode 14 of the pallet 10 with the reading device 60 (see step S12 in FIG. 5), the management device 70 Then, the pallet management data is searched using the acquired identification information as a key (see step S14), and the container 36 in which the pallet 10 is to be set is specified (see step S16).

  However, in the component supply device 120 according to the present embodiment, when the storage unit 36 in which the pallet 10 is to be set is specified, the control device 21 moves up and down so that the specified storage unit 36 matches the position of the supply port 34. The device 30 is controlled to move the magazine 24 within the housing 23. Thereby, only the accommodating part 36 in which the pallet 10 should be set is opened to the outside through the supply port 34. The operator can set the pallet 10 in the correct accommodating portion 36 by inserting the pallet 10 into the housing 23 from the supply port 34.

  As described above, when the identification information of the pallet 10 read by the reading device 60 matches the identification information stored in the management device 70, the storage device 122 according to the present embodiment stores the information stored in association therewith. Only the part 36 is opened to the outside so that the worker can set the pallet 10. Thereby, it is possible to avoid a human error such as an operator setting the pallet 10 in the wrong storage unit 36.

  The component supply apparatus 220 of Example 3 is demonstrated. As shown in FIGS. 8 and 9, the component supply device 220 of this embodiment is also a device that supplies the electronic component 8 to the chip mounter 2. The component supply device 220 according to the present embodiment is different from the component supply device 20 according to the first embodiment in a part of the configuration of the storage device 222. The other points are substantially the same as those of the component supply device 20 of the first embodiment, and thus the same description is omitted by giving the same reference numerals.

  As shown in FIGS. 8 and 9, in the storage device 222 of this embodiment, the supply port 34 is formed in the housing 23, and its position is fixed. The size of the supply port 34 is a size corresponding to the entire magazine 24. Thereby, the supply port 34 can open all the accommodating parts 36 of the magazine 24 outside.

  As shown in FIG. 9, the storage device 222 of this embodiment includes a plurality of actuators 226. The plurality of actuators 226 are respectively provided in the plurality of accommodating portions 36. Each actuator 226 can move the corresponding one storage portion 36 between a protruding position protruding from the magazine 24 and a storage position stored in the magazine 24. Each actuator 226 is controlled by the control device 21.

  In the storage device 222 of this embodiment, a rim 224 is formed at the front portion of the storage portion 36. By this rim 224, the accommodating portion 36 is opened when in the protruding position, and closed when in the accommodating position. That is, the operator can set the pallet 10 only in the storage portion 36 in the protruding position.

  In the component supply device 220 of the present embodiment, as in the case of the component supply device 20 of the first embodiment, when the operator reads the barcode 14 of the pallet 10 with the reading device 60 (see step S12 in FIG. 5), the management device 70 Then, the pallet management data is searched using the acquired identification information as a key (see step S14), and the container 36 in which the pallet 10 is to be set is specified (see step S16).

  However, in the component supply device 220 according to the present embodiment, when the storage unit 36 in which the pallet 10 is to be set is specified, the control device 21 controls the corresponding actuator 226 to place the specified storage unit 36 in the protruding position. Move to. Thereby, only the accommodating part 36 in which the pallet 10 should be set is open | released outside. The operator can set the pallet 10 in the correct storage unit 36 by placing the pallet 10 in the storage unit 36 in the protruding position.

  As described above, when the identification information of the pallet 10 read by the reading device 60 matches the identification information stored in the management device 70, the storage device 222 according to the present embodiment stores the information stored in association therewith. Only the part 36 is opened to the outside so that the worker can set the pallet 10. Thereby, it is possible to avoid a human error such as an operator setting the pallet 10 in the wrong storage unit 36.

  The component supply apparatus 320 of Example 4 is demonstrated. As shown in FIGS. 10 and 11, the component supply device 320 of this embodiment is also a device that supplies the electronic component 8 to the chip mounter 2. The component supply device 320 according to the present embodiment is different from the component supply device 20 according to the first embodiment in a part of the configuration of the storage device 322. The other points are substantially the same as those of the component supply device 20 of the first embodiment, and thus the same description is omitted by giving the same reference numerals.

  As shown in FIGS. 10 and 11, in the storage device 322 of the present embodiment, the supply port 34 is formed in the housing 23, and the position thereof is fixed. The size of the supply port 34 is a size corresponding to one accommodating portion 36 of the magazine 24. Thereby, the replenishing port 34 can open only one selected storage portion 36 to the outside. In this embodiment, the reading device 60 is attached to the storage device 322. The reading unit 62 of the reading device 60 is directed to the supply port 34 and can automatically read the barcode 14 of the pallet 10 when the pallet 10 is inserted into the supply port 34.

  As shown in FIG. 11, the storage device 322 of this embodiment includes an extrusion device 324. The extrusion device 324 is a device that extrudes the pallet 10 from the magazine 24. The extrusion device 324 includes a movable member 326. The movable member 326 is movable between a first position located in the accommodating portion 36 of the magazine 24 and a second position located outside the accommodating portion 36. The extrusion device 324 is controlled by the control device 21. The moving direction of the movable member 326 is the same as the direction in which the operator puts the pallet 10 in and out of the accommodating portion 36, and is a horizontal direction in the present embodiment although it is an example.

  With reference to FIG. 12 to FIG. 16, an operation performed by the component supply device 320 of the present embodiment when the worker replaces the pallet 10 of the storage device 322 will be described. First, as shown in FIG. 12, the elevating device 30 moves the magazine 24 and aligns the accommodating portion 36 where the pallet 10 should be replaced with the position of the supply port 34. At this time, the movable member 326 of the extrusion device 324 is in the second position retracted from the storage portion 36 of the magazine 24. Next, as shown in FIG. 13, the extrusion device 324 moves the movable member 326 to the first position, and the pallet 10 in the housing portion 36 is pushed out toward the supply port 34. The pushed pallet 10 is taken out by the operator.

  Next, as shown in FIG. 14, the operator inserts a new pallet 10 into the accommodating portion 36 through the supply port 34. At this time, the barcode 14 of the pallet 10 is read by the reading device 60. The identification information of the pallet 10 is transmitted from the reading device 60 to the management device 70. The management device 70 searches the pallet management data using the transmitted identification information as a key, and the pallet 10 (that is, the electronic component 8) prepared by the operator is the correct pallet 10 (that is, the correct electronic component 8). It is determined whether or not. A determination result by the management device 70 is transmitted to the control device 21.

  As shown in FIG. 15, if the pallet 10 prepared by the operator is correct, the control device 21 controls the extrusion device 324 to move the movable member 326 to the second position outside the housing portion 36. Thereby, the pallet 10 is allowed to be set in the accommodating portion 36. In this case, the operator can correctly set the pallet 10 in the accommodating portion 36. On the other hand, as shown in FIG. 16, if the pallet 10 prepared by the operator is not correct, the control device 21 controls the push-out device 324 to keep the movable member 326 in the first position as it is. As a result, the pallet 10 is prohibited from being set in the accommodating portion 36. In this case, the movable member 326 becomes an obstacle, and the operator cannot set the pallet 10 correctly in the accommodating portion 36. As a result, it is possible to prevent the wrong pallet 10 from being set in the accommodating portion 36, and the operator can recognize that the prepared pallet 10 is incorrect.

  As described above, when the identification information read by the reading device 60 matches the identification information stored in the management device 70 as the replacement pallet 10, the storage device 322 according to the present embodiment moves to the storage unit 36. The pallet 10 is allowed to be set. Thereby, it is possible to avoid a human error such as an operator setting the pallet 10 in the wrong storage unit 36.

  Specific examples of the present invention have been described in detail above, but these are merely examples and do not limit the scope of the claims. The technology described in the claims includes various modifications and changes of the specific examples illustrated above.

  The technical elements described in this specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the technology illustrated in the present specification or the drawings achieves a plurality of objects at the same time, and has technical utility by achieving one of the objects.

Claims (12)

A component supply device for supplying electronic components to a chip mounter,
A holder for holding at least one electronic component;
A storage device having a plurality of storage portions each capable of storing the holder;
An identifier that is attached to the holder and in which identification information assigned to the holder is recorded;
A storage device for storing identification information assigned to the holder, and a single storage unit in which the holder is to be set;
A reader for reading the identification information recorded in the identifier of the holder;
With
When the identification information read by the reading device matches the identification information stored in the storage device, an operator holds the one storage unit stored in the storage device. To be able to set the tool,
Parts supply device.   The storage device includes a magazine provided with the plurality of storage portions, a housing for storing the magazine, and a supply for an operator to set a holding tool on the magazine. The replenishing port has a size corresponding to the size of one of the plurality of accommodating portions, and is configured to be able to change a relative position between the magazine and the replenishing port. The component supply apparatus described.   The component supply device according to claim 2, wherein the storage device further includes a magazine moving device that moves the magazine within the housing.   The component supply device according to claim 2, wherein the housing device further includes a supply port moving device that moves the supply port relative to the housing.   The component supply device according to claim 4, wherein the supply port moving device is capable of changing a size of the supply port.   The replenishing port moving device includes a first closing member that closes an opening formed in the housing from one side, and a second closing member that closes the opening from the other side, the first closing member and the second closing member The component supply apparatus according to claim 5, wherein the supply port is formed with a member.   2. The storage device according to claim 1, wherein each of the plurality of storage units is movable between an open position where an operator can set a tray and a closed position where an operator cannot set the tray. Parts supply equipment. A component supply device for supplying electronic components to a chip mounter,
A holder for holding at least one electronic component;
A housing device having a housing portion capable of housing the holder;
An identifier that is attached to the holder and in which identification information assigned to the holder is recorded;
A storage device for storing identification information of the holder to be set in the storage unit;
A reader for reading the identification information recorded in the identifier of the holder;
With
The container supply device allows the holder to be set in the container when the identification information read by the reading device matches the identification information stored in the storage device. The storage device includes a movable member that moves between a first position that prohibits a pallet from being set in the storage part and a second position that allows the pallet to be set in the storage part,
9. The movable member according to claim 8, wherein the movable member moves from the first position to the second position when the identification information read by the reading device matches the identification information stored in the storage device. Parts supply device.   When the movable member is in the first position, at least a part of the movable member is located in the accommodating portion, and when the movable member is in the second position, the movable member is outside the accommodating portion. The component supply device according to claim 9, which is located.   11. The movable member according to claim 10, wherein the movable member is capable of discharging at least a part of the holding portion located in the accommodating portion to the outside of the accommodating portion by moving from the second position to the first position. Parts supply device.   The component supply device according to any one of claims 8 to 11, wherein the reading device reads an identifier of the holder when a part of the holder is located in the housing.

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