CN213953235U - Assembled enclosure device for large-scale stockyard - Google Patents

Abstract

The utility model relates to an enclosure technical field specifically is an assembly enclosure for large-scale stockyard. The assembled enclosure device comprises an enclosure plate arranged along the annular shape, and further comprises a beam column used for supporting the enclosure plate, wherein the beam column is arranged on the surface of the enclosure plate and is attached to the surface of the enclosure plate. The utility model discloses the reinforcing beam post on enclosing plate can improve whole enclosure's intensity, prevents that enclosure's inside windrow from applying the yawing force for enclosure and destroying enclosing plate to increased stability, and then prolonged enclosure's life.

Description

Assembled enclosure device for large-scale stockyard

Technical Field

The utility model relates to an enclosure technical field specifically is an assembly enclosure for large-scale stockyard.

Background

Along with the development of commercial concrete industry in China, the scale of a concrete mixing plant is larger and larger, and higher requirements are provided for construction quality, construction period, engineering investment, energy conservation, environmental protection and the like of the enclosure structure engineering of the stockyard. Traditional stock dump adopts retaining wall as envelope, but retaining wall volume and foundation buried depth are great, and construction speed is slow, and the maintenance is comparatively difficult when the local position in use of retaining wall takes place to damage. In addition, when the actual stacking volume exceeds the allowable stacking volume, excessive lateral force will cause the retaining wall to be displaced laterally excessively, so that the superstructure is forced to be pulled outwards, and the safety performance of the structure will be greatly tested.

Disclosure of Invention

In order to solve the technical problem, the utility model provides an assembly enclosure for large-scale stockyard can improve enclosure's structural strength to the yawing force for enclosure is applyed to the resistance windrow.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the assembled enclosure device comprises an enclosure plate arranged along an annular shape, and further comprises a beam column used for supporting the enclosure plate, wherein the beam column is arranged on the surface of the enclosure plate and is attached to the enclosure plate in a surface mode.

Further, the beam column is arranged on the outer side plate surface of the containment plate.

Further, the beam columns comprise vertical beam columns arranged along the height direction of the enclosure plate and transverse beam columns connected between the adjacent vertical beam columns;

the transverse beam column and the vertical beam column are in face fit with the enclosure guard plate.

Preferably, the vertical beam column and the transverse beam column are both H-shaped, and the vertical beam column comprises a first web plate and first wing plates positioned at two side parts of the first web plate; the transverse beam column comprises a second web plate and second wing plates positioned at the two side parts of the second web plate;

the plate surface of the first wing plate and the plate surface of the second wing plate are both in surface fit with the enclosure guard plate;

the end of the second wing plate is connected with the edge of the corresponding first wing plate.

Still more preferably, the end of the second wing plate is connected with the edge of the first wing plate;

the beam column further comprises a third connecting piece, and the third connecting piece is arranged at the butt joint of the second wing plate and the first wing plate;

and a second connecting piece is fixed on the surface of the first wing plate, extends to the surface of the second web plate, and is connected with the second connecting piece.

Still further preferably, the height of the vertical beam column is the same as the height of the containment plate; or the height of the vertical beam column is greater than that of the containment plate;

the transverse beam column is positioned in the middle of the containment plate.

Furthermore, the assembled enclosure device also comprises a base, wherein the upper end surface of the base is provided with a limiting groove and a slot which are communicated with each other;

the bottom of enclosing plate is fixed at the spacing inslot, the bottom of the first web of vertical beam column and the bottom that the first pterygoid lamina of enclosing plate one side was kept away from to vertical beam column are all fixed in the slot.

Preferably, the enclosure plate comprises a plurality of enclosure sub-plates, adjacent enclosure sub-plates are detachably connected, and the adjacent enclosure sub-plates are respectively attached to the same transverse beam column forming surface;

the second wing plate and the first wing plate are detachably connected with the third connecting piece respectively;

the second connecting piece and the second web form a detachable connection.

Still further preferably, the fender board comprises oppositely arranged board bodies and concrete filled between the board bodies, and the cross section of each board body is corrugated.

Preferably, corner connectors are arranged at corners of the enclosure plates, and edges of the enclosure sub-plates are connected with edges of the corner connectors.

The utility model has the advantages as follows:

(1) the utility model discloses the reinforcing beam post on enclosing plate can improve whole enclosure's intensity, prevents that enclosure's inside windrow from applying the yawing force for enclosure and destroying enclosing plate to increased stability, and then prolonged enclosure's life.

(2) The utility model discloses be provided with the base, be provided with spacing groove and slot on the base. The bottom of the enclosure sub-board is fixed in the limiting groove of the base, so that the strength of the enclosure device can be further improved.

(3) The utility model discloses a tip of second pterygoid lamina is connected with the limit portion of corresponding first pterygoid lamina, has improved enclosure's assembly.

(4) The utility model discloses a beam column is located the outside of enclosing the backplate, rather than being located the inboard of enclosing the backplate, can avoid the beam column to occupy the regional space that the enclosing plate constitutes, and then improves the enclosure's that comprises the enclosing plate utilization ratio.

(5) The stockpile extrudes the containment sheet, causing partial damage to the containment sheet. The utility model discloses an between the beam column, between beam column and the fender daughter board to and all constitute detachable connection structure between the fender daughter board, can only change the fender daughter board of damaged position department, thereby reduced the enclosure cost.

(6) The utility model discloses a cross section of the plate body of fender daughter board is the ripple, can improve the corrosion resistance of fender daughter board. In addition, the corrugated plate has improved side resistance due to its corrugated shape, thereby improving structural stability.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is a schematic view of the connection between the vertical beam column and the fender sub-plate of the present invention;

fig. 3 is a schematic view of the connection between adjacent fender panels of the present invention;

fig. 4 is a schematic view of the corner connector of the present invention;

FIG. 5 is a schematic view of the connection between the fender sub-board and the corner connector of the present invention;

FIG. 6 is a structural view of the vertical beam column of the present invention;

fig. 7 is a schematic connection diagram of the vertical beam column and the transverse beam column of the present invention;

FIG. 8 is a block diagram of the base of the present invention;

fig. 9 is the connection schematic diagram of the enclosure daughter board, the vertical beam column and the base of the utility model.

The notations in the figures have the following meanings:

1-enclosure plate 11-enclosure sub-plate 111-first connecting piece 12-corner connecting piece 13-baffle plate

14-base 141-limiting groove 142-slot 15-fastener 16-passage port

2-beam column

21-vertical beam column 211-first web 212-first wing plate 213-second connecting piece

22-transverse beam column 221-second web 222-second wing plate 23-third connecting piece

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the following embodiments and the accompanying drawings. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides an assembly enclosure device for large-scale stockyard, this assembly enclosure device includes along the apron board 1 of annular setting, and this assembly enclosure device is still including the beam column 2 that is used for supporting apron board 1, and beam column 2 sets up on apron board 1's face, and constitutes the face laminating with apron board 1.

As shown in fig. 1, the enclosure plate 1 is rectangular, the enclosure plate 1 includes a plurality of enclosure sub-plates 11, the front side and the rear side of the enclosure plate 1 are both provided with a passage opening 16, and a baffle 13 is arranged above the passage opening 16. As shown in fig. 3, bolt holes are reserved on the fender panels 11, the adjacent fender panels 11 are detachably connected through the first connecting piece 111, bolt holes are also reserved on the first connecting piece 111, and the two fender panels 11 can be fixed together through the first connecting piece 111 by inserting bolts into the two corresponding bolt holes. The two ends of the baffle 13 are fixedly connected with the adjacent fender sub-boards 11. As shown in fig. 2, the fender panel 11 includes plate bodies having a corrugated cross section and concrete filled between the plate bodies. The corner of the rectangular enclosure plate 1 is provided with an angular corner connector 12, as shown in fig. 5, the edge of the enclosure daughter board 11 is butted with the edge of the corner connector 12, as shown in fig. 4, the corner connector 12 is L-shaped, and the enclosure daughter board 11 and the corner connector 12 are detachably connected through a first connecting piece 111. As shown in fig. 9, each fender panel 11 is provided with a separate base 14. As shown in fig. 8, the upper end surface of the base 14 is provided with a limiting groove 141 and a slot 142 which are communicated with each other, and the bottom of the fender panel 11 is fixed in the limiting groove 141. The corner connector 12 is also provided with a corner base 14 matched with the corner connector, the upper end of the base 14 is only provided with an L-shaped limiting groove 141, and the bottom of the corner connector 12 is fixed in the L-shaped limiting groove 141.

As shown in fig. 1, a beam column 2 is fixed on the outer side surface of a containment plate 1 composed of a fender panel 11 and a corner connector 12. The beam column 2 comprises vertical beam columns 21 arranged along the height direction of the enclosure plate 1 and transverse beam columns 22 connected between the adjacent vertical beam columns 21, L-shaped fasteners 15 are fixed on the outer side faces of the corner connecting pieces 12, and two ends of each fastener 15 are connected with the vertical beam columns 21. The height of the vertical beam column 21 is the same as that of the containment plate 1; alternatively, the height of the vertical beam column 21 is greater than the height of the containment sheets 1. In this embodiment, the height of the vertical beam column 21 is the same as the height of the containment sheet 1. As shown in fig. 7 and 9, the vertical beam column 21 and the transverse beam column 22 are both H-shaped, and the vertical beam column 21 includes a first web 211 and first wing plates 212 located at both side edges of the first web 211; the transverse beam 22 includes a second web 221 and second flanges 222 at both side edges of the second web 221. The plate surface of the first wing plate 212 and the plate surface of the second wing plate 222 are both in surface fit with the containment plate 1, and the end part of the second wing plate 222 is connected with the edge part of the corresponding first wing plate 212. As shown in fig. 9, the bottom of the first web 211 of the vertical beam 21 and the bottom of the first wing plate 212 of the vertical beam 21 on the side away from the containment sheet 1 are fixed in the insertion groove 142. The end of the second wing 222 is connected to the edge of the first wing 212.

The joint between the second wing plate 222 and the first wing plate 212 is detachably connected by a third connecting piece 23.

As shown in fig. 7, a second connecting piece 213 is fixed on the surface of the first wing plate 212, the second connecting piece 213 extends to the surface of the second web 221, and the second web 221 is connected to the second connecting piece 213.

When in use, the stockpile is placed in the area enclosed by the enclosure plate 1, and vehicles enter and exit through the passage opening 16.

Claims (10)

1. The utility model provides an assembly enclosure device for large-scale stockyard, this assembly enclosure device includes apron board (1) along annular setting, its characterized in that: the assembled enclosure device further comprises a beam column (2) used for supporting the enclosure plate (1), wherein the beam column (2) is arranged on the surface of the enclosure plate (1) and is attached to the surface of the enclosure plate (1).

2. The assembled containment apparatus for large scale stockyard of claim 1, wherein: the beam column (2) is arranged on the outer side plate surface of the containment plate (1).

3. The assembled containment apparatus for large scale stockyard of claim 1, wherein: the beam column (2) comprises vertical beam columns (21) arranged along the height direction of the containment plate (1) and transverse beam columns (22) connected between the adjacent vertical beam columns (21);

the transverse beam column (22) and the vertical beam column (21) are in surface joint with the enclosure plate (1).

4. The assembled containment apparatus for large scale stockyard of claim 3, wherein: the vertical beam column (21) and the transverse beam column (22) are both H-shaped, and the vertical beam column (21) comprises a first web plate (211) and first wing plates (212) positioned at two side parts of the first web plate (211); the transverse beam column (22) comprises a second web plate (221) and second wing plates (222) positioned at two side edges of the second web plate (221);

the plate surface of the first wing plate (212) and the plate surface of the second wing plate (222) are both in surface fit with the containment plate (1);

the end of the second wing (222) is connected to the edge of the corresponding first wing (212).

5. The assembled containment apparatus for large scale stockyard of claim 4, wherein: the end part of the second wing plate (222) is connected with the edge part of the first wing plate (212);

the beam column (2) further comprises a third connecting piece (23), and the third connecting piece (23) is arranged at the joint of the second wing plate (222) and the first wing plate (212);

and a second connecting sheet (213) is fixed on the surface of the first wing plate (212), the second connecting sheet (213) extends to the surface of the second web plate (221), and the second web plate (221) is connected with the second connecting sheet (213).

6. An assembled containment apparatus for a large yard according to claim 3, 4 or 5, wherein: the height of the vertical beam column (21) is the same as that of the containment plate (1); or the height of the vertical beam column (21) is greater than that of the containment plate (1);

the transverse beam column (22) is positioned in the middle of the containment plate (1).

7. The assembled containment apparatus for large scale stockyard of claim 6, wherein: the assembled enclosure device also comprises a base (14), wherein the upper end surface of the base (14) is provided with a limiting groove (141) and a slot (142) which are communicated with each other;

the bottom of the enclosure plate (1) is fixed in the limiting groove (141), and the bottom of the first web plate (211) of the vertical beam column (21) and the bottom of the first wing plate (212) of one side, far away from the enclosure plate (1), of the vertical beam column (21) are fixed in the slot (142).

8. The assembled containment apparatus for large scale stockyard of claim 5, wherein: the enclosure plate (1) comprises a plurality of enclosure sub-plates (11), the adjacent enclosure sub-plates (11) are detachably connected, and the adjacent enclosure sub-plates (11) are respectively attached to the forming surface of the same transverse beam column (22);

the second wing plate (222) and the first wing plate (212) are respectively detachably connected with the third connecting piece (23);

the second connecting piece (213) and the second web (221) form a detachable connection.

9. The assembled containment apparatus for large scale stockyard of claim 8, wherein: the fender sub-board (11) comprises board bodies and concrete filled between the board bodies, wherein the board bodies are arranged oppositely, and the cross sections of the board bodies are corrugated.

10. The assembled containment apparatus for large scale stockyard of claim 8, wherein: the corner of the enclosure plate (1) is provided with an angular corner connecting piece (12), and the edge of the enclosure sub-plate (11) is connected with the edge of the corner connecting piece (12).

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