JP5292154B2 - Work supply device and machine tool provided with the work supply device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a work supply device capable of easily coping with a change of the work length. <P>SOLUTION: This work supply device has: a work containing section (110) which contains works; a pressing member (130) which presses a work (W) contained in the work containing section to press out the work from the work containing section (110); and a work replenishing section (122) which replenishes the work containing section with the work. The work supply device replenishes the work containing section with the work, and supplies the work inside the work containing section to an operating position by means of the pressing member (130). The work replenishing section has a work positioning member (125) which positions the work at a position, from which the work can be replenished to the work containing section. The work positioning member (125) is disposed so that the position thereof can be adjusted corresponding to the work, and the shift quantity of the pressing member (130) is adjusted based on the distance between the reference position (122a) and the work positioning member (125). <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a workpiece supply device that supplies a workpiece to a work position of a work machine such as a machine tool or an assembly machine, and a machine tool including the workpiece supply device.

  Conventionally, as a workpiece supply device for supplying workpieces to a machine tool such as an automatic lathe, a plurality of the workpieces are stored in an aligned manner in a cylindrical workpiece accommodating portion located inside a main shaft, and the last is provided by a bowl-shaped pressing member. There is known a device that pushes a workpiece positioned at one workpiece in the workpiece accommodating portion and feeds the workpieces one by one from the workpiece accommodating portion toward the chuck of the spindle (for example, see Patent Document 1).

  In the workpiece supply apparatus described in Patent Document 1, a storage portion that stacks and stores a plurality of materials 7 (workpieces) in a feeding rod 5 that corresponds to the pressing member and a cylindrical portion that corresponds to the workpiece storage portion is integrated. The magazine 6 is provided, and the storage portion is used as a workpiece replenishment portion, and the storage portion (work supply portion) is formed in a space formed when the material 8 is gripped by the chuck 4 and the feed rod 5 is retracted. Material 7 is replenished.

Japanese Patent Publication No. 36-13400

  In the workpiece supply device described in Patent Document 1, the width of the storage portion in the direction of the spindle axis is formed to be the same size as the length of one material 7 (work), and the workpiece can be replenished to the cylinder portion. Is positioned. For this reason, when the length of the workpiece changes, it is necessary to remove and replace the storage portion from the cylinder portion, replace the magazine itself, and adjust the amount of movement of the feed rod 5. For this reason, there is a problem that the work load on the worker is large and it is difficult to easily cope with a change in the size of the work.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a work supply device that can easily cope with a change in work length, and a machine tool including the work supply device. .

  In order to solve the above-mentioned problem, a workpiece accommodating portion that accommodates a plurality of workpieces in an aligned manner, and a workpiece that moves so as to press the workpieces accommodated in the workpiece accommodating portion, and a predetermined number of workpieces are accommodated in the workpiece accommodating portion. A pressing member that is pushed out from a part, and a work replenishing part that replenishes the work accommodating part, replenishes the work accommodating part with a work introduced into the work replenishing part, In a workpiece supply device that supplies a predetermined work position by a pressing member, the workpiece replenishment unit includes a workpiece positioning member that positions the workpiece at a position where the workpiece can be replenished to the workpiece storage unit. Depending on the workpiece, the position can be adjusted with respect to the reference position for introducing the workpiece, and the pressing member is connected to the reference position and the workpiece positioning member. It is constituted that the amount of movement is adjusted based on the release.

In this case, the workpiece positioning member is positioned at a position away from the reference position by a length corresponding to the workpiece to be replenished at one time, and the pressing member supplies the workpiece for one time to be supplied to the work position. It can be configured to move the length of one supply so as to be pushed out from the section.
Moreover, you may provide the workpiece | work moving means which moves the said workpiece | work positioned by the said workpiece | work positioning member toward the said workpiece | work accommodating part.

  A machine tool of the present invention is a machine tool comprising the above-described workpiece supply device. In this case, the work position is a work gripping position by a machine tool.

Since the present invention is configured as described above, when the workpiece length changes, the workpiece positioning member is adjusted relative to the workpiece introduction reference position according to the workpiece length. Positioning is performed based on the reference position. Accordingly, the work can be easily replenished to the work accommodating portion based on the reference position corresponding to the work having different lengths.
On the other hand, since the moving amount of the pressing member is adjusted based on the distance between the reference position and the workpiece positioning member, the workpiece can be accommodated according to the length of the workpiece without separately adjusting the moving amount of the push rod. The workpiece accommodated in the section can be easily supplied to the work position.
As a result, the work can be replenished to the work accommodating part while the work accommodating part is mounted on the work machine, and a long continuous operation by the machine tool can be performed without replacing the work accommodating part. It is also possible to handle the supply of a plurality of types of workpieces having different lengths.

It is a top view explaining the structure concerning 1st embodiment of the workpiece supply apparatus of this invention. FIG. 2A is a partially enlarged perspective view for explaining the outline of the workpiece supply unit for supplying the workpiece to the workpiece storage unit, and FIG. 2B is a diagram for explaining the relationship between the workpiece storage unit and the workpiece supply device. It is a figure explaining the effect | action of the workpiece supply apparatus of this embodiment. It is a figure explaining the effect | action of the workpiece supply apparatus of this embodiment. It is a figure explaining the effect | action of the workpiece supply part when the length of a workpiece | work changes. It is a figure explaining the effect | action of the workpiece replenishment part when the number of the workpiece | work replenished to a workpiece | work accommodating part becomes plurality. It is a figure explaining other embodiment of the workpiece | work supply apparatus of this invention.

Hereinafter, an embodiment in which a workpiece supply device of the present invention is applied to an automatic lathe that is a work machine will be described in detail with reference to the drawings.
FIG. 1 is a plan view illustrating a configuration of a workpiece supply apparatus according to a first embodiment of the present invention, and FIG. 2A is a portion illustrating an outline of a workpiece supply unit that supplies workpieces to a workpiece storage unit. FIG. 2B is an enlarged perspective view illustrating the relationship between the work accommodating portion and the work supply device.

[Automatic lathe]
The automatic lathe has a spindle 2 that is rotatably supported on a spindle stock 201 by a bearing 211. In the following description, the front end side (the right side in FIG. 1) of the main shaft 2 is referred to as “front”, and the rear end side (the left side) is referred to as “rear”. A chuck 220 is provided at the front end of the main shaft 2. The chuck 220 is disposed at the front end of the draw bar 210 that moves forward and backward in the through hole of the main shaft 2, and the gripping claws 220 a that grip the workpiece W are opened and closed by the forward and backward movement of the draw bar 210. Although not shown, the automatic lathe has a tool post with a tool T, and grips the workpiece W by the chuck 220 of the spindle 2 as in the prior art, and the tool W mounted on the tool post is gripped with the gripped workpiece W. Machining with tools T such as drills and drills. In this embodiment, an arrangement position of the workpiece W when the workpiece W is gripped by the chuck 220 is defined as a work position A.

[Work supply device]
The workpiece supply device of the present invention includes a workpiece storage portion 110 formed in a cylindrical shape, a push rod 130 as a pressing member inserted into the workpiece storage portion 110 from the rear end of the workpiece storage portion 110, and a workpiece storage A work replenishment unit 122 that replenishes the part 110 with the work W is provided. The workpiece supply apparatus supplies the workpiece W from the workpiece storage unit 110 to the work position A by the push rod 130 while supplying the workpiece W to the workpiece storage unit 110 from the workpiece supply unit 122.

[Work receiving part 110]
The work accommodating portion 110 is inserted into the through hole of the main shaft 2 from the rear end of the main shaft 2 concentrically with the main shaft 2. The rear portion of the work accommodating portion 110 protrudes from the rear end of the main shaft 2 and is supported by the support frame 115 so as to be movable back and forth along the main shaft axis C.
A workpiece insertion port 111 is formed at the rear end of the workpiece accommodating portion 110 by cutting out a part of the peripheral wall. The workpiece storage unit 110 is replenished with the workpiece W through the workpiece insertion port 111, and a plurality of workpieces W are stored in the workpiece storage unit 110. The workpieces W in the workpiece accommodating portion 110 are aligned in a row on the spindle axis C.
Further, a stopper 110 a that restricts the workpiece W from protruding from the front end of the workpiece accommodating portion 110 is provided at the front end of the workpiece accommodating portion 110. The stopper 110a can be formed by, for example, a leaf spring in which a part of the tip of the work accommodating portion 110 is bent inward.

A motor 112 is juxtaposed with the work accommodating portion 110. A helical shaft 113 rotated by driving of the motor 112 is arranged in parallel with the main axis C. This helical shaft 113, a nut 113a which moves forward and backward along the helical axis 113 by rotation of the screw-handed shaft 113 is screwed. The nut 113 a is attached to the distal end of a connecting member 114 that protrudes from the work accommodating portion 110.
The motor 112, the spiral shaft 113, the nut 113a, and the like constitute a work accommodating portion driving means, and the workpiece accommodating portion 110 moves forward and backward in the same direction as the main axis C by driving the motor 112.

[Push bar 130]
The push rod 130 is disposed in parallel with the main axis C. A connecting member 134 protrudes from the push rod 130 via a spring 135.
A motor 132 is juxtaposed with the work accommodating portion 110. A helical shaft 133 rotated by driving of the motor 132 is arranged in parallel with the push rod 130. A nut 133 a that moves forward and backward along the spiral shaft 133 by the rotation of the spiral shaft 133 is screwed to the spiral shaft 133. The nut 133 a is attached to the connecting member 134.
The motor 132, the spiral shaft 133, the nut 133a, and the like constitute a push rod drive means. The push rod 130 is driven in the same direction as the main axis C within the work accommodating portion 110 by using the spring 135 as a shock absorber. Move forward and backward.
The push rod 130 is moved to the work W located at the rearmost part accommodated in the work accommodating part 110 and moved, and the whole work W is pushed toward the front, so that the elasticity of the stopper 110a is increased. The entire workpiece W in the workpiece accommodating portion 110 can be advanced against this, and the workpiece W can be discharged from the front end of the workpiece accommodating portion 110.

In the present embodiment, the amount of movement of the push rod 130 after contacting the workpiece W is the length of one workpiece W obtained by adding a predetermined length α to the length of the workpiece W in the main axis C direction. Is set to L. By the movement of the push bar 130, one work W positioned at the head of the work storage unit 110 is pushed out from the front end of the work storage unit 110.
When supplying the work to the work position A, the work storage unit 110 pushes the work W from the front end of the work storage part 110 as described above so that the pushed work W is positioned at the work position A. Is adjusted to a position that reaches the position immediately after the gripping claw 220a of the chuck 220.
As a result, the workpiece W can be pushed out from the front end of the workpiece accommodating portion 110 by the push rod 130 and supplied to the work position A.
Note that α is set to a value at which at least two workpieces W are not pushed out of the workpiece accommodating portion 110 in consideration of variations in the length of each workpiece W.

[Work supply section]
The workpiece supply unit 122 is disposed adjacent to the workpiece storage unit 110. As shown in FIG. 2B, the workpiece replenishment unit 122 is provided separately from the workpiece storage unit 110 and separated from the workpiece storage unit 110 so as not to prevent the workpiece storage unit 110 from moving forward and backward.
The workpiece supply unit 122 includes a workpiece placement plate 123 on which the workpiece W is placed. A pair of left and right side walls 124 are erected on the workpiece mounting plate 123. The left and right side walls 124 are provided so that their end faces are in the same position in the direction of the main axis C. An introduction path for the workpiece W is formed between the left and right side walls 124, and the workpiece W is introduced into the workpiece supply unit 122 through the introduction path. The left and right side walls 124 regulate the left and right sides of the workpiece W so that the workpiece W passing through the introduction path does not roll.

  In the embodiment, a workpiece W is introduced into the workpiece supply unit 122 by the parts feeder 120. The parts feeder 120 includes a ball 121 that stores a large number of workpieces W, and a conveyance path 121 a for the workpiece W formed on the balls 121. The side walls 124 and 124 are positioned at the end of the conveyance path 121a, and the workpiece W in the ball 121 is sequentially and continuously introduced from the conveyance path 121a into the introduction path.

[Work positioning member]
A plate-like workpiece positioning member 125 is provided from the left end to the right end of the workpiece placing plate 123. As described above, the workpiece W introduced into the workpiece replenishing unit 122 is restricted from moving by being brought into contact with the workpiece positioning member 125 and is positioned in the workpiece replenishing unit 122.
A motor 141 is attached to the fixed portion (for example, the workpiece placement plate 123) side of the workpiece supply unit 122. A spiral shaft 142 disposed in parallel with the main axis C is connected to the motor 141 so as to be rotated by driving the motor 141. A spiral hole of the workpiece positioning member 125 is screwed into the spiral shaft 142.
When the helical shaft 142 is rotated by driving the motor 141, the workpiece positioning member 125 moves forward and backward in the direction of arrow I in parallel with the main axis A on the mounting plate 123. As described above, the motor 141, the spiral shaft 142, and the like constitute position adjustment means for adjusting the position by moving the workpiece positioning member 125 forward and backward on the workpiece placement plate 123.

The position adjusting means positions the workpiece positioning member 125 using the side surface of the side wall 124 as a reference surface 122a. In the present embodiment, the workpiece positioning member 125 is set to be positioned at a position separated from the reference surface 122a by a length L of one workpiece W.
Accordingly, one workpiece W is positioned so as to protrude from the reference surface 122a so that one end thereof is substantially in the same position as the reference surface 122a.

[Pushing member]
The workpiece positioning member 125 is formed with a notch 126 below a contact portion with the workpiece W. A push member 124 b extending from the end surface position of the side wall 124 to the front end of the work placing plate 123 is disposed in the notch 126. The push member 124b is connected to a cylinder 140 attached to a fixed portion (for example, a workpiece placement plate 123) of the workpiece supply unit 122. The push member 124 b moves forward and backward with respect to the work accommodating portion 110 by driving the cylinder 140.
By moving the pushing member 124b toward the workpiece accommodating portion 110, the workpiece W positioned by the workpiece positioning member 125 as described above can be pushed toward the workpiece accommodating portion 110.
In this embodiment, the workpiece moving means for moving the positioned workpiece W toward the workpiece accommodating portion 110 is constituted by a cylinder 140, a pushing member 124b, and the like.

  When receiving the replenishment of the work W from the work replenishing part 122, the work accommodating part 110 is configured such that the rear end edge 111a of the work insertion port 111 is located at the same position as the reference face 122a or behind the reference face 122a. The position is adjusted by the work container drive means. On the other hand, the width of the workpiece insertion port 111 in the direction of the main shaft axis C is set such that the front end edge 111b is positioned more forward than the reference surface 122a by a length L corresponding to one workpiece W. As a result, the workpiece insertion port 111 is positioned on the side of the workpiece W positioned by the workpiece positioning member 125.

As described above, the workpiece W introduced from the parts feeder 120 to the workpiece replenishing portion 122 is positioned in contact with the workpiece positioning member 125 with the reference surface 122a as a reference, and is pushed toward the workpiece accommodating portion 110 by the pressing member 124b. While being guided by the reference surface 122a and the workpiece positioning member 125, the workpiece moves on the workpiece placement plate 123, falls from the workpiece placement plate 123, is introduced into the workpiece insertion port 111, and is replenished to the workpiece accommodating portion 110 one by one. The
Further, when the workpiece W is replenished to the workpiece accommodating portion 110, the push rod 130 has its tip positioned at the same position as the reference surface 122a or behind the reference surface 122a so as not to interfere with the workpiece W to be replenished. The position is adjusted by the push rod driving means.

The workpiece storage unit driving means (motor 112), push rod driving unit (motor 132), and workpiece supply unit 122 (motor 141 and cylinder 140) are controlled by the NC device of the machine tool. This NC device is configured to automatically set a length L corresponding to one workpiece W according to the length of the workpiece W input to the NC device.
In this work supply device, the position adjusting means and the push rod driving means are controlled by a command from the NC device, and the work positioning member 125 is positioned with respect to the reference surface 122a according to the length L of one work W. Based on the distance between the reference surface 122a and the workpiece positioning member 125, the amount of movement of the push rod 130 is automatically adjusted to the length L of one workpiece W. That is, in the present embodiment, the amount of movement of the push rod 130 is adjusted based on the distance between the reference surface 122a and the workpiece positioning member 125 by the push rod driving means in which the amount of movement of the push rod 130 is set by the NC device. A moving amount adjusting means is configured. Accordingly, the workpieces W can be replenished one by one from the workpiece replenishment unit 122 to the workpiece storage unit 110, and the workpieces W in the workpiece storage unit 110 can be supplied to the work position A one by one by the push rod 130.

[Action]
Next, the operation of the workpiece supply device will be described with reference to FIGS. 3 and 4.
As shown in FIG. 3A, the workpiece W held by the chuck 220 at the work position A as described above is processed by an automatic lathe. In this embodiment, after the workpiece W is supplied to the work position A, the workpiece accommodating portion 110 is slightly so that a gap is formed between the workpiece W gripped by the chuck 220 and the front end of the workpiece accommodating portion 110. Retreat to. In addition, the workpiece accommodating portion 110 is supported as described above and does not rotate freely around the axis.
For this reason, the automatic lathe according to the present embodiment can stably process the workpiece W in a non-contact state with the workpiece W stationary in the workpiece accommodating portion 110 by rotating the workpiece W integrally with the spindle 2. Moreover, the workpiece | work accommodating part 110 can accommodate the workpiece | work W stably in a stationary state.

[Action]
Next, the operation of the workpiece supply device will be described with reference to FIGS. 3 and 4.
As shown in FIG. 3 (a), the workpiece W held by the chuck 220 in the working position A as described above is processed by an automatic lathe. In this embodiment, after the workpiece W is supplied to the work position A, the workpiece accommodating portion 110 is slightly so that a gap is formed between the workpiece W gripped by the chuck 220 and the front end of the workpiece accommodating portion 110. Retreat to. In addition, the workpiece accommodating portion 110 is supported as described above and does not rotate freely around the axis.
For this reason, the automatic lathe according to the present embodiment can stably process the workpiece W in a non-contact state with the workpiece W stationary in the workpiece accommodating portion 110 by rotating the workpiece W integrally with the spindle 2. Moreover, the workpiece | work accommodating part 110 can accommodate the workpiece | work W stably in a stationary state.

When the processing of the workpiece W is completed, as shown in FIG. 3B, the tool T is retracted from the workpiece W, and the workpiece accommodating portion 110 that has been retracted as described above is the position where the workpiece W is supplied as described above. In the state where the gripping of the processed workpiece W by the chuck 220 is released, the push rod 130 is moved forward to supply the workpiece W to the work position A as shown in FIG. As shown in FIG. 4 (a), when the workpiece W is supplied, the processed workpiece W at the work position A is pushed out by the supplied workpiece W, falls off the main spindle 2, and is recovered by a workpiece recovery device (not shown) or the like. Then, the workpiece W supplied to the work position A is gripped by the chuck 220. Thereafter, the workpiece W can be machined by an automatic lathe in a state in which the workpiece accommodating portion 110 is retracted as described above.

In the present embodiment, after the workpiece W is supplied to the work position A as described above, the workpiece W is replenished at the position where the workpiece accommodating portion 110 is retracted as described above. For this reason, the workpiece insertion port 111 is in the positional relationship with respect to the reference surface 122a at the retracted position of the workpiece accommodating portion 110.
When the workpiece W is supplied to the work position A by the push rod 130 as described above, the entire workpiece W in the workpiece accommodating portion 110 moves forward by one workpiece W, and as shown in FIG. A space 111c corresponding to one workpiece W is formed in the workpiece accommodating portion 110 at a position relative to the workpiece insertion port 111.

As a result, as shown in FIG. 4B, with the push rod 130 retracted, the workpiece W is loaded into the space 111c through the workpiece loading port 111 as described above, and the workpiece W is loaded into the workpiece accommodating portion 110. To be replenished. After replenishment of the workpiece W, the push rod 130 may be advanced to apply a pressing force to the workpiece W in the workpiece accommodating portion 110.
Thereafter, the operation of the workpiece W can be performed while the workpiece W is continuously supplied to the work position A by repeating the operations of FIGS. 3A to 4B.

  Note that the workpiece W is loaded into the workpiece loading port 111 by the workpiece replenishing unit 122 and the loaded workpiece W is advanced by the push rod 130 in the workpiece accommodating unit 110 with respect to the empty workpiece accommodating unit 110. Thus, the work W can be replenished to the empty work accommodating portion 110. At this time, the workpiece W loaded into the workpiece accommodating portion 110 is advanced by the push rod 130 one by one, or is advanced until it comes into contact with the front end (stopper 110a) of the workpiece accommodating portion 110 or the accommodated workpiece W. You can make it.

On the other hand, when the length of the workpiece W to be machined is changed and the operator inputs the length of the workpiece W to the NC device, one workpiece W is automatically selected according to the length of the workpiece W input in the NC device. Is set to a length L. For example, as shown in FIG. 5, it is assumed that the length of one workpiece W is switched from L1 to L2 (L1 <L2).
In this case, the position of the workpiece positioning member 125 is adjusted so that the distance between the reference surface 122a and the workpiece positioning member 125 is the length L2, and the amount of movement of the push rod 130 is equal to the amount of movement of the push rod 130. The distance is changed from L1 to L2 based on the distance from the member 125. The workpiece positioning member 125 may be positioned at a position corresponding to the length L2 of the workpiece W by bringing the workpiece positioning member 125 into contact with a stopper such as a bolt.

In this case, since the positional relationship between the position of the rear end edge 111a of the workpiece insertion port 111 and the reference surface 122a is maintained, the workpiece W having a length of L2 can be replenished, and the lengths are different. New workpieces W can be continuously supplied to the automatic lathe.
In particular, the width of the workpiece insertion port 111 is matched to the workpiece W by making the width of the workpiece insertion port 111 (the position of the front edge 111b) correspond to the length of the maximum workpiece W supplied to the automatic lathe in advance. Thus, the work W can be replenished more easily without being changed.

  Further, since the workpiece supply unit 122 (work placement plate 123) is provided separately from the workpiece storage unit 110 and separated from the workpiece storage unit 110, the forward and backward movement of the workpiece storage unit 110 is performed with respect to the workpiece supply unit 122. Done alone. For this reason, a workpiece | work accommodating part drive mechanism can be comprised simply as mentioned above, and the movement of the workpiece | work accommodating part 110 can be performed stably.

In addition, since the workpiece replenishment unit 122 does not need to move forward and backward as a whole, the workpiece placement plate 123 can be fixedly provided on the workpiece supply device installation side, and the workpiece W can be stably supplied from the parts feeder 120. Thus, the workpiece storage unit 110 can be stably replenished.
In particular, since the workpiece accommodating portion 110 and the workpiece replenishing portion 122 are separated from each other, even if vibration or the like associated with machining of the workpiece W by the automatic lathe is transmitted to the workpiece accommodating portion 110 side, the vibration or the like is The workpiece W is not directly transmitted to the replenishing unit 122, the introduction and replenishment of the workpiece W can be performed stably, and noise and the like can be prevented.

On the other hand, when the workpiece W is continuously supplied to the work position A a predetermined number of times without supplying the workpiece W to the workpiece accommodating portion 110, a plurality of the spaces 111c are formed.
On the other hand, this workpiece supply apparatus can also set the distance between the workpiece positioning member 125 and the reference surface 122a to a plurality of workpieces W.
For example, as shown in FIG. 6, when the distance between the workpiece positioning member 125 and the reference surface 122 a is two workpieces W, the two workpieces W protrude from the reference surface 122 a and are positioned by the workpiece positioning member 125. .

  As a result, the two workpieces W positioned can be replenished simultaneously to the work accommodating portion 110 by one replenishment by the push member 124b. In this case, the workpiece insertion port 111 needs to be sized according to the number of workpieces W to be replenished. Note that the length of a plurality of workpieces W (two in the above embodiment) is a multiple of the length of the workpiece W in the direction of the spindle axis C, taking into account variations in the length of each workpiece W, etc. A length that is a predetermined value α ′ is added so that no more than a predetermined number of workpieces W protrude from the workpiece accommodating portion 110.

  As described above, in the present invention, a plurality of workpieces W can be simultaneously supplied from the workpiece supply unit 122 to the workpiece storage unit 110 by a single supply. It should be noted that the amount of movement of the push rod 130 can be set to one length L of the work W or a multiple of L, depending on the work of supplying the work W to the work position A.

Although preferred embodiments of the present invention have been described, the present invention is not limited to the above-described embodiments.
For example, in the above description, it is assumed that one work W is pushed out from the work accommodating part 110 to the working position by moving the push rod 130 by a length L corresponding to one work W. However, the work accommodating part 110 Regardless of the number of workpieces W supplied once, the plurality of workpieces W can be simultaneously pushed out from the workpiece accommodating portion 110 to the work position by advancing the push rod 130 by the length of a plurality of workpieces.

  Further, the push rod driving means is composed of a cylinder or the like, and a push rod stopper that moves integrally or in conjunction with the workpiece positioning member 125 is provided as the movement amount adjusting means, and the push rod 130 side comes into contact with the push rod stopper. The moving amount of the push rod 130 may be adjusted based on the distance between the reference surface 122a and the workpiece positioning member 125. As the push rod stopper, the workpiece positioning member 125 itself, a stopper member mounted on the workpiece positioning member 125 side, the abutting member 3 or the like can be used. When the contact member 3 is used as a push rod stopper, the amount of movement is adjusted by bringing the push rod 130 into contact with the push rod stopper via a workpiece.

  In addition, the workpiece W is pushed out from the workpiece replenishment unit 122 to the workpiece storage unit 110 by the movement of the pushing member 124b by the cylinder 140. However, as shown in FIG. The replenishment part 122 can be comprised so that the workpiece | work W may be thrown into the workpiece | work insertion part 111, rolling on an inclined surface. In this case, the workpiece W on the workpiece replenishment unit 122 may be in a standby state for replenishment on the workpiece replenishment unit 122 by contacting the workpiece W accommodated in the push rod 130 or the workpiece storage unit 110.

  The workpiece supply device of the present invention can be applied to any case where workpieces of the same shape are continuously supplied to a work position such as a machining position or an assembly position, and the workpiece supply device can continuously supply a machine tool such as a lathe or a press machine. It can be applied not only to continuous supply of workpieces in assembly work of equipment.

W: Work 1: Work supply device 110: Work storage unit 110a: Stopper 112: Motor 113: Spiral shaft 113a: Nut 114: Connecting member 115: Support frame 120: Parts feeder 121: Ball 121a: Transport path 122: Work supply unit 130: push rod 2: spindle 201: spindle stock 210: draw bar 211: bearing 220: collet chuck 3: workpiece contact member

Claims (5)

A workpiece accommodating portion for arranging and accommodating a plurality of workpieces, a pressing member that moves to press the workpieces accommodated in the workpiece accommodating portion, and pushes a predetermined number of workpieces from the workpiece accommodating portion; A workpiece replenishing portion for replenishing the workpiece to the workpiece housing portion, replenishing the workpiece housing portion with the workpiece introduced into the workpiece replenishing portion, and placing the workpiece in the workpiece housing portion into a predetermined working position by the pressing member. In the workpiece supply device to supply,
The workpiece replenishment section has a workpiece positioning member that positions the workpiece at a position where the workpiece storage section can be replenished;
This workpiece positioning member is provided so as to be position-adjustable with respect to the reference position for workpiece introduction according to the workpiece,
The pressing member has a configuration in which a movement amount is adjusted based on a distance between the reference position and the workpiece positioning member.
A workpiece supply device. The workpiece positioning member is positioned at a position away from the reference position by the length of the workpiece to be replenished at one time, and the pressing member pushes one workpiece out of the workpiece accommodating portion. Moving the length of,
The workpiece supply apparatus according to claim 1, wherein:   The workpiece supply device according to claim 1, further comprising a workpiece moving unit configured to move the workpiece positioned by the workpiece positioning member toward the workpiece storage unit.   A machine tool comprising the workpiece supply device according to claim 1.   The machine tool according to claim 4, wherein the work position is a work gripping position by a machine tool.

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