CN220909277U - Building and indoor substation power distribution device building - Google Patents

Abstract

The utility model discloses a building, which comprises at least two floors, wherein the floors are arranged upwards, the outer walls of the floors are provided with transportation doors, and the transportation doors are vertically arranged; at least one second floor and above the outer wall of floor is provided with hoisting platform, hoisting platform is located the side of transportation door, hoisting platform is provided with the hoist cable that the level extends and gives up the position logical groove, the hoist cable gives up the position logical groove and link up to along the one end of horizontal direction the lateral wall of hoisting platform, so that hoisting platform's lateral wall is formed with hoist cable inlet port. The sling avoids the lifting platform through the sling abdicating through groove, and the blocking of the lifting platform is effectively avoided, so that the equipment can be lifted to a position relatively close to the transportation door, and the follow-up transportation of the equipment is facilitated. The utility model also discloses an indoor substation distribution device building.

Description

Building and indoor substation power distribution device building

Technical Field

The utility model relates to the field of building hoisting, in particular to a power distribution device building of a building and an indoor transformer substation.

Background

The existing building for placing equipment is provided with two or more floors, the floors are provided with transportation doors, the transportation doors of adjacent floors are vertically distributed, and the floors of two or more floors are provided with hoisting platforms. When large-scale equipment needs to be carried into a certain floor, the equipment is hoisted through a sling of the hoisting device, then the equipment is hoisted to a position close to a transportation door (corresponding to a floor of two floors and above, the equipment can be temporarily transferred to a hoisting platform), and then workers push the equipment into the floor from the transportation door. However, when the equipment is hoisted to a position close to the transportation door, the hoisted equipment is further far away from the transportation door, which is not beneficial for subsequent workers to push the equipment into the corresponding floor.

Disclosure of utility model

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides a building, which can hoist equipment to a position closer to a transportation door, so that the equipment can be conveniently transported subsequently.

The utility model also provides an indoor transformer substation distribution device building with the building.

According to the building provided by the embodiment of the first aspect of the utility model, the building comprises at least two floors, the floors are arranged upwards, the outer walls of the floors are provided with transportation doors, and the transportation doors are vertically arranged; at least one second floor and above the outer wall of floor is provided with hoisting platform, hoisting platform is located the side of transportation door, hoisting platform is provided with the hoist cable that the level extends and gives up the position logical groove, the hoist cable gives up the position logical groove and link up to along the one end of horizontal direction the lateral wall of hoisting platform, so that hoisting platform's lateral wall is formed with hoist cable inlet port.

The building according to the embodiment of the first aspect of the utility model has at least the following beneficial effects: when equipment is required to be carried into a certain floor, the equipment is hoisted by using the sling of the hoisting equipment, the equipment is hoisted to be close to the transportation door, then the sling can enter the sling yielding through groove from the sling inlet in the horizontal direction, and the sling is prevented from being hoisted by the sling yielding through groove to avoid the hoisting platform, so that the equipment can be hoisted to a position relatively close to the transportation door, and the follow-up transportation of the equipment is facilitated.

According to some embodiments of the present utility model, a plurality of floors are arranged upwards, the second and more floors arranged upwards are provided with the hoisting platforms in a one-to-one correspondence, the hoisting platforms of two adjacent floors are arranged vertically, and the sling yielding through grooves of two adjacent floors are opposite vertically.

According to some embodiments of the utility model, the floor is provided with four in an upward array.

According to some embodiments of the utility model, one side of the lifting platform is connected to an outer wall of the floor, the sling abdication through groove is a strip through groove, the extending direction of the strip through groove is parallel to the direction of the transportation door, and the sling access opening is positioned at the other side of the lifting platform.

According to some embodiments of the utility model, one end of the sling abdication through groove close to the transportation door is spaced from an edge of one side of the hoisting platform close to the transportation door.

According to some embodiments of the utility model, the hoisting platform has an extension a, which satisfies: a is more than or equal to 1500mm and less than or equal to 1800mm; the width of the hoisting platform is B, and B meets the following conditions: 2800mm or more and B or less than 3200mm or less.

According to some embodiments of the utility model, the length of the sling abdication through groove is C, and C is 2/3*A-C-A-100 mm.

According to some embodiments of the utility model, the width of the sling yielding through groove is D, and D satisfies: d is more than or equal to 100mm and less than or equal to 250mm.

According to a second aspect of the utility model, an indoor substation distribution device building comprises the building and a hoisting device. The hoisting device is arranged at the upper end of the building, and the hoisting device is provided with a sling.

According to the indoor transformer substation distribution device building disclosed by the embodiment of the second aspect of the utility model, the indoor transformer substation distribution device building has at least the following beneficial effects: the hoisting device is arranged at the upper end of the building, so that the requirement on the space around the building during hoisting can be reduced, and the hoisting device can be reused conveniently within the service life of the indoor transformer substation distribution device building.

According to some embodiments of the utility model, the method further comprises providing an in-station roadway disposed around the periphery of the building.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic perspective view of an indoor substation power distribution device building according to an embodiment of the present utility model;

FIG. 2 is an enlarged partial schematic view at E of FIG. 1 in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of the F-F direction of FIG. 1 in accordance with an embodiment of the utility model.

Reference numerals:

Floor 100, transportation gate 110;

A lifting platform 200, a sling leaving through groove 210, and a sling inlet 220;

Lifting device 300, sling 310;

an in-station roadway 400.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that the direction or positional relationship indicated with respect to the description of the orientation, such as up, down, etc., is based on the direction or positional relationship shown in the drawings, is merely for convenience of describing the present utility model and simplifying the description, and does not indicate or imply that the apparatus or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, plural means two or more. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 3, a building according to an embodiment of the present utility model includes at least two floors 100, the floors 100 are arranged upward, the outer walls of the floors 100 are provided with transportation doors 110, and the transportation doors 110 are arranged vertically; the outer wall of the floor 100 of at least one second floor and above is provided with a hoisting platform 200, the hoisting platform 200 is located at the side of the transportation door 110, the hoisting platform 200 is provided with a sling abdication through groove 210 which extends horizontally, and one end of the sling abdication through groove 210 along the horizontal direction is penetrated to the side wall of the hoisting platform 200, so that a sling inlet 220 is formed on the side wall of the hoisting platform 200. When equipment needs to be carried into a certain floor 100, the sling 310 of the hoisting equipment is used for hoisting the equipment, the equipment is hoisted to be close to the transportation door 110, then the sling 310 can enter the sling abdication through groove 210 from the sling inlet 220 along the horizontal direction, the sling 310 can avoid the hoisting platform 200 through the sling abdication through groove 210, and the equipment can be hoisted to a position close to the transportation door 110 due to the blocking of the hoisting platform 200, so that the follow-up transportation of the equipment is facilitated.

When the number of the lifting platforms 200 is two or more, the lifting platform 200 located above can block the lifting device of the sling 310 from lifting to the lifting platform 200 below, and the existing solution is to lift the device to an area outside the horizontal direction of the lifting platform 200, and enable the producer to apply a larger force to pull the device along the horizontal direction until the device is pulled horizontally onto the lifting platform 200. Not only is this method complex to operate, but there is also a risk that the production personnel will drop the lifting platform 200, thus making further improvements:

In the embodiment, a plurality of floors 100 are arranged upwards, lifting platforms 200 are arranged on the second and more floors 100 arranged upwards in a one-to-one correspondence manner, the lifting platforms 200 of two adjacent floors 100 are arranged vertically, sling yielding through grooves 210 of two adjacent floors 100 are opposite vertically, and the situation that lifting equipment is closer to a transportation door 110 when reaching each floor is met. Specifically, the building of this embodiment has four floors 100, and the building of four floors 100 is exemplified.

When the equipment needs to be carried into the first floor 100, the equipment is firstly lifted by the sling 310 of the lifting device 300 and approaches the transportation door 110 of the first floor; at this time, the sling 310 avoids the lifting platform 200 through the sling yielding groove 210 of the lifting platform 200 from the second floor to the fourth floor, so that the equipment can be lifted to a place close to the transportation door 110 of the first floor by the sling 310, then the lifting device 300 is used for lowering the equipment, and the worker pushes the equipment to enter the first floor 100 from the transportation door 110 of the first floor.

When the equipment needs to be carried into the second floor 100, the equipment is firstly lifted by the sling 310 of the lifting device 300 and approaches the transportation door 110 of the second floor; at this time, the sling 310 avoids the lifting platform 200 through the sling yielding groove 210 of the lifting platform 200 from the third floor to the fourth floor, so that the equipment can be lifted onto the lifting platform 200 of the second floor by the sling 310, then the lifting device 300 is put down, and the worker pushes the equipment to enter the floor 100 of the second floor from the transportation door 110 of the second floor.

When the equipment needs to be carried into the third floor 100, the equipment is firstly lifted by the sling 310 of the lifting device 300 and approaches the transportation door 110 of the third floor; at this time, the sling 310 avoids the lifting platform 200 through the sling abdication through groove 210 of the lifting platform 200 of the fourth building, so that the equipment can be lifted onto the lifting platform 200 of the third building by the sling 310, then the lifting device 300 is put down, and the worker pushes the equipment to enter the third building floor 100 from the transportation door 110 of the third building.

When the equipment needs to be carried into the fourth floor 100, the upper part of the fourth hoisting platform 200 is not blocked by other hoisting platforms 200, and the equipment can be directly hoisted onto the fourth hoisting platform 200 by using the slings 310 of the hoisting device 300.

When the apparatus is to be hoisted to the roof, the apparatus can be hoisted directly to the roof using slings 310 of the hoisting device 300.

It should be understood that the number of floors 100 and the number of hoisting platforms 200 of the building may be other numbers, for example, the building has two, three or more than four floors 100, at this time, the number of hoisting platforms 200 may be one, two or more than two, and part of floors 100 may not be provided with hoisting platforms 200, or all floors 100 may be provided with hoisting platforms 200, which is not limited to the above embodiment, and those skilled in the art may specifically set the number of floors 100 and the number of hoisting platforms 200 of the building according to actual needs. It will be appreciated that different numbers of floors 100 and lifting platforms 200 can be adapted to the structure and lifting manner of the lifting platform 200 described above to achieve that the lifting device is closer to the transportation door 110 and to improve lifting security.

In an embodiment, one side of the lifting platform 200 is connected to an outer wall of the floor 100, the sling giving way through groove 210 is a strip through groove, the extending direction of the strip through groove is parallel to the direction of the transportation door 110, and the sling inlet 220 is located at the other side of the lifting platform 200. The sling access port 220 is located at a side of the lifting platform 200 away from the outer wall of the floor 100, so that the lifting device 300 can more directly and conveniently use the sling 310 to lift equipment close to the transportation door 110, and the structure is simple.

It should be appreciated that the sling relief channel 210 is vertically through the lifting platform 200 to facilitate the avoidance of the sling 310.

When the lifting device 300 lifts the equipment through the sling 310, since the length direction of the sling abdication through groove 210 is perpendicular to the transportation door 110 of the floor 100, the sling 310 can enter the sling abdication through groove 210 along the direction of the transportation door 110 of the floor 100 horizontally and vertically, and the equipment can be lifted to a position closer to the transportation door 110 more quickly and conveniently along the direction of the outer side wall of the floor 100. It is understood that the length direction of the sling yielding groove 210 may be other directions on a horizontal plane, such as parallel to the outer wall of the floor 100, or having an included angle with the outer wall of the floor 100, which may be specifically adopted by those skilled in the art according to actual needs. When the sling 310 enters the sling relief channel 210, it generally moves horizontally along the length of the sling relief channel 210.

In an embodiment, the end of the sling relief channel 210 near the transportation door 110 is spaced from the edge of the lifting platform 200 near the transportation door 110, so that the structural integrity of the lifting platform 200 can be maintained, and the structural strength of the lifting platform 200 can be maintained.

In an embodiment, the extension length of the hoisting platform 200 is a, and a satisfies: a is more than or equal to 1500mm and less than or equal to 1800mm; the width of the hoisting platform 200 is B, and B satisfies: 2800mm or more and B or less than 3200mm or less. The size of the hoisting platform 200 can meet the hoisting requirement of conventional equipment, and is relatively reasonable. In some embodiments, the lifting platform 200 may be 1.5 meters in length, 3 meters in width, etc.; the extension length and width dimensions of the lifting platform 200 may be other values within the above ranges, for example, an extension length of 1.6 meters, 1.7 meters, 1.8 meters, etc.; the width of the hoisting platform 200 is 2.8 meters, 2.9 meters, 3.1 meters or 3.2 meters, etc., and the skilled person can select and use the combination according to actual needs.

In the embodiment, the length of the sling abdication through groove 210 is C, and C is 2/3*A.ltoreq.C.ltoreq.A-100 mm. The size of the sling abdication through groove 210 can enable equipment to be completely located above the hoisting platform 200 when the equipment is hoisted to the hoisting platform 200, so that the equipment is not exposed out of the hoisting platform 200 and possibly falls from the hoisting platform 200, the structural integrity of the platform can be maintained, and the strength of the hoisting platform 200 is improved.

In an embodiment, the width of the sling relief channel 210 is D, D satisfying: d is more than or equal to 100mm and less than or equal to 250mm. The size of the sling abdication through groove 210 satisfies that the sling abdication through groove 210 is used for avoiding the sling 310, so that the sling 310 is not rubbed with the lifting platform 200 to damage the sling 310 and the lifting platform 200, and meanwhile, factors that the sling 310 possibly swings during lifting equipment are considered, and the requirements of the lifting platform 200 for bearing and stably placing equipment can be satisfied, so that the risk that the equipment falls from the sling abdication through groove 210 is reduced.

The utility model also provides an indoor transformer substation distribution device building, which adopts the building and the lifting device 300, wherein the lifting device 300 is arranged at the upper end of the building, and the lifting device 300 is provided with a sling 310. The lifting device 300 is arranged at the upper end of the building, so that the requirement on the space around the building during lifting can be reduced, and the lifting device 300 can be reused conveniently within the service life of the indoor transformer substation distribution device building.

A power distribution plant building, generally referred to as a building in a power plant, receives, distributes, and controls electrical power. The indoor power distribution system is generally composed of an indoor power distribution device room, a high-low voltage power distribution room and the like.

Specifically, the lifting device 300 is a cantilever crane fixed at the upper end of the building, so that the sling 310 can conveniently extend out of the building in the horizontal direction. The cantilever crane consists of an upright post, a rotary arm, a rotary driving device and an electric hoist, and has the advantages of light dead weight, large span, large lifting capacity, economy, durability and the like, and the lower end of the upright post is fixed on the roof of a building through anchor bolts and the like. The cantilever crane is an existing crane, and in the field of construction, the types of cranes are numerous, and are not described herein. It will be appreciated that other types of cranes may be used for the lifting device 300, and those skilled in the art may specifically configure the lifting device according to actual needs.

In an embodiment, the indoor substation power distribution device building further comprises an in-station road 400, and the in-station road 400 is arranged around the periphery of the building. An in-station road 400 is provided to provide a space for a crane to approach. When the equipment is hoisted, a crane can be adopted to stop on the road 400 in the station, the equipment is hoisted to a hoisting platform 200 of the required floor 100 by using the crane, and finally, production staff pushes the equipment from the hoisting platform 200 into a power distribution device building; the cantilever crane at the upper end of the building can be used for hoisting equipment, and the use is relatively flexible.

In particular, the shape of the in-station road 400 is similar to the shape of a runway.

Specifically, the maximum distance that the cantilever crane extends out of the building in the horizontal direction should be about 4 meters, so that the device can be conveniently lifted from the ground without touching the lifting platform 200.

Specifically, the hoisting platform 200 and the building are in an integrated structure, so that the connection strength of the hoisting platform 200 and the building is improved.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A building, comprising:

The system comprises at least two floors (100), wherein the floors (100) are arranged upwards, the outer walls of the floors (100) are provided with transportation doors (110), and the transportation doors (110) are vertically arranged; at least one second floor and more the outer wall of floor (100) is provided with hoist and mount platform (200), hoist and mount platform (200) are located the side of transportation door (110), hoist and mount platform (200) are provided with hoist cable that the level extends and step down logical groove (210), hoist cable step down logical groove (210) link up to along the one end of horizontal direction the lateral wall of hoist and mount platform (200), so that hoist and mount platform (200) lateral wall is formed with hoist cable access port (220).

2. A building according to claim 1, wherein: the floor (100) is arranged upwards and is provided with a plurality of, and second and more than the floor (100) of arranging up are provided with in one-to-one correspondence hoist and mount platform (200), two adjacent floor (100) hoist and mount platform (200) are arranged along vertical, two adjacent floor (100) hoist cable is stepped down logical groove (210) along vertical relatively.

3. A building according to claim 2, wherein: four floors (100) are arranged upwards.

4. A building according to claim 1 or 2, wherein: the lifting platform (200) one side is connected to the outer wall of the floor (100), the sling abdication through groove (210) is a strip through groove, the extending direction of the strip through groove is parallel to the direction of the transportation door (110), and the sling inlet (220) is located at the other side of the lifting platform (200).

5. The building according to claim 4, wherein: one end of the sling abdication through groove (210) close to the transportation door (110) is spaced from the edge of one side of the hoisting platform (200) close to the transportation door (110).

6. The building according to claim 4, wherein: the extension length of the hoisting platform (200) is A, and the A meets the following conditions: a is more than or equal to 1500mm and less than or equal to 1800mm; the width of the hoisting platform (200) is B, and B meets the following conditions: 2800mm or more and B or less than 3200mm or less.

7. The building according to claim 6, wherein: the length of the sling abdication through groove (210) is C, and C is more than or equal to 2/3*A and less than or equal to A-100mm.

8. The building according to claim 6, wherein: the width of the sling abdication through groove (210) is D, and D meets the following conditions: d is more than or equal to 100mm and less than or equal to 250mm.

9. An indoor substation power distribution unit building, comprising:

A building as claimed in any one of claims 1 to 8;

The hoisting device (300) is arranged at the upper end of the building, and the hoisting device (300) is provided with a sling (310).

10. An indoor substation power distribution unit building according to claim 9, wherein: the building is characterized by further comprising an in-station road (400), wherein the in-station road (400) is arranged around the periphery of the building.