JP5531466B2 - Transfer equipment - Google Patents

Description

  The present invention relates to a transfer apparatus used for transferring articles in an automatic warehouse or the like.

  2. Description of the Related Art An automatic warehouse including a stacker crane, which is a transport device provided with a transfer device for transferring an article, and a rack having a shelf holder on which the article is placed has been widely put into practical use. In such an automatic warehouse, an article placed on the shelf holder is scooped out with a slide fork provided in the transfer device, whereby the article is transferred to and from the shelf holder.

  Here, when scooping out the article with the slide fork, the slide fork is raised to a certain height until the article is separated from the shelf holder. For this reason, there are cases where the slide fork is raised to an unnecessary height, and a loss of transfer time due to the rise of the slide fork has occurred.

  Therefore, conventionally, a transfer device has been proposed that causes the slide fork to be retracted from the shelf support when contact between the slide fork and the article is detected (see, for example, Patent Document 1). According to this conventional transfer device, the transfer time can be shortened without raising the slide fork to an unnecessary height.

JP 2002-326706 A

  However, the conventional transfer apparatus has a problem that the transfer time may not be shortened.

  In the conventional transfer device, when the contact between the slide fork and the article is detected, the slide fork is retracted from the shelf support. However, even if the contact between the slide fork and the article is detected, the article may not be completely separated from the shelf holder. For example, the slide fork is bent due to the weight of the article, and the article is separated from the shelf holder at the detected position, but the article is not separated from the shelf holder at other positions.

  In this case, in order not to damage the article, it is necessary to raise the slide fork again, resulting in a loss of transfer time. Thus, the conventional transfer device has a problem that the transfer time may not be shortened.

  Therefore, the present invention has been made in view of such a problem, and an object thereof is to provide a transfer apparatus capable of shortening the transfer time.

  In order to achieve the above object, the transfer device according to the present invention enters the article below the article and to the side of the placement part with respect to the placement part on which the article is placed on the upper surface. It is a transfer device comprising a slide unit that receives the article from the placement unit by supporting from below, and exits from the side of the placement unit, by detecting the presence or absence of the placement unit, A detection unit that detects whether or not the upper surface of the slide unit is above the upper surface of the mounting unit; and the upper surface of the slide unit is disposed below the upper surface of the mounting unit. The slide part is raised in a state where the slide part has entered the side, and the detection part detects that the placement part is not present, so that the upper surface part of the slide part is When it is detected that it is above the upper surface part, the slide part from the side And a control unit for starting the exit.

  According to this, when it detects that the upper surface part of a slide part exists above the upper surface part of a mounting part, withdrawal of the slide part from the mounting part side is started. That is, when the slide unit receives an article from the placement unit, the slide unit is retracted when the article is completely separated from the placement unit, so that the slide fork is not raised again. Also, the slide fork is not raised to an unnecessary height. Therefore, transfer time can be shortened.

  Moreover, according to the said structure, when it detects that there is no mounting part, withdrawal of a slide part is started. For this reason, when the slide unit receives an article from the placement unit, it is easily detected that the article is completely separated from the placement unit by detecting the placement unit on which the article is placed. Can do. Therefore, the transfer time can be shortened while easily detecting the separation of the article from the placement unit.

  Preferably, the detection unit is attached to a side surface of the slide unit, and detects the presence or absence of the placement unit disposed on the side of the slide unit, so that the upper surface of the slide unit is in front. It is detected whether it exists above the upper surface part of a description part.

  According to this, a detection part is attached to the side part of a slide part. For this reason, it is easy to grasp the positional relationship between the article placed on the slide part and the placement part by attaching the detection part to the slide part, and by attaching the detection part to the side part of the slide part, It is easy to detect that the article is completely separated from the placement unit. Therefore, the transfer time can be shortened while easily detecting the separation of the article from the placement unit.

  Preferably, the detection unit is attached to a distal end portion of the slide portion, and detects whether or not the upper surface portion of the distal end portion of the slide portion is above the upper surface portion of the placement portion.

  According to this, a detection part is attached to the front-end | tip part of a slide part. Here, the slide portion on which the article is placed bends due to the weight of the article, so that the distal end portion of the slide portion falls below the base end portion. For this reason, by attaching a detection part to the tip of the slide part, even when the slide part bends due to the weight of the article and the tip part is lowered, it is easy for the article to be completely separated from the placement part. Can be detected. Therefore, the transfer time can be shortened while easily detecting the separation of the article from the placement unit.

  According to the transfer device of the present invention, transfer time can be shortened when transferring an article to or from a shelf receiver on which the article is placed.

It is a perspective view which shows an example of the automatic warehouse in embodiment of this invention. It is a figure which shows typically an example of a structure of a rack and a stacker crane. It is a figure which shows the structure of a slide fork in detail. It is a figure which shows the structure of a slide fork in detail. It is a block diagram explaining the function of the control part of a transfer apparatus. It is a flowchart which shows an example of operation | movement of the control part of a transfer apparatus. It is a figure explaining that a control part makes a top part approach. It is a figure explaining a control part making a top part approach the side of a mounting part. It is a figure explaining a control part making a top part approach the side of a mounting part. It is a figure explaining that a control part raises a top part and a 1st detection part detects the presence or absence of a mounting part. It is a figure explaining that a control part raises a top part and a 1st detection part detects the presence or absence of a mounting part. It is a figure explaining that a control part raises a top part and a 1st detection part detects the presence or absence of a mounting part. It is a figure explaining the operation | movement which the control part of a transfer apparatus performs when a top part delivers articles | goods to a mounting part. It is a figure explaining the operation | movement which the control part of a transfer apparatus performs when a top part delivers articles | goods to a mounting part. It is a figure explaining the operation | movement which the control part of a transfer apparatus performs when a top part delivers articles | goods to a mounting part.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a perspective view showing an example of an automatic warehouse 1 according to an embodiment of the present invention.

  The automatic warehouse 1 is a device that delivers articles between a stacker crane and a rack. The automatic warehouse 1 includes a rack 10 and a stacker crane 20.

  The rack 10 is a storage for storing a plurality of articles 30, and the plurality of articles 30 are placed on the rack 10.

  The stacker crane 20 travels on a track provided on the floor along the rack 10 and conveys the article 30. Then, the article 30 is delivered to and from the rack 10.

  FIG. 2 is a diagram schematically illustrating an example of the configuration of the rack 10 and the stacker crane 20.

  As shown in the figure, the rack 10 includes a rack column 110 that is a column of the rack 10 and a placement unit 120.

  The placement unit 120 is a shelf holder in which one end is fixed to the rack column 110 between the two rack columns 110. Further, the article 30 is placed on the pair of placement units 120 in a state where the article 30 is placed on the pallet.

  In addition, the stacker crane 20 includes a transfer device 200. The transfer device 200 is a device that transfers articles to and from the placement unit 120 of the rack 10. The transfer device 200 includes a lifting platform 210 and a slide fork 220.

  The slide fork 220 is disposed on the bottom surface of the lifting platform 210 and transfers the article 30 placed on the pallet to and from the placement unit 120 of the rack 10. Specifically, the slide fork 220 is inserted below the article 30, places the article 30, and transfers it to and from the placement unit 120. Details of the slide fork 220 will be described later.

  The lifting platform 210 is a lifting platform that raises or lowers the slide fork 220.

  With such a configuration, the stacker crane 20 travels along the rack 10, and the article 30 is delivered between the slide fork 220 and the placement unit 120 as the lifting platform 210 moves up and down.

  Next, a detailed configuration of the slide fork 220 will be described.

  3A and 3B are diagrams showing the configuration of the slide fork 220 in detail. Specifically, FIG. 3A is a plan view of the slide fork 220 shown in FIG. 2 viewed from above, and FIG. 3B is a side view of the slide fork 220 shown in FIG. 2 viewed from the left side. .

  As shown in these drawings, the slide fork 220 is a three-stage slide fork, and includes a top part 221, a middle part 222, a base part 223, a first detection part 224, and a second detection part 225.

  The base portion 223 is a flat plate-like portion extending in the X-axis direction shown in FIG. 3A and is fixed to the lifting platform 210. Note that the shape of the base portion 223 is not limited to a flat plate shape, and may be any shape as long as the base portion 223 is fixed to the lifting platform 210.

  The middle part 222 is a flat part extending in the X-axis direction, and moves forward and backward in the X-axis direction with respect to the base part 223. The shape of the middle portion 222 is not limited to a flat plate shape, and may be any shape as long as the middle portion 222 moves back and forth with respect to the base portion 223.

  The top portion 221 is a flat portion extending in the X-axis direction, and advances and retreats in the X-axis direction with respect to the middle portion 222. Note that the shape of the top portion 221 is not limited to a flat plate shape, and may be any shape as long as the top portion 221 advances and retreats with respect to the middle portion 222.

  That is, the top part 221 advances and retreats with respect to the placement part 120 on which the article is placed, and receives the article from the placement part 120. Specifically, the top portion 221 enters the side of the placement unit 120, receives the article 30 from the placement unit 120 by supporting the article 30 from below, and exits from the side of the placement unit 120. . Details of the movement of the top portion 221 will be described later. Here, the top portion 221 corresponds to a “slide portion” described in the claims.

  The first detection unit 224 is a detection sensor that detects whether or not the upper surface portion of the top portion 221 is above the upper surface portion of the placement unit 120. The first detection unit 224 is attached to the upper part of the side part of the tip part of the top part 221. That is, the first detection unit 224 detects whether or not the upper surface portion of the tip portion of the top portion 221 is above the upper surface portion of the placement unit 120.

  Specifically, the first detection unit 224 detects the presence / absence of the mounting unit 120 disposed on the side of the top unit 221, so that the upper surface of the top unit 221 is more than the upper surface of the mounting unit 120. It is also detected whether or not it is above. Here, the first detection unit 224 is, for example, a photoelectric sensor. Details of detection performed by the first detection unit 224 will be described later. The first detection unit 224 corresponds to a “detection unit” recited in the claims.

  The second detection unit 225 is a detection sensor that detects whether or not the upper surface portion of the top portion 221 is below the upper surface portion of the placement unit 120. The second detection part 225 is attached to the upper part of the side part of the base end part of the top part 221. That is, the second detection unit 225 detects whether the upper surface portion of the base end portion of the top portion 221 is below the upper surface portion of the placement unit 120.

  Specifically, the second detection unit 225 detects the presence / absence of the mounting unit 120 disposed on the side of the top unit 221, so that the upper surface of the top unit 221 is more than the upper surface of the mounting unit 120. Is also detected below. Here, the second detection unit 225 is, for example, a photoelectric sensor. Details of the detection performed by the second detection unit 225 will be described later.

  Moreover, the transfer apparatus 200 is further provided with the control part 230 which performs control at the time of transfer.

  FIG. 4 is a block diagram illustrating functions of the control unit 230 of the transfer apparatus 200.

  The control unit 230 shown in the figure moves the top unit 221 forward and backward according to the detection results of the first detection unit 224 and the second detection unit 225, and raises and lowers the top unit 221 by moving the lifting platform 210 up and down. Under the control of the control unit 230, the article 30 is transferred between the top portion 221 of the slide fork 220 and the placement unit 120.

  Specifically, when the top part 221 receives the article 30 from the placement unit 120, the control unit 230 raises the top part 221, places the article 30 on the top part 221, and places the article 30 from the placement part 120. If separated, the top part 221 is withdrawn.

  That is, the control unit 230 moves the top part 221 in a state where the top part 221 enters the side of the placement part 120 so that the top face part of the top part 221 is disposed below the top face part of the placement part 120. When the first detection unit 224 detects that the upper surface portion of the top portion 221 is above the upper surface portion of the placement portion 120, the first detection portion 224 starts to exit the top portion 221 from the side of the placement portion 120. To do. Specifically, when the first detection unit 224 detects that the placement unit 120 is not present, the control unit 230 starts to leave the top unit 221.

  Further, when the top unit 221 delivers the article 30 to the placement unit 120, the control unit 230 lowers the top unit 221, places the article 30 on the placement unit 120, and separates the article 30 from the top unit 221. If so, the top portion 221 is withdrawn.

  In other words, the control unit 230 moves the top part 221 in a state where the top part 221 enters the side of the placement part 120 so that the top face part of the top part 221 is disposed above the top face part of the placement part 120. When the second detection unit 225 detects that the upper surface portion of the top portion 221 is below the upper surface portion of the placement portion 120, the second detection portion 225 starts to exit the top portion 221 from the side of the placement portion 120. To do. Specifically, when the second detection unit 225 detects that the placement unit 120 is present, the control unit 230 starts to leave the top unit 221.

  Next, the operation performed by the control unit 230 of the transfer apparatus 200 will be described in detail with reference to FIGS.

  FIG. 5 is a flowchart illustrating an example of the operation of the control unit 230 of the transfer apparatus 200. Specifically, this figure is a flowchart showing an example of the operation of the control unit 230 when the top unit 221 receives the article 30 from the placement unit 120.

  As shown in the figure, first, the control unit 230 raises and lowers the lifting platform 210 (S102). Specifically, the control unit 230 raises and lowers the lifting platform 210 so that the upper surface portion of the top portion 221 is lower than the upper surface portion of the placement unit 120.

  And the control part 230 makes the top part 221 approach into the side of the mounting part 120 (S104).

  6A to 6C are diagrams for explaining that the control unit 230 causes the top portion 221 to enter the side of the placement unit 120.

  First, as shown in FIG. 6A, the slide fork 220 is disposed in front of the placement unit 120 on which the article 30 is placed, and the control unit 230 is configured such that the top surface of the top portion 221 is the top of the placement unit 120. The elevator 210 is moved up and down so as to be lower than the upper surface.

  And the control part 230 advances the top part 221 toward the mounting part 120 in the X-axis direction shown in the figure.

  Then, as shown in FIG. 6B, the control unit 230 further advances the top portion 221 toward the placement portion 120 toward the placement portion 120 in the X-axis direction shown in FIG. To approach.

  Thereby, as shown in FIG. 6C, the top portion 221 is disposed on the side of the placement portion 120 (between the pair of placement portions 120). For this reason, the 1st detection part 224 detects that the mounting part 120 exists.

  Returning to FIG. 5, next, the control unit 230 raises the top unit 221 (S106).

  And the 1st detection part 224 detects the presence or absence of the mounting part 120 (S108). While the first detection unit 224 detects that the placement unit 120 is present, the control unit 230 continuously raises the top unit 221 (S106).

  7A to 7C are diagrams for explaining that the control unit 230 raises the top portion 221 and the first detection unit 224 detects the presence / absence of the placement unit 120.

  Specifically, these drawings are views of the mounting portion 120 and the top portion 221 shown in FIG. 6C as viewed from the left side. Moreover, (a) of these figures is a figure in the position of the front-end | tip part of the top part 221 (position in the 1st detection part 224), (b) is the position (base-end part of the top part 221 ( It is a figure in the position in the 2nd detection part 225.

  First, as shown in FIG. 7A, the top portion 221 is located on the side of the placement portion 120 (a pair of placement portions 120 so that the upper surface portion of the top portion 221 is lower than the upper surface portion of the placement portion 120. The first detection unit 224 detects that the placement unit 120 is present. For this reason, the control unit 230 raises the top portion 221.

  Then, as illustrated in FIG. 7B, the article 30 is placed on the top portion 221. Here, the slide fork 220 bends due to the weight of the article 30.

  That is, as shown in FIG. 5B, at the base end portion of the top portion 221, the top portion 221 is raised so that the article 30 is placed on the top portion 221, and the article 30 is placed on the placement portion 120. Separate from. However, due to the bending of the slide fork 220, the article 30 is not separated from the placement portion 120 at the tip portion of the top portion 221 as shown in FIG. That is, the first detection unit 224 detects the placement unit 120.

  Therefore, the first detection unit 224 detects that the placement unit 120 is present, and the control unit 230 further raises the top unit 221.

  Then, as shown in FIG. 7C, the top portion 221 rises to a height at which the upper surface portion of the tip portion of the top portion 221 is higher than the upper surface portion of the placement portion 120. That is, the first detection unit 224 cannot detect the placement unit 120. For this reason, the first detection unit 224 detects that the placement unit 120 is not present.

  That is, the article 30 is separated from the placement unit 120 at the tip portion of the top portion 221. Further, as shown in (b) of the figure, since the article 30 is separated from the placement section 120 even at the base end portion of the top portion 221, the article 30 is completely separated from the placement section 120. Yes.

  Returning to FIG. 5, when the first detection unit 224 detects that the placement unit 120 is not present, the control unit 230 stops the rise of the top portion 221, and moves the top portion 221 from the side of the placement portion 120. Exit (S108).

  The control unit 230 may not stop the rise of the top portion 221 when the first detection unit 224 detects that the placement unit 120 is not present. For example, when the first detection unit 224 detects that the placement unit 120 is not present, the control unit 230 may start the retreat of the top portion 221 while continuing the rise of the top portion 221.

  Accordingly, for example, the article can be received from the placement unit 120 more safely.

  Thus, the operation performed by the control unit 230 of the transfer device 200 when the top unit 221 receives the article 30 from the placement unit 120 ends.

  Next, an operation performed by the control unit 230 of the transfer device 200 when the top unit 221 delivers the article 30 to the placement unit 120 will be described.

  8A to 8C are diagrams illustrating an operation performed by the control unit 230 of the transfer device 200 when the top unit 221 delivers the article 30 to the mounting unit 120.

  Specifically, these drawings are diagrams for explaining operations performed by the control unit 230 when the top unit 221 delivers the article 30 to the placement unit 120 from the state illustrated in FIG. 7C. Moreover, (a) of these figures is a figure in the position of the front-end | tip part of the top part 221 (position in the 1st detection part 224), (b) is the position (base-end part of the top part 221 ( It is a figure in the position in the 2nd detection part 225.

  First, in the state shown in FIG. 7C, the top portion 221 is located on the side of the mounting portion 120 (a pair of mounting positions) such that the upper surface portion of the top portion 221 is higher than the upper surface portion of the mounting portion 120. The second detection unit 225 detects that the placement unit 120 is not present. For this reason, the control unit 230 lowers the top portion 221.

  And as shown to (a) of FIG. 8A, the articles | goods 30 are mounted in the mounting part 120 in the base end part of the top part 221. FIG. However, the slide fork 220 is bent due to the weight of the article 30.

  For this reason, as shown in (b) of the figure, the article 30 is not placed on the placement portion 120 at the base end portion of the top portion 221. That is, the second detection unit 225 does not detect the placement unit 120.

  Therefore, the second detection unit 225 detects that the placement unit 120 is not present, and the control unit 230 further lowers the top unit 221.

  Then, as illustrated in FIG. 8B, the article 30 is placed on the placement unit 120 at the distal end portion and the proximal end portion of the top portion 221. That is, as shown in (b) of the figure, the second detection unit 225 detects the placement unit 120. For this reason, the 2nd detection part 225 detects that the mounting part 120 exists.

  Then, as shown in FIG. 8C, the control unit 230 further lowers the top portion 221 by a predetermined amount that is a margin, completely separates the top portion 221 and the article 30, and then lowers the top portion 221. The top part 221 is withdrawn from the side of the placement part 120.

  Thus, the operation performed by the control unit 230 of the transfer device 200 when the top unit 221 delivers the article 30 to the placement unit 120 ends.

  According to the transfer device 200 according to the present invention described above, when the first detection unit 224 detects that the upper surface portion of the top portion 221 is above the upper surface portion of the placement unit 120, the control unit 230 The exit of the top part 221 from the side of the mounting part 120 is started. That is, when the top part 221 receives the article 30 from the placement part 120, when the article 30 is completely separated from the placement part 120, the top part 221 retreats, so that the slide fork 220 is raised again. There is nothing. Further, the slide fork 220 is not raised to an unnecessary height.

  In addition, when the first detection unit 224 detects that the placement unit 120 is not present, the control unit 230 starts to leave the top unit 221. For this reason, when the top part 221 receives the article 30 from the placement part 120, the first detection part 224 detects the placement part 120 on which the article 30 is placed, so that the article 30 can be easily set. It is possible to detect a complete separation from the placement unit 120.

  In addition, the first detection unit 224 is attached to the side surface portion of the top portion 221. For this reason, by attaching the first detection unit 224 to the top part 221, it is easy to grasp the positional relationship between the article 30 placed on the top part 221 and the placement part 120, and on the side part of the top part 221. By attaching the first detection unit 224, it is easy to detect that the article 30 is completely separated from the placement unit 120.

  Further, the first detection unit 224 is attached to the tip of the top part 221. Here, since the top part 221 on which the article 30 is placed is bent due to the weight of the article 30, the tip part of the top part 221 falls below the base end part. For this reason, by attaching the first detection unit 224 to the tip portion of the top portion 221, even when the top portion 221 is bent due to the weight of the article 30 and the tip portion is lowered, the article 30 is completely removed from the placement unit 120. It is possible to easily detect the separation.

  Further, when the second detection unit 225 detects that the upper surface portion of the top portion 221 is below the upper surface portion of the placement portion 120, the control portion 230 causes the top portion from the placement portion 120 side. 221 starts to leave. That is, when the top part 221 delivers the article 30 to the placement part 120, when the article 30 is completely separated from the top part 221, the top part 221 retreats, so that the slide fork 220 is lowered again. There is no. Further, the slide fork 220 is not lowered to an unnecessary height.

  Further, when the second detection unit 225 detects that the placement unit 120 is present, the control unit 230 starts to leave the top unit 221. For this reason, when the top part 221 delivers the article 30 to the placement part 120, the second detection part 225 detects the placement part 120, so that the article 30 is easily separated from the top part 221 easily. Can be detected.

  Further, the second detection unit 225 is attached to the side surface portion of the top portion 221. For this reason, attaching the second detection unit 225 to the top part 221 makes it easy to grasp the positional relationship between the article 30 placed on the top part 221 and the placement part 120, and the side part of the top part 221. It is easy to detect that the article 30 is completely separated from the top portion 221 by attaching the second detection portion 225 to the top.

  Further, the second detection unit 225 is attached to the base end portion of the top portion 221. Here, since the top part 221 on which the article 30 is placed is bent due to the weight of the article 30, the tip part of the top part 221 falls below the base end part. For this reason, by attaching the second detection unit 225 to the base end portion of the top portion 221, even when the top portion 221 is bent due to the weight of the article 30 and the tip portion is lowered, the article 30 is completely removed from the top portion 221. It is possible to easily detect the separation.

  It is assumed that the slide fork 220 can be transferred to the shelves arranged on both sides of the slide fork 220. For example, in FIG. 6A, it is assumed that the placement unit 120 is also present on the right side of the slide fork 220, and the slide fork 220 can deliver the article 30 to the placement unit 120.

  In this case, with respect to the placement unit 120 on the right side of the slide fork 220, the second detection unit 225 is the distal end side, and the first detection unit 224 is the proximal end side. Therefore, in this case, the functions of the first detection unit 224 and the second detection unit 225 are interchanged. That is, the first detection unit 224 functions as a detection unit on the proximal end side, and the second detection unit 225 functions as a detection unit on the distal end side.

  As described above, according to the present invention, it is possible to configure the transfer device 200 capable of reducing the transfer time while easily detecting the separation of the article 30 from the placement unit 120 or the top portion 221. it can.

  The transfer apparatus 200 according to the present invention has been described based on the embodiment, but the present invention is not limited to this embodiment.

  That is, the embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  For example, in the present embodiment, the slide fork 220 is a three-stage slide fork. However, the slide fork 220 may be a two-stage or four-stage or more slide fork.

  In the present embodiment, the first detection unit 224 is provided at the upper part of the side part of the tip part of the top part 221, and the second detection part 225 is provided at the upper part of the side part of the base part of the top part 221. It was decided that it was provided. However, as long as the first detection unit 224 and the second detection unit 225 can detect the presence / absence of the placement unit 120, the positions provided are not limited.

  Further, in the present embodiment, the first detection unit 224 and the second detection unit 225 are provided on the slide fork 220 and detect the presence or absence of the placement unit 120. However, the first detection unit 224 and the second detection unit 225 may be provided in the placement unit 120 and may detect the presence or absence of the slide fork 220.

  Further, in the present embodiment, the first detection unit 224 and the second detection unit 225 detect the presence / absence of the placement unit 120 so that the upper surface portion of the top portion 221 is higher than the upper surface portion of the placement unit 120. Or it was decided to detect whether it was below. However, the first detection unit 224 and the second detection unit 225 detect the relative position between the slide fork 220 and the mounting unit 120, so that the upper surface of the top unit 221 is higher than the upper surface of the mounting unit 120. Or you may decide to detect whether it exists below.

  INDUSTRIAL APPLICABILITY The present invention can be used as a transfer device in an automatic warehouse, particularly as a transfer device that can shorten the transfer time.

DESCRIPTION OF SYMBOLS 1 Automatic warehouse 10 Rack 20 Stacker crane 30 Goods 110 Rack pillar 120 Mounting part 200 Transfer device 210 Lifting table 220 Slide fork 221 Top part 222 Middle part 223 Base part 224 First detection part 225 Second detection part 230 Control part

Claims (2)

With respect to the placement part on which the article is placed on the upper surface, the article enters the side of the placement part below and above the article, and receives the article from the placement part by supporting the article from below. A transfer device comprising a slide part that exits from the side of the placement part,
Detects whether the top surface of the slide part is above the top surface of the mounting part by detecting the presence or absence of the mounting part attached to the tip part of the sliding part. A first detector that
Whether or not the upper surface portion of the base end portion of the slide portion is below the upper surface portion of the mounting portion by detecting the presence or absence of the mounting portion attached to the base end portion of the sliding portion. A second detector for detecting
When the slide portion receives the article from the placement portion, the slide portion in which the upper surface portion of the tip portion of the slide portion is disposed below the upper surface portion of the placement portion enters the side. In this state, the slide part is raised, and the first detection part detects that the placement part is not present, so that the top part of the tip part of the slide part is higher than the top part of the placement part. A control unit that starts to exit the slide unit from the side when it is detected ;
In the case where the slide unit delivers the article to the placement unit, the control unit is further configured such that the upper surface portion of the base end portion of the slide unit is disposed above the upper surface portion of the placement unit. The slide part is lowered in a state where the slide part has entered the side, and the second detection part detects that the placement part is present, whereby the upper surface part of the base end part of the slide part is as described above. When it is detected that the position is lower than the upper surface portion of the mounting portion, the slide portion starts to be retracted from the side.
Transfer device. The first detection unit is attached to a side surface portion of the slide portion, and detects the presence or absence of the placement portion disposed on the side of the slide portion, so that the upper surface portion of the tip portion of the slide portion is in front. Detect whether it is above the top surface of the writing unit ,
The second detection unit is attached to a side surface portion of the slide portion, and detects the presence or absence of the placement portion disposed on the side of the slide portion, whereby the upper surface portion of the base end portion of the slide portion is The transfer device according to claim 1, wherein it is detected whether or not it is below the upper surface portion of the mounting portion .

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