CN219057010U - OLED panel carrying device - Google Patents

Abstract

The utility model relates to an MDP 8-degree new material OLED panel carrying device, which comprises a base, wherein a backboard for arranging an MDP 8-degree new material OLED panel is fixed on the surface of the base through a supporting structure, and an included angle is formed between the plane of the backboard and the surface of the base; the base comprises a lower bottom frame and an upper bottom frame, and the upper bottom frame is fixedly connected above the lower bottom frame; a plurality of compression bars are arranged on the surface of the backboard in a laminating way, and the compression bars are arranged on the OLED panel with the MDP 8 DEG new material on the surface of the backboard in a pressing way; the utility model improves the stability of product transportation.

Description

OLED panel carrying device

Technical Field

The utility model relates to an OLED panel carrying device, and belongs to the field of bearing tables for precision electronic transportation requirements.

Background

The existing new material OLED panel carrying equipment in the market is fragile and easy to pollute when loading precision electronic equipment, products cannot be guaranteed to be convenient to transport and difficult to damage in the transportation process, the structure of various part carrying tables is quite many, but carrying tables carrying the new material LED panels are quite rare, one is because the new material LED panels are more in variety, and the second is easy to crush and pollute when transporting the precision electronic equipment, and cannot meet market demands, so that a carrying table capable of meeting the precision electronic transportation demands is urgently needed in the market.

Disclosure of Invention

The utility model provides an OLED panel carrying device which improves the stability of product transportation.

The technical scheme adopted for solving the technical problems is as follows:

an OLED panel carrying device comprises a base, wherein a backboard for arranging an 8-degree new material OLED panel is fixed on the surface of the base through a supporting structure, and an included angle is formed between the plane of the backboard and the surface of the base;

the base comprises a lower bottom frame and an upper bottom frame, and the upper bottom frame is fixedly connected above the lower bottom frame;

a plurality of compression bars are arranged on the surface of the backboard in a laminating way, and the compression bars are arranged on an 8-degree new material OLED panel on the surface of the backboard in a pressing way;

as a further preference of the utility model, a plurality of support bars are arranged in the backboard, and the support bars are arranged in a cross structure;

as a further preferred aspect of the present utility model, the upper bottom frame and the lower bottom frame are both provided in a rectangular structure, and a plurality of transverse support bars and a plurality of vertical support bars are arranged in the rectangular structure of the upper bottom frame, wherein the transverse support bars are parallel to the long side of the upper bottom frame, the vertical support bars are parallel to the short side of the upper bottom frame, and the transverse support bars and the vertical support bars are provided in a cross shape;

as a further preferred aspect of the present utility model, the upper bottom frame includes four lateral support bars and five vertical support bars, the four lateral support bars are respectively defined as a first lateral support bar, a second lateral support bar, a third lateral support bar and a fourth lateral support bar, the five vertical support bars are respectively defined as a first vertical support bar, a second vertical support bar, a third vertical support bar, a fourth vertical support bar and a fifth vertical support bar, the first lateral support bar, the second lateral support bar, the third lateral support bar and the fourth lateral support bar are sequentially arranged from one long side to the other long side of the upper bottom frame, and the first vertical support bar, the second vertical support bar, the third vertical support bar, the fourth vertical support bar and the fifth vertical support bar are sequentially arranged from one short side to the other short side of the upper bottom frame, wherein a distance between the first vertical support bar and the second vertical support bar is defined as L1, a distance between the second vertical support bar and the third vertical support bar is L3, a distance between the third vertical support bar and the fourth vertical support bar is L4, a distance between the fourth vertical support bar and the fifth vertical support bar is L5 = L4, and a distance between the fifth vertical support bar and L5 = L6 = L5;

as a further preferable mode of the utility model, the second transverse supporting bar and the third transverse supporting bar between the second vertical supporting bar and the third vertical supporting bar are provided with reinforcing bars in a bonding way, and the second transverse supporting bar and the third transverse supporting bar between the fourth vertical supporting bar and the fifth vertical supporting bar are provided with reinforcing bars in a bonding way;

as a further preferred aspect of the present utility model, support columns are respectively installed at four corner positions of the lower bottom frame, and four corner frames at the bottom of the upper bottom frame are erected on the matched support columns;

supporting columns formed by a plurality of aluminum extrusion type are supported between the upper bottom frame and the lower bottom frame;

as a further preferred aspect of the present utility model, a plurality of binding devices are respectively installed along two short sides of the upper bottom frame, and binding bands are respectively bound at two ends of the compression bar, and the binding bands are fixedly connected with the binding devices to realize connection of the compression bar and the base;

as a further preferred aspect of the utility model, the back plate forms an angle with the surface of the base of 8 degrees;

as a further preferable mode of the utility model, the supporting structure is a right-angle triangular supporting aluminum frame, the acute angle of the supporting aluminum frame is 8 degrees, and the surface of the supporting aluminum frame is inclined from the first transverse supporting bar to the fourth transverse supporting bar;

the bottom of the supporting aluminum frame is covered on the surface of the upper bottom frame;

as a further preferred feature of the utility model,

a plurality of storage boxes are arranged on the side edge of the base close to the right-angle edge of the support aluminum frame;

a plurality of island boards are arranged on the side edges of the base adjacent to the included angle.

Through the technical scheme, compared with the prior art, the utility model has the following beneficial effects:

1. according to the OLED panel carrying device, a carrying structure with a good bearing capacity is designed for an OLED panel product with a new material, so that various jolts and impacts can be effectively buffered in the transportation process of the product, and good protection of the product is realized;

2. the OLED panel carrying device provided by the utility model is made of aluminum, has light weight, and has better bearing capacity through reasonable structural layout.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a perspective view of a preferred embodiment provided by the present utility model;

FIG. 2 is a schematic view of the structure of the back plate and the compression bar portion in a preferred embodiment of the present utility model;

FIG. 3 is a schematic view of the structure of the upper bottom frame in the preferred embodiment of the present utility model;

FIG. 4 is a schematic view of a preferred embodiment of the present utility model;

fig. 5 is a schematic structural view of a lower bottom frame in a preferred embodiment provided by the present utility model.

In the figure: 1 is an upper underframe, 11 is a first transverse supporting bar, 12 is a second transverse supporting bar, 13 is a third transverse supporting bar, 14 is a fourth transverse supporting bar, 15 is a first vertical supporting bar, 16 is a second vertical supporting bar, 17 is a third vertical supporting bar, 18 is a fourth vertical supporting bar, 19 is a fifth vertical supporting bar, 2 is a lower underframe, 3 is a backboard, 4 is a binding device, 41 is a binding belt, 5 is a tooth fork protective sleeve, 6 is a small island board, 7 is a sign board, 8 is an aluminum extrusion type, 9 is a storage box, and 10 is a compression bar.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. In the description of the present application, it should be understood that the terms "left," "right," "upper," "lower," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, and are merely for convenience in describing the present utility model and simplifying the description, rather than indicating or implying that the apparatus or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and that "first," "second," etc. do not represent the importance of the components and therefore should not be construed as limiting the present utility model. The specific dimensions adopted in the present embodiment are only for illustrating the technical solution, and do not limit the protection scope of the present utility model.

The structure of the bearing table meeting various parts is quite many, but the bearing table for carrying the new material LED panel is quite rare, one is that the new material LED panel is quite various, and the second is that the new material LED panel is easy to break and pollute when being transported for precision electronic equipment, so the application provides a relatively targeted structure, namely the carrying device for the OLED panel, as shown in figure 1, is a three-dimensional schematic diagram of the whole structure, and comprises a base, a backboard for arranging the OLED panel is fixed on the surface of the base through a supporting structure, an included angle is formed between the plane of the backboard 3 and the surface of the base, the degree of the included angle formed by the backboard and the surface of the base is set to be 8 degrees through multiple experiments, and the stability of the OLED panel product during transportation and the conversion of different frame supports for overseas transportation of glass products can be matched conveniently; the base comprises a lower bottom frame 2 and an upper bottom frame 1, and the upper bottom frame is fixedly connected above the lower bottom frame; the whole frame structure is formed by welding aluminum pipes, and the flatness of the frame is set to be 0-3 mm. And a plurality of press rods 10 are arranged on the surface of the backboard in a laminating way, and are arranged on the OLED panel on the surface of the backboard in a pressing way.

As can be seen from fig. 2, the back plate is also formed by a plurality of aluminum support bars, and the support bars are arranged in a cross-shaped structure, so that the design manner not only saves the manufacturing cost, but also does not influence the bearing capacity. An explanation is made with respect to fig. 2 that the size of the squares formed in the frame of the back plate is not much constrained, and the reason why the widths of the second and fifth columns are smaller from the left to the right in view of fig. 2 is to match the size of the locking plates mounted on the back plate.

Next, the structure of the upper and lower bottom frames is illustrated, as shown in fig. 3 and 5, the upper and lower bottom frames are all rectangular structures, a plurality of transverse support bars and a plurality of vertical support bars are arranged in the rectangular structures of the upper bottom frame, wherein the transverse support bars are parallel to the long side of the upper bottom frame, the vertical support bars are parallel to the short side of the upper bottom frame, and the transverse support bars and the vertical support bars are in cross arrangement.

The upper bottom frame includes four lateral support bars and five vertical support bars, for convenience of explanation, the four lateral support bars are respectively defined as a first lateral support bar 11, a second lateral support bar 12, a third lateral support bar 13 and a fourth lateral support bar 14, the five vertical support bars are respectively defined as a first vertical support bar 15, a second vertical support bar 16, a third vertical support bar 17, a fourth vertical support bar 18 and a fifth vertical support bar 19, the first lateral support bar, the second lateral support bar, the third lateral support bar and the fourth lateral support bar are sequentially arranged from one long side to the other long side of the upper bottom frame (from top to bottom in the view angle of fig. 3), and likewise, one short side to the other short side of the upper bottom frame is sequentially arranged (from left to right in the view angle of fig. 3), wherein a distance between the first vertical support bar and an adjacent short side is defined as L1, a distance between the first vertical support bar and the second vertical support bar is L2, a distance between the second vertical support bar and the third vertical support bar and the fourth vertical support bar is L3 = 5L 2, a distance between the third vertical support bar and the fifth vertical support bar is L2 = 5L, and a distance between the third vertical support bar and the fifth vertical support bar is L = 5L 2. The square structure with smaller area is formed in the middle part of the upper bottom frame, and the layout of the square structure with larger area is formed on two sides, so that the lower bottom frame has better bearing capacity on the premise of ensuring the light weight of the whole frame system as far as possible.

Because the whole backboard part is directly overlapped and welded and fixed on the upper bottom frame, reinforcing strips are arranged on the second transverse supporting strip and the third transverse supporting strip which are positioned between the second vertical supporting strip and the third vertical supporting strip in a laminating way, and reinforcing strips are arranged on the second transverse supporting strip and the third transverse supporting strip which are positioned between the fourth vertical supporting strip and the fifth vertical supporting strip in a laminating way; the reinforcing strips can uniformly distribute the load of the backboard portion.

The four corners of the bottom of the upper underframe are erected on the matched support columns; meanwhile, the upper bottom frame and the lower bottom frame are supported by a plurality of support columns formed by the aluminum extrusion type 8 shown in fig. 4; the lower bottom frame is also composed of a plurality of aluminum supporting bars, and the supporting bars are arranged in a cross structure.

When the product is placed on the backboard, a plurality of pressing rods are needed to be pressed on the product for better fixing of the product, and the fixing mode of the pressing rods is as follows: a plurality of binding devices 4 are respectively arranged along two short sides of the upper bottom frame, binding belts 41 are respectively bound at two ends of the compression bar, and the binding belts are fixedly connected with the binding devices to realize connection of the compression bar and the base.

Because the degree of the included angle formed by the back plate and the surface of the base is limited to 8 degrees, the supporting structure for supporting the back plate to form the angle is correspondingly matched, as can be seen from fig. 2, the supporting structure is a right-angle triangle-shaped supporting aluminum frame, the acute angle of the supporting aluminum frame is 8 degrees, and the surface of the supporting aluminum frame is inclined from the first transverse supporting bar to the fourth transverse supporting bar; the bottom of the supporting aluminum frame is covered on the surface of the upper bottom frame.

A plurality of storage boxes 9 are arranged on the side edge of the base close to the right-angle edge of the supporting aluminum frame, so that various accessories can be conveniently stored.

In the carrying device designed by the application, a plurality of fine nodes are further included, for example, a tooth fork protecting sleeve 5 is designed at the middle position of the front side (front view of fig. 1) of the base, so that the carrying device is convenient for forklift transportation; island plates 6 are also designed and installed on two sides of the tooth fork protective sleeve; the nameplates 7 are arranged on two sides of the base, and a plurality of locking plates are also designed and arranged on the back plate and used for being connected with adjacent matched workpieces or realizing the connection between the back plate part and the base.

The application provides a panel carrier guarantees that the product is effectual buffering jolt and strikeed in the transportation, plays good protection to the product, especially when transporting 8 new material OLED panels for the product is not fragile.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The meaning of "and/or" as referred to in this application means that each exists alone or both.

As used herein, "connected" means either a direct connection between elements or an indirect connection between elements via other elements.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (9)

1. An OLED panel carrier, characterized by: the OLED panel comprises a base, wherein a backboard (3) for arranging the OLED panel is fixed on the surface of the base through a supporting structure, and an included angle is formed between the plane of the backboard (3) and the surface of the base;

the base comprises a lower bottom frame (2) and an upper bottom frame (1), wherein the upper bottom frame (1) is fixedly connected above the lower bottom frame (2);

a plurality of compression bars (10) are arranged on the surface of the backboard (3) in a bonding mode, and the compression bars (10) are arranged on the OLED panel arranged on the surface of the backboard (3) in a pressing mode;

the included angle formed by the back plate (3) and the surface of the base is 8 degrees.

2. The OLED panel carrier device of claim 1, wherein: the back plate (3) comprises a plurality of supporting bars which are arranged in a cross structure.

3. The OLED panel carrier device of claim 2, wherein: the upper underframe (1) and the lower underframe (2) are all rectangular structures, a plurality of transverse supporting bars and a plurality of vertical supporting bars are arranged in the rectangular structures of the upper underframe (1), wherein the transverse supporting bars are parallel to the long side of the upper underframe (1), the vertical supporting bars are parallel to the short side of the upper underframe (1), and the transverse supporting bars and the vertical supporting bars are in cross-shaped arrangement.

4. The OLED panel carrier device in accordance with claim 3, wherein: the upper underframe (1) comprises four transverse supporting bars and five vertical supporting bars, the four transverse supporting bars are respectively defined as a first transverse supporting bar (11), a second transverse supporting bar (12), a third transverse supporting bar (13) and a fourth transverse supporting bar (14), the five vertical supporting bars are respectively defined as a first vertical supporting bar (15), a second vertical supporting bar (16), a third vertical supporting bar (17), a fourth vertical supporting bar (18) and a fifth vertical supporting bar (19), the first transverse supporting bar (11), the second transverse supporting bar (12), the third transverse supporting bar (13) and the fourth transverse supporting bar (14) are sequentially arranged from one long side to the other long side of the upper underframe (1), and the same is true, the first vertical supporting bar (15), the second vertical supporting bar (16), the third vertical supporting bar (17), the fourth vertical supporting bar (18) and the fifth vertical supporting bar (19) are sequentially arranged from one short side to the other short side of the upper underframe (1), the distance between the first vertical supporting bar (15) and the adjacent short side is L1, the distance between the first vertical supporting bar (15) and the second vertical supporting bar (16) is the vertical distance L3 between the first vertical supporting bar (16) and the third vertical supporting bar (16) and the distance L3, the distance between the third vertical supporting bar (17) and the fourth vertical supporting bar (18) is L4, the distance between the fourth vertical supporting bar (18) and the fifth vertical supporting bar (19) is L5, and the distance between the fifth vertical supporting bar (19) and the adjacent short side is L6, wherein L2=L5 > L3=L4 > L1=L6.

5. The OLED panel carrier device of claim 4, wherein: reinforcing bars are arranged on the second transverse supporting bars (12) and the third transverse supporting bars (13) between the second vertical supporting bars (16) and the third vertical supporting bars (17), and reinforcing bars are arranged on the second transverse supporting bars (12) and the third transverse supporting bars (13) between the fourth vertical supporting bars (18) and the fifth vertical supporting bars (19).

6. The OLED panel carrier device of claim 5, wherein: the four corners of the bottom of the upper bottom frame (1) are erected on the matched support columns;

support columns formed by a plurality of aluminum extrusion type (8) are supported between the upper bottom frame (1) and the lower bottom frame (2).

7. The OLED panel carrier device of claim 1, wherein: a plurality of binding devices (4) are respectively arranged along two short sides of the upper bottom frame (1), binding belts (41) are respectively bound at two ends of the compression bar (10), and the binding belts (41) are fixedly connected with the binding devices (4) to realize connection of the compression bar (10) and the base.

8. The OLED panel carrier device of claim 7, wherein: the supporting structure is a right-angle triangular supporting aluminum frame, the acute angle of the supporting aluminum frame is 8 degrees, and the surface of the supporting aluminum frame is inclined from the first transverse supporting bar (11) to the fourth transverse supporting bar (14);

the bottom of the supporting aluminum frame is covered on the surface of the upper bottom frame (1).

9. The OLED panel carrier device of claim 1, wherein:

a plurality of storage boxes are arranged on the side edge of the base close to the right-angle edge of the support aluminum frame;

a plurality of island boards (6) are arranged on the side edges of the base adjacent to the included angle.

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