CN211037948U - Park corridor structure - Google Patents

Abstract

The utility model discloses a garden corridor structure, including roof and supporting component. The supporting component comprises a supporting beam, a cross beam and a plurality of upright units, and each upright unit comprises a vertical beam, a connecting piece and a cement pier. The connecting hook of the connecting piece is fixed in the cement pier, the cement pier is buried underground, and the lower end of the vertical beam is installed on the connecting plate. The supporting beam is connected to the vertical beam of each upright unit, the cross beam is mounted on the supporting beam and used for supporting the top plate, and the central position of the length direction of the cross beam is positioned on one side of the supporting beam. The offset of crossbeam length direction center forms the asymmetric structure of upright beam both sides and can provide spacious pedestrian's passageway in one side of stand, increases the interest of building. And the netmass on the crossbeam between the adjacent stand units can be used for tendril plant's growth, makes this garden corridor structure more merge into the garden environment, avoids the top to fall the thing simultaneously and injures the pedestrian. This utility model is used for the gardens building field.

Description

Park corridor structure

Technical Field

The utility model relates to a gardens building field especially relates to a garden corridor structure.

Background

Urban afforestation refers to planting trees, planting grass and planting flowers in cities, and covering a certain ground space or installing points. Urban landscaping, which is a reduction organization in an urban ecosystem, has the ability to recover its original shape after being disturbed or destroyed by external factors, and is known as the reduction function of the urban ecosystem. The main reason why the urban ecosystem has a reduction function is to ensure good stability of the environment due to the action of greening the ecological environment in the city. In the urban greening process, the garden environment is created by applying engineering technology and artistic means in a certain region and modifying the terrain (or further building mountains, stacking stones and managing water) to plant trees, flowers and plants, building buildings, arranging garden roads and the like to create a beautiful natural environment and a rest area. This kind of garden environment is used as tourism or resident leisure activity place mostly, is equipped with the gardens building that supplies the visitor to hide rain and rest in the garden environment more. The corridor is an open leisure channel type building, can be effectively integrated into gardens, and decorates the environment. However, the existing gallery structure is relatively complex, the structural stability is still poor, the function is single, and the practicability is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stabilize durable garden corridor structure.

The utility model adopts the technical proposal that: the utility model provides a garden corridor structure, including roof and supporting component, supporting component is used for supporting the roof, supporting component includes a supporting beam, crossbeam and a plurality of stand unit, each stand unit all includes upright beam, connecting piece and cement mound, the connecting piece includes connecting plate and connection and colludes, the connecting plate is located the upper end that the connection colludes, the connection is colluded and is fixed in the cement mound, the cement mound buries in the underground, the lower extreme of upright beam is installed on the connecting plate, a supporting beam is connected to the upright beam of each stand unit, the crossbeam is installed on a supporting beam and is used for supporting the roof, crossbeam length direction's central point puts and is located a supporting beam one side, 2 is no less than to the quantity of crossbeam between the adjacent stand unit.

As an improvement of the scheme, the number of the cross beams between the adjacent upright post units is 2, and the two cross beams are respectively connected to the upright beams of the adjacent upright post units.

As an improvement of the scheme, the plane projection of the support beam is arc-shaped.

The improvement of the scheme comprises a stone bench, wherein the stone bench is positioned on one side of the supporting beam, and the center positions of the stone bench and the cross beam in the length direction are not positioned on the same side of the supporting beam.

As the improvement of the scheme, the lower end of the cement pier is provided with a ramming layer, and the upper side of the cement pier is also provided with a cement layer and a sandstone layer from top to bottom.

As an improvement of the proposal, a yellow rust stone plate is paved on the ground projected by the plane of the top plate.

As the improvement of the scheme, the supporting beam and the cross beam are both of square steel structures, and the vertical beam is of a channel steel structure.

As the improvement of the scheme, the number of the supporting beams is 2, and the two supporting beams are respectively positioned at two sides of the vertical beam.

As an improvement of the scheme, the top plate is toughened glass with the thickness of 8-12 mm.

As the improvement of the proposal, a connecting claw is arranged between the top plate and the cross beam.

The utility model has the advantages that: the garden corridor structure utilizes a supporting component to support a top plate, wherein upright post units in the supporting component are fixed in cement piers through connecting hooks of connecting pieces and bury the cement piers underground, the supporting beam is connected to upright beams of the upright post units, a cross beam is arranged on the supporting beam and used for supporting the top plate, the central position of the length direction of the cross beam is positioned on one side of the supporting beam, the number of the cross beams between adjacent upright post units is not less than 2, the cross beams between adjacent upright post units are connected with net blocks, the stability of the garden corridor structure can be ensured on the whole structure, the damage to the environment can be reduced through the upright beams fixed by the cement piers, the construction difficulty is reduced, the top plate can be effectively supported by the supporting beams and the cross beams, the structure for installing the top plate is ensured, meanwhile, the asymmetric structures on two sides of the upright beams are formed by the deviation of the centers of the length direction, increase the interest of building, and the pocket on the crossbeam between the adjacent stand unit can be used for tendril plant's growth, makes this garden corridor structure merge into the garden environment more to can play better guard action, avoid the top to fall the thing and injure the pedestrian.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

FIG. 1 is a schematic side view of a column unit at position;

FIG. 2 is a schematic top view of a mesh block;

Fig. 3 is a schematic top view of the gallery structure;

Fig. 4 is a schematic top view of the ground of the gallery structure.

Detailed Description

Referring to fig. 1 to 4, the present invention relates to a corridor structure for a garden, which comprises a top plate 11 and a supporting component. The supporting component is used for supporting the top plate 11 and forming a pedestrian activity space at the lower side of the top plate 11. Usually, the top plate 11 is a general plate structural member, and the specific material can be selected according to actual requirements. The support assembly comprises a support beam 24, a cross beam 23 and a number of column units for jacking up the support beam 24 and the cross beam 23. Each upright unit comprises an upright beam 21, a connecting piece 22 and a cement pier 31, wherein the connecting piece 22 comprises a connecting plate and a connecting hook, and the connecting plate is positioned at the upper end of the connecting hook. The connecting hook is fixed in the cement pier 31, and the cement pier 31 is buried underground. The lower extreme of founding the roof beam 21 is installed on the connecting plate, can fix through cement mound 31 and found the roof beam 21, effectively avoids it to empty, further guarantees the stability of this garden corridor structure. The connecting hook comprises at least two hook members facing away from each other, and is used for ensuring the connecting strength of the connecting member 22 and the cement pier 31. The cement pier 31 may be buried in the ground after being poured in advance, or may be cast in situ by digging a pit in the top. A support beam 24 is attached to the upright beams 21 of the individual column units, and a support beam 24 is attached to each upright beam 21 of the corridor structure of the garden, ensuring a uniform and stable force. The cross beam 23 is mounted on the support beam 24 and serves to support the top plate 11, and it is also possible to provide that the cross beam 23 is also connected to the upright 21. The center position of the beam 23 in the length direction is located on the side of the support beam 24, that is, the center position of the beam 23 in the length direction has a certain distance from the support beam 24 in a planar projection. The number of the cross beams 23 between the adjacent upright post units is not less than 2, and the cross beams 23 between the adjacent upright post units are all connected with net blocks 26. The net block 26 can facilitate the winding of the vine plants, ensure the stability of the structure and prevent falling objects.

In a preferred embodiment, the top plate 11 is a tempered glass 8 to 12mm thick. The toughened glass can improve the light transmittance, enables pedestrians to appreciate the landscape, and is also beneficial to the growth of the vine plants. Usually, a heat reflection coating is also attached to the tempered glass to reduce the temperature below the corridor structure of the park. Preferably, the thickness of the toughened glass is 10.76 mm.

In a preferred embodiment, the support beam 24 has a planar projection in the shape of an arc. Similarly, the column units are also linearly arrayed along the support beam 24, which can effectively improve the stability of the whole structure and lead the stone piers of different column units to be supported coordinately.

In a preferred embodiment, the number of the cross beams 23 between the adjacent column units is 2, and the two cross beams 23 are respectively connected to the vertical beams 21 of the adjacent column units, so that the compactness and the integrity of the structure are improved, and the connection strength and the support strength of the cross beams 23 are ensured.

In a preferred embodiment, the number of the support beams 24 is 2, and the two support beams 24 are respectively located at two sides of the vertical beam 21 to ensure the connection strength of the support beams 24. For convenience of description and without representing a specific direction, the left side of the view direction in fig. 1 is referred to as left, the right side of the view direction is referred to as right, the upper side of the view direction is referred to as upper, and the lower side of the view direction is referred to as lower. The positional relationship is compared from the center position of each structural member. As can be seen from fig. 1, the support beams 24 are respectively located on the left and right sides of the upright beam 21.

Preferably, the stone bench 35 is included, the stone bench 35 is located on one side of the support beam 24, and the stone bench 35 is not located on the same side of the support beam 24 as the longitudinal center position of the cross beam 23. As seen from fig. 1, the center position in the longitudinal direction of the cross member 23 is located on the left side of the upright member 21 and also on the left side of the support beam 24, and the stone 35 is located on the right side of the support beam 24. Thereby, a relatively spacious pedestrian activity space can be formed on the left side of the upright beam 21, and the right side of the upright beam 21 is used for the pedestrians to rest.

In the embodiment, the lower end of the cement pier 31 of the garden corridor structure is provided with a ramming layer 32, and the upper side of the cement pier 31 is also provided with a cement layer 34 and a sand stone layer 33 from top to bottom, so that the stability of the cement pier 31 is ensured. And the yellow rust stone plate 36 is laid on the ground projected on the plane of the top plate 11, so that the environment ornamental value is improved. A connecting claw 25 is arranged between the top plate 11 and the cross beam 23, the lower side of the connecting claw 25 is welded on the cross beam 23, and the upper side is used for fixing the top plate 11. Preferably, the support beams 24 and the cross beams 23 are both of square steel structure, and the vertical beams 21 are of channel steel structure, so that the self weight is reduced while the structural stability is ensured.

Of course, the design creation is not limited to the above embodiments, and the combination of different features of the above embodiments can also achieve good effects. Those skilled in the art can make equivalent changes or substitutions without departing from the spirit of the present invention, and such equivalent changes or substitutions are included in the scope defined by the claims of the present application.

Claims (10)

1. The utility model provides a garden corridor structure which characterized in that: including roof (11) and supporting component, the supporting component is used for supporting roof (11), the supporting component includes a supporting beam (24), crossbeam (23) and a plurality of stand unit, each the stand unit all includes upright beam (21), connecting piece (22) and cement mound (31), connecting piece (22) include connecting plate and hookup, the connecting plate is located the upper end of hookup, the hookup is fixed in cement mound (31), cement mound (31) are buried underground, the lower extreme of upright beam (21) is installed on the connecting plate, supporting beam (24) are connected to the upright beam (21) of each stand unit, crossbeam (23) are installed on supporting beam (24) and are used for supporting roof (11), crossbeam (23) length direction's central point puts in supporting beam (24) one side, and adjacent the quantity of crossbeam (23) between the stand unit is no less than 2, and the cross beams (23) between the adjacent upright post units are connected with net blocks (26).

2. The campus corridor structure of claim 1, wherein: the number of the cross beams (23) between the adjacent upright post units is 2, and the two cross beams (23) are respectively connected to the upright beams (21) of the adjacent upright post units.

3. The campus corridor structure of claim 2, wherein: the plane projection of the support beam (24) is arc-shaped.

4. The campus corridor structure of claim 3, wherein: the stone stool device comprises a stone stool (35), wherein the stone stool (35) is positioned on one side of the supporting beam (24), and the stone stool (35) and the central position of the cross beam (23) in the length direction are not positioned on the same side of the supporting beam (24).

5. The campus corridor structure of any one of claims 1 to 4, wherein: the lower extreme of cement mound (31) is equipped with rammed earth layer (32), the upside of cement mound (31) still is equipped with cement layer (34) and gravel layer (33) by last to down.

6. The campus corridor structure of claim 5, wherein: and a yellow rust stone plate (36) is paved on the ground projected on the plane of the top plate (11).

7. The campus corridor structure of claim 6, wherein: the supporting beam (24) and the cross beam (23) are both of square steel structures, and the vertical beam (21) is of a channel steel structure.

8. The campus corridor structure of claim 7, wherein: the number of the supporting beams (24) is 2, and the two supporting beams (24) are respectively positioned on two sides of the vertical beam (21).

9. The campus corridor structure of claim 8, wherein: the top plate (11) is made of 8-12 mm thick toughened glass.

10. The campus corridor structure of claim 9, wherein: a connecting claw (25) is arranged between the top plate (11) and the cross beam (23).

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