CN219217160U - Integrated construction elevator supporting structure for ground warehouse roof - Google Patents

Abstract

The utility model relates to the technical field of building construction and discloses a floor-warehouse roof integrated construction elevator supporting structure which comprises a main body assembly, wherein the main body assembly comprises an integrated supporting plate, a supporting piece and a mounting piece, the supporting piece is arranged at the bottom of the integrated supporting plate, and the mounting piece is positioned at the top of the integrated supporting plate; and the embedded assembly is arranged in the integrated supporting plate and comprises an embedded pipeline, a positioning piece, a fixing piece, an electric wire and a limiting piece. The utility model has the beneficial effects that: can supply municipal arrangement electric wire through setting up pre-buried pipeline to need not chisel out reinforced concrete foundation in the traditional construction, can fix the electric wire through setting up the mounting, and seal pre-buried pipeline, thereby prevent that pre-buried pipeline from being stopped up by debris, can prevent simultaneously that the mouse from boring into pre-buried pipeline from biting the insulating piece of electric wire.

Description

Integrated construction elevator supporting structure for ground warehouse roof

Technical Field

The utility model relates to the technical field of building construction, in particular to a floor-warehouse roof integrated construction elevator supporting structure.

Background

In urban construction projects, a basement is built mostly, during construction of an upper building structure, a construction elevator vertical transport machine is installed on a top plate of the basement structure, a construction elevator foundation is required to be arranged for ensuring safety of the construction elevator, a reinforced concrete foundation with the thickness of 6m and 4m and the thickness of 0.3m is poured on the top plate of the basement in the traditional method of the construction elevator foundation, municipal construction is influenced by the concrete foundation, the construction elevator needs to be chiseled after being removed, a large amount of labor cost is consumed for chiseling the concrete foundation, and a large amount of concrete is wasted.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description summary and in the title of the application, to avoid obscuring the purpose of this section, the description summary and the title of the utility model, which should not be used to limit the scope of the utility model.

The present utility model has been made in view of the above-mentioned and/or existing problems occurring in the construction of elevator support structures with a roof-integrated floor warehouse.

Therefore, the problem to be solved by the utility model is that the traditional method for constructing the elevator foundation is to pour a reinforced concrete foundation with the thickness of 6m and 4m and the thickness of 0.3m on a roof of a ground warehouse, and the concrete foundation influences municipal construction, so that the elevator needs to be chiseled after being dismantled, a large amount of labor cost is consumed for chiseling the concrete foundation, and a large amount of concrete is wasted.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides a ground storehouse roof integral type construction elevator bearing structure, its includes, the main part subassembly, including integral type backup pad, support piece and installed part, the support piece set up in integral type backup pad bottom, the installed part is located integral type backup pad top; the method comprises the steps of,

the embedded assembly is arranged in the integrated supporting plate and comprises an embedded pipeline, a positioning piece, a fixing piece, an electric wire and a limiting piece, wherein the embedded pipeline is arranged in the integrated supporting plate, the positioning piece is positioned in the embedded pipeline, the fixing piece is arranged in the positioning piece, the electric wire is arranged in the fixing piece, and the limiting piece is positioned in the fixing piece.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the support piece comprises a steel plate cushion block, a galvanized steel pipe and a reinforcing plate, wherein the steel plate cushion block is arranged at the bottom of the integrated support plate, the galvanized steel pipe is positioned at the bottom of the steel plate cushion block, and the reinforcing plate is arranged on the surface of the galvanized steel pipe.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the mounting piece comprises an embedded bolt and a construction elevator foundation section, wherein the embedded bolt is arranged in the integrated supporting plate, and the construction elevator foundation section is positioned at the top of the integrated supporting plate.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the locating piece comprises a locating sleeve and a clamping block, wherein the locating sleeve is arranged in the embedded pipeline, the clamping block is positioned on the surface of the locating sleeve, and a clamping groove is formed in the embedded pipeline.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the locating piece further comprises a locating ring and an inserting strip, the locating ring is arranged on the inner wall of the embedded pipeline, and the inserting strip is arranged on one side of the locating ring.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the fixing piece comprises a thread sleeve and a fixing sleeve, wherein the thread sleeve is arranged in the positioning sleeve, and the fixing sleeve is positioned on one side of the thread sleeve.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the fixing piece further comprises a rubber sleeve and an anti-skid block, wherein the rubber sleeve is arranged in the fixing sleeve, and the anti-skid block is positioned on the surface of the fixing sleeve.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the limiting piece comprises a swing rod and a positioning shaft, the swing rod is arranged in the threaded sleeve, and the positioning shaft is arranged on one side of the swing rod.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the limiting piece further comprises a limiting block and a protruding block, wherein the limiting block is arranged on one side of the swing rod, and the protruding block is arranged on the other side of the swing rod.

As a preferable scheme of the floor-warehouse roof integrated construction elevator supporting structure, the utility model comprises the following steps: the limiting piece further comprises an adjusting ring, a connecting rod and a limiting ring, wherein the adjusting ring is arranged on one side of the swing rod, the connecting rod is positioned on one side of the adjusting ring, and the limiting ring is arranged at the end part of the connecting rod.

The utility model has the beneficial effects that: can supply municipal arrangement electric wire through setting up pre-buried pipeline to need not chisel out reinforced concrete foundation in the traditional construction, can fix the electric wire through setting up the mounting, and seal pre-buried pipeline, thereby prevent that pre-buried pipeline from being stopped up by debris, can prevent simultaneously that the mouse from boring into pre-buried pipeline from biting the insulating piece of electric wire.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a structural diagram of a floor-ceiling integrated construction elevator support structure.

Fig. 2 is a cross-sectional structural view of a floor-ceiling integrated construction elevator support structure.

Fig. 3 is a partial structural cross-sectional view of a pre-buried pipeline of a floor-warehouse roof integrated construction elevator support structure.

Fig. 4 is a partial structure diagram of a pre-buried pipeline of a floor-warehouse roof integrated construction elevator supporting structure.

Fig. 5 is a block and slip connection block diagram of a floor-warehouse roof integrated construction elevator support structure.

Fig. 6 is a diagram of the connection structure of the swing link and the positioning shaft of the floor-base roof integrated construction elevator supporting structure.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 6, in a first embodiment of the present utility model, a floor-warehouse roof integrated construction elevator supporting structure is provided, which includes a main body assembly 100 and a pre-buried assembly 200, and by matching the main body assembly 100 and the pre-buried assembly 200, the integrated supporting plate 101 can provide good support for a construction elevator without affecting the arrangement of electric wires in municipal administration, thereby avoiding chiseling a reinforced concrete foundation and reducing construction cost.

Specifically, the main body assembly 100 includes an integral support plate 101, a support member 102, and a mounting member 103, where the support member 102 is disposed at the bottom of the integral support plate 101 and the mounting member 103 is disposed at the top of the integral support plate 101.

The integral type backup pad 101 is 6m 4m 0.3m's reinforced concrete foundation, sets up 50mm cement mortar on pouring the integral type backup pad 101 of accomplishing and makes level, and the drainage effect concurrently, and support piece 102 is used for supporting integral type backup pad 101 to for mounting 103 provides stable support framework, mounting 103 is used for supporting fixedly construction elevator.

The embedded assembly 200 is arranged in the integrated supporting plate 101 and comprises an embedded pipeline 201, a positioning piece 202, a fixing piece 203, an electric wire 204 and a limiting piece 205, wherein the embedded pipeline 201 is arranged in the integrated supporting plate 101, the positioning piece 202 is arranged in the embedded pipeline 201, the fixing piece 203 is arranged in the positioning piece 202, the electric wire 204 is arranged in the fixing piece 203, and the limiting piece 205 is arranged in the fixing piece 203.

When the embedded pipeline 201 is used for leveling cement mortar on the integrated supporting plate 101, the embedded pipeline 201 is embedded, the using amount of cement mortar can be reduced, so that the construction cost is saved, the embedded pipeline 201 can be used for municipal wire arrangement, the cement mortar for leveling the top of the integrated supporting plate 101 is not required to be chiseled off, the construction cost is further reduced, the positioning piece 202 is used for fixing the fixing piece 203, the electric wire 204 is an electric wire which is arranged in municipal manner, after the construction elevator is dismantled, the electric wire is arranged according to municipal requirements, and the limiting piece 205 is used for limiting the fixing piece 203.

Specifically, the support member 102 includes a steel plate pad 102a, a galvanized steel pipe 102b, and a stiffener plate 102c, the steel plate pad 102a is disposed at the bottom of the integrated support plate 101, the galvanized steel pipe 102b is disposed at the bottom of the steel plate pad 102a, and the stiffener plate 102c is disposed on the surface of the galvanized steel pipe 102 b.

The steel plate cushion block 102a is fixed in the bottom of the integrated supporting plate 101 through a bolt punching fixing mode, the galvanized steel pipe 102b is fixed in the bottom of the steel plate cushion block 102a through a fixing mode such as welding, the steel plate cushion blocks 102a are arranged at two ends of the galvanized steel pipe 102b, the steel plate cushion block 102a at the bottom is arranged on the ground of a ground warehouse and used for supporting and fixing the galvanized steel pipe 102b, the reinforcing plate 102c is fixed on the surface of the galvanized steel pipe 102b through a welding mode, and the galvanized steel pipe 102b is provided with a fixing device at two ends for reinforcing the stability of the galvanized steel pipe 102 b.

Specifically, the mounting member 103 includes an embedded bolt 103a and a construction elevator foundation section 103b, the embedded bolt 103a is disposed in the integrated supporting plate 101, and the construction elevator foundation section 103b is located at the top of the integrated supporting plate 101.

The number of the embedded bolts 103a is four, and when the integrated supporting plate 101 is poured, the embedded bolts 103a are embedded into the integrated supporting plate 101 and used for fixing the construction elevator foundation section 103b, and the construction elevator foundation section 103b is used for fixedly supporting the construction elevator.

Specifically, the positioning piece 202 includes a positioning sleeve 202a and a clamping block 202b, the positioning sleeve 202a is disposed in the embedded pipeline 201, the clamping block 202b is located on the surface of the positioning sleeve 202a, and a clamping groove U is formed in the embedded pipeline 201.

The locating sleeve 202a slides in the embedded pipeline 201, the clamping blocks 202b are fixed on the surface of the locating sleeve 202a in a welding mode, four clamping blocks 202b are arranged on the surface of the locating sleeve 202a, clamping grooves U are formed in two ends of the embedded pipeline 201, and the clamping blocks 202b slide in the clamping grooves U.

Example 2

Referring to fig. 1, 3 and 5, this embodiment is based on the previous embodiment, which is a second embodiment of the present utility model.

Specifically, the positioning piece 202 further includes a positioning ring 202c and an inserting strip 202d, the positioning ring 202c is disposed on the inner wall of the embedded pipeline 201, and the inserting strip 202d is disposed on one side of the positioning ring 202 c.

The positioning ring 202c slides on the inner wall of the embedded pipeline 201, the cutting 202d is fixed on one side of the positioning ring 202c, four cutting 202d are arranged around the positioning ring 202c, and the cutting 202d slides in the clamping groove U and is used for limiting the clamping block 202b, so that the positioning sleeve 202a is fixed.

Specifically, the fixing member 203 includes a threaded sleeve 203a and a fixing sleeve 203b, the threaded sleeve 203a is disposed in the positioning sleeve 202a, and the fixing sleeve 203b is disposed on one side of the threaded sleeve 203 a.

The thread sleeve 203a is rotatably connected to the inner wall of the positioning sleeve 202a through threads, the fixing sleeve 203b is fixed on one side of the thread sleeve 203a through welding, and when the fixing sleeve 203b rotates, the thread sleeve 203a can be driven to rotate, so that the thread sleeve 203a is taken out from the positioning sleeve 202 a.

Specifically, the fixing member 203 further includes a rubber sleeve 203c and an anti-slip block 203d, the rubber sleeve 203c is disposed in the fixing sleeve 203b, and the anti-slip block 203d is disposed on the surface of the fixing sleeve 203b.

The rubber sleeve 203c slides in the fixed sleeve 203b and is used for wrapping the electric wire 204, so that the electric wire 204 and the embedded pipeline 201 are sealed, the number of the anti-skid blocks 203d is multiple, the anti-skid blocks 203d are fixed on the surface of the fixed sleeve 203b in a welding mode, and the fixed sleeve 203b can be rotated more conveniently by arranging the anti-skid blocks 203 d.

Example 3

Referring to fig. 3 and 6, a third embodiment of the present utility model is based on the first two embodiments.

Specifically, the limiting member 205 includes a swing link 205a and a positioning shaft 205b, the swing link 205a is disposed in the threaded sleeve 203a, and the positioning shaft 205b is disposed on one side of the swing link 205 a.

The number of the positioning shafts 205b is two, the positioning shafts 205b are fixed on the surface of the swing rod 205a in a welding mode, and the positioning shafts 205b are rotatably connected in the threaded sleeve 203a, so that the swing rod 205a can swing in the threaded sleeve 203 a.

Specifically, the limiting member 205 further includes a limiting block 205c and a bump 205d, the limiting block 205c is disposed on one side of the swing link 205a, and the bump 205d is disposed on the other side of the swing link 205 a.

The limiting block 205c is fixed on one side of the swing rod 205a, the limiting block 205c is used for clamping and limiting the rubber sleeve 203c, the rubber sleeve 203c is fixed in the fixed sleeve 203b, the protruding block 205d is fixed on the other side of the swing rod 205a, the protruding block 205d is used for driving the swing rod 205a to swing, and therefore the limiting block 205c is far away from the rubber sleeve 203c, and limiting of the rubber sleeve 203c is relieved.

Specifically, the limiting member 205 further includes an adjusting ring 205e, a connecting rod 205f and a limiting ring 205g, the adjusting ring 205e is disposed on one side of the oscillating bar 205a, the connecting rod 205f is disposed on one side of the adjusting ring 205e, and the limiting ring 205g is disposed at an end of the connecting rod 205 f.

The adjusting ring 205e slides on one side of the swinging rod 205a and is used for driving the swinging rod 205a to swing, six connecting rods 205f are fixed on one side of the adjusting ring 205e in a welding mode, the limiting rings 205g are fixed on the end parts of the connecting rods 205f, the limiting rings 205g are positioned on one side of the threaded sleeve 203a and are used for pushing the adjusting ring 205e to slide through the connecting rods 205f, meanwhile, the adjusting ring 205e can be limited, when the limiting rings 205g are pushed to enable the adjusting ring 205e to move in the direction away from the rubber sleeve 203c, a plurality of limiting blocks 205c can be mutually close, at the moment, the rubber sleeve 203c can be placed into the fixing sleeve 203b, the limiting rings 205g are pushed again, the adjusting ring 205e can be moved in the direction close to the rubber sleeve 203c, so that the limiting blocks 205c are clamped on the inner wall of the rubber sleeve 203c, the rubber sleeve 203c is fixed through rotating the fixing sleeve 203b, the threaded sleeve 203a can be fixed in the positioning sleeve 202a, and the rubber sleeves 203c and 204 are fixed.

When the wire 204 is required to be fixed, the wire 204 is first inserted into the rubber sleeve 203c, then the limiting ring 205g is pushed to enable the adjusting ring 205e to move in the direction away from the rubber sleeve 203c, the adjusting ring 205e can squeeze the protruding blocks 205d to enable the limiting blocks 205c to be close to each other, at the moment, the rubber sleeve 203c can be placed into the fixing sleeve 203b, then the limiting ring 205g is pushed to enable the adjusting ring 205e to move in the direction close to the rubber sleeve 203c, so that the limiting blocks 205c are clamped on the inner wall of the rubber sleeve 203c, the rubber sleeve 203c is fixed, the positioning sleeve 202a is placed into the embedded pipeline 201, the clamping blocks 202b are clamped in the clamping grooves U through rotation of the positioning sleeve 202a, then the cutting 202d is inserted into the clamping grooves U to limit the clamping blocks 202b, the positioning sleeve 202a is fixed, and then the threaded sleeve 203a can be fixed in the positioning sleeve 202a in a through threaded connection mode through rotation of the fixing sleeve 203b, so that the rubber sleeve 203c and the wire 204 are fixed.

When the rubber sleeve 203c needs to be removed, the screw sleeve 203a is taken out from the positioning sleeve 202a by rotating the fixing sleeve 203b, and then the limiting ring 205g is moved, so that when the adjusting ring 205e moves in a direction away from the rubber sleeve 203c, the limiting blocks 205c can be mutually close to each other, the clamping limit on the rubber sleeve 203c is released, and at the moment, the rubber sleeve 203c can be removed.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (10)

1. The utility model provides a storehouse roof integral type construction elevator bearing structure which characterized in that: comprising the steps of (a) a step of,

the main body assembly (100) comprises an integrated supporting plate (101), a supporting piece (102) and a mounting piece (103), wherein the supporting piece (102) is arranged at the bottom of the integrated supporting plate (101), and the mounting piece (103) is positioned at the top of the integrated supporting plate (101); the method comprises the steps of,

the embedded assembly (200) is arranged in the integrated supporting plate (101), and comprises an embedded pipeline (201), a positioning piece (202), a fixing piece (203), an electric wire (204) and a limiting piece (205), wherein the embedded pipeline (201) is arranged in the integrated supporting plate (101), the positioning piece (202) is arranged in the embedded pipeline (201), the fixing piece (203) is arranged in the positioning piece (202), the electric wire (204) is arranged in the fixing piece (203), and the limiting piece (205) is arranged in the fixing piece (203).

2. The floor and ceiling integrated construction elevator supporting structure according to claim 1, wherein: the support piece (102) comprises a steel plate cushion block (102 a), a galvanized steel pipe (102 b) and a reinforcing plate (102 c), wherein the steel plate cushion block (102 a) is arranged at the bottom of the integrated support plate (101), the galvanized steel pipe (102 b) is positioned at the bottom of the steel plate cushion block (102 a), and the reinforcing plate (102 c) is arranged on the surface of the galvanized steel pipe (102 b).

3. The floor and ceiling integrated construction elevator supporting structure according to claim 2, wherein: the mounting piece (103) comprises an embedded bolt (103 a) and a construction elevator foundation section (103 b), wherein the embedded bolt (103 a) is arranged in the integrated supporting plate (101), and the construction elevator foundation section (103 b) is arranged at the top of the integrated supporting plate (101).

4. The floor and ceiling integrated construction elevator supporting structure according to claim 3, wherein: the locating piece (202) comprises a locating sleeve (202 a) and a clamping block (202 b), the locating sleeve (202 a) is arranged in the embedded pipeline (201), the clamping block (202 b) is located on the surface of the locating sleeve (202 a), and a clamping groove (U) is formed in the embedded pipeline (201).

5. The floor and ceiling integrated construction elevator supporting structure according to claim 4, wherein: the locating piece (202) further comprises a locating ring (202 c) and an inserting strip (202 d), wherein the locating ring (202 c) is arranged on the inner wall of the embedded pipeline (201), and the inserting strip (202 d) is arranged on one side of the locating ring (202 c).

6. The floor vault roof integrated construction elevator support structure of claim 4 or 5, wherein: the fixing piece (203) comprises a threaded sleeve (203 a) and a fixing sleeve (203 b), wherein the threaded sleeve (203 a) is arranged in the positioning sleeve (202 a), and the fixing sleeve (203 b) is arranged on one side of the threaded sleeve (203 a).

7. The floor and ceiling integrated construction elevator supporting structure according to claim 6, wherein: the fixing piece (203) further comprises a rubber sleeve (203 c) and an anti-slip block (203 d), wherein the rubber sleeve (203 c) is arranged in the fixing sleeve (203 b), and the anti-slip block (203 d) is positioned on the surface of the fixing sleeve (203 b).

8. The floor and ceiling integrated construction elevator supporting structure according to claim 7, wherein: the limiting piece (205) comprises a swing rod (205 a) and a positioning shaft (205 b), the swing rod (205 a) is arranged in the threaded sleeve (203 a), and the positioning shaft (205 b) is arranged on one side of the swing rod (205 a).

9. The floor and ceiling integrated construction elevator support structure of claim 8, wherein: the limiting piece (205) further comprises a limiting block (205 c) and a protruding block (205 d), the limiting block (205 c) is arranged on one side of the swing rod (205 a), and the protruding block (205 d) is located on the other side of the swing rod (205 a).

10. The floor vault roof integrated construction elevator support structure of claim 8 or 9, wherein: the limiting piece (205) further comprises an adjusting ring (205 e), a connecting rod (205 f) and a limiting ring (205 g), wherein the adjusting ring (205 e) is arranged on one side of the swing rod (205 a), the connecting rod (205 f) is arranged on one side of the adjusting ring (205 e), and the limiting ring (205 g) is arranged at the end part of the connecting rod (205 f).

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