JP4663178B2 - Plate body holder - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a plate-like body storage holder, and more particularly to a plate-like body storage holder comprising a holding pad on a base for arranging a plurality of glass plate-like bodies in an upright posture in parallel.
[0002]
[Prior art]
In recent years, flat displays such as a plasma display (PDP) and a liquid crystal display (LCD) have been put into practical use as image display devices become larger and lighter and thinner. Large glass plates used in this type of display are transported from a glass plate manufacturing plant or the like to a display assembly plant or the like in a state where a plurality of glass plates are arranged and held in a storage holder (hereinafter referred to as a container). After that, they are taken out one by one from the container and transferred to an assembly line or the like.
[0003]
This glass plate is usually housed in the container at equal intervals in parallel in an upright position (vertical position), and while maintaining high cleanliness, breakage such as cracks The container has a special structure because it needs to be stored and held so that it does not occur.
[0004]
As a specific example thereof, for example, according to Japanese Patent Laid-Open No. 2001-31165, a bottomed box made of a foamed resin molded body is fixedly installed on the upper surface of a base (in the same publication, a base), and the inside of the box A container in which an L-shaped pad comprising a side plate portion and a bottom plate portion in which holding grooves for holding a plurality of glass plates are formed is incorporated, and the upper opening of the box is covered with a lid ( The publication discloses a configuration of a transport box).
[0005]
In the same publication, a convex portion is formed at a plurality of locations (two locations) on the inner bottom surface of the box, and a concave portion corresponding to the convex portion is formed on the lower surface of the pad. A configuration is also disclosed in which the position of the pad is changed in a direction parallel to the glass plate by appropriately and selectively changing.
[0006]
By the way, when a plurality of glass plates stored and held in a container are taken out after the container of this type is transported to an assembly factory or the like, for example, automatic take-out by a take-out device in order from the glass plate existing at one end thereof is performed. Done. There are many types of take-out devices in which the trajectory of the robot hand that holds the glass plate is set to be constant, and in order to cope with this, during the period from the previous stage of automatic take-out to the end of the work, The need arises to keep the container on hold at the correct location on the work station.
[0007]
Therefore, in order to meet such a requirement, a reference part is provided on a base that is a member having higher rigidity than other members among the constituent members of the container, and this reference part is used as a reference part provided in the work station. The container is positioned in contact with a block or the like. That is, the container is positioned with respect to the take-out device provided in the work station by aligning the reference portion of the base serving as the reference on the container side with the reference block serving as the reference on the work station side.
[0008]
[Problems to be solved by the invention]
However, as described above, even if the container base is accurately positioned with respect to the work station and thus the take-out device, if the relative position of the glass plate stored in the container to the take-out device is not accurate, The glass plate cannot be removed smoothly by the robot hand. In particular, if the position of the glass plate that is first taken out by the take-out device, that is, the position of the glass plate that exists at one end in the arrangement direction, is out of order, the series of take-out operations by the take-out device has hindered the entire operation. , You will be forced to make the work difficult.
[0009]
Therefore, although the accuracy of the positional relationship between the pad having the holding groove for holding each glass plate and the base having the reference portion is extremely important, conventionally, after the pad is assembled and fixed inside the case, Since it was customary to manufacture the container by fixing this case to the upper part of the base, no consideration has been given to the positional relationship between the pad and the base.
[0010]
As a specific example, the above publication does not suggest any positioning of the pad with respect to the base, and there are no specific components for performing such positioning. Moreover, like the container disclosed in the same publication, according to the configuration in which the pad made of the cushioning material (foamed molded body) is assembled inside the bottomed box made of the foamed molded body, the rigidity of both is extremely low. In addition, since high-precision processing is difficult, sufficient positioning accuracy cannot be ensured.
[0011]
For this reason, even if the base and the box are accurately positioned, it cannot be avoided that the positional relationship between the base and the pad is out of order. As a result, when the glass plate held on the pad is taken out by the take-out device, a situation in which the position of the glass plate and the trajectory of the robot hand do not correspond accurately causes smooth removal of the glass plate automatically. It is a big hindrance.
[0012]
In addition, according to the container disclosed in the publication, as described above, the position of the pad can be changed in a direction parallel to the glass plate, but positioning with the robot hand is particularly important. Since it is the thickness direction of a glass plate, the position change in this case does not contribute to smoothing of the automatic taking-out operation | work of a glass plate.
[0013]
In this publication, it is described that the position change of the pad is a configuration for storing and holding glass plates of different sizes. However, since the position of one of the pads can only be changed, the range of the size of the glass plate that can be accommodated is narrow, and if the glass plate becomes smaller, the center of the glass plate moves away from the center of the container, which is unbalanced. There's a problem.
[0014]
Moreover, the container disclosed in the same publication can only change the position of the pad with respect to the longitudinal direction of the box having a rectangular plan view, and cannot change the orientation of the pad. The glass plate having a size corresponding to the scale direction and the glass plate having a size corresponding to the short direction cannot be appropriately dealt with without waste.
[0015]
The above-described problems are not limited to the above-described flat display glass plates, and similarly occur in other glass plate-like bodies that are stored and held in parallel in an upright posture.
[0016]
The present invention has been made in view of the above circumstances, and positioning of a pad with respect to a base etc The take-out device etc Of plate-like body automatically etc It is a technical problem to make it possible to quickly and appropriately cope with changes in the position and orientation of pads on the base.
[0017]
[Means for Solving the Problems]
The present invention, which has been made to achieve the above technical problem, is a plate-like body storage holder for storing and holding a plurality of plate-like bodies in a substantially upright parallel arrangement on a base by means of a holding pad. Are a side plate portion formed with a plurality of holding grooves for holding side edge portions of each plate-like body, and a bottom plate that is integrally connected to the lower end of the side plate portion and receives the lower edge portion of each plate-like body. And the holding pad of the base At least 3 places on two adjacent sides The upper surface of the base with respect to the reference portion Is positioned on the upper surface and In addition to being detachably assembled, the reference portion of the base can be aligned with the reference portion of the glass plate take-out station or the reference portion of the glass plate storage station.
[0018]
In this case, the holding pad is preferably formed of a molded body made of a cushioning material or the like having low rigidity, such as a foamed molded body, more specifically, a foamed molded body made of polypropylene, polyethylene, or the like. Moreover, it is preferable that the main body portion of the base is composed of a member having rigidity higher than that of the holding pad, for example, a pallet formed of a hard resin or the like. Furthermore, it is preferable that the upper surface portion of the base is composed of a base plate having higher rigidity than the holding pad, and the base plate is a metal plate made of a light metal such as aluminum or an alloy thereof, or a resin made of a hard resin. It is preferable that the plate is constituted by a laminated plate formed by laminating the resin plates on the upper surface of the plate or the metal plate.
[0019]
According to such a configuration, since the holding pad that holds the plurality of plate-like bodies is assembled to the upper surface portion of the base having high rigidity, the assembling rigidity and the assembling accuracy are increased. And while maintaining these characteristics, At least 3 places on two adjacent sides The holding pad is on the upper surface of the base with respect to the reference part. Part Since it is positioned, the positioning accuracy is sufficient. Therefore, when the reference portion such as the reference block of the take-out work station where the take-out device is provided is aligned with the reference portion of the base, the holding pad is positioned with high accuracy with respect to the take-out device. As a result, even for a robot hand with a constant trajectory, the plate-like bodies arranged on the holding pad can be taken out one by one accurately in order, and a series of automatic removal operations of the plate-like bodies can be performed smoothly. Can be performed. It is to be noted that substantially the same operation as described above can be performed by aligning the reference portion such as the reference block and the reference portion of the base in the glass plate storing work station. This is advantageous in automating the storage operation.
[0020]
Moreover, since the holding pad is detachably attached to the upper surface portion of the base, the holding pad can be removed and attached while maintaining high assembling rigidity and assembling accuracy as described above. It is possible to easily change the direction without causing deterioration in workability.
[0021]
In this case, it is preferable that the holding pad is positioned with respect to the holding groove arrangement direction between the holding pad and the reference portion of the base. That is, the robot hand cannot accurately take out the plate-like body unless it enters the ideal position in the thickness direction of the plate-like body. The position of the direction is important. Therefore, if the holding pad is positioned with respect to the reference portion of the base in the holding groove arrangement direction, the plate-like body can be smoothly taken out by the robot hand.
[0022]
Furthermore, regarding the positioning of the holding pad, it is more preferable to position the holding groove existing at one end of the holding pad or the vicinity thereof with respect to the reference portion of the base.
[0023]
According to such a configuration, in the process in which the robot hand sequentially takes out the plate-like bodies, if the position of the plate-like bodies to be first taken out (especially the position in the arrangement direction) is accurate, the robot hand Thus, it is possible to accurately grasp and sequentially take out the plate-like members held one by one in order, and to smoothly perform a series of automatic take-out operations for all the plate-like members. In this case, even if there is some error in the arrangement pitch of the subsequent plate-like bodies, the automatic removal operation of those plate-like bodies will be smooth as long as the position of the plate-like bodies to be taken out first is accurate. It can be done.
[0024]
On the other hand, if the position of the plate-like body to be taken out first is out of order, the robot hand interferes with the plate-like body or is too far away from the plate-like body, making it impossible to perform the take-out operation. There is a fear. Therefore, if the holding groove existing at one end in the holding groove arrangement direction or the vicinity thereof is positioned with respect to the reference portion of the base, not only the plate-like body to be taken out first but also the subsequent plate-like body. It is possible to perform a smooth removal operation.
[0025]
In this case, it is preferable that a pair of the holding pads are opposed to each other, and the holding pads are assembled to the upper surface of the base so that the distance between them can be adjusted.
[0026]
If comprised in this way, when a plate-shaped object is comparatively large, a pair of holding pad is moved apart and reciprocated, the space | interval of a both-sides board part is expanded, and a plate-shaped object is relatively small. In this case, by arranging the pair of holding pads to move closer to each other and narrowing the distance between the two side plate portions, even a plate-like body having a different size can be properly accommodated. The manufacturing method of the pair of holding pads is as follows. First, an integrated molded body having side plate portions at both ends of a bottom plate portion having a length of two pieces is manufactured, and then the bottom plate portion of the integrated molded body is formed at the center. It is preferable to obtain a pair of holding pads by cutting.
[0027]
Moreover, it is preferable that a guide member for guiding a distance adjusting operation between the pair of holding pads is fixed to an upper surface portion of the base.
[0028]
If comprised in this way, since a pair of holding pad can be moved to arbitrary positions along a guide member and the space | interval between both-sides board parts can be adjusted, not only the existing plate-shaped body but a new board It is possible to properly arrange and store the objects. Moreover, since the pair of holding pads can be positioned symmetrically on both sides with respect to the vertical or horizontal center line of the base, the center of gravity of the stored and held plate-like body is relative to the center of the base. In particular, it is possible to avoid the occurrence of unbalance, and in particular, it is possible to prevent a situation in which the holder tilts and adversely affects the internal plate-like body during transport of the plate-like body storage holder.
[0029]
Furthermore, it is preferable to form a plurality of convex portions interposed between the lower edge portions of each plate-like body on the upper surface of the bottom plate portion of the holding pad.
[0030]
According to this structure, the convex portion formed on the upper surface of the bottom plate portion moves in the thickness direction because the movement in the thickness direction of the lower edge of the plate-like body is also regulated by the holding groove of the side plate portion described above. As long as it is regulated in an auxiliary manner. Therefore, it becomes possible to simplify the structure of the convex portion and to ensure the regulation of the movement in the thickness direction, without forming the holding groove in the bottom plate portion.
[0031]
In addition to the above configuration, it is preferable that a first reinforcing member that reinforces the holding pad is disposed in a region extending from the back surface of the side plate portion of the holding pad to the lower surface of the bottom plate portion.
[0032]
If comprised in this way, while being able to prevent the deviation | inclination of the squareness of a side plate part with respect to the baseplate part which may arise due to the weight of a plate-shaped body, or the expansion of an angle, the direction orthogonal to the holding groove arrangement direction of both plate parts It is possible to increase the strength against the above.
[0033]
In addition to the above configuration, it is preferable that a second reinforcing member extending along the arrangement direction of the holding grooves is disposed at the upper end of the side plate portion of the holding pad.
[0034]
With this configuration, the strength of the holding pad in the holding groove arrangement direction can be increased. For example, even when the plate-like body is shaken in the plate width direction during conveyance, it occurs in the holding pad. The obtained bending in the same direction is suppressed as much as possible. Such an effect is particularly prominent when the holding pads are long in the holding groove arrangement direction as the number of plate-like bodies increases.
[0035]
Further, in addition to the above configuration, it is preferable that an outer wall body that surrounds the outer periphery of the holding pad is assembled to the base and a lid body that closes the upper end opening of the outer wall body is provided.
[0036]
If comprised in this way, since a base pad, an outer side wall body, and a cover body will be in the state from which the holding pad and by extension, the several plate-shaped body were completely interrupted | blocked from external air, it will be in the state to the plate-shaped body by the penetration | invasion of external air. It is possible to maintain a high degree of cleanliness because dust and dust do not adhere.
[0037]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 is a cutaway perspective view of a main part of a plate-like body storage holder according to an embodiment of the present invention, FIG. 2A is a plan view of the plate-like body storage holder, and FIG. 2B is a plate-like body storage holder. It is a vertical side view of a tool.
[0038]
As shown in FIG. 1, the plate-shaped body storage holder 1 according to this embodiment has a base 2 and an L-shaped cross section that is detachably assembled to the upper surface portion 3 of the base 2 as main components. A pair of holding pads 4, an outer wall body 5 assembled on the upper surface of the base 2 so as to surround the outer periphery of these holding pads 4, and a lid body 6 covering the upper end opening of the outer wall body 5; Is provided.
[0039]
The main body portion 7 of the base 2 is composed of a rectangular molded body made of a highly rigid resin or the like, and the upper surface portion 3 of the base 2 is composed of a highly rigid base plate 8. More specifically, the floor plate 8 includes a rectangular flat metal plate 9 made of a light metal such as aluminum or an aluminum alloy, and a rectangular flat resin plate 10 made of a highly rigid resin. The metal plate 9 is placed and fixed on the upper surface of the main body portion 7 of the base 2, and the resin plate 10 is placed and fixed on the upper surface of the metal plate 9 in a stacked manner.
[0040]
The holding pad 4 is a foamed resin molded body made of polypropylene, polyethylene, or the like that is significantly less rigid than the main body portion 7 and the resin plate 10 of the base 2, and the side plate portion 11 and the bottom plate portion 12 are formed in an L shape. It is an integral molding. As shown in FIG. 2 and FIG. 3, on the opposing surface of the side plate portion 11, a plurality along the vertical direction that grips the side edges of a plurality of glass plates 13 used in a flat display such as a PDP or LCD. The holding grooves 14 are formed in parallel at a predetermined pitch. In order to facilitate insertion from above the glass plate 13 at the upper end portion of the holding groove 14, as shown in FIG. 4, an expanding portion 15 in which the groove width gradually expands upward is formed. ing. Further, as shown in FIG. 5, the groove bottom surface of the expanded portion 15 is a tapered surface 16 in which the groove depth gradually increases upward.
[0041]
On the other hand, as shown in FIGS. 3 and 4, on the upper surface of the bottom plate 12, the holding groove arrangement direction (a−) is located at a position corresponding to each inter-part (holding groove non-forming portion) of the holding groove 14. A plurality of linear convex portions 17 are formed along a direction orthogonal to (a direction). Each linear protrusion 17 has a substantially semicircular or substantially semicircular cross section, and the width of the linear protrusion 17 is set to be narrower than the width of each holding groove non-forming portion of the side plate portion 11. Yes. In other words, the width of the flat surface portion existing between the linear convex portions 17 is set wider than the width of the holding groove 14.
[0042]
As shown in FIGS. 1 and 4, the holding pad 4 is reinforced in a plurality of places (three places in the illustrated example) in the holding groove arrangement direction with respect to the direction perpendicular to the holding groove arrangement direction. An L-shaped first reinforcing member 18 is fixed. The first reinforcing member 18 is made of stainless steel (may be made of light metal such as aluminum or aluminum alloy), and has a U-shaped cross section as shown in FIGS. 6 and 7, and the side plate portion 11 of the holding pad 4. Is fitted into a reinforcing recess 19 having a rectangular cross section formed from the back surface of the base plate portion 12 to the bottom surface of the bottom plate portion 12 (see FIG. 3).
[0043]
Further, as shown in FIGS. 4 and 5, the upper end of the holding pad 4 is a U-shaped cross section made of light metal (such as stainless steel) such as aluminum or aluminum alloy extending over the entire length in the holding groove arrangement direction. The second reinforcing member 20 is fixed. The second reinforcing member 20 reinforces the holding pad 4 in the holding groove arrangement direction, and is mounted so as to cover the protruding portion protruding from the upper side on the back side of the holding groove forming region in the side plate portion 11 from above. Has been. In this case, the 2nd reinforcement member 20 is clamping the upper end protrusion part of the side-plate part 11 in the state by which the upper end of the 1st reinforcement member 18 was fitted from both sides. In addition, a substantially triangular corner reinforcing portion 21 is integrally or separately fixed to both ends in the holding groove arrangement direction inside the corner portion of the holding pad 4 (see FIGS. 1 and 6).
[0044]
As shown in FIG. 2A, the base plate 2 of the base 2 has a plurality of (3 in the illustrated example) for guiding the distance adjusting operation between the pair of holding pads 4 at a plurality of locations in the holding groove arrangement direction. A guide rail 22 as a pair of guide members is fixed. Then, as shown in FIG. 3B, the lower surface of the bottom plate portion 12 of the holding pad 4 has a length corresponding to each guide rail 22 (three locations in the illustrated example) at the length of the linear convex portion 17. Guide recesses 23 are formed along the direction, and each guide recess 23 is slidably fitted to and held by each guide rail 22.
[0045]
As shown in FIG. 4, an engagement protrusion 24 that protrudes downward is formed on the lower surface of the guide rail 22, and an engagement hole 25 corresponding to the engagement protrusion 25 is formed in the resin plate 10 of the floor plate 8. The guide rail 22 is fixed to the metal plate 9 using a fastening member (screw, rivet or the like) in a state where the engagement protrusion 24 is engaged with the engagement hole 25. And the holding pad 4 is assembled | attached to the predetermined position of the guide rail 22 using the fixing tool 26 so that attachment or detachment is possible.
[0046]
As shown in FIGS. 3 and 8, this assembly structure is obtained by forming the linear protrusions 17 on the connection side end and the non-connection side end of the bottom plate 12 of the holding pad 4 with the side plate 11. And a through hole 28 having one end opened in the guide recess 23 is formed in the low step part 27, and the peripheral part of the through hole 28 serves as a pressing plate for the fixture 26. 29 and the resin plate 10 (see FIG. 4). More specifically, a linear clearance extending over the entire length in the sliding direction is provided on the upper surface of the guide rail 22, and a downward recess is formed in the center of the pressing plate 29. The recess is inserted into the through hole. Let In this state, the pressing plate 29 is pulled toward the guide rail 22 by using a fastening member 30 composed of a bolt and a nut inserted into the linear gap, and the pulling force is applied from both sides of the pressing plate 29 to the holding pad. 4, the holding pad 4 is fixed to the resin plate 10.
[0047]
In this case, in the holding pad 4, the reinforcing recess 19 for fitting and holding the first reinforcing member 18 described above and the guide recess 23 fitted and fixed to the guide rail 22 in order to ensure a sufficient reinforcing effect. And are arranged close to each other. If necessary, a slide mechanism may be configured between the first reinforcing member 18 and the guide rail 22.
[0048]
On the other hand, as shown in FIG. 1, the outer wall body 5 is incorporated into a plurality of frame members 31 fixed to the upper surface of the metal plate 9 constituting the base plate 8 of the base 2 and these frame members 31. The outer wall plate 32 is constituted. These outer wall plates 32 are formed of, for example, plastic corrugated cardboard, and at least one outer wall plate 32, for example, the outer wall plate 32 existing on one side of the holding pad 4 in the holding groove arrangement direction can be inserted into and removed from the corresponding frame member 31. It has been incorporated.
[0049]
Furthermore, the lid body 6 shown in the figure is also formed of, for example, plastic cardboard. Then, on the lower surface side of the lid 6, for example, as shown in FIG. 9, a top surface spacer 33 whose vertical dimension can be changed according to the size (height) of the glass plate 13 held by the holding pad 4. Is disposed. That is, even if the glass plates 13 have different sizes, the top spacer 33 is interposed between the upper end of the glass plate 13 and the lower surface of the lid 6 without any gap.
[0050]
In the plate-shaped body storage holder 1 having the above configuration, the assembly work of the pair of holding pads 4 with respect to the upper surface portion 3 of the base 2 is performed as follows.
[0051]
That is, as shown in FIG. 10, the tip of the lower block 36 of the positioning jig 35 is placed on the reference area 34 of the base 2 with the metal plate 9 fixed to the upper surface of the main body portion 7 of the base 2. At the same time, the tip of the upper block 37 is brought into contact with one side surface of the frame member 31 (the frame member 31 placed on the upper surface of the metal plate 9) of the outer wall body 5, and on the other side surface of the frame member 31. One end of the resin plate 10 is brought into contact. In this case, as shown in FIG. 2 (a), the reference area 34 is provided at a plurality of a total of at least three locations on two side surfaces adjacent to each other with a corner portion of the base 2 interposed therebetween.
[0052]
Specifically, one end in the holding groove arrangement direction of the base 2 (the side on which the glass plate 13 to be first taken out is held) on one side and the other side of the base 2 adjacent thereto. The reference areas 34 are provided in a total of three locations with the substantially central portion in the longitudinal direction of the side surface. Correspondingly, in the assembly work place, the positioning jigs 35 are installed at a total of three locations, and the base 2, the frame material 31, the resin plate 10, and the positioning jigs 35 are arranged between the positioning jigs 35. In the above, the abutting work as described above is performed. In this case, the tip of the lower block 36 of each positioning jig 35 abuts accurately on each reference area 34 of the base 2.
[0053]
The reference area 34 is used by the producer of the plate-shaped body storage holder 1, the packing operator who stores the glass plate 13 in the plate-shaped body storage holder 1, and the glass plate 13 taken out from the plate-shaped body storage holder 1. This is a predetermined area that can be accurately negotiated among the three users. In addition, for example, a metal plate that serves as a mark may be attached to the reference area 34 as shown in the figure, or such a plate may not be attached separately.
[0054]
When the resin plate 10 is brought into contact with the other side surface of the frame member 31 as described above, each engagement for engaging the guide rails 22 at a predetermined design position of the resin plate 10 is performed. A joint hole 25 is formed. In this case, as shown in FIG. 4, the engagement hole in the vicinity of the holding groove 14 that exists at one end of the holding pad 4 in the holding groove arrangement direction, that is, the holding groove 14 that holds the glass plate 13 to be first taken out by the robot hand. 25 is formed based on accurate dimensional measurement from one end of the resin plate 10 (one end contacting the other side of the frame member 31). In addition, the engagement hole 25 is formed corresponding to the size (especially the width) of the guide rail 22 so as not to rattle when the guide rail 22 is engaged.
[0055]
Under such a state, the resin plate 10 is fixed to the metal plate 9 using a fastening member, and the guide rails 22 are engaged with the respective engagement holes 25 of the resin plate 10, and then the guides are guided. The rail 22 is fixed to the metal plate 9 using a fastening member. Thereafter, the guide recesses 23 of the holding pad 4 are fitted to the guide rails 22, and the holding pad 4 is fixed to the upper surface of the resin plate 10 by the pressing plate 29 of the fixture 26. In this case, the guide recess 23 in the vicinity of the holding groove 14 existing at one end of the holding pad 4 in the holding groove arrangement direction is formed so that the width thereof corresponds exactly to the width of the guide rail 22. Therefore, the guide recesses 23 are closely fitted to the corresponding guide rails 22 with no gaps. In addition, the guide recess 23 is formed at an accurate position with respect to the holding groove 14 at one end in the holding groove arrangement direction. On the other hand, the guide recesses 23 at other positions are fitted to the corresponding guide rails 22 with play in the width direction. This is because it is possible to cope with a dimensional error of the other guide recess 23 generated when the holding pad 4 is manufactured or a dimensional error accompanying a change with time.
[0056]
As a result of the above assembling operation, the holding pad 4 is accurately positioned with respect to the reference portion of the base 2, that is, the reference area 34. In particular, the holding groove 14 existing at one end of the holding pad 4 in the holding groove arrangement direction or the vicinity thereof is accurately positioned with respect to the reference area 34 of the base 2. Further, by the above operation, the squareness and parallelism of the holding groove 14 of the entire holding pad 4 are naturally positioned with respect to the reference area 34 as a matter of course. In this embodiment, the positioning means of the holding pad 4 is configured with the engagement hole 25 of the floor plate 8 (resin plate 10) and the guide rail 22 as main elements.
[0057]
On the other hand, regarding the storage and holding of the glass plate 13, the outer wall 5 is mounted on the base 2 by inserting a back spacer 38 made of, for example, a resin foam molding on the back side of the holding pad 4 (see FIG. 1). In the assembled state, the side edges of each glass plate 13 are inserted into the holding grooves 14 of the side plates 11 of the pair of holding pads 4, and the bottom edges of the glass plates 13 are the bottom plate parts 12. Receive on the top surface. Thereby, each glass plate 13 will be in the state accommodated in a pair of holding pad 4 in parallel. In this case, if a total of three reference blocks with which the reference area 34 of the base 2 abuts accurately are disposed in the storage work place of the glass plates 13, the storage work of each glass plate 13 is automated and highly accurate. This is advantageous in achieving this. Thereafter, the top spacer 33 is placed on the upper end of each glass plate 13 to cover the lid body 6 on the upper end of the outer wall body 5, and the lid body 6 and the outer wall body 5 are used using a belt (not shown). , The storage operation of each glass plate 13 in the plate-shaped body storage holder 1 is completed.
[0058]
Thereafter, the plate-like body storage holder 1 is transported to, for example, a display assembly factory or the like, and in the factory or the like, as shown in FIG. Alignment is performed between the two. Specifically, alignment is performed by bringing each reference area 34 of the base 2 into contact with the three reference blocks 39 of the take-out work station. When the reference areas 34 of the base 2 are brought into contact with the three reference blocks 39 in this way, the holding pads 4 with respect to the positioning jigs 35 in the assembly work place when the plate-like body storage holder 1 is manufactured. The position is accurately reproduced as the position of the holding pad 4 with respect to the reference block 39 at the take-out work station when the glass plate 13 is taken out. In addition, the position of the holding pad 4 with respect to the reference block at the storage work place of the glass plate 13 is also accurately reproduced as the position of the holding pad 4 with respect to the reference block 39 at the take-out work station. In addition, since the above-mentioned producer, packing operator, and user attach the direction confirmation plate for confirming the direction of this plate-shaped body storage holder 1 to one side of the base 2, Presence work can be performed without causing a difference in direction of the plate-shaped body storage holder 1 due to the presence of the plate.
[0059]
In this way, when the reference area 34 of the base 2 comes into contact with the three reference blocks 39 of the take-out work station, the holding that exists at the reference area 34 of the base 2 and one end of the holding pad 4 in the holding groove arrangement direction. Since the space between the groove 14 is accurately positioned as described above, the take-out device provided at a fixed position of the work station, and the glass plate 13 held in the holding groove 14 at the one end. The positional relationship with is accurate.
[0060]
Then, the robot hand enters the ideal position in the gap between the glass plate 13 held in the holding groove 14 at the one end and the outer wall plate 32 existing in the vicinity thereof, takes out the glass plate 13 and assembles it. Transfer to line etc. In this case, there is a region where the holding groove 14 and the linear convex portion 17 are not formed on one end side of the side plate portion 11 and the bottom plate portion 12 of the holding pad 4. Necessary space for carrying out the extraction work well is secured. Thereafter, while the approach position of the robot hand is shifted by the arrangement pitch of the holding grooves 14, the subsequent glass plates 13 are sequentially taken out in the same manner, and the last glass plate 13 is taken out. The automatic take-out operation by the take-out device is completed.
[0061]
In the above embodiment, the holding groove 14 reaching the lower end is formed in the side plate portion 11 of the holding pad 4, but as shown in FIG. 11, the holding groove 14 is formed in the lower groove portion of the side plate portion 11. On the other hand, a non-forming portion 40 of a holding groove that is concave may be provided. By providing the holding groove non-forming portion 40 in this way, when inserting and removing the glass plate 13, it is possible to secure a space for inserting an auxiliary robot hand for receiving the lower edge at the left and right ends of the glass plate 13, This can also contribute to savings in material costs.
[0062]
Moreover, in the said embodiment, although the holding groove 14 of the holding pad 4 was formed so that the arrangement pitch of the glass plate 13 might be 15 mm-25 mm, preferably 20 mm, it is 15 mm or less, for example, and the glass plates 13 contact each other. The holding grooves 14 may be formed so that the arrangement pitch is as small as possible within a range that is not, or the holding grooves 14 may be formed so that the arrangement pitch is 25 mm or more.
[0063]
Further, in the above embodiment, the pair of holding pads 4 are arranged to face each other so that the long direction of the base 2 (outer wall body 5) and the holding groove arrangement direction coincide with each other. A pair of holding pads 4 may be arranged to face each other so that the holding groove arrangement direction matches. In this case, the engagement hole of the guide rail 22 described above is formed in the resin plate 10 of the floor plate 8 so that the direction of the holding pad 4 can be changed as described above using the same base 2. In addition to 25, another engagement hole whose direction is different by 90 degrees may be formed in advance.
[0064]
Moreover, in the said embodiment, although this invention was applied when accommodating and holding the glass plate 13 used for flat type displays, such as PDP and LCD, it is easy to be broken like a glass plate other than these, or a glass plate etc. The present invention can be similarly applied to the case of storing and holding another plate-like body having the above characteristics.
[0065]
【The invention's effect】
As described above, according to the plate-like body storage holder according to the present invention, the holding pad including the side plate portion and the bottom plate portion is attached to the base. At least 3 places on two adjacent sides The top surface of the base relative to the reference part On the top surface and Since it is detachably assembled, the holding pad is positioned in a state in which its assembling rigidity and assembling accuracy are maintained at a high level, so that the positioning accuracy can be ensured and the holding pad can be removed and attached, and in plan view. It is possible to easily change the orientation of the holding pad in the above without causing deterioration in workability. Furthermore, since the reference portion of the base can be aligned with the reference portion of the glass plate take-out operation station or the reference portion of the glass plate storage operation station, the glass plate storage operation or take-out operation is automated. This is advantageous.
[0066]
And, for example, when the robot hand sequentially takes out the plate-like body by assembling the holding pad on the upper surface of the base so that the holding groove at one end thereof is at a predetermined position with respect to the reference portion of the base In addition, the positional relationship between the plate-like body to be taken out first and the robot hand becomes accurate, and a series of plate-like body taking-out operations from the beginning to the end of taking-out can be performed smoothly.
[0067]
Moreover, even if it is a plate-shaped body of a different size, the holding pads are arranged opposite to each other, and the pair of holding pads are assembled to the upper surface of the base so that the distance between them can be adjusted. Array storage can be performed.
[0068]
Furthermore, by fixing a guide member for guiding the distance adjustment movement between the pair of holding pads to the upper surface of the base, not only the existing product type plate but also a new product type plate can be provided. It is possible to appropriately arrange and store the plate-like body, and to prevent the weight of the plate-like body from being unbalanced with respect to the center of the base.
[0069]
In addition, by forming a plurality of convex portions interposed between the lower edge portions of each plate-like body on the upper surface of the bottom plate portion of the holding pad, it becomes unnecessary to form a holding groove in the bottom plate portion, and The structure of the portion can be simplified, and the regulation of the movement in the thickness direction can be ensured.
[0070]
In addition to the above-described configuration, the bottom plate portion and the side plate that can be generated due to the weight of the plate-like body by disposing the first reinforcing member in the portion extending from the back surface of the side plate portion of the holding pad to the lower surface of the bottom plate portion It is possible to prevent the deviation of the perpendicularity to the part and the like and to ensure the holding of the plate-like body.
[0071]
Further, by disposing a second reinforcing member extending along the holding groove arrangement direction at the upper end of the side plate portion of the holding pad, for example, due to shaking in the plate width direction of each plate-like body during transportation. Thus, the bending of the holding pad in the same direction that can occur can be suitably suppressed.
[0072]
Further, an outer wall that surrounds the outer periphery of the holding pad is assembled to the upper surface of the base, and a lid that closes the upper end opening of the outer wall is provided. It will be in the state where it was interrupted from, and a high degree of cleanliness can be maintained.
[Brief description of the drawings]
FIG. 1 is a partially broken perspective view showing an overall configuration of a plate-like body storage holder according to an embodiment of the present invention.
FIG. 2 (a) is a plan view showing the overall configuration of a plate-like body storage holder according to an embodiment of the present invention, and FIG. 2 (b) is a longitudinal side view thereof.
FIG. 3 (a) is a plan view of a holding pad constituting the plate-shaped body storage holder, and FIG. 3 (b) is a side view of the holding pad.
FIG. 4 is an enlarged side view of a main part of the plate-like body storage holder.
FIG. 5 is an enlarged longitudinal sectional front view of a main part of the holding pad.
FIG. 6 is a longitudinal front view of the holding pad.
FIG. 7 is a perspective view showing a first reinforcing member attached to the holding pad.
FIG. 8 is a longitudinal front view of the holding pad.
FIG. 9 is a longitudinal front view of the plate-shaped body storage holder.
FIG. 10 is a side view showing a state when the plate-shaped body storage holder is assembled.
FIG. 11 is a longitudinal front view showing a plate-like body storage holder according to another embodiment of the present invention.
[Explanation of symbols]
1 Plate-shaped body storage holder
2 base
3 Upper surface of the base
4 Retention pad
5 Outer wall body
6 Lid
11 Side plate of holding pad
12 Bottom plate of holding pad
13 Glass plate (plate)
14 Holding groove
17 Straight convex part (convex part)
18 First reinforcing member
20 Second reinforcing member
22 Guide rail (guide member)
34 standard area (standard part of base)

Claims (8)

In a plate-shaped body storage holder for storing and holding a plurality of plate-shaped bodies on a base plate in a substantially upright manner by holding pads,
The holding pad is integrally connected to a side plate portion in which a plurality of holding grooves for holding the side edge portions of the plate-like bodies are formed, and a lower edge portion of the side plate portions, and the lower edge portion of the plate-like bodies. A bottom plate portion for receiving the base plate, and the holding pad is positioned on the upper surface portion of the base with respect to a reference portion having a total of three positions on two adjacent side surfaces of the base , and the upper surface capable with assembled removably to the part, the reference portion of the base is plate-like body, characterized in that it is capable aligned in the nominal part of the packing station of the nominal part or glass plate removal station of the glass plate Storage fixture. The said holding pad is assembled | attached to the upper surface part of the said base so that the holding groove which exists in the end may be in the position positioned with respect to the reference | standard part of the said base. The plate-shaped body storage holder according to the description.   3. The plate-like body according to claim 1, wherein the holding pads are arranged to be opposed to each other, and the holding pads are assembled to an upper surface portion of the base so that a distance between the holding pads can be adjusted. Storage fixture.   The plate-shaped object storage holder according to claim 3, further comprising a guide member that guides a distance adjusting operation between the pair of holding pads on an upper surface portion of the base.   5. The plate-like body according to claim 1, wherein the holding pad has a plurality of convex portions interposed between lower edge portions of the plate-like bodies on an upper surface of the bottom plate portion. Storage fixture.   The plate-like body storage holder according to any one of claims 1 to 5, wherein the holding pad is provided with a first reinforcing member at a portion extending from the back surface of the side plate portion to the lower surface of the bottom plate portion. . In a plate-shaped body storage holder for storing and holding a plurality of plate-shaped bodies on a base plate in a substantially upright manner by holding pads,
The holding pad is integrally connected to a side plate portion in which a plurality of holding grooves for holding the side edge portions of the plate-like bodies are formed, and a lower edge portion of the side plate portions, and the lower edge portion of the plate-like bodies. And a second reinforcing member extending along the arrangement direction of the holding grooves is disposed at the upper end of the side plate portion, and the holding pad is adjacent to the base 2. A plate-shaped body storage holder characterized by being positioned on the upper surface portion of the base and detachably assembled to the upper surface portion with respect to at least three reference portions on one side surface .   The outer wall body that is assembled to the base and surrounds the outer periphery of the holding pad, and the lid body that closes the upper end opening of the outer wall body is further provided. The plate-shaped body storage holder according to any one of the above.

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