TW201401403A - Assembly of bearing device and object and bearing device thereof - Google Patents

Abstract

A bearing device comprises a first main body and a second main body. The first main body comprises a first bearing plate. The first bearing plate has a first bottom surface and a first bearing surface opposite to the first bottom surface. A slot passes through the first bearing plate from the first bearing surface to the first bottom surface. The second main body comprises a second bearing plate inlaying in the slot. The second bearing plate has a second bottom surface and a second bearing surface opposite to the first second surface. The second bottom surface and the first bottom surface face the same direction. The vertical distance between the first bearing surface and the first bottom surface is greater than the vertical distance between the second bearing surface and the first bottom surface.

Description

Combination of carrier device and carrier device and loaded object

The invention relates to a combination of a carrying device and a carrying device and a loaded object, in particular to a combination of a carrying device with a height difference of two bearing surfaces and a carrying device and a loaded object.

Taking the process of a conventional liquid crystal display as an example, when a semi-finished product of a panel glass of a liquid crystal display is completed, a semi-finished product of each panel glass is packaged together with a driving circuit board electrically connected thereto. Then, the semi-finished products of the panel glass are transported to the next place for the assembly process of the connected liquid crystal display. Furthermore, in the process of boxing, the semi-finished products of the panel glass with the driving circuit board are stacked on each other and installed in a box body, so that the box body can accommodate a larger number of semi-finished products of the panel glass.

However, as the performance of liquid crystal displays continues to increase, the volume or thickness of electronic components included in the drive circuit board is relatively increased. As a result, the overall thickness of the driving circuit board is made larger than the thickness of the semi-finished product of the panel glass. When the semi-finished products of the panel glass are stacked on one another, the cumulative thickness of the stack of these drive boards will be much higher than the cumulative thickness of the stack of semi-finished products of these panel glasses. In order to avoid the cumulative thickness of the stack of these driving circuit boards beyond the height that the cabinet can accommodate, it is necessary to reduce the number of semi-finished products in which the cabinet accommodates the panel glass. As a result, the cumulative thickness of the semi-finished products of the panel glass will be far less than the maximum height that the cabinet can accommodate, thereby causing waste of the internal space of the cabinet. And, due to the stacking of semi-finished products of panel glass The cumulative thickness is far less than the maximum height that can be accommodated in the cabinet, so that the unused space inside the cabinet is too much, so that the semi-finished products of the panel glass may collide and collide with each other during transportation to cause defects.

The invention provides a combination of a carrying device and a carrying device and a loaded object, so as to avoid adverse effects on the packaging caused by the overall thickness of the driving circuit board being greater than the thickness of the semi-finished product of the panel glass.

The carrying device disclosed in the present invention comprises a first body and a second body. The first body includes a first carrier plate, and the first carrier plate has a first bottom surface and a first bearing surface. The first carrier plate has a through slot, and the through slot extends from the first bearing surface to the first bottom surface. The second body comprises a second carrier plate embedded in the slot. The second carrier plate has a second bottom surface and a second bearing surface, and the second bottom surface and the first bottom surface face in the same direction. The vertical distance from the first bearing surface to the first bottom surface is greater than the vertical distance from the second bearing surface to the first bottom surface.

The combination of the carrying device and the loaded object disclosed in the present invention comprises a plurality of objects and at least two carrying devices. Each of the objects includes a first body, a second body, and a connecting member connecting the first body and the second body. The thickness of the first body is less than the thickness of the second body. Each carrying device includes a first body and a second body. The first body includes a first carrier plate and a ring-shaped side wall surrounding the first carrier plate. The first carrier plate has a first bottom surface and a first bearing surface. The first carrier plate has a through slot, and the through slot extends from the first bearing surface to the first bottom surface. The second body comprises a second carrier plate embedded in the slot. The second carrier plate has a second and a second The bottom surface and a second bearing surface, the second bottom surface and the first bottom surface face in the same direction. The vertical distance from the first bearing surface to the first bottom surface is greater than the vertical distance from the second bearing surface to the first bottom surface. Wherein each of the carrying devices accommodates a plurality of the stacked objects stacked on each other, and the first embodiments of the loaded objects are stacked on the first bearing surface, and the second systems of the loaded objects are stacked on the first load. The second bearing surface. The first carrier plate of one of the carrying devices is stacked on the annular side wall of the other carrying device, and the second system of the loaded objects accommodated by the lower carrying device is not the same as the carrying device of the upper layer. The two carrier plates interfere.

The carrying device disclosed in the present invention has a carrier body having a bottom surface of the device and a first bearing surface opposite to the bottom surface of the device. The first bearing surface is recessed downwardly and has a groove, and the groove bottom of the groove has a second bearing surface. The vertical distance of the first bearing surface from the one end of the groove to the second bearing surface is a, the distance between the first bearing surface and one end of the groove to the bottom surface of the device is b, and the first bearing surface is away from one end of the groove to the bottom surface of the device. The distance is c. Where a:b is 10:10.5 and b:c ranges from 10.5:11.1 to 10.5:25.

The combination of the carrying device and the loaded object disclosed in the present invention comprises a plurality of loaded objects and a carrying device. Each of the objects has a first body, a second body, and a connecting member connecting the first body and the second body. The thickness of the first body is smaller than the thickness of the second body. The carrying device has a carrier body including a bottom surface of the device and a first bearing surface opposite to the bottom surface of the device. The first bearing surface is recessed downwardly and has a groove, and the groove bottom of the groove has a second bearing surface. The vertical distance of the first bearing surface from one end of the groove to the second bearing surface is a, and the first bearing surface is adjacent to one end of the groove The distance to the bottom surface of the device is b, and the distance from the first bearing surface away from one end of the groove to the bottom surface of the device is c. a:b is 10:10.5, and b:c ranges from 10.5:11.1 to 10.5:25. The first systems of the loaded objects are stacked on the first bearing surface, and the second systems of the loaded objects are stacked on the second bearing surface. The maximum vertical distance from the first body of the uppermost load to the bottom surface of the device is h1, and the maximum vertical distance from the second body of the uppermost load to the bottom surface of the device is h2. Where | h2-h1 |<3mm.

According to the combination of the carrying device and the carrying device and the object to be loaded, the height difference between the first bearing surface and the second bearing surface is used to compensate between the second body of the object and the first body. The height difference is such that the height difference between the uppermost second body and the uppermost first body can be reduced as much as possible. In this way, the problem that the second upper body of the uppermost layer interferes with the second carrier plate of the upper layer carrying device is avoided, and the load of the carrying device can be simultaneously increased. In addition, since the first bearing surface can be an inclined surface, the height difference between the first body of the uppermost layer and the second body of the uppermost layer can be further reduced, and the first body of the uppermost layer is reduced. A gap with the upper carrier. In this way, it is possible to reduce the adverse effect of the collision caused by the up and down vibration caused by the carrier during transportation.

The features, implementations, and utilities of the present invention are described in detail below with reference to the drawings.

1 to 3, FIG. 1 is a perspective view showing the structure of a carrier device according to an embodiment of the present invention, and FIG. 2 is a junction of the carrier device according to FIG. Fig. 3 is a cross-sectional view showing the structure of the carrying device according to the line 33 of Fig. 1.

The carrying device 10 of the present embodiment is suitable for carrying a semi-finished product of the display panel glass as a semi-finished product of the display panel glass, but the field of application of the carrying device 10 is not intended to limit the present invention.

The carrying device 10 includes a first body 110 and a second body 120. The first body 110 includes a first carrier plate 112 and a ring-shaped spacer 114 surrounding the first carrier plate 112. The first carrier plate 112 has a first bottom surface 1122 and a first bearing surface 1121. The first bottom surface 1122 is substantially parallel to the first bearing surface 1121. The first carrier plate 112 has a through slot 118 through which the through slot 118 extends from the first bearing surface 1121 to the first bottom surface 1122.

The second body 120 includes a second carrier 122 , and the second carrier 122 is embedded in the slot 118 . The second carrier 122 and the first carrier 112 together form a carrier 100. The second carrier plate 122 closes the opening of the slot 118 near one side of the first bottom surface 1122 to make the slot 118 a recess 104. The second bottom plate 1222 has a second bottom surface 1222 and a second bearing surface 1221. The second bottom surface 1222 is substantially parallel to the second bearing surface 1221, and the second bottom surface 1222 and the first bottom surface 1122 are in the same direction. Moreover, in the embodiment, the second bottom surface 1222 and the first bottom surface 1122 are coplanar, but not limited thereto. The vertical distance d1 of the first bearing surface 1121 to the first bottom surface 1122 is greater than the vertical distance d2 of the second bearing surface 1221 to the first bottom surface 1122. The second bearing surface 1221 can be regarded as the groove bottom surface of the groove 104.

In addition, in this embodiment or other embodiments, the first body 110 further includes a first The first set of structures 116. The first set of configuration 116 can be, but is not limited to, a rib. One side of the second carrier plate 122 has a side wall 124, and the bottom of the side wall 124 has a second assembly structure 126. The second set of structures 126 can be, but is not limited to, a card slot that is recessed toward the interior of the side wall 124. The second assembly structure 126 is coupled to the first assembly structure 116 to fix the second body 120 to the first body 110.

In addition, in the embodiment or other embodiments, the first body 110 further includes a storage slot 119 interposed between the first carrier plate 112 and the annular side wall 114. The storage tank 119 is used for accommodating accessories such as a desiccant, but is not limited thereto.

In this embodiment or other embodiments, the material of the first body 110 may be a foaming material such as a polypropylene (PP) foam. The material of the second body 120 may be a non-foamed plastic, such as polyethylene terephthalate (PET).

Since the material of the first body 110 is a foamed material, the first body 110 has a minimum thickness limit in the process design (it is required to be larger than the foaming diameter of the foamed material itself). For example, if the material of the first body 110 is a foamed material, the minimum thickness of each structure of the first carrier plate 112 needs to be greater than or equal to 10 mm. Therefore, if it is necessary to form the groove 104 directly on the first carrier plate 112 in an integrally formed manner, the thickness of the first carrier plate 112 will need to be increased, so that the thickness of the bottom of the groove 104 can be at least greater than 10 mm to facilitate Forming. However, as a result, the overall thickness of the carrier device 10 will be too thick. If the thickness of the first carrier plate 112 needs to be maintained at 10 mm, and the groove 104 needs to be directly formed on the first carrier plate 112, the first body 110 cannot be made of a foamed material, and needs to be replaced by other materials. .

In order to overcome the above problems, in the present embodiment, the first carrier plate 112 is still formed by using a foam material, but the through hole 118 is provided in the first carrier plate 112. Moreover, the second body 120 is made of a non-foamed material, so that the thickness of the second carrier 122 of the second body 120 can be much smaller than the thickness of the first carrier 112. For example, the thickness of the second carrier 122 can be 1.2 mm. . Moreover, the second carrier 122 of the second body 120 is embedded in the through slot 118 to form the recess 104. Thus, the second carrier plate 122 will become the bottom of the groove of the groove 104, and the thickness of the bottom of the groove 104 of the groove 104 (ie, the thickness of the second carrier plate 122) will be much smaller than that of the first carrier plate 112. The minimum thickness of the time.

In this way, the thickness of the first carrier plate 112 can be maintained at the minimum thickness value (for example, 10 mm) when the foam material is formed, so that the carrier device 10 can be as thin as possible, and the cost of the process can be saved.

4 and 5, FIG. 4 and FIG. 5 are structural cross-sectional views showing a combination of a carrier device and a loaded object according to an embodiment of the present invention.

The combination of the carrying device and the loaded object disclosed in the embodiment includes a plurality of objects 20 and at least two carrying devices 10. Since the structure of the carrier device 10 of the present embodiment is the same as that of the carrier device 10 of the embodiment of FIGS. 1 to 3, the structural features of the carrier device 10 will not be described again.

The object to be loaded 20 of the present embodiment includes a first body 21, a second body 22, and a connecting member 23 connecting the first body 21 and the second body 22. The first body 21 is exemplified by a semi-finished product of the display panel glass, and the second body 22 is exemplified by a driving circuit board. The connecting member 23 is exemplified by a soft connecting line connecting the semi-finished product of the display panel glass and the driving circuit board. But not limited to this. The thickness of the first body 21 described above D3 (for example, 1.5 mm) is smaller than the thickness d4 of the second body 22 (for example, 4.55 mm).

The carrier device 10 is configured to carry the above-described object 20 as a package material for the object 20 to be loaded. Moreover, the illustration of the present embodiment is exemplified by a single carrier device 10 capable of carrying eight loaded objects 20, but the number of carriers 20 that can be carried by a single carrier device 10 is not intended to limit the present invention. Further, the loaded objects 20 are stacked on each other and disposed in the carrier device 10. Further, the first bodies 21 of the objects 20 are stacked on the first bearing surface 1121 , and the second bodies 22 of the objects 20 are stacked on the second bearing surface 1221. It should be noted that the loads 20 of the embodiment are exemplified by direct contact stacking with each other, but in other embodiments, a protective pad may be added between the loaded object 20 and the loaded object 20 to reach The effect of protection.

In addition, each carrier device 10 is stacked on top of each other after each carrier device 10 is loaded with the loaded objects 20 for subsequent shipping. Furthermore, the first carrier plate 112a of the upper carrier device 10a is stacked on the annular side wall 114 of the lower carrier device 10 to cover the loaded object 20 accommodated in the lower carrier device 10. Moreover, the second bodies 22 of the objects 20 accommodated by the lower deck 10 do not interfere with the second carrier 122a of the upper carrier 10a.

Although the thickness d4 of the second body 22 of the loaded object 20 is greater than the thickness of the first body 21 of the loaded object 20, the height accumulated by the stacking of the second body 22 is greater than the height accumulated by the stack of the first body 21. However, due to the difference in height between the first bearing surface 1121 and the second bearing surface 1221, the accumulated height of the second body 22 after the stacking is compensated for, so as to make the uppermost second body 22 and the uppermost layer as possible. First The height difference between the bodies 21 can be reduced to prevent the uppermost second body 22 from interfering with the second carrier plate 122a of the upper layer carrier 10a. For example, if the height accumulated by the stacking of the second body 22 is, for example, 4.55×8=36.4 mm, and the accumulated height of the stack of the first body 21 is, for example, 1.5×8=12 mm, the height of the second upper body 22 of the uppermost layer. The height of the first body 21 which is higher than the uppermost layer is 24.4 mm. However, since the height difference (for example, 8.8 mm) between the first bearing surface 1121 and the second bearing surface 1221 of the carrying device 10 of the present embodiment, when the loaded objects 20 are placed in the carrying device 10, the most The difference in height between the second body 22 of the upper layer and the first body 21 of the uppermost layer can be reduced to 15.6 mm. In this way, the number of the loaded objects 20 that can be accommodated by the carrying device 10 can be increased to reduce the number and cost of use of the carrying device 10. For example, if there is no height difference between the second bearing surface 1221 and the first bearing surface 1121 (ie, the second bearing surface 1221 is equal to the first bearing surface 1121), the single carrier device 10 can only accommodate five pieces. The load, but when there is a height difference between the second bearing surface 1221 and the first bearing surface 1121 (ie, the second bearing surface 1221 is lower than the first bearing surface 1121), the number of loaded objects carried by the single carrier device 10 will be Can be increased to eight to ten.

Please refer to FIG. 6 , FIG. 7 and FIG. 8 , FIG. 6 is a cross-sectional view showing the structure of a carrying device according to another embodiment of the present invention, and FIGS. 7 and 8 are another embodiment of the present invention. A cross-sectional view of the structure of the combination of the carrier and the loaded object.

The carrying device 10' of this embodiment is similar to the carrying device 10 of Fig. 3, and therefore only the differences will be described. The difference between the carrier device 10' of the present embodiment and the carrier device 10 of Figure 3 is that the first bearing surface 1121' is opposite the first bottom surface 1122' (or The device bottom surface 102') is inclined at an acute angle θ, and the acute angle θ may range from 0.5 to 5 degrees. Thus, the vertical distance b between the end of the first bearing surface 1121 ′ adjacent to the second carrier plate 122 ′ (or the groove 104 ′) to the device bottom surface 102 ′ is smaller than the distance between the first bearing surface 11 21 ′ and the second carrier plate 122 ′ ( Or a vertical distance c from one end of the groove 104') to the bottom surface 102' of the device. Moreover, the first bearing surface 1121' has a vertical distance a adjacent to one end of the second carrier plate 122' (or the groove 104') to the second bearing surface 1221'. The above a:b is 10:10.5, and the above range of b:c is 10.5:11.1 to 10.5:25. Preferably, the above a:b:c is 10:10.5:11.1.

The carrying device 10' is used to carry the loaded object 20 as a packaging material for the loaded object 20. Since the loaded object 20 of the present embodiment is the same as the loaded object 20 shown in FIGS. 4 and 5, the detailed structure of the loaded object 20 will not be described again.

As shown in FIG. 7 , the first bodies 21 of the objects 20 are stacked on the first bearing surface 1121 ′. The second bodies 22 of the objects 20 are stacked on the second bearing surface 1221 . 'on. Since the first bearing surface 1121 ′ is an inclined surface, when the first body 21 is stacked on the first bearing surface 1121 ′, the one ends of the first body 21 away from the second body 22 are higher than these. The first body 21 is adjacent to one end of the second bodies 22. In addition, the maximum vertical distance from the first body 21 of the uppermost substrate 20 to the device bottom surface 102' is h1 (ie, the vertical distance of the uppermost first body 21 away from the end of the second body 22 to the device bottom surface 102'). The maximum vertical distance from the second body 22 of the uppermost load 20 to the bottom surface 102' of the device is h2, and | h2-h1 | 3mm. Preferably, h2 can be equal to h1.

Furthermore, since the first bearing surface 1121' is opposite to the first bottom surface 1122' (or device bottom surface 102') is inclined by an acute angle θ such that distance a: distance b: distance c has the above-described relationship ratio. Therefore, when the loaded objects 20 are stacked in the carrying device 10', one end of the first body 21 away from the second body 22 is higher than one end of the first body 21 adjacent to the second body 22. In this way, the height difference between the first body 21 of the uppermost layer and the second body 22 of the uppermost layer (ie, |h2-h1|) can be greatly reduced, and even the uppermost layer of the first body 21 and the uppermost layer can be The height of the second body 22 can be uniform. Meanwhile, when the upper layer carrier device 10a' is stacked on the lower layer carrier device 10', the gap g between the first body 21 and the upper layer carrier device 10a' of the uppermost substrate 20 of the lower layer carrier device 10' is The figure 8 can also be reduced. As a result, when the loaded object 20 accommodated in the carrying device 10' is transported, the adverse effect of the collision of the loaded object 20 by the excessively large gap g can be greatly reduced.

According to the combination of the carrying device and the carrying device and the loaded object according to the above embodiment, the height difference between the first bearing surface and the second bearing surface is used to compensate the height between the second body and the first body of the loaded object. Poor, so as to make the height difference between the uppermost second body and the uppermost first body as small as possible, so as to avoid the problem that the uppermost second body interferes with the second carrier of the upper carrier And can simultaneously increase the load of the carrying device. In addition, since the first bearing surface can be an inclined surface, the height difference between the first body of the uppermost layer and the second body of the uppermost layer can be further reduced, and the first body of the uppermost layer is reduced. A gap with the upper carrier. In this way, it is possible to reduce the adverse effect of the collision caused by the up and down vibration caused by the carrier during transportation.

Although the present invention has been disclosed above in the foregoing preferred embodiments, it is not intended to be limiting. The invention is not limited to the spirit and scope of the present invention, and may be modified and retouched. The scope of the patent application attached to this specification shall prevail.

10‧‧‧ Carrying device

10’‧‧‧ Carrying device

10a‧‧‧ Carrying device

10a’‧‧‧ Carrying device

100‧‧‧Carrier

102‧‧‧The bottom of the device

102'‧‧‧ device bottom

104‧‧‧ Groove

104’‧‧‧ Groove

110‧‧‧ first subject

112‧‧‧First carrier board

112a‧‧‧First carrier board

112a’‧‧‧First carrier board

1121‧‧‧First bearing surface

1121'‧‧‧First bearing surface

1122‧‧‧ first bottom surface

114‧‧‧ ring side wall

116‧‧‧First group structure

118‧‧‧through slot

119‧‧ ‧ Storage trough

120‧‧‧Second subject

122‧‧‧Second carrier board

122a‧‧‧Second carrier board

122a’‧‧‧Second carrier board

1221‧‧‧Second bearing surface

1221'‧‧‧second bearing surface

1222‧‧‧second bottom surface

124‧‧‧ Side wall

126‧‧‧Second group structure

20‧‧‧Loaded

21‧‧‧First Ontology

22‧‧‧Second ontology

23‧‧‧Connecting parts

1 is a perspective view showing the structure of a carrier device according to an embodiment of the present invention.

Figure 2 is an exploded view of the structure of the carrier device according to Figure 1.

Fig. 3 is a cross-sectional view showing the structure of the carrying device according to the line 33 of Fig. 1.

4 and 5 are structural cross-sectional views showing a combination of a carrier device and a loaded object according to an embodiment of the present invention.

Figure 6 is a cross-sectional view showing the structure of a carrier device according to another embodiment of the present invention.

7 and 8 are structural cross-sectional views showing a combination of a carrier device and a loaded object according to another embodiment of the present invention.

10‧‧‧ Carrying device

110‧‧‧ first subject

112‧‧‧First carrier board

1121‧‧‧First bearing surface

114‧‧‧ ring side wall

116‧‧‧First group structure

118‧‧‧through slot

119‧‧ ‧ Storage trough

120‧‧‧Second subject

122‧‧‧Second carrier board

1221‧‧‧Second bearing surface

124‧‧‧ Side wall

126‧‧‧Second group structure

Claims (20)

A carrier device includes: a first body, comprising a first carrier plate, the first carrier plate has a first bottom surface and a first bearing surface, the first carrier plate has a slot, the slot The first carrier surface is inserted into the first bottom surface; and the second body includes a second carrier plate embedded in the slot, the second carrier has a second bottom surface and a second carrier The second bottom surface and the first bottom surface face in the same direction, and the vertical distance from the first bearing surface to the first bottom surface is greater than the vertical distance from the second bearing surface to the first bottom surface. The carrier device of claim 1, wherein the first body is made of a foamed material. The carrier device of claim 1, wherein the first body further comprises a first assembly structure, the second body further comprises a second assembly structure, and the second assembly structure is coupled to the first group The structure is configured to fix the second body to the first body. The carrier device of claim 3, wherein the first assembly structure is a rib, and the second assembly structure is a card slot. The load bearing device of claim 1, wherein the first bearing surface is inclined at an acute angle with respect to the first bottom surface, and the vertical distance of the first bearing surface adjacent to one end of the second carrier plate to the first bottom surface is smaller than the The first bearing surface is away from a vertical distance from one end of the second carrier plate to the first bottom surface. The carrier device of claim 5, wherein the acute angle is from 0.5 to 5 degrees. The carrier device of claim 1, wherein the second bottom surface and the first bottom surface are Coplanar. The carrier device of claim 1, wherein the first body further comprises a ring-shaped side wall surrounding the first carrier plate. A combination of a carrying device and a loaded object, comprising: a plurality of loaded objects, each of the loaded objects comprising a first body, a second body, and a connecting member connecting the first body and the second body, The thickness of the first body is smaller than the thickness of the second body; and at least two carrying devices, each of the carrying devices includes: a first body, including a first carrier plate and a ring shape surrounding the first carrier plate The first carrier plate has a first bottom surface and a first bearing surface, the first carrier plate has a through slot, the through slot is penetrated from the first bearing surface to the first bottom surface; The second body includes a second carrier plate, and the second carrier plate has a second bottom surface and a second bearing surface. The second bottom surface and the first bottom surface face in the same direction. The vertical distance from the first bearing surface to the first bottom surface is greater than the vertical distance from the second bearing surface to the first bottom surface; wherein each of the carrying devices accommodates a plurality of the stacked objects stacked on each other, and the Some of the first system stacks of the loaded objects On the first carrying surface, the second systems of the loaded objects are stacked on the second carrying surface, and the first carrying plate of the carrying device is stacked on the other supporting device. The ring-shaped side wall, and the second pieces of the loaded objects contained in the lower layer of the carrying device The system does not interfere with the second carrier plate of the upper carrier. The combination of the carrying device and the loaded object according to claim 9, wherein the material of the first body is a foamed material. The combination of the carrying device and the loaded object according to claim 9, wherein the first body of each of the carrying devices further comprises a first assembled structure, and the second body further comprises a second assembled structure, The second assembly structure is coupled to the first assembly structure to fix the second body to the first body. The combination of the carrying device and the loaded object according to claim 11, wherein the first assembled structure is a rib, and the second assembled structure is a card slot. The combination of the carrying device and the loaded object according to claim 9, wherein the first bearing surface is inclined at an acute angle with respect to the first bottom surface, the first bearing surface being adjacent to one end of the second carrier plate to the first bottom surface The vertical distance is less than the vertical distance of the first bearing surface away from one end of the second carrier plate to the first bottom surface. The combination of the carrying device and the loaded object as claimed in claim 13, wherein the acute angle is from 0.5 to 5 degrees. The combination of the carrying device and the loaded object according to claim 9, wherein the second bottom surface is coplanar with the first bottom surface. A carrier device has a carrier body having a bottom surface of the device and a first bearing surface opposite to the bottom surface of the device, the first bearing surface having a recess facing downward and having a groove, the groove bottom of the groove having a groove a second bearing surface, the first bearing surface is perpendicular to a distance from one end of the groove to the second bearing surface, and a distance from the one end of the first bearing surface to the bottom surface of the device is b. One bearer The distance from one end of the groove to the bottom surface of the device is c, wherein a:b is 10:10.5 and b:c is in the range of 10.5:11.1 to 10.5:25. The carrier device of claim 16, wherein a:b:c is 10:10.5:11.1. A combination of a carrying device and a loaded object, comprising: a plurality of loaded objects, each of the loaded objects having a first body, a second body, and a connecting member connecting the first body and the second body, The thickness of the first body is smaller than the thickness of the second body; and a carrying device has a carrier body, the carrier body includes a bottom surface of the device and a first bearing surface opposite to the bottom surface of the device, the first bearing surface a recessed portion having a recess, the groove bottom of the recess having a second bearing surface, the first bearing surface being adjacent to the second end of the recess to the second bearing surface at a vertical distance a, the first bearing surface adjacent to The distance from one end of the groove to the bottom surface of the device is b, the distance from the one end of the first bearing surface away from the end of the groove to the bottom surface of the device is c, a:b is 10:10.5, and the range of b:c is 10.5: 11.1 to 10.5:25; wherein the first systems of the loaded objects are stacked on the first bearing surface, and the second systems of the loaded objects are stacked on the second bearing surface The uppermost layer of the first body of the loaded object to the bottom of the device The maximum vertical distance as the vertical distance h1, which is the uppermost layer of the loading apparatus of the second body to the bottom surface of h2, where, | h2-h1 | 3mm. A combination of a carrier device and a loaded object as claimed in claim 18, wherein a:b:c is 10:10.5:11.1. A combination of the carrier device and the loaded object as claimed in claim 18, wherein h2 = h1.