CN210823295U - Bearing disc assembly and bearing disc stacking assembly - Google Patents

Abstract

The utility model provides a bear and hold set subassembly and bear and hold a set stack assembly. The bearing disc assembly comprises a bearing disc and at least one adjusting piece. The bearing plate comprises a bottom plate, wherein the bottom plate is provided with a plurality of guide grooves. The adjusting member is movably disposed in one of the guide grooves. The adjusting piece comprises a bearing part and a positioning column. The positioning columns extend out from the bottom of the bearing part, and are inserted into the corresponding guide grooves. The side surface of the positioning column positioned in the guide groove comprises at least one protruding part.

Description

Bearing disc assembly and bearing disc stacking assembly

Technical Field

The utility model relates to a hold carrier and use thereof, especially relate to a bear a set subassembly and bear a set stack assembly.

Background

The bearing discs are mainly used for bearing electronic articles such as backlight modules or screens, and the bearing discs can be mutually stacked so as to achieve the purposes of saving space and facilitating carrying.

However, electronic articles with different sizes and shapes are respectively loaded by using carrier trays with different sizes and shapes, and therefore, the electronic articles cannot be shared with other electronic articles with different sizes or shapes, which results in poor applicability of the carrier trays.

SUMMERY OF THE UTILITY MODEL

Therefore, the present invention is directed to a carrier tray assembly and a carrier tray stacking assembly, wherein the design of the carrier tray assembly can make the same carrier tray capable of carrying and spacing electronic articles with different sizes and shapes.

In accordance with the above objects of embodiments of the present disclosure, a carrier platter assembly is provided. The bearing disc assembly comprises a bearing disc and at least one adjusting piece. The bearing plate comprises a bottom plate, wherein the bottom plate is provided with a plurality of guide grooves, and the bottom plate can bear at least one electronic article. The adjusting member is movably disposed in one of the guide grooves. The adjusting piece comprises a bearing part and a positioning column. The positioning column extends out from the bottom of the bearing part, wherein the positioning column is inserted into the corresponding guide groove, and the side surface of the positioning column, which is positioned in the guide groove, comprises at least one protruding part.

According to the embodiment of the disclosure, a protruding structure is disposed on the bottom surface of each guide groove, and a recessed structure corresponding to the protruding structure is disposed on the top surface of the bearing portion of the adjusting member.

According to an embodiment of the present disclosure, the adjusting member may be movable in the guide groove along the moving direction. Each guide groove is provided with a plurality of positioning parts and a plurality of necks which are mutually staggered along the moving direction, and the width of each neck is smaller than that of each positioning part.

According to an embodiment of the present disclosure, the bottom end of the positioning column has a slot, and an extending direction of the slot is parallel to the moving direction.

According to an embodiment of the present disclosure, the adjusting member further includes a carrier, and the surface of the base plate has a plurality of ribs and/or bosses, wherein the surface of the ribs and/or bosses is coplanar with the surface of the carrier.

According to an embodiment of the present disclosure, the guide grooves include at least one first guide groove parallel to the first direction and at least one second guide groove parallel to the second direction. Wherein the first direction and the second direction are perpendicular to each other.

In accordance with the above objects of embodiments of the present disclosure, a carrier tray stack assembly is provided. The tray stack assembly is used for receiving at least one electronic article. The carrier tray stacking assembly comprises at least two carrier trays stacked on each other and at least one adjusting member, and at least one electronic article is positioned between the carrier trays stacked on each other. Each bearing plate comprises a bottom plate, wherein the bottom plate is provided with a plurality of guide grooves. The adjusting piece is movably arranged in one of the guide grooves, wherein the adjusting piece comprises a bearing part and a positioning column. The positioning column extends out from the bottom of the bearing part, wherein the positioning column is inserted into the corresponding guide groove, and the side surface of the positioning column, which is positioned in the guide groove, comprises at least one protruding part. Wherein, the bottom plate of one of the bearing disks is borne on the bearing part of the adjusting piece on the adjacent bearing disk.

According to the embodiment of the disclosure, the bottom surface of each guide groove is provided with a protruding structure. The top surface of the bearing part of the adjusting piece is provided with a concave structure corresponding to the convex structure. The concave structure of the adjusting piece on one of the bearing discs is used for embedding the convex structure of the bottom surface of the corresponding guide groove in the adjacent bearing disc.

According to an embodiment of the present disclosure, the adjusting member may be movable in the guide groove along the moving direction. Each guide groove is provided with a plurality of positioning parts and a plurality of necks which are mutually staggered along the moving direction, and the width of each neck is smaller than that of each positioning part.

According to an embodiment of the present disclosure, the bottom end of the positioning column of the adjusting member has a slot, and an extending direction of the slot is parallel to the moving direction.

According to an embodiment of the present disclosure, the adjusting member further includes a stage connected to a side surface of the carrying portion. The surface of the bottom plate is provided with a plurality of convex ribs and/or convex bosses, wherein the carrier and the convex ribs and/or convex bosses bear the electronic article together, and the side faces are abutted against the edge of the electronic article.

According to an embodiment of the present disclosure, the guide grooves of each of the carrier trays include at least one first guide groove parallel to the first direction and at least one second guide groove parallel to the second direction. The first direction and the second direction are perpendicular to each other.

In view of the above, the present disclosure utilizes the design of the carrier tray and the adjustment member to satisfy the requirements of carrying articles of different sizes. Specifically, the design of the guide groove on the bearing disc and the positioning column of the adjusting piece provides a user with the purpose of changing the position of the adjusting piece fixed in the guide groove according to the size requirement of the article to be borne, so as to limit the article to be borne. In addition, the side surface of the positioning column of the adjusting piece is provided with a convex part which can further limit the adjusting piece to rotate relative to the bearing disc.

Drawings

For a more complete understanding of the embodiments and the advantages thereof, reference is now made to the following descriptions taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic diagram illustrating the construction of a carrier platter assembly according to an embodiment of the present disclosure;

FIG. 2 is a partially exploded schematic view illustrating a carrier platter assembly in accordance with an embodiment of the present disclosure;

FIG. 3 is a schematic view illustrating a use state of a carrier tray assembly according to an embodiment of the present disclosure;

fig. 4 is an assembled schematic view illustrating a carrier tray stack assembly according to an embodiment of the present disclosure; and

fig. 5 is a sectional view showing a section taken along the line a-a of fig. 4.

Detailed Description

Reference is initially made to fig. 1, which is a schematic diagram illustrating a structure of a carrier tray assembly according to an embodiment of the present disclosure. The present disclosure generally provides a carrier tray assembly 100, wherein the carrier tray assembly 100 mainly comprises a carrier tray 120 and at least one adjusting member 140. The carrier tray 120 is mainly used for carrying articles, and the carrier trays 120 can be stacked on top of each other (for example, as shown in fig. 4).

In the present embodiment, the carrier tray 120 has a bottom plate 121 and a sidewall 122, wherein the sidewall 122 is erected on the bottom plate 121, and the sidewall 122 and the bottom plate 121 together form an accommodating space a 1. The bottom plate 121 is provided with a plurality of guide slots, such as a first guide slot 162 and a second guide slot 164. In one embodiment, the first guide groove 162 is parallel to the first direction D1, the second guide groove 164 is parallel to the second direction D2, wherein the first direction D1 and the second direction D2 are perpendicular to each other, and the first direction D1 and the second direction D2 are parallel to two perpendicular sides of the bottom plate 121. In this embodiment, the number of the adjusting members 140 may be more than two, and the adjusting members 140 may be disposed in the first guide groove 162 and/or the second guide groove 164 according to the size of the article 200 (for example, as shown in fig. 3) to limit the article carried on the bottom plate 121.

Referring also to fig. 2, fig. 2 is a partially exploded schematic view illustrating a carrier tray assembly according to an embodiment of the present disclosure. In the present embodiment, the adjusting member 140 includes a supporting portion 142 and a positioning column 144, wherein the positioning column 144 extends from the bottom of the supporting portion 142, and the positioning column 144 is inserted into the first guide groove 162 or the second guide groove 164. In one embodiment, the positioning post 144 has a protrusion 144a on a side surface thereof, and when the positioning post 144 is inserted into the first guide groove 162 or the second guide groove 164, the protrusion 144a can limit the positioning post 144 from rotating relative to the guide groove, so that the adjusting member 140 can only move along the extending direction of the first guide groove 162 or the second guide groove 164 in the first guide groove 162 or the second guide groove 164, but cannot rotate relative to the first guide groove 162 or the second guide groove 164.

Referring to fig. 1 and 2 again, when the adjusting member 140 is disposed in the first guide groove 162, the adjusting member 140 can move along a moving direction, which is an extending direction of the first guide groove 162 and is parallel to the first direction D1. The first guide groove 162 has a plurality of positioning portions 162a and a plurality of neck portions 162b, and the positioning portions 162a and the neck portions 162b are staggered along the extending direction of the first guide groove 162. Wherein the width W1 of each neck 162b is smaller than the width W2 of the positioning part 162a, so that the first guide groove 162 forms a wave-like structure. As shown in fig. 2, in the present embodiment, the bottom end of the positioning column 144 has a slot 144b, and the extending direction of the slot 144b is parallel to the first direction D1 and the moving direction of the adjusting member 140. Through the arrangement of the slot 144b, the positioning pillar 144 is made to generate elasticity, so that the positioning pillar 144 can be contracted along a direction parallel to the second direction D2. Therefore, when the adjusting member 140 is pushed to move the adjusting member 140 from one of the positioning portions 162a in the first guide groove 162 to the adjacent positioning portion 162a, the positioning column 144 of the adjusting member 140 passes through the neck portion 162b between the two positioning portions 162a and is compressed by the neck portion 162b, so as to pass through the neck portion 162b smoothly. After the positioning post 144 of the adjusting member 140 reaches the adjacent positioning portion 162a through the neck portion 162b, the positioning post 144 is restored to its original shape due to the compression force of the neck portion 162b, and is further limited in the adjacent positioning portion 162a again. Therefore, the adjusting member 140 may move back and forth in a stepwise manner in the first guide groove 162 or the second guide groove 164.

Therefore, through the design of the positioning portion 162a and the neck portion 162b of the first guide groove 162, the adjustment member 140 can be conveniently moved in the first guide groove 162 in a stepping manner, and the adjustment member 140 can be limited to be fixed at a specific position in the first guide groove 162, and the shape of the positioning column 144 of the adjustment member 140 and the shape of the positioning portion 162a correspond to each other, so as to generate a tight-fitting clamping effect, and achieve the purpose of being not easy to fall off. More specifically, the second guide groove 164 and the first guide groove 162 have substantially the same structure, and therefore, the description thereof is omitted. In other examples, the first guide slot 162 and the second guide slot 164 may have different lengths.

Referring to fig. 1 and 3, fig. 3 is a schematic view illustrating a usage state of a carrier tray assembly according to an embodiment of the present disclosure. In one embodiment, as shown in fig. 1, the bottom plate 121 has a plurality of ribs 121a and bosses 121b on its surface. The adjusting member 140 further includes a carrier 146, the carrier 146 is connected to the side surface 142a of the carrying portion 142, wherein the surface of the carrier 146 is coplanar with the surfaces of the rib 121a and the boss 121b, and can carry the article 200 to be carried together, and the side surface 142a of the carrying portion 142 can abut against the flat edge of the article 200 to be carried, so as to avoid the protrusions such as electronic components and the like arranged around or at the edge of the article to be carried, so that the carrying tray stacking assembly of the present disclosure has wider adaptability or applicability.

In the example of fig. 3, when the width of the article to be carried (e.g., an electronic article such as a backlight module or a display panel) 200 is just equal to the lateral width of the accommodating space a1 of the carrying tray 120, and the length of the article to be carried 200 is smaller than the longitudinal length of the accommodating space a1 of the carrying tray 120, 4 adjusting members 140 can be respectively abutted against the upper and lower sides of the article to be carried 200, and the left and right sides of the article to be carried 200 are directly abutted against the side wall 122, so as to limit the article to be carried 200. In other examples, when the article 200 to be carried with a smaller size is placed in the accommodating space a1 and none of the four sides of the article 200 to be carried can abut against the side wall 122, the adjusting members 140 may be respectively disposed at the four edges of the article 200 to be carried (for example, the upper side, the lower side, the left side, and the right side of the article 200 to be carried shown in fig. 3) to limit the article 200 to be carried.

Referring also to fig. 4 and 5, wherein fig. 4 is an assembled view illustrating a carrier tray stack assembly according to an embodiment of the present disclosure, and fig. 5 is a sectional view illustrating a section taken along a line a-a of fig. 4. When two carrier plates 120 are stacked on each other, the article 200 to be carried is located between the stacked carrier plates 120, and the upper carrier plate 120 abuts against the carrying portion 142 of the adjusting member 140 disposed on the lower adjacent carrier plate 120. That is, the adjusting member 140 on the lower tray 120 has the function of supporting the upper tray 120, and the adjusting member 140 on the lower tray 120 is also pressed by the upper tray 120 to achieve the effect of preventing the jumping-off. In some embodiments, the top surface of the supporting portion 142 of the adjusting element 140 has a concave structure 142b, and the bottom surface of the first guiding groove 162 has a convex structure 162c, when two supporting trays 120 are stacked on each other, the convex structure 162c of the first guiding groove 162 of the upper supporting tray 120 can be embedded in the concave structure 142b of the adjusting element 140 on the lower supporting tray 120, thereby achieving the purpose of fixing the adjusting element 140. That is, the anti-jumping effect of the adjusting member 140 on the lower carrier plate 120 can provide a further reinforcing effect. More specifically, in other embodiments, the bottom surface of the second guiding groove 164 in fig. 1 may also be provided with a protruding structure, so as to achieve the purpose of pressing the adjusting member 140 on the second guiding groove 164 of the lower carrier plate 120.

In view of the above, the present disclosure utilizes the design of the carrier tray and the adjustment member to satisfy the requirements of carrying articles of different sizes. Specifically, the design of the guide groove on the bearing disc and the positioning column of the adjusting piece provides the user with the requirement of changing the position of the adjusting piece fixed in the guide groove according to the size of the article to be borne or the position of the protrusion, so as to achieve the purpose of limiting the article to be borne. In addition, the side surface of the positioning column of the adjusting piece is provided with a convex part which can further limit the adjusting piece to rotate relative to the bearing disc.

Although the embodiments of the present disclosure have been described with reference to the above embodiments, it should be understood that the scope of the embodiments of the present disclosure is defined by the appended claims.

Description of the symbols

100 load bearing disk assembly

120 bearing plate

121 bottom plate

121a rib

121b boss

122 side wall

140 adjustment member

142 bearing part

142a side surface

142b recess structure

144 positioning column

144a projection

146 carrying platform

162 first guide groove

162a positioning part

162b neck portion

162c projection structure

164 second guide groove

200 article to be carried

A1 accommodating space

D1 first direction

D2 second direction

Width of W1

Width of W2

Claims (12)

1. A carrier platter assembly for carrying at least one electronic article, the carrier platter assembly comprising:

the bearing plate comprises a bottom plate, wherein the bottom plate is provided with a plurality of guide grooves and can bear the at least one electronic article; and

at least one adjusting member movably disposed in one of the guide grooves, wherein the adjusting member includes:

a bearing part; and

the positioning column extends out from the bottom of the bearing part, is inserted into the corresponding guide groove and comprises at least one protruding part on the side surface located in the guide groove.

2. The carrier platter assembly of claim 1, wherein the carrier platter assembly is disposed in a vertical plane

The bottom surface of each guide groove is provided with a protruding structure; and

the top surface of the bearing part of the adjusting piece is provided with a concave structure corresponding to the convex structure.

3. The carrier platter assembly of claim 1, wherein the carrier platter assembly is disposed in a vertical plane

The adjusting member is movable in the guide groove along a moving direction; and

each guide groove is provided with a plurality of positioning parts and a plurality of neck parts which are mutually staggered along the moving direction, and the width of each neck part is smaller than that of each positioning part.

4. The carrier tray assembly of claim 3, wherein the bottom end of the positioning post has a slot, and the slot extends in a direction parallel to the moving direction.

5. The carrier platter assembly as claimed in claim 1, wherein the adjusting member further comprises a carrier, and the surface of the base plate has a plurality of ribs and/or bosses, wherein the surface of the ribs and/or bosses is coplanar with the surface of the carrier.

6. The carrier platter assembly of claim 1, wherein the carrier platter assembly is disposed in a vertical plane

The guide grooves include at least one first guide groove parallel to the first direction and at least one second guide groove parallel to the second direction; and

the first direction and the second direction are perpendicular to each other.

7. A carrier tray stack assembly for receiving at least one electronic article, the carrier tray stack assembly comprising:

at least two carrier plates overlapped with each other, wherein the at least one electronic article is positioned between the carrier plates overlapped with each other, each carrier plate comprises a bottom plate, and a plurality of guide grooves are formed in the bottom plate;

at least one adjusting member movably disposed in one of the guide grooves, wherein the adjusting member includes:

a bearing part; and

the positioning columns extend out from the bottom of the bearing part, are inserted into the corresponding guide grooves and comprise at least one protruding part on the side surfaces, located in the guide grooves, of the positioning columns;

wherein, the bottom plate of one of the bearing disks is borne on the bearing part of the adjusting piece on the adjacent bearing disk.

8. The carrier platter stack assembly of claim 7, wherein

The bottom surface of each guide groove is provided with a protruding structure; and

the top surface of the bearing part of the adjusting piece is provided with a concave structure corresponding to the convex structure;

the concave structure of the adjusting piece on one of the bearing disks is used for embedding the convex structure of the bottom surface of the corresponding guide groove in the adjacent bearing disk.

9. The carrier platter stack assembly of claim 7, wherein

The adjusting member is movable in the guide groove along a moving direction; and

each guide groove is provided with a plurality of positioning parts and a plurality of neck parts which are mutually staggered along the moving direction, and the width of each neck part is smaller than that of each positioning part.

10. The carrier tray stack assembly of claim 9, wherein the bottom end of the positioning post of the adjustment member has a slot, and the slot extends in a direction parallel to the moving direction.

11. The carrier tray stack assembly of claim 7, wherein the adjusting member further comprises a carrier connected to a side of the carrier, the bottom plate has a surface with a plurality of ribs and/or bosses, wherein the carrier and the ribs and/or bosses jointly carry the electronic article, and the side abuts against an edge of the electronic article.

12. The carrier platter stack assembly of claim 7, wherein

The guide grooves of each carrier tray comprise at least one first guide groove parallel to a first direction and at least one second guide groove parallel to a second direction; and

the first direction and the second direction are perpendicular to each other.

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