CN214194636U - Construction elevator foundation structure convenient to construction - Google Patents

Abstract

The utility model provides a construction elevator foundation structure convenient to construction, wherein lower longitudinal support beam and lower transverse support beam vertically and horizontally staggered set up and all lie in under the structural slab and be connected with the structural slab, lower longitudinal support beam lies in between front structure roof beam and the rear structure roof beam and connects front structure roof beam and rear structure roof beam respectively, lower transverse support beam lies in between left structure roof beam and the right structure roof beam and connects left structure roof beam and right structure roof beam respectively, thereby utilize former structural column as construction elevator's main bearing member, pass to former structural beam through lower longitudinal support beam and lower transverse support beam on with the load, the former structural column is transmitted to the rethread former structural column. Preferably, the system further comprises an upper front structural beam, an upper rear structural beam, an upper left structural beam, an upper right structural beam, an upper longitudinal support beam and an upper transverse support beam. The utility model discloses can solve the construction problem of construction elevator basis, it is convenient to be under construction, safe and reliable, and does not influence basement usage space, design benefit, and the structure is succinct, and is with low costs.

Description

Construction elevator foundation structure convenient to construction

Technical Field

The utility model relates to a construction technical field, in particular to construction elevator foundation structure technical field specifically indicates a construction elevator foundation structure convenient to construction.

Background

The building construction refers to production activities in the engineering construction implementation stage, is the construction process of various buildings, and also can be a process of changing various lines on a design drawing into a real object at a specified place. The method comprises foundation engineering construction, main structure construction, roofing engineering construction, decoration engineering construction and the like.

In recent years, along with the development of the building industry, construction elevators are construction machinery frequently used in construction, but the construction elevators have great influence on the original structure, traditional construction often needs to be supported by densely distributed full frames in a basement below the construction elevators, construction is complex, and the use space of the basement is influenced.

As shown in fig. 1, the basement 2 below the construction elevator 1 generally includes a left front structural pillar 3 (see fig. 2 and 4), a left rear structural pillar 4, a right front structural pillar 5 (see fig. 2), a right rear structural pillar 6, a front structural beam 7 (see fig. 4), a rear structural beam 8, a left structural beam 9, a right structural beam 10, and a structural slab 11, wherein the front structural beam 7 is disposed in the left-right direction, is located between the upper end of the left front structural pillar 3 and the upper end of the right front structural pillar 5, and is respectively connected to the upper end of the left front structural pillar 3 and the upper end of the right front structural pillar 5, the rear structural beam 8 is disposed in the left-right direction, is located between the upper end of the left rear structural pillar 4 and the upper end of the right rear structural pillar 6, and is respectively connected to the upper end of the left rear structural pillar 4 and the upper end of the left rear structural pillar 4, and is respectively connected to the upper end of the left front structural pillar 3 and the upper end of the left rear structural pillar 4, and the left structural pillar 4, and the rear structural beam 9 are respectively disposed in the front structural pillar 3, and the rear structural pillar 7, and the rear structural beam 7, and the upper end of the left structural pillar 5, and the upper end of the left structural pillar 3, and the right structural pillar 5, and the rear structural beam are respectively The upper end of the right structural beam 10 is arranged along the front-back direction and is positioned between the upper end of the right front structural column 5 and the upper end of the right rear structural column 6 and is respectively connected with the upper end of the right front structural column 5 and the upper end of the right rear structural column 6, and the structural plate 11 is horizontally arranged and is positioned between the upper end of the left front structural column 3, the front structural beam 7, the upper end of the right front structural column 5, the right structural beam 10, the upper end of the right rear structural column 6, the rear structural beam 8, the upper end of the left rear structural column 4 and the left structural beam 9 and is respectively connected with the upper end of the left front structural column 3, the front structural beam 7, the upper end of the right front structural column 5, the right structural beam 10, the upper end of the right rear structural column 6, the rear structural beam 8, the upper end of the left rear structural column 4 and the left structural beam 9. When the construction of the foundation structure of the construction elevator needs to be carried out on the structural slab 11, the basement 2 needs to be densely distributed with the full frame 13 for supporting, then the construction elevator foundation bottom plate 12 is arranged on the structural slab 11, and then the construction elevator 1 is arranged on the construction elevator foundation bottom plate 12.

Therefore, it is desirable to provide a construction elevator foundation structure convenient to construction, and it can solve the construction problem on construction elevator basis, and the construction is convenient, safe and reliable, and does not influence basement usage space.

SUMMERY OF THE UTILITY MODEL

In order to overcome the shortcoming among the above-mentioned prior art, an object of the utility model is to provide a construction elevator foundation structure convenient to construction, its construction problem that can solve construction elevator basis, it is convenient to be under construction, safe and reliable, and do not influence basement usage space, is suitable for extensive popularization and application.

Another object of the utility model is to provide a construction elevator foundation structure convenient to construction, its design benefit, the structure is succinct, and is with low costs, is suitable for extensive popularization and application.

In order to achieve the above object, the utility model discloses a construction elevator foundation structure convenient to construction, including left front structure post, left back structure post, right front structure post, right back structure post, front structure roof beam, back structure roof beam, left structure roof beam, right structure roof beam, structural slab and construction elevator soleplate, front structure roof beam sets up and is located along controlling the direction left the upper end of left front structure post with just connect respectively between the upper end of right front structure post left front structure post upper end with right front structure post upper end, back structure roof beam is followed control the direction setting and is located left back structure post upper end with just connect respectively between the upper end of right back structure post left back structure post upper end with right back structure post upper end, left side structure roof beam set up and is located along the fore-and-connect respectively left front structure post upper end with left back structure post upper end between and connect respectively left front structure post upper end with left back structure post upper end A structural beam disposed along the front-rear direction and located between and connected to the upper end of the right front structural column and the upper end of the right rear structural column, a structural slab disposed horizontally and located between and connected to the upper ends of the left front structural column, the front structural beam, the right front structural column, the right rear structural column, the rear structural beam, the left rear structural column, and the left structural beam, the front structural beam, the upper end of the right front structural column, the right structural beam, the upper end of the right rear structural column, the upper end of the rear structural beam, the upper end of the left rear structural column, and the left structural beam, and connected to the upper ends of the left front structural column, the front structural beam, the upper end of the right front structural column, the right structural beam, the upper end of the rear structural column, the rear structural beam, the upper end of the left rear structural column, and the left structural beam, the construction elevator foundation slab is disposed on the structural slab, it is characterized in that the construction elevator foundation structure convenient for construction further comprises a lower longitudinal supporting beam and a lower transverse supporting beam, wherein:

lower longitudinal support beam with lower horizontal supporting beam vertically and horizontally staggered sets up and all is located under the structural slab and with the structural slab is connected, lower longitudinal support beam is located preceding structural beam with connect respectively between the rear structure roof beam preceding structural beam with the rear structure roof beam, lower horizontal supporting beam is located left side structural beam with connect respectively between the right side structural beam left side structural beam with right side structural beam.

Preferably, the number of the lower longitudinal support beams is plural, and the plural lower longitudinal support beams are arranged at intervals along the left-right direction.

Preferably, the number of the lower transverse support beams is plural, and the plural lower transverse support beams are arranged at intervals along the front-rear direction.

Preferably, the construction elevator foundation structure convenient for construction further comprises a shock absorption cushion, and the shock absorption cushion is horizontally arranged between the construction elevator foundation bottom plate and the structural plate.

Preferably, the construction elevator foundation structure convenient for construction further includes an upper front structural beam, an upper rear structural beam, an upper left structural beam, an upper right structural beam, an upper longitudinal supporting beam and an upper transverse supporting beam, wherein:

the upper front structural beam is arranged on the front structural beam along the left-right direction, the upper rear structural beam is arranged on the rear structural beam along the left-right direction, the upper left structural beam is arranged on the left structural beam along the front-back direction, the upper right structural beam is arranged on the right structural beam along the front-back direction, the upper longitudinal supporting beams and the upper transverse supporting beams are arranged in a criss-cross mode, are both positioned on the structural plate and are connected with the structural plate, the upper longitudinal supporting beams are positioned between the upper front structural beam and the upper rear structural beam and are respectively connected with the upper front structural beam and the upper rear structural beam, and the upper transverse supporting beams are positioned between the upper left structural beam and the upper right structural beam and are respectively connected with the upper left structural beam and the upper right structural beam.

Preferably, the number of the upper longitudinal support beams is plural, and the plural upper longitudinal support beams are arranged at intervals in the left-right direction.

Preferably, the number of the upper transverse supporting beams is multiple, and the upper transverse supporting beams are arranged at intervals along the front-rear direction.

Preferably, the upper front structural beam, the upper left structural beam, the upper rear structural beam and the upper right structural beam are sequentially connected end to form a rectangular ring shape.

Preferably, the upper longitudinal support beam is located directly above the lower longitudinal support beam, and the upper transverse support beam is located directly above the lower transverse support beam.

More preferably, the construction elevator foundation bedplate is disposed on the upper longitudinal support beams and the upper transverse support beams.

The beneficial effects of the utility model mainly lie in:

1. the utility model discloses a construction elevator foundation structure's convenient to construction lower longitudinal support beam and lower transverse support beam vertically and horizontally staggered set up and all lie in under the structural slab and be connected with the structural slab, lower longitudinal support beam lies in between front structure roof beam and the rear structure roof beam and connects front structure roof beam and rear structure roof beam respectively, lower transverse support beam lies in between left structure roof beam and the right structure roof beam and connects left structure roof beam and right structure roof beam respectively, thereby utilize former structure post as construction elevator's main bearing member, pass on the former structure roof beam with lower transverse support beam with the load through lower longitudinal support beam, the former structure roof beam of rethread transmits on the former structure post, therefore, it can solve the construction problem on construction elevator basis, it is convenient to be under construction, safety and reliability, and do not influence basement usage space, be suitable for extensive popularization and application.

2. The utility model discloses a construction elevator foundation structure's convenient to construction lower longitudinal support beam and lower transverse support beam vertically and horizontally staggered set up and all are located under the structural slab and are connected with the structural slab, lower longitudinal support beam is located between front structure roof beam and the rear structure roof beam and connect front structure roof beam and rear structure roof beam respectively, lower transverse support beam is located between left structure roof beam and the right structure roof beam and connect left structure roof beam and right structure roof beam respectively, thereby utilize former structure post as construction elevator's main bearing member, pass on the former structure roof beam with lower transverse support beam through lower longitudinal support beam, the former structure roof beam of rethread transmits on the former structure post, therefore, its design benefit, the structure is succinct, and is low in cost, be suitable for extensive popularization and application.

These and other objects, features and advantages of the present invention will be fully apparent from the following detailed description and appended drawings, and may be realized by means of the instrumentalities, devices and combinations particularly pointed out in the specification.

Drawings

Fig. 1 is a partial front sectional view schematically showing a conventional foundation structure of a construction elevator.

Fig. 2 is a schematic plan view of a specific embodiment of the construction elevator foundation structure convenient for construction of the present invention.

Fig. 3 is a schematic cross-sectional view at the position a-a in fig. 2.

Fig. 4 is a schematic cross-sectional view at the position B-B in fig. 2.

(symbol description)

1, constructing an elevator; 2, basement; 3 left front structural columns; 4 left rear structural columns; 5 right front structural columns; 6 right rear structural columns; 7 front structural beam; 8 rear structural beam; 9 left structural beam; 10 right structural beam; 11 a structural panel; 12 constructing an elevator foundation slab; 13, filling the hall shelf; 14 lower longitudinal support beams; 15 lower transverse supporting beams; 16 shock absorbing cushions; 17, mounting a front structural beam; 18, a rear structural beam; 19, an upper left structural beam; 20, upper right structural beam; 21, longitudinal support beams; 22 are transversely supported beams.

Detailed Description

In order to clearly understand the technical contents of the present invention, the following embodiments are specifically illustrated in detail.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 2 to 4, in an embodiment of the present invention, the construction elevator substructure convenient for construction includes a left front structural pillar 3, a left rear structural pillar 4, a right front structural pillar 5, a right rear structural pillar 6, a front structural beam 7, a rear structural beam 8, a left structural beam 9, a right structural beam 10, a structural slab 11, a construction elevator foundation slab 12, a lower longitudinal supporting beam 14, and a lower transverse supporting beam 15, wherein the front structural beam 7 is disposed in a left-right direction and is located between an upper end of the left front structural pillar 3 and an upper end of the right front structural pillar 5 and respectively connects an upper end of the left front structural pillar 3 and an upper end of the right front structural pillar 5, the rear structural beam 8 is disposed in the left-right direction and is located between an upper end of the left rear structural pillar 4 and an upper end of the right rear structural pillar 6 and respectively connects an upper end of the left rear structural pillar 4 and an upper end of the right rear structural pillar 6, left side structural beam 9 set up and be located along the fore-and-aft direction left front structural column 3's upper end with left rear structural column 4's upper end between and connect respectively left front structural column 3's upper end with left rear structural column 4's upper end, right side structural beam 10 follows the fore-and-aft direction sets up and is located right front structural column 5's upper end with right rear structural column 6's upper end between and connect respectively right front structural column 5's upper end with right rear structural column 6's upper end, structural slab 11 level sets up and is located left front structural column 3's upper end, front structural beam 7, right front structural column 5's upper end, right structural beam 10, right rear structural column 6's upper end, rear structural beam 8, left rear structural column 4's upper end with left structural beam 9 between and connect respectively left front structural column 3's upper end, upper end, The front structural beam 7, the upper end of the right front structural column 5, the right structural beam 10, the upper end of the right rear structural column 6, the rear structural beam 8, the upper end of the left rear structural column 4, and the left structural beam 9, the construction elevator foundation bedplate 12 being disposed on the structural slab 11;

the lower longitudinal supporting beam 14 and the lower transverse supporting beam 15 are arranged in a criss-cross mode and are located below the structural plate 11 and connected with the structural plate 11, the lower longitudinal supporting beam 14 is located between the front structural beam 7 and the rear structural beam 8 and is respectively connected with the front structural beam 7 and the rear structural beam 8, and the lower transverse supporting beam 15 is located between the left structural beam 9 and the right structural beam 10 and is respectively connected with the left structural beam 9 and the right structural beam 10.

The number of the lower longitudinal support beams 14 may be determined as needed, and preferably, the number of the lower longitudinal support beams 14 is plural, and the plural lower longitudinal support beams 14 are arranged at intervals in the left-right direction. Referring to fig. 3, in an embodiment of the present invention, the number of the lower longitudinal supporting beams 14 is 2.

The number of the lower cross support beams 15 may be determined as needed, and preferably, the number of the lower cross support beams 15 is plural, and the plural lower cross support beams 15 are arranged at intervals in the front-rear direction. Referring to fig. 4, in an embodiment of the present invention, the number of the lower cross support beams 15 is 2.

In order to cushion and absorb shock for the construction elevator 1, please refer to fig. 2 to 4, in a specific embodiment of the present invention, the construction elevator base structure convenient for construction further includes a shock absorbing cushion 16, the shock absorbing cushion 16 is horizontally disposed between the construction elevator base plate 12 and the structural plate 11.

The shock absorbing cushion 16 may be made of any suitable material, and in an embodiment of the present invention, the shock absorbing cushion 16 is a rubber shock absorbing cushion.

The construction-convenient construction elevator substructure may also include any other suitable construction, and preferably, the construction-convenient construction elevator substructure further includes upper front structural beams 17, upper rear structural beams 18, upper left structural beams 19, upper right structural beams 20, upper longitudinal support beams 21, and upper transverse support beams 22, wherein: the upper front structural beam 17 is provided on the front structural beam 7 in the left-right direction, the upper rear structural beam 18 is provided on the rear structural beam 8 in the left-right direction, the upper left structural beam 19 is provided on the left structural beam 9 in the front-rear direction, the upper right structural beam 20 is provided on the right structural beam 10 in the front-rear direction, the upper longitudinal supporting beams 21 and the upper transverse supporting beams 22 are arranged in a criss-cross manner, are both positioned on the structural plate 11 and are connected with the structural plate 11, said upper longitudinal support beam 21 is located between said upper front structural beam 17 and said upper rear structural beam 18 and connects said upper front structural beam 17 and said upper rear structural beam 18 respectively, the upper transverse support beam 22 is located between the upper left structural beam 19 and the upper right structural beam 20 and connects the upper left structural beam 19 and the upper right structural beam 20, respectively. Referring to fig. 2 to 4, in a specific embodiment of the present invention, in the case that the construction elevator base structure for facilitating construction further includes a shock absorbing cushion 16, the shock absorbing cushion 16 is located between the upper longitudinal support beam 21 and the upper transverse support beam 22.

The height of the upper front structural beam 17, the height of the upper rear structural beam 18, the height of the upper left structural beam 19, the height of the upper right structural beam 20, the height of the upper longitudinal support beam 21 and the height of the upper transverse support beam 22 can be determined as required, in a specific embodiment of the present invention, the height of the upper front structural beam 17, the height of the upper rear structural beam 18, the height of the upper left structural beam 19, the height of the upper right structural beam 20, the height of the upper longitudinal support beam 21 and the height of the upper transverse support beam 22 are both 400 mm.

The number of the upper longitudinal support beams 21 may be determined as required, and more preferably, the number of the upper longitudinal support beams 21 is plural, and the plural upper longitudinal support beams 21 are arranged at intervals in the left-right direction. Referring to fig. 2 to 3, in an embodiment of the present invention, the number of the upper longitudinal supporting beams 21 is 2.

The number of the upper cross support beams 22 may be determined as required, and more preferably, the number of the upper cross support beams 22 is plural, and the plural upper cross support beams 22 are spaced from each other in the front-rear direction. Referring to fig. 2 and 4, in an embodiment of the present invention, the number of the upper transverse supporting beams 22 is 2.

The upper front structural beam 17, the upper left structural beam 19, the upper rear structural beam 18 and the upper right structural beam 20 may be connected to each other or may be independent from each other, as shown in fig. 2, in a specific embodiment of the present invention, the upper front structural beam 17, the upper left structural beam 19, the upper rear structural beam 18 and the upper right structural beam 20 are sequentially connected end to form a rectangular ring shape.

The upper longitudinal supporting beam 21 may be located directly above the lower longitudinal supporting beam 14, or may not be located directly above the lower longitudinal supporting beam 14, that is, staggered from the lower longitudinal supporting beam 14, the upper transverse supporting beam 22 may be located directly above the lower transverse supporting beam 15, or may not be located directly above the lower transverse supporting beam 15, that is, staggered from the lower transverse supporting beam 15, as shown in fig. 3 to 4, in an embodiment of the present invention, the upper longitudinal supporting beam 21 is located directly above the lower longitudinal supporting beam 14, and the upper transverse supporting beam 22 is located directly above the lower transverse supporting beam 15.

The foundation slab 12 of the construction elevator may be disposed on the upper longitudinal supporting beam 21 and the upper transverse supporting beam 22, or may not be disposed on the upper longitudinal supporting beam 21 and the upper transverse supporting beam 22, as shown in fig. 2 to 4, in a specific embodiment of the present invention, the foundation slab 12 of the construction elevator is disposed on the upper longitudinal supporting beam 21 and the upper transverse supporting beam 22.

During construction, a lower longitudinal support beam 14 is poured between the front structural beam 7 and the rear structural beam 8 on the bottom surface of the structural plate 11, and a lower transverse support beam 15 is poured between the left structural beam 9 and the right structural beam 10; casting a front structural beam 17 on the front structural beam 7, casting a rear structural beam 18 on the rear structural beam 8, casting a left structural beam 19 on the left structural beam 9, and casting a right structural beam 20 on the right structural beam 10; on the upper surface of the structural slab 11, pouring upper longitudinal support beams 21 between the upper front structural beam 17 and the upper rear structural beam 18, and pouring upper transverse support beams 22 between the upper left structural beam 19 and the upper right structural beam 20; the damping cushion 16 is arranged between the upper longitudinal support beam 21 and the upper transverse support beam 22, the construction elevator foundation slab 12 is arranged on the upper longitudinal support beam 21, the upper transverse support beam 22 and the damping cushion 16, and the construction elevator 1 is arranged on the construction elevator foundation slab 12.

Therefore, the utility model discloses utilize former structure post (be left front structure post, left back structure post, right front structure post and right back structure post) as the main bearing member of construction elevator, pass on former structure beam (be front structure beam promptly) through a supporting beam (be lower longitudinal support beam promptly, lower transverse supporting beam, go up longitudinal support beam and last transverse supporting beam) with the load (be front structure beam, back structure beam, left structure beam and right structure beam), the rethread former structure beam transmits on former structure post, wherein through setting up the front structure beam, go up the back structure beam, go up left structure beam, go up right structure beam, go up longitudinal support beam and last transverse supporting beam, be equivalent to with former structure post, lower longitudinal support beam and lower supporting beam transversely turn up, increase its cross sectional area, strengthen its structure bearing capacity. A construction elevator foundation bottom plate is arranged below the construction elevator, and a damping cushion is arranged for damping.

To sum up, the utility model discloses a construction elevator foundation structure convenient to construction can solve the construction problem on construction elevator basis, and it is convenient to be under construction, safe and reliable, and does not influence basement usage space, design benefit, and the structure is succinct, and is with low costs, is suitable for extensive popularization and application.

Therefore, the purpose of the utility model is completely and effectively realized. The functional and structural principles of the present invention have been shown and described in the embodiments, and the embodiments may be modified without departing from the principles. Therefore, the present invention includes all modifications within the spirit and scope of the appended claims.

Claims (10)

1. A construction elevator foundation structure convenient for construction comprises a left front structural column, a left rear structural column, a right front structural column, a right rear structural column, a front structural beam, a rear structural beam, a left structural beam, a right structural beam, a structural slab and a construction elevator foundation bottom plate, wherein the front structural beam is arranged along the left-right direction, is positioned between the upper end of the left front structural column and the upper end of the right front structural column and is respectively connected with the upper end of the left front structural column and the upper end of the right front structural column, the rear structural beam is arranged along the left-right direction, is positioned between the upper end of the left rear structural column and the upper end of the right rear structural column and is respectively connected with the upper end of the left rear structural column and the upper end of the right rear structural column, the left structural beam is arranged along the front-back direction and is positioned between the upper end of the left front structural column and the upper end of the left rear structural column and is respectively connected with the upper end of the left front structural column and the upper end of the left rear structural column, the right structural beam is arranged along the front-back direction and positioned between the upper end of the right front structural column and the upper end of the right rear structural column and respectively connected with the upper end of the right front structural column and the upper end of the right rear structural column, the structural slab is horizontally arranged and positioned between the upper end of the left front structural column, the front structural beam, the upper end of the right front structural column, the right structural beam, the upper end of the right rear structural column, the rear structural beam, the upper end of the left rear structural column and the left structural beam and respectively connected with the upper end of the left front structural column, the front structural beam, the upper end of the right front structural column, the upper end of the right structural beam, the upper end of the right rear structural column, the rear structural beam, the upper end of the left rear structural column and the left structural beam, the construction elevator foundation slab is arranged on the structural slab, its characterized in that, construction elevator foundation structure convenient to construction still include down longitudinal support beam and lower transverse support beam, wherein:

lower longitudinal support beam with lower horizontal supporting beam vertically and horizontally staggered sets up and all is located under the structural slab and with the structural slab is connected, lower longitudinal support beam is located preceding structural beam with connect respectively between the rear structure roof beam preceding structural beam with the rear structure roof beam, lower horizontal supporting beam is located left side structural beam with connect respectively between the right side structural beam left side structural beam with right side structural beam.

2. The construction elevator substructure facilitating construction as set forth in claim 1, wherein said lower longitudinal support beams are plural in number, and said plural lower longitudinal support beams are arranged at a distance from each other in said left-right direction.

3. The construction elevator foundation structure facilitating construction according to claim 1, wherein the number of the lower transverse support beams is plural, and the plural lower transverse support beams are arranged at intervals from each other in the front-rear direction.

4. The construction-facilitating construction elevator foundation structure of claim 1, further comprising a shock-absorbing buffer disposed horizontally between the construction elevator foundation bedplate and the structural plate.

5. The construction-convenient construction elevator foundation structure of claim 1, wherein said construction-convenient construction elevator foundation structure further comprises an upper front structural beam, an upper rear structural beam, an upper left structural beam, an upper right structural beam, an upper longitudinal support beam and an upper transverse support beam, wherein:

the upper front structural beam is arranged on the front structural beam along the left-right direction, the upper rear structural beam is arranged on the rear structural beam along the left-right direction, the upper left structural beam is arranged on the left structural beam along the front-back direction, the upper right structural beam is arranged on the right structural beam along the front-back direction, the upper longitudinal supporting beams and the upper transverse supporting beams are arranged in a criss-cross mode, are both positioned on the structural plate and are connected with the structural plate, the upper longitudinal supporting beams are positioned between the upper front structural beam and the upper rear structural beam and are respectively connected with the upper front structural beam and the upper rear structural beam, and the upper transverse supporting beams are positioned between the upper left structural beam and the upper right structural beam and are respectively connected with the upper left structural beam and the upper right structural beam.

6. The construction elevator foundation structure facilitating construction according to claim 5, wherein the number of the upper longitudinal support beams is plural, and the plural upper longitudinal support beams are arranged at intervals from each other in the left-right direction.

7. The construction elevator foundation structure facilitating construction according to claim 5, wherein the number of the upper transverse support beams is plural, and the plural upper transverse support beams are arranged at intervals from each other in the front-rear direction.

8. The construction elevator substructure facilitating construction as set forth in claim 5, wherein said upper front structural beam, said upper left structural beam, said upper rear structural beam and said upper right structural beam are sequentially connected end to form a rectangular ring shape.

9. The construction elevator substructure facilitating construction as set forth in claim 5, wherein said upper longitudinal support beams are positioned directly above said lower longitudinal support beams and said upper transverse support beams are positioned directly above said lower transverse support beams.

10. The construction-convenient construction elevator foundation structure of claim 5, wherein the construction elevator foundation bedplate is disposed on the upper longitudinal support beams and the upper transverse support beams.

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