JP2010189013A - Container for glass substrate - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a container for a glass substrate which is capable of suitably preventing application of shock to the glass substrates even if subjected to impact from the outside, such as by being accidentally dropped, and which is capable of securely fixing the glass substrates within an accommodating section thereof without positional displacement. <P>SOLUTION: A container body 1 is constituted of a foamed resin molded article having a bottom part 3 and side wall parts 4 that surround the bottom part 3; an accommodating section 2 for accommodating the glass substrates X in a horizontal fashion is formed within the container body 1. Reinforcement members 6 and 7 having a cushioning action in one of the directions of the glass substrates X and at least one other direction that is orthogonal to this direction are arranged at corners 2a of the accommodating section 2 in correspondence to the corners of the glass substrates X. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a glass substrate container. More specifically, the present invention relates to a glass substrate container that accommodates one or a plurality of glass substrates horizontally.

  In recent years, glass substrates used in flat-screen televisions such as liquid crystal televisions, plasma televisions, and organic EL televisions have become increasingly larger. Such glass substrates are particularly susceptible to damage due to impact during transportation. Accordingly, as a glass substrate container, a container that can accommodate a glass substrate horizontally instead of vertically is used to pack and transport the glass substrate.

  For example, Patent Document 1 discloses a glass substrate transfer tray made of a polyolefin-based foamed resin molded product in which a housing portion for horizontally housing a glass substrate is formed, and the glass substrate houses the tray housing portion. A glass substrate transfer tray is described which includes a bottom portion and a side wall portion surrounding the bottom portion.

  Moreover, as a similar thing, the container for glass substrates as shown in FIG. 6 is also proposed. The glass substrate container is a container main body 1 ′ in which an accommodating portion 2 ′ for accommodating the glass substrate X horizontally is formed, and includes a bottom portion 3 ′ and a side wall portion 4 ′ surrounding the bottom portion 3 ′. The container body 1 ′ is configured to have a housing portion 2 ′ formed therein, and the lid body 10 is fitted into the upper end opening of the side wall portion 4 ′ of the container body 1 ′.

  The glass substrate X includes a printed circuit board X1 for external connection in at least one piece. This printed circuit board X1 is weak in strength, and in a state where the glass substrate X is accommodated in the accommodating portion 2 ′, it is prevented from contacting the bottom 3 ′ and the side wall 4 ′ in the accommodating portion 2 ′. There is a need. Therefore, an escape recess 5 'that is stepped down from the bottom 3' is formed at a corresponding portion of the storage portion 2 'so that the printed board X1 is stored in a floating state (see FIG. 7).

  Moreover, the accommodating portion 2 ′ has a shape that matches or substantially matches the outer shape of the glass substrate except for the escape recess 5 ′ so that the glass substrate X does not move inside. More specifically, as shown in FIG. 7, the accommodating portion 2 ′ includes a corner portion 2 a ′ corresponding to the corner portion of the glass substrate X so that the corner portion of the glass substrate X can be constrained. In the example shown in FIGS. 6 and 7, since the glass substrate X is a quadrangle (rectangular shape), the corners 2a ′ are provided at four locations of the accommodating portion 2 ′ and are 90 degrees to 90 degrees in plan view. It is formed with a crossing angle of about 90 degrees.

JP 2002-353302 A

  However, since the container main body 1 ′ is made of a foamed resin molded product, the container main body 1 ′ is easily subjected to a compressing action due to a load from the glass substrate X that is a relatively heavy object. For example, when a glass substrate container containing a plurality of glass substrates X,... Is accidentally dropped, the load from the corners of the glass substrates X,. By concentrating, the corner portion 2a ′ is deformed, and the glass substrate X released from the restraint by the corner portion 2a ′ is displaced in the housing portion 2, and in the worst case, the printed board of the glass substrate X. There is a concern that X1 comes into contact with the side wall portion 4 ′ in the housing portion 2 ′ and is damaged.

  Therefore, the present invention has been made in view of the above problem, and even if it receives an impact from the outside, such as being accidentally dropped, it can suitably prevent the impact from being applied to the glass substrate, It is an object of the present invention to provide a glass substrate container in which a glass substrate can be securely fixed without causing a positional shift in a housing portion.

  A container for glass substrate according to the present invention is configured to solve the above-described problem, and a container main body made of a foamed resin molded product is configured by a bottom portion and a side wall portion surrounding the bottom portion, and the glass substrate is provided in the container main body. In a container for a glass substrate in which an accommodation part for accommodating the container horizontally is formed, one direction of the glass substrate and the direction orthogonal to the one direction are provided at the corner part of the accommodation part provided corresponding to the corner part of the glass substrate. A reinforcing member having a buffering action is disposed in at least one of the other directions.

  According to such a configuration, even if a load is applied from the corner of the glass substrate to the corner of the housing portion by receiving an impact from the outside such as being accidentally dropped, the load is dispersed by the reinforcing member. For this reason, the compression action is less likely to occur in the foamed resin molded product constituting the container body. Therefore, it is possible to suitably prevent the glass substrate from being subjected to an impact, and it is possible to reliably fix the glass substrate without causing a positional shift in the housing portion.

  In the glass substrate container according to the present invention, the reinforcing member has one portion having a buffering action with respect to one direction of the glass substrate, and is orthogonal or substantially orthogonal to the one portion, and the other direction of the glass substrate. It is possible to adopt a configuration including the other part having a buffering action.

  According to this configuration, since the reinforcing member has a buffering action in two orthogonal directions, the impact resistance is excellent regardless of the direction from which the shock is applied.

  In that case, it is preferable that one part and the other part of the reinforcing member are each formed in a plate shape.

  According to such a configuration, one portion of the reinforcing member is disposed along the other direction of the glass substrate, thereby having a buffering action with respect to one direction of the glass substrate, and the other portion of the reinforcing member being the glass substrate. By being arranged along one direction, it has a buffering action with respect to the other direction of the glass substrate.

  In the glass substrate container according to the present invention, the reinforcing member is attached to an attachment recess formed in the thickness direction of the side wall, and the inner surface of the reinforcing member and the inner surface of the side wall are flush with each other. Can be adopted.

  According to such a configuration, the outer edge of the glass substrate comes into contact with the inner surface of the reinforcing member and the inner surface of the side wall portion, so that the dispersion effect is further enhanced and the impact resistance is further improved.

  As described above, according to the present invention, even if an impact is applied from the outside, such as being accidentally dropped, the impact is dispersed and buffered by the reinforcing member provided at the corner of the housing portion. The impact can be suitably prevented from being applied to the substrate, and the corner portion of the housing portion is not deformed by the load received from the corner portion of the glass substrate, so that the positional displacement occurs in the housing portion. And the glass substrate can be securely fixed.

It is a perspective view of the container main body of the container for glass substrates which concerns on this embodiment, Comprising: (a) is a state before a reinforcement member is attached, (b) shows the state to which the reinforcement member was attached. It is a top view of the container main body of the container for glass substrates, Comprising: (a) shows the state before a reinforcement member is attached, (b) shows the state to which the reinforcement member was attached. It is a principal part expanded sectional view of the container main body of the container for glass substrates, Comprising: (a) shows the state before a reinforcement member is attached, (b) shows the state to which the reinforcement member was attached. The top view of the state in which the glass substrate was accommodated in the container main body of the container for glass substrates is shown. It is a principal part enlarged plan view of the container main body of the container for glass substrates which concerns on other embodiment, Comprising: (a)-(c) shows the thing from which the form of a reinforcement member differs, respectively. The perspective view of the glass substrate accommodated in the container for conventional glass substrates and its container main body is shown. The top view of the state in which the glass substrate was accommodated in the container main body of the container for glass substrates is shown.

  Hereinafter, an embodiment of a glass substrate container according to the present invention will be described with reference to the drawings. Note that the glass substrate container according to the present embodiment is also provided with a container body and a lid as in the conventional case. However, since the difference is in the container body, the container body will be mainly described.

  The container main body according to the present embodiment is shown in FIGS. 1 to 3, and is characterized in that the corner portion 2 a of the housing portion 2 where the load tends to concentrate is reinforced. The container body 1 is constituted by the bottom part 3 and the side wall part 4 surrounding the bottom part 3, and the container part 2 for accommodating the glass substrate X horizontally in the container body 1 is formed. In order to protect the printed circuit board X <b> 1, the escape recess 5 is formed in the housing 2 in the same manner as in the prior art.

  The container body 1 according to the present embodiment has a quadrangular (rectangular) shape in plan view corresponding to the quadrangular (rectangular) glass substrate X. That is, the bottom part 3 is formed in a quadrangle (rectangle) larger than the glass substrate X, the side wall part 4 rises from the peripheral part of the bottom part 3, and the side wall part 4 also exhibits a quadrangle (rectangle) in plan view. The accommodating portion 2 is a space defined by the upper surface of the bottom portion 3 and the inner surface of the side wall portion 4.

  Further, for the convenience of providing the printed circuit board X <b> 1 on the long side of the glass substrate X, the escape recess 5 of the housing part 2 is also provided on the long side of the housing part 2. Specifically, the escape recess 5 is a rectangle or a substantially rectangle in plan view, and is a portion that is stepped down from the bottom 3 on the long side of the housing portion 2. In addition, the escape recessed part 5 is provided in a suitable location according to the location of the printed circuit board X1 provided in the glass substrate X. FIG.

  The upper end portion of the side wall portion 4 has a stepped shape on the outer surface side. Therefore, the lower end portion of the lid body 10 having a stepped inner surface side is fitted to the upper end portion of the side wall portion 4, whereby the lid body 10 is fitted to the upper end opening portion of the side wall portion 4 of the container body 1. It has become so. The container body 1 and the lid body 10 have the same shape in plan view. Therefore, when the lid body 10 is fitted to the container body 1, the container body 1 and the lid body 10 have an outer surface of the side wall portion 4 of the container body 1. The outer surface of the lid 10 is flush with or substantially flush with the outer surface.

  The accommodating portion 2 can accommodate a plurality of glass substrates X in a stacked manner (with a protective film (not shown) for protecting the surface of the glass substrate X interposed between them). When the lid body 10 is attached to the container main body 1, the height dimension corresponding to the thickness of... Is somewhat between the uppermost glass substrate X and the lower surface of the lid body 10. The height dimension of the side wall part 4 is set so that a gap is formed.

  Note that the glass substrate containers according to the present embodiment must be laterally displaced from each other for convenience of use in which a plurality of the glass substrate containers are stacked one above the other and bundled together. Therefore, for example, it is preferable to provide a convex portion on one of the upper surface of the lid 10 or the lower surface of the container body 1 and provide a concave portion in which the convex portion is engaged on the other to take measures against lateral deviation.

  The container body 1 having the above configuration is made of a foamed resin molded product (as is the case with the lid 10), and is preferably molded by in-mold molding of foamable particles of thermoplastic resin. Preferably, expandable styrene-modified polyolefin resin particles can be used. The styrene modified polyolefin resin is obtained by impregnating and polymerizing a polyolefin resin particle with a styrene monomer. Among the styrene modified polyolefin resins, a styrene modified polyethylene resin is preferable, for example, styrene The proportion of the components is 40 to 90% by weight, preferably 50 to 85% by weight, more preferably 55 to 75% by weight, and the expansion ratio is preferably 3 to 60 times. Molded products made of expandable styrene-modified polyolefin resin particles have higher strength, smaller shrinkage, and better dimensional accuracy than polypropylene foamed resin molded products having the same expansion ratio. Therefore, there is little variation in dimensions. Furthermore, there is an advantage that dust due to friction or the like is less likely to be produced as compared with a polystyrene-based foamed resin molded product.

  However, the influence of the compression action accompanying the load from the glass substrate X, which is a relatively heavy object, cannot be ignored. Therefore, in the present embodiment, the corner portion 2a of the housing portion 2 is reinforced with a separate member different from the material constituting the container body 1. Specifically, the L-shaped reinforcing member 6 and the plate-shaped reinforcing member 7 are arranged at the corner (corner) 2 a of the accommodating portion 2.

  1 (a), 2 (a), and 3 (a) show a state before the reinforcing member 6 and the reinforcing member 7 are attached to the corner 2a of the accommodating portion 2, and FIG. 1 (b) and FIG. 2 (b) and FIG. 3 (b) show a state in which the reinforcing member 6 and the reinforcing member 7 are attached to the corner 2a of the accommodating portion 2. FIG. As can be seen from FIGS. 1 and 2, an L-shaped reinforcing member 6 is used for the corner 2a on the side where the escape recess 5 is provided, while the corner on the side where the escape recess 5 is not provided. A plate-like reinforcing member 7 is used for the portion 2a.

  The L-shaped reinforcing member 6 is configured such that one plate-like part 6 a and the other plate-like part 6 b are orthogonal or substantially orthogonal, and the one part 6 a is formed between the bottom part 3 and the relief recess 5. It arrange | positions along a boundary and the other part 6b is arrange | positioned along the side wall part 4 which cross | intersects the escape recessed part 5. FIG. More specifically, the side wall portion 4 in the corner portion 2a of the housing portion 2 is recessed in the thickness direction, and the side wall portion 4 and the relief recess portion 5 in the corner portion 2a of the housing portion 2 are formed of the reinforcing member 6 as shown in FIG. The reinforcing member 6 is attached to an attachment recess 2a ′ formed in a cross-sectional shape and recessed in the depth direction. Accordingly, the reinforcing member 6 is configured such that the outer surfaces of the one part 6a and the other part 6b are constrained by the attachment recesses 2a ′ in the thickness direction, and the lower ends of the one part 6a and the other part 6b are attached in the depth direction. It is restrained by the recess 2a 'and is attached so as not to be inadvertently detached from the container body 1.

  Moreover, since the depth of the mounting recess 2a ′ in the thickness direction corresponds to the thickness of the other portion 6b of the reinforcing member 6, the reinforcing member 6 is reinforced in the state where it is mounted on the mounting recess 2a ′. The inner surface of the other portion 6b of the member 6 and the inner surface of the side wall portion 4 are flush with each other. The depth of the mounting recess 2 a ′ in the depth direction is set so that the upper ends of the one portion 6 a and the other portion 6 b are flush with or substantially flush with the upper end of the side wall portion 4.

  On the other hand, the plate-shaped reinforcing member 7 is disposed along the side wall portion 4 which is the corner portion 2 a on the side where the escape recess portion 5 is not provided and intersects with the escape recess portion 5. More specifically, the side wall 4 at the corner 2 a of the housing 2 is recessed in the thickness direction, and the side wall 4 at the corner 2 a of the housing 2 is a cross-section of the reinforcing member 7, similar to the L-shaped reinforcing member 6. The reinforcing member 7 is attached to an attachment recess 2a ″ that is shaped and recessed in the depth direction. Therefore, the reinforcing member 7 is attached so that the outer surface is constrained by the mounting recess 2a ″ in the thickness direction and the lower end is constrained by the mounting recess 2a ″ in the depth direction so as not to be inadvertently detached from the container body 1. It is done.

  Moreover, since the depth of the mounting recess 2a ″ in the thickness direction corresponds to the thickness of the reinforcing member 7, when the reinforcing member 7 is attached to the mounting recess 2a ″, The inner surface and the inner surface of the side wall portion 4 are flush with each other. The depth of the mounting recess 2 a ″ in the depth direction is set so that the upper end of the reinforcing member 7 is flush with or substantially flush with the upper end of the side wall portion 4.

  As a result of the reinforcement members 6 and 7 being attached to the attachment recesses 2a ′ and 2a ″, one part 6a of the reinforcement member 6 is orthogonal to the short direction (“one direction” according to the present invention) of the housing part 2. In addition, the other portion 6b of the reinforcing member 6 and the reinforcing member 7 are arranged perpendicular to the longitudinal direction of the housing portion 2 (the “other direction” according to the present invention). Such an arrangement, that is, the region defined by the one portion 6a of the reinforcing member 6 and the other portion 6b of the reinforcing member 6 and the reinforcing member 7 is the same as the size of the glass substrate X or the size of the glass substrate X. Accordingly, the reinforcing member 6 or the reinforcing member 7 is arranged at each corner of the glass substrate X (see FIG. 4).

  Moreover, the reinforcing members 6 and 7 are softer than the glass substrate X and more rigid than the container body 1, and natural rubber or any resin molded product can be used. An example is a resin molded product made of a thermoplastic resin. Thermoplastic resins include polystyrene resins, polyolefin resins (eg, polypropylene resins, polyethylene resins), polyester resins (eg, polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate), polycarbonate resins, polylactic acid resins. Resin etc. are mentioned. Furthermore, a foamed molded body made of a thermoplastic resin is preferable. Thermoplastic resins include polystyrene resins, polyolefin resins (eg, polypropylene resins, polyethylene resins), polyester resins (eg, polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate), polycarbonate resins, polylactic acid resins. Resin etc. are mentioned. Among these, it is preferable to use a composite resin of polystyrene and polyester.

  Therefore, even if a load is applied from the corner of the glass substrate X to the corner 2a of the housing portion 2, the load is dispersed by the reinforcing members 6 and 7, so that the foamed resin molded product constituting the container body 1 is Compression action is unlikely to occur. Specifically, in the short direction of the glass substrate X, one portion 6a of the reinforcing member 6 positioned at both ends of the glass substrate X alleviates the load from the corners of the glass substrate X, and the glass substrate X In the longitudinal direction, the other portion 6 b of the reinforcing member 6 and the reinforcing member 7 located at both ends of the glass substrate X alleviate the load from the corners of the glass substrate X.

  Moreover, since the reinforcing members 6 and 7 have elasticity, even if they directly contact the glass substrate X, the glass substrate (the edge portion thereof) is not damaged. Further, since the reinforcing members 6 and 7 are detachable from the container main body 1, they may be replaced with new ones if the thickness decreases or wears. By doing in this way, the lifetime as a container for glass substrates can also be extended (however, if it is not necessary to consider such an event, the reinforcing members 6 and 7 are attached to the mounting recesses 2a ′, 2a ″ may be fixed).

  As described above, according to the glass substrate container according to the present embodiment, even if it is accidentally dropped, the impact is applied to the glass substrate X by the reinforcing members 6 and 7 having a buffering action even if the impact is applied from the outside. And the corner portion 2a of the housing portion 2 is not deformed by a load received from the corner portion of the glass substrate X. Therefore, the glass is not displaced in the housing portion 2. The substrate X can be securely fixed.

  In addition, this invention is not limited to the said embodiment, A various change is possible in the range which does not deviate from the summary of this invention.

  For example, in the above embodiment, the reinforcing member 7 attached to the corner 2a on the side where the escape recess 5 is not provided is plate-like, but attached to the corner 2a on the side where the escape recess 5 is provided. Similarly to the reinforcing member 6 to be formed, an L-shaped one, that is, a shape having a buffering action in two directions perpendicular to the short side direction and the long side direction of the glass substrate X may be adopted.

  Moreover, the shape which has a buffering effect with respect to the transverse direction and the orthogonal direction of the longitudinal direction of the glass substrate X is not limited to the L-shape, and various shapes can be selected. For example, as shown in FIG. 5A, a T-shaped reinforcing member 6 'may be used. In this case, both are integrally formed so that the other part 6b 'is connected to the middle part of the one part 6a'. Further, the reinforcing member 6 '' shown in FIG. 5B is also T-shaped. In this case, the other end of the other portion 6b '' is folded back, and both are integrally molded so as to be folded back at a right angle or a substantially right angle at the middle portion.

  Conversely, it does not have a buffering action with respect to the short direction and the two orthogonal directions of the longitudinal direction of the glass substrate X, and may have the same structure as the plate-like reinforcing member 7. However, in this case, as shown in FIG. 5C, it is preferable to dispose the reinforcing member 6 ′ ″ perpendicular to or substantially perpendicular to the reinforcing member 7. In this way, the reinforcing member 6 ′ ″ has a buffering action in the short direction of the glass substrate X, and the reinforcing member 7 has a buffering action in the longitudinal direction of the glass substrate X.

  Moreover, in the said embodiment, although the cover body 10 fits and is attached to the container main body 1, the cover body 10 is not essential. For example, when the container main body is formed in a tray shape and the container main bodies are stacked like the one described in Patent Document 1, a configuration in which the bottom of the upper container main body replaces the lid of the lower container main body is adopted. Can do.

DESCRIPTION OF SYMBOLS 1 Container body 2 Storage part 2a Corner | angular part 2a 'Mounting recessed part 2a''Mounting recessed part 3 Bottom part 4 Side wall part 5 Relief recessed part 6, 6', 6 '', 6 '''Reinforcing member 6a, 6a', 6a '', 6a '''One part 6b, 6b', 6b '' The other part 7 Reinforcing member X Glass substrate X1 Printed circuit board

Claims (4)

  In a glass substrate container in which a container body made of a foamed resin molded product is constituted by a bottom part and a side wall part surrounding the bottom part, and an accommodating part for accommodating the glass substrate horizontally in the container body is formed. A reinforcing member having a buffering action with respect to at least one of the one direction of the glass substrate and the other direction orthogonal to the one direction is disposed at the corner of the accommodating portion provided corresponding to the corner of the glass substrate. A glass substrate container.   The reinforcing member includes one part having a buffering function with respect to one direction of the glass substrate, and the other part having a buffering function with respect to the other direction of the glass substrate. The container for glass substrates of Claim 1 provided.   The glass substrate container according to claim 2, wherein one part and the other part of the reinforcing member are each formed in a plate shape.   The said reinforcement member is attached to the attachment recessed part formed in the thickness direction of a side wall part, and the inner surface of a reinforcement member and the inner surface of a side wall part are flush | planar or substantially flush | planar. The glass substrate container according to 1.

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