CN218808018U - Top side beam assembly and container - Google Patents

Abstract

The utility model discloses a top side beam subassembly and container. The top side beam assembly is used for a container, the container comprises a top plate, the top side beam assembly comprises a top side beam and an insertion sheet, the top side beam is provided with a hole, the insertion sheet is inserted into the hole and comprises a large-size part, a small-size part and a connection groove, the size of the large-size part is larger than that of the hole, the connection groove is located between the large-size part and the small-size part, the small-size part is inserted into the hole and located inside the top side beam, the connection groove is inserted into the top side beam, and the large-size part is used for supporting the top plate. Therefore, the top side beam and the inserting piece are convenient to connect, processing steps are reduced, workload is small, the process is simple, working efficiency is effectively improved, production environment is improved, and production material and labor cost are reduced.

Description

Top side beam assembly and container

Technical Field

The utility model relates to a container technical field especially relates to a top side beam assembly and container.

Background

As shown in fig. 1 and 2, the conventional container 1 includes a roof side rail 2, a roof panel 5, and a wall panel 6, and the bottom of the roof side rail 2 is connected to the wall panel 6. The roof panel 5 is located above the roof side rail 2. The container 1 further comprises a connector 3 and a reinforcement 4. The connecting member 3 may be connected to the side roof rails 2 by welding. The end of the reinforcing bar 4 is placed above the connecting piece 3. The reinforcing ribs 4 are used for supporting the top plate 5. In order to ensure that the connecting member 3 has sufficient strength, the length L of the connecting member 3 may be 150mm, as shown in fig. 3. This can prevent the roof panel 5 from being recessed toward the inside of the container 1. However, the connecting member 3 needs to be welded to the roof side rail 2, which requires a large amount of work. As shown in fig. 4 and 5, the roof side rail 2 may also be integrally formed with the connecting member 4. However, the processing process is complicated.

Accordingly, in view of the above-mentioned current situation, there is a need to provide a roof side rail assembly and a container that at least partially address the problems presented therein.

SUMMERY OF THE UTILITY MODEL

In the summary section a series of concepts in a simplified form is introduced, which will be described in further detail in the detailed description section. The inventive content of the present application does not imply any attempt to define the essential features and characteristics of the claimed solution, nor does it imply any attempt to determine the scope of the claimed solution.

For at least partly solving above-mentioned problem, the utility model discloses a top side beam assembly for the container, the container includes the roof, top side beam assembly includes top side beam and inserted sheet, top side beam has the hole, the inserted sheet inserts in the hole, the inserted sheet includes jumbo size portion, small-size portion and spread groove, the size of jumbo size portion is greater than the size in hole, the spread groove is located jumbo size portion with between the small-size portion, small-size portion inserts in the hole and be located the inside of top side beam, the spread groove with top side beam pegs graft together, jumbo size portion is used for supporting the roof.

According to the utility model discloses a top side roof beam subassembly for the container, the container includes the roof, top side roof beam subassembly includes top side roof beam and inserted sheet, top side roof beam has porosely, in the inserted sheet patchhole, the inserted sheet includes jumbo size portion, small-size portion and spread groove, the size of jumbo size portion is greater than the size in hole, the spread groove is located between jumbo size portion and the small-size portion, in the small-size portion patchhole and be located the inside of top side roof beam, the spread groove is pegged graft together with top side roof beam, jumbo size portion is used for supporting the roof. Therefore, the top side beam and the inserting piece are convenient to connect, processing steps are reduced, workload is small, the process is simple, working efficiency is effectively improved, production environment is improved, and production material and labor cost are reduced.

Optionally, the connecting groove includes:

a horizontal section connected to the small-sized portion; and

the inclined section is obliquely connected with the large-size part;

the interlude, the interlude with the horizontal segment links to each other perpendicularly, the interlude with the slope section slope links to each other.

Optionally, the small-size portion includes a small-size section, the small-size section is connected with the horizontal section, and an included angle between the small-size section and the horizontal section is a right angle or an acute angle.

Optionally, the large-size portion includes a large-size section, the large-size section is connected to the inclined section in an inclined manner, and an included angle between the large-size section and the inclined section is an obtuse angle.

Optionally, the dimension of the spacing between the small-sized section and the inclined section is greater than the dimension of the intermediate section, which is less than the dimension of the thickness of the plate of the side roof rail.

Optionally, the top side beam includes a body section, a bending section and a connecting section, the bending section connects the body section and the connecting section, the body section is used for connecting with a wall plate of the container, and the connecting section is provided with the hole.

Optionally, a part of the bending section is spaced apart from the connecting section to form a receiving space, and the small-sized portion is located in the receiving space.

Optionally, the top side beam assembly comprises a plurality of the insertion pieces, the top side beam is provided with a plurality of the holes, and the insertion pieces are respectively inserted into the holes.

The utility model also provides a container, the container includes roof and foretell top side roof beam assembly.

According to the utility model discloses a container, container include roof and top curb girder subassembly, and top curb girder subassembly includes top curb girder and inserted sheet, and top curb girder has porosely, and in the inserted sheet patchhole, the inserted sheet includes jumbo size portion, small-size portion and spread groove, and the size of jumbo size portion is greater than the size in hole, and the spread groove is located between jumbo size portion and the small-size portion, and in the small-size portion patchhole and be located the inside of top curb girder, the spread groove is pegged graft together with top curb girder, and jumbo size portion is used for supporting the roof. Therefore, the top side beam and the inserting piece are convenient to connect, processing steps are reduced, workload is small, the process is simple, working efficiency is effectively improved, production environment is improved, and production material and labor cost are reduced.

Optionally, the end of the top plate is placed on the top side beam and connected with the top side beam, the container further comprises a reinforcing rib, the end of the reinforcing rib is placed on the insertion piece, and the reinforcing rib is used for supporting the top plate.

Drawings

The following figures of the embodiments of the present invention are used herein as part of the present invention for understanding the present invention. There are shown in the drawings embodiments of the present invention and the description thereof for the purpose of illustrating the principles of the invention. In the drawings, there is shown in the drawings,

FIG. 1 is a partial schematic view of a top portion of a prior art container;

FIG. 2 is a front view of the roof side rail and connector shown in FIG. 1 connected together;

FIG. 3 is a side elevational view of the roof side rail and connector shown in FIG. 2 connected together;

FIG. 4 is a partial schematic view of a top portion of another prior art container;

FIG. 5 is a front view of the roof side rail and connector shown in FIG. 4 connected together;

fig. 6 is a partial schematic view of the top of a container according to a preferred embodiment of the invention;

fig. 7 is a front schematic view of a top side beam assembly according to a preferred embodiment of the present invention;

FIG. 8 is a schematic view taken along line A of FIG. 7;

FIG. 9 is a perspective view of the top side rail assembly shown in FIG. 7; and

figure 10 is a top view of the insert shown in figure 7.

Description of reference numerals:

1: and (3) the container 2: roof side beam

3: the connecting piece 4: reinforcing rib

5: top plate 6: wall panel

100: the container 110: top side beam assembly

111: the roof side rail 112: hole(s)

113: the body segment 114: bending section

115: connection section 116: accommodation space

120: inserting sheet 121: small-sized part

122: large-size portion 123: connecting groove

124: horizontal segment 125: inclined section

126: middle section 127: small size section

128: large-size section 140: wall panel

141: reinforcing rib 142: top plate

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that embodiments of the invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring embodiments of the present invention.

In the following description, a detailed structure will be presented for a thorough understanding of embodiments of the invention. It is apparent that the implementation of the embodiments of the present invention is not limited to the specific details familiar to those skilled in the art.

Fig. 6 to 9 show a preferred embodiment roof side rail assembly 110 provided by the present invention. A top side rail assembly 110 is used for the container 100. The container 100 is used to transport goods. The container 100 also includes a top panel 142, the top panel 142 being positioned above the top side rail assembly 110. The container 100 may be a refrigerated container for refrigerated transport of goods. The inside of the body of the refrigerated container is refrigerated, the temperature inside the body is lower than the temperature outside the body, negative pressure is formed inside the body, and atmospheric pressure outside the body acts on the top plate 142. The top side rail assembly 110 serves to support the top plate 142 and prevent deformation of the top plate 142.

Specifically, as shown in fig. 7, 8 and 9, the top side member assembly 110 includes a top side member 111 and a tab 120, the top side member 111 having a hole 112. Tabs 120 are inserted into holes 112. The longitudinal direction of the hole 112 of the roof side rail 111 is parallel to the longitudinal direction of the roof side rail 111.

As shown in fig. 10, the insert 120 is configured as a flat plate structure. The insert sheet 120 includes a small-sized portion 121, a large-sized portion 122, and a coupling groove 123, the large-sized portion 122 having a size larger than that of the small-sized portion 121. The large-size portion 122 has a dimension in the longitudinal direction of the roof rail 111 larger than the small-size portion 121. The small-sized portion 121 is inserted into the hole 112 of the roof side rail 111. The small-sized portion 121 is located inside the roof side rail 111. The large-sized portion 122 is used to support the top plate 142.

The coupling groove 123 is located between the large-sized portion 122 and the small-sized portion 121. The coupling groove 123 is coupled to the large-sized portion 122. The coupling groove 123 is also coupled to the small-sized portion 121. One end of the large-size portion 122 in the longitudinal direction of the roof side rail 111 is directly connected to one end of the small-size portion 121. The other end of the large-sized portion 122 in the longitudinal direction of the roof side rail 111 is connected to the other end of the small-sized portion 121 by a connecting groove 123. The coupling groove 123 is inserted into the top side member 111. Of course, the coupling groove 123 may be coupled with the top side member 111 in an interference fit.

The small-sized portion 121 is inserted into the hole 112 in the thickness direction of the side roof rail 111. The male tab 120 moves in the longitudinal direction of the top side member 111. For example, the operator moves the tab 120 in the longitudinal direction of the side roof rail 111 by a striking tool. The coupling groove 123 moves in a direction toward the edge of the hole 112 of the side roof rail 111 in the longitudinal direction of the side roof rail 111. The coupling groove 123 is snapped with the top side member 111, and the coupling groove 123 is further inserted with the top side member 111. Therefore, the top side beam 111 and the inserting piece 120 are convenient to connect, processing steps are reduced, workload is low, welding amount of the top side beam assembly 110 is reduced, work efficiency is effectively improved, and material and labor cost of production is reduced.

According to the utility model discloses a top side roof beam subassembly for the container, the container includes the roof, top side roof beam subassembly includes top side roof beam and inserted sheet, top side roof beam has porosely, in the inserted sheet patchhole, the inserted sheet includes jumbo size portion, small-size portion and spread groove, the size of jumbo size portion is greater than the size in hole, the spread groove is located between jumbo size portion and the small-size portion, in the small-size portion patchhole and be located the inside of top side roof beam, the spread groove is pegged graft together with top side roof beam, jumbo size portion is used for supporting the roof. Therefore, the top side beam and the inserting piece are convenient to connect, processing steps are reduced, workload is small, the process is simple, working efficiency is effectively improved, production environment is improved, and production material and labor cost are reduced.

Further, the connecting groove 123 includes a horizontal section 124, an inclined section 125 and a middle section 126, the horizontal section 124 is connected to the small-sized portion 121, and the inclined section 125 is connected to the large-sized portion 122 in an inclined manner. The middle section 126 is vertically connected to the horizontal section 124, and the middle section 126 is obliquely connected to the inclined section 125. The coupling groove 123 is constructed in an inclined structure. The angle between the middle section 126 and the inclined section 125 is obtuse. The size of the coupling groove 123 near the outer side is larger than the size of the coupling groove 123 at the inner side. Thereby, the insertion of the coupling groove 123 into the top side member 111 is facilitated.

The small-sized portion 121 includes a small-sized section 127, and the small-sized section 127 is connected to the horizontal section 124. The length direction of the small-sized section 127 is parallel to the thickness direction of the side roof rail 111. The small-sized segment 127 forms a right angle or an acute angle with the horizontal segment 124. Thereby, the small-sized portion 121 is facilitated to enter the hole 112 inserted into the side roof rail 111 in the thickness direction of the side roof rail 111.

The large-size portion 122 includes a large-size section 128, and the large-size section 128 is obliquely connected to the inclined section 125. The large dimension segment 128 is substantially parallel to the small dimension segment 127. The length direction of the large-sized section 128 is parallel to the thickness direction of the roof side rail 111. The large-sized section 128 is obliquely connected to the inclined section 125. The angle between the large-sized section 128 and the inclined section 125 is an obtuse angle. Thereby, the opening of the coupling groove 123 is ensured to be large, facilitating the entry of the top side member 111 into the coupling groove 123 through the opening of the coupling groove 123.

The spacing between the small-sized section 127 and the inclined section 125 is greater in size than the intermediate section 126. The dimension of the intermediate section 126 is smaller than the dimension of the plate thickness of the side roof rail 111. Therefore, the connecting groove 123 forms a structure with a large outside and a small inside, so that the top side beam 111 can conveniently enter the connecting groove 123, the top side beam 111 and the connecting groove 123 can be clamped together, and the inserting sheet 120 is prevented from being loosened and falling off.

The roof side rail 111 is constructed as shown in fig. 7, and the roof side rail 111 includes a body section 113, a bent section 114 and a connecting section 115, and the bent section 114 connects the body section 113 and the connecting section 115. The roof side rail 111 may be integrally formed. The connecting section 115 is spaced apart from the body section 113. As shown in fig. 6, the body section 113 is adapted to be connected to a wall 140 of the container 100. For example, the body section 113 can be connected to the wall plate 140 by welding or bolting. As shown in fig. 7, the dimension of the connecting section 115 in the height direction of the roof side rail 111 is smaller than the dimension of the body section 113. The height direction of the roof side rail 111 is parallel to the height direction of the container 100. The connecting section 115 is provided with the hole 112 of the roof side rail 111. The tab 120 is connected to the connecting section 115. Thereby, the small-sized portion 121 is ensured to be inserted into the side roof rail 111.

Further, bend segment 114 is configured as a bend structure, and bend segment 114 includes a connected oblique portion and a horizontal portion. The angled portion of bend segment 114 is connected to body segment 113. The horizontal portion of bend segment 114 is connected to connecting segment 115. A part (inclined portion) of the bent segment 114 is spaced apart from the connecting segment 115 to form a receiving space 116. A part of the bending section 114 is spaced apart from the connecting section 115 in the thickness direction of the roof side rail 111. A portion of bend segment 114 is connected to body segment 113. The other part (horizontal part) of the bent segment 114 extends in the thickness direction of the roof side rail 111. The other part of the bending segment 114 is connected with the connecting segment 115. The small-sized portion 121 is located in the accommodation space 116. This ensures that the male tab 120 can be smoothly inserted into the side roof rail 111.

Preferably, the side roof rail 111 is provided with a plurality of holes 112, and the side roof rail assembly 110 includes a plurality of tabs 120, the plurality of tabs 120 being inserted into the plurality of holes 112, respectively. The plurality of tabs 120 can support the top plate 142 together to balance the force of the top plate 142.

The present invention also provides a container 100, the container 100 comprising a top plate 142 and the top side beam assembly 110.

According to the utility model discloses a container, container include roof and roof side rail subassembly, and the roof side rail subassembly includes roof side rail and inserted sheet, and the roof side rail has the hole, and in the inserted sheet patchhole, the inserted sheet includes jumbo size portion, small-size portion and spread groove, and the size of jumbo size portion is greater than the size in hole, and the spread groove is located between jumbo size portion and the small-size portion, and in the small-size portion patchhole and be located the inside of roof side rail, the spread groove is pegged graft together with the roof side rail, and jumbo size portion is used for supporting roof. Therefore, the top side beam and the inserting piece are convenient to connect, processing steps are reduced, workload is small, the process is simple, working efficiency is effectively improved, production environment is improved, and production material and labor cost are reduced.

As shown in fig. 6, the end of the top plate 142 is placed on the side roof rail 111, and the end of the top plate 142 is connected to the side roof rail 111. The end of the top plate 142 can be placed over the bend segment 114 of the top side beam 111. The end of top plate 142 is placed over another portion of bend segment 114. Thus, the top side member 111 and the rib 141 can support the top plate 142 together, and the stability of the top plate 142 is ensured.

To ensure that the top side rail assembly 110 can support the top plate 142, the container 100 further includes a reinforcing rib 141, and the end of the reinforcing rib 141 is placed on the insert sheet 120. The insert 120 is used to support the reinforcing ribs 141. The ends of the ribs 141 may also be connected to the tabs 120. The end of the stiffener 141 can be connected to the insert 120 by welding. The end of the rib 141 can also be connected with the insert 120 by means of a bolt connection. The reinforcing ribs 141 are located below the top plate 142 to support the top plate 142.

The container 100 includes two top side rail assemblies 110, and the two top side rail assemblies 110 are oppositely arranged in the width direction of the container 100. Both top side beam assemblies 110 include tabs 120. Both ends of the reinforcing rib 141 in the width direction of the container 100 are placed on the two inserting pieces 120, respectively. The two tabs 120 together support the stiffener 141.

Container 100 includes a plurality of reinforcing ribs 141, top side rail assembly 110 includes a plurality of tabs 120, and top side rail 111 has a plurality of apertures 112. The plurality of blades 120 are inserted into the plurality of holes 112, respectively. The plurality of blades 120 are also used to support a plurality of ribs 141, respectively. The ends of the plurality of reinforcing ribs 141 are placed on the plurality of insert pieces 120, respectively. The plurality of ribs 141 support the top plate 142 in common to balance the force of the top plate 142.

The utility model discloses a container 100, top side roof beam assembly 110 include inserted sheet 120 and top side roof beam 111, and inserted sheet 120 and top side roof beam 111 peg graft together, have improved site operation's operability, have reduced container 100's welding volume, have reduced environmental pollution, have improved operational environment.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Terms such as "disposed" and the like, as used herein, may refer to one element being directly attached to another element or one element being attached to another element through intervening elements. Features described herein in one embodiment may be applied to another embodiment, either alone or in combination with other features, unless the feature is not applicable or otherwise stated in the other embodiment.

The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. It will be appreciated by those skilled in the art that many more modifications and variations are possible in light of the above teaching and are intended to be included within the scope of the invention.

Claims (10)

1. The utility model provides a top side beam assembly, is used for the container, the container includes the roof, its characterized in that, top side beam assembly includes top side beam and inserted sheet, top side beam has the hole, the inserted sheet inserts in the hole, the inserted sheet includes jumbo size portion, small-size portion and spread groove, the size of jumbo size portion is greater than the size in hole, the spread groove is located jumbo size portion with between the small-size portion, small-size portion inserts in the hole and be located the inside of top side beam, the spread groove with top side beam pegs graft together, jumbo size portion is used for supporting the roof.

2. The top side rail assembly of claim 1 wherein the attachment slot comprises:

a horizontal section connected to the small-sized portion; and

the inclined section is obliquely connected with the large-size part;

the interlude, the interlude with the horizontal segment links to each other perpendicularly, the interlude with the slope section slope links to each other.

3. The side roof rail assembly of claim 2 wherein said small dimension portion includes a small dimension section, said small dimension section being connected to said horizontal section, the angle between said small dimension section and said horizontal section being a right or acute angle.

4. The topside beam assembly according to claim 3, wherein said large dimension portion comprises a large dimension section, said large dimension section being in inclined communication with said sloping section, an included angle between said large dimension section and said sloping section being an obtuse angle.

5. The top side rail assembly of claim 4 wherein a spacing between the small-sized section and the angled section is greater in size than a size of the intermediate section, the intermediate section being smaller in size than a thickness of the plate of the top side rail.

6. The top side rail assembly of claim 1 wherein the top side rail includes a body section, a bend section and a connecting section, the bend section connecting the body section and the connecting section, the body section for connection with a wall panel of the container, the connecting section being provided with the aperture.

7. The side roof rail assembly of claim 6 wherein a portion of said bend segment is spaced from said connecting segment to form a receiving space, said small dimension being located in said receiving space.

8. A top side rail assembly as set forth in claim 1 including a plurality of said tabs, said top side rail being provided with a plurality of said holes into which a plurality of said tabs are inserted respectively.

9. A container, characterized in that it comprises a roof panel and a top side rail assembly according to any one of claims 1 to 8.

10. The container as claimed in claim 9, wherein an end portion of the top plate is placed on the top side member and coupled thereto, the container further comprising a reinforcing rib, an end portion of the reinforcing rib being placed on the insert piece, the reinforcing rib supporting the top plate.

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