CN110485560B

CN110485560B - Green steel construction building

Info

Publication number: CN110485560B
Application number: CN201910773129.9A
Authority: CN
Inventors: 赖建林
Original assignee: Shanxi Shengwen Architectural Design Co Ltd
Current assignee: Zhongxingsheng Engineering Design Co.,Ltd.
Priority date: 2019-08-21
Filing date: 2019-08-21
Publication date: 2020-07-10
Anticipated expiration: 2039-08-21
Also published as: CN110485560A

Abstract

The invention discloses a green steel structure building which comprises a transverse steel plate and supporting side steel plates welded on two sides of the transverse steel plate, wherein an internal steel partition plate is welded in the middle of the bottom end of the transverse steel plate, an inclined steel plate is fixedly connected to the bottom end of the transverse steel plate, a greening groove accommodating space is formed between the two vertical steel plates welded with the inclined steel plate, a liquid storage space is formed between the inclined steel plate, the transverse steel plate and the vertical steel plates, at least two electric telescopic rods are fixedly connected to the bottom wall of the greening groove accommodating space, a greening groove is fixedly connected to the top end of each electric telescopic rod, a rotating motor is fixedly connected to the side surface of each inclined steel plate through an L template, an output shaft of each rotating motor is fixedly connected to the side surface of a hollow glass plate, a liquid space is arranged in the hollow glass plate, the liquid space is communicated with an outlet pipe of a conveying pump, an inlet pipe of.

Description

Green steel construction building

Technical Field

The invention relates to the field of buildings, in particular to a green steel structure building.

Background

Steel structures are structures composed of steel materials and are one of the main building structure types. The steel structure mainly comprises beam steel, steel columns, steel trusses and other members made of section steel, steel plates and the like, and adopts rust removing and preventing processes such as silanization, pure manganese phosphating, washing drying, galvanization and the like, so that the steel structure is light in self weight, simple and convenient to construct and widely applied to the fields of large-scale factory buildings, venues, super-high buildings and the like.

Modern steel structure buildings all emphasize the afforestation function relatively, and the top of many buildings all is provided with afforestation equipment, but these afforestation equipment are all not enough nimble, and when the adaptability to weather is not strong, be convenient for adjust.

Meanwhile, for the steel building provided with the internal partition plate, an open vent is often arranged for keeping the interior same wind, but the vent cannot be closed in time when a fire disaster happens, so that great potential safety hazards exist. The applicant has separately filed an invention patent application on the same day for protection of the inner partition part of the present application.

Disclosure of Invention

Aiming at the problems, the invention provides a green steel structure building.

The purpose of the invention is realized by adopting the following technical scheme:

a green steel structure building is characterized by comprising a transverse steel plate and supporting side steel plates welded on two sides of the transverse steel plate, wherein an internal steel partition plate is welded in the middle of the bottom end of the transverse steel plate, an inclined steel plate is fixedly connected to the bottom end of the transverse steel plate, a greening groove accommodating space is formed between the two vertical steel plates welded with the inclined steel plate, a liquid storage space is formed between the inclined steel plate and the vertical steel plate, at least two electric telescopic rods are fixedly connected to the bottom wall of the greening groove accommodating space, and a greening groove is fixedly connected to the top end of each electric telescopic rod;

the fireproof shell is provided with an inner cavity and an installation groove, and the inner cavity is communicated with the installation groove through a threading hole;

the fireproof inner core is provided with an ignition port communicated with the external environment, a storage tank for containing manganese dioxide, a liquid storage tank, an ignition channel and an air entraining channel, the ignition port and the storage tank are both positioned on the bottom side of the fireproof inner core, pointed protrusions are arranged in the storage tank, the liquid storage tank is positioned on the top side of the fireproof inner core, the ignition port is communicated with the liquid storage tank through the ignition channel, and the storage tank is communicated with the ignition channel through the air entraining channel; the fireproof inner core is positioned in the inner cavity and is in sliding fit with the fireproof outer shell;

the ignition assembly comprises a ignition ball, a firing line, oil liquid, a trigger plate and a liquid storage bag, wherein the ignition ball is placed at the ignition port, the oil liquid is placed in the liquid storage tank, and the trigger plate and the liquid storage bag are connected with the ignition ball; the liquid storage bag is used for storing hydrogen oxide solution, an opening is formed in the trigger plate, the air entraining channel is communicated with the storage groove through the opening, the liquid storage bag is connected with the trigger plate, the trigger plate is rotatably connected with the fireproof inner core, the trigger plate is supported by an ignition ball arranged at the ignition port, so that the liquid storage bag is spaced from the spine-shaped protrusion, when the ignition ball is ignited and burnt, external force for supporting the trigger plate disappears, and the trigger plate rotates towards the storage groove relative to the fireproof inner core, so that the liquid storage bag is pierced by the spine-shaped protrusion; one end of the firing cable is connected with the firing ball, and the other end of the firing cable extends into the liquid storage tank and is soaked in oil liquid stored in the liquid storage tank;

the driving assembly comprises a motor, a combustible inhaul cable and a pulley block, the motor is positioned in the mounting groove and connected with the fireproof outer shell, the pulley block is connected with the fireproof outer shell, one end of the combustible inhaul cable is connected with an output shaft of the motor, the combustible inhaul cable is wound outside the pulley block, and the other end of the combustible inhaul cable penetrates through the threading hole, then extends into the liquid storage tank and is fixedly connected with the fireproof inner core;

the fireproof cover covers the storage groove and is used for preventing flame in the storage groove from being exposed, and an air outlet is formed in the fireproof cover; the combustible inhaul cable and the firing cable penetrate through the fireproof cover; an air outlet pipe is arranged on the fireproof cover, the air outlet pipe is a U-shaped pipe, and two ports of the U-shaped pipe face the bottom of the liquid storage tank; one end of the air outlet pipe is communicated with the liquid storage tank, and the other end of the air outlet pipe is positioned outside the fireproof cover and is arranged as the air outlet.

Drawings

The invention is further illustrated by means of the attached drawings, but the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be obtained on the basis of the following drawings without inventive effort.

FIG. 1 is a cross-sectional view of the present invention;

FIG. 2 is an exterior elevational view of the present invention;

FIG. 3 is an isometric view of the relevant components of the hollow glass sheet;

FIG. 4 is a cross-sectional view of the inner steel diaphragm taken along the line A-A in FIG. 1;

FIG. 5 is an enlarged partial view at II in FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 4 at III;

FIG. 7 is a schematic view of the fire-proof cover provided in this embodiment;

fig. 8 is a schematic view of the fire-proof inner core provided in this embodiment to enclose an inner cavity;

fig. 9 is a schematic view of the fire-proof enclosure provided in this embodiment.

Detailed Description

The invention is further described with reference to the following examples.

Referring to fig. 1-3, a green steel structure building includes a horizontal steel plate 2 and supporting side steel plates 3 welded to two sides of the horizontal steel plate 2, an inner steel partition plate 4 welded to a middle portion of a bottom end of the horizontal steel plate 2, an inclined steel plate 5 fixed to a bottom end of the horizontal steel plate 2, a greening groove accommodating space 7 formed between two vertical steel plates 6 welded to the inclined steel plate 5, a liquid storage space 8 formed between the inclined steel plate 5, the horizontal steel plate 2 and the vertical steel plates 6, at least two electric telescopic rods 9 fixed to a bottom wall of the greening groove accommodating space 7, a greening groove 10 fixed to a top end of the electric telescopic rods 9, a rotating motor 12 fixed to a side surface of each inclined steel plate 5 through a L-shaped plate 11, an output shaft 13 of the rotating motor 12 fixed to a side surface of a hollow glass plate 14, a liquid space 15 formed in the hollow glass plate 14, the liquid space 15 communicated with an outlet pipe 17 of a conveying pump 16, an inlet pipe 18 of the conveying pump 16 extending into a liquid storage tank 19 located in the liquid storage space 15, and liquid storage.

An electric control cabinet 20 is arranged on the inner side of the supporting side steel plate 3. The outer side of the supporting edge steel plate 3 is provided with a hinged door 21, and the outer side of the inclined steel plate 5 is fixedly connected with a peripheral decorative plate 22. The volume of the liquid storage tank 19 is not less than the volume of the liquid space 15, an electromagnetic valve 23 is arranged on the outlet pipe 17, and the outlet pipe 17 is a hose with the surplus length.

The working principle is as follows: when no strong wind or heavy rain exists in the weather, the rotating motor 12 is started to rotate the two hollow glasses 14 to the two outer sides, the greening groove accommodating space 7 is opened, the electric telescopic rod 9 is extended to lift the greening groove 10 to expose the greening groove, and the rapid growth of plants in the greening groove 10 is facilitated; when the weather is strong wind and heavy rain, as shown in fig. 1, the electric telescopic rod 9 is lowered to lower the greening groove 10, the rotating motor 12 is rotated reversely to rotate the two hollow glasses 14 inwards, the greening groove accommodating space 7 is closed, and at the moment, sunlight can still penetrate through the hollow glass plate 14 to irradiate plants for photosynthesis; if it is too violent to meet the sun illumination, when unsuitable plant exposes to the sunlight, drop afforestation groove 10 and close afforestation groove accommodation space 7 after, start delivery pump 16, fill liquid water that mixes black pigment in the liquid reserve tank 19 full cavity glass 14's liquid space 15, close solenoid valve 23, most sunshine light is sheltered from by black liquid water this moment, when the sun illumination intensity weakens, open solenoid valve 23, liquid water in the liquid space 15 falls back to the liquid reserve tank 19 under the action of gravity.

Has the advantages that: the building can flexibly adjust the position of the greening groove, the light intensity and the like according to different climatic conditions, and provides a better generating environment for plants.

Referring to fig. 4 to 9, in the case of a fire, even if the motor 510 fails or the fire-proof inner core 200 cannot be normally closed by the motor 510 due to a power failure, the fire-proof inner core 200 can automatically close the inner cavity 110 of the fire-proof housing 100 to block a fire source, so that the internal steel partition 4 has the advantages of high fire-proof performance and high safety.

In this embodiment, the inner steel separator 4 includes: fire-protecting outer shell 100, fire-protecting inner core 200, fire-protecting cover 300, ignition assembly 400, and drive assembly 500.

The fire-proof housing 100 has an inner cavity 110 and a mounting groove 120, the inner cavity 110 is communicated with the mounting groove 120 through a threading hole, optionally, the fire-proof housing 100 is cuboid, and two rectangular mounting grooves 120 and an inner cavity 110 with a rectangular opening between the two mounting grooves 120 are arranged on the fire-proof housing 100. The slot of the mounting groove 120 and the opening of the inner cavity 110 are located on opposite sides of the fire protection enclosure 100 (i.e., the left and right sides of the inner steel partition 4 in fig. 1). The fire-resistant enclosure 100 is preferably made of steel.

The fireproof inner core 200 is provided with an ignition port 210 communicated with the external environment, a storage tank 220 used for containing manganese dioxide, a liquid storage tank 260, an ignition channel 230 and an air entraining channel 240, the ignition port 210 and the storage tank 220 are both positioned at the bottom side of the fireproof inner core 200, a sharp-pointed bulge is arranged in the storage tank 220, the liquid storage tank 260 is positioned at the top side of the fireproof inner core 200, the ignition port 210 is communicated with the liquid storage tank 260 through the ignition channel 230, and the storage tank 220 is communicated with the ignition channel 230 through the air entraining channel 240; a fire-resistant inner core 200 is positioned within inner cavity 110 and is in sliding engagement with fire-resistant outer shell 100. Optionally, one ignition port 210 is provided, two storage grooves 220 are provided, and the ignition port 210 is located between the two storage grooves 220. The number of reservoirs 260 is two. The number of pilot passages 230 is two and the number of bleed passages 240 is two. In other words, one storage groove 220, one bleed air passage 240, one ignition passage 230 and one storage groove 220 are in one set, and two sets of two ignition passages 230 are both communicated with the ignition port 210, in other words, two sets of two ignition wires 420 are both connected with the ignition ball 410, and the ignition ball 410 can then rapidly guide a fire to the ignition wires 420 and burn the ignition wire 520. The fire-resistant core 200 may be made of steel. The pilot passage 230 may be formed of a steel pipe.

The ignition assembly 400 includes a pilot ball 410 for placement in the ignition port 210, a pilot wire 420, oil 430 for placement in the reservoir 260, a trigger plate 440, and a reservoir 450; the liquid storage bag 450 is used for storing hydrogen oxide solution, an opening is formed in the trigger plate 440, the air entraining channel 240 is communicated with the storage groove 220 through the opening, the liquid storage bag 450 is connected with the trigger plate 440, the trigger plate 440 is rotatably connected with the fireproof inner core 200, the trigger plate 440 is supported by the ignition ball 410 arranged at the ignition port 210, so that the liquid storage bag 450 and the spine-shaped protrusion have an interval, and when the ignition ball 410 is ignited and burnt, the external force for supporting the trigger plate 440 disappears, and the trigger plate 440 rotates towards the storage groove 220 relative to the fireproof inner core 200, so that the liquid storage bag 450 is pierced by the spine-shaped protrusion 250; one end of the wick 420 is connected to the wick ball 410, and the other end of the wick 420 penetrates into the reservoir 260 and is immersed in the oil liquid 430 stored in the reservoir 260. The ignition ball 410 may be a kindling wad having a certain deformation resistance so as to support the trigger plate 440. Alternatively, the fireball 410 may be a plastic bulb.

The driving assembly 500 comprises a motor 510, a combustible guy cable 520 and a pulley block 530, the motor 510 is positioned in the mounting groove 120 and connected with the fireproof outer shell 100, the pulley block 530 is connected with the fireproof outer shell 100, one end of the combustible guy cable 520 is connected with an output shaft of the motor 510, the combustible guy cable 520 is wound outside the pulley block 530, and the other end of the combustible guy cable passes through the threading hole and then extends into the liquid storage tank 260 and is fixedly connected with the fireproof inner core 200;

the fireproof cover 300 covers the storage groove 220 and is used for preventing flame in the storage groove 220 from being exposed, and an air outlet is formed in the fireproof cover 300; the combustible guy cable 520 and the wick 420 both pass through the fire shield 300. Optionally, the fire-proof cover 300 is a metal cover, and has high fire-resistant strength.

In normal use and when the spaces on the left and right sides of the internal steel partition plate 4 need to be ventilated, the motor 510 is started to drive the combustible guy cable 520 to wind around the output shaft of the motor 510, so as to lift the fireproof inner core 200, and the fireproof inner core 200 does not seal the inner cavity 110 of the fireproof outer shell 100. In a normal state, a sufficient amount of ignition balls 410, such as ignition cotton or ignition plastic balls, are placed at the ignition port 210, a sufficient amount of manganese dioxide particles are placed in the storage tank 220, a sufficient amount of hydrogen peroxide is stored in the storage bag 450, and a sufficient amount of oil 430 is placed in the storage tank 260. When a fire breaks out in any one of the left and right spaces partitioned by the inner steel partition 4 in fig. 1, and the fire spreads to the outside of the fire-proof housing 100, a fire may enter the inner cavity 110 and may enter the inside of the fire-proof housing 100 from the inner cavity 110. At this time, since the ignition ball 410 is directly exposed to the air, the flame can ignite the ignition ball 410 located at the ignition port 210, the ignition ball 410 ignites the ignition wire 420 during combustion, and the ignition wire 420 can ignite the combustible cable 520 located in the oil 430. Meanwhile, the ignition ball 410 becomes ash after the combustion is finished, the ignition ball 410 cannot support the trigger plate 440, the trigger plate 440 rotates relative to the fireproof inner core 200, the trigger plate 440 rotates towards the storage groove 220 and can be inserted into the storage groove 220, the liquid storage bag 450 is in contact with the spine-shaped protrusion 250 at the bottom of the storage groove 220, the storage bag is punctured, the hydrogen peroxide solution in the storage bag is mixed with the manganese dioxide in the storage groove 220, a chemical reaction occurs, oxygen can be generated, and the oxygen enters the ignition channel 230 from the air entraining channel 240 for supporting the combustion of the ignition wire 420 and supporting the combustion of the combustible inhaul cable 520. When the combustible cable 520 is burned, the combustible cable 520 is disconnected, the motor 510 cannot provide pulling force for the fireproof inner core 200 through the combustible cable 520, and the fireproof inner core 200 slides relative to the fireproof outer shell 100 under the self weight to seal the inner cavity 110 on the fireproof outer shell 100, so that the flame outside the fireproof outer shell 100 is prevented from entering the fireproof outer shell 100, and a fire source is blocked. The whole fireproof process is high in automation degree, safe and reliable.

It should be clearly understood that the manner in which oxygen is generated is varied and may not be limited to the generation of hydrogen peroxide solution with manganese dioxide as a catalyst.

Optionally, the number of the driving assemblies 500 is two, the two driving assemblies 500 are respectively located in the two mounting grooves 120, and the combustible inhaul cable 520 penetrates through the corresponding threading hole and then is connected with the fireproof inner core 200. Two drive assembly 500 sets up relatively, and the equilibrium of fire prevention cable is good, and difficult card is died in the sliding process of fire prevention inner core 200. Since the ignition wires 420 are provided in two numbers, the two ignition wires 420 respectively guide the combustible cables 520 that are burned by fire, so that the two combustible cables 520 are both burned by fire and disconnected, and the inner fireproof core 200 falls to close the inner cavity 110.

It should be understood that two fire-proof covers 300 are provided, and the two fire-proof covers 300 are respectively covered at the two liquid storage tanks 260, so as to prevent the flame from damaging the pulley block 530 and the motor 510.

Optionally, the air outlet of the fire-proof cover 300 has at least one bending part. Further, an air outlet pipe 310 is arranged on the fireproof cover 300, the air outlet pipe 310 is a U-shaped pipe, and two ports of the U-shaped pipe face the bottom of the liquid storage tank 260; one end of the air outlet pipe 310 is communicated with the liquid storage tank 260, and the other end of the air outlet pipe 310 is positioned outside the fire-proof cover 300 and is set as an air outlet. Flame is difficult for scurrying out from outlet duct 310, and is safe and reliable more, and fluid 430 is difficult for spilling over from outlet duct 310, avoids combustible guy cable 520 to burn inadequately.

Optionally, a stud 540 is fixed to one end of the combustible guy cable 520 away from the motor 510, a threaded hole is formed in the bottom of the reservoir 260, and the stud 540 is screwed and fixed to the threaded hole. The fixing of the combustible guy 520 and the fireproof inner core 200 is simple and reliable.

Optionally, the inner cavity 110 is a groove, the groove includes two opposite lateral limiting groove sections 111 and a bottom limiting groove section 112 located between the two limiting groove sections and communicated with each other, two sides of the fireproof inner core 200 are in sliding fit with the two lateral limiting groove sections 111, and the bottom side of the fireproof inner core 200 can be inserted into the bottom limiting groove section 112. The matching relationship between the fireproof inner core 200 and the fireproof shell 100 is good, and the effect of isolating a fire source is good.

In conclusion, the internal steel partition plate 4 provided by the embodiment of the invention can realize automatic fire prevention and has high safety. After the fireproof structure is used, the assembly formed by the fireproof shell and the fireproof inner core can be directly replaced, and a new fireproof structure is replaced. In other words, the fireproof shell is connected with the building, the fireproof shell is directly disassembled and replaced by a new component, the original component can be repaired and then used continuously, and the cost is reduced.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. A green steel structure building is characterized by comprising a transverse steel plate and supporting side steel plates welded on two sides of the transverse steel plate, wherein an internal steel partition plate is welded in the middle of the bottom end of the transverse steel plate, an inclined steel plate is fixedly connected to the bottom end of the transverse steel plate, a greening groove accommodating space is formed between the two vertical steel plates welded with the inclined steel plate, a liquid storage space is formed between the inclined steel plate and the vertical steel plate, at least two electric telescopic rods are fixedly connected to the bottom wall of the greening groove accommodating space, and a greening groove is fixedly connected to the top end of each electric telescopic rod;

2. The green steel structure building according to claim 1, wherein an electric control cabinet is arranged on the inner side of the supporting side steel plate; the outer side of the supporting edge steel plate is provided with a hinged door, and the outer side of the inclined steel plate is fixedly connected with a peripheral decorative plate.

3. The building with green steel structure as claimed in claim 2, wherein the volume of the liquid storage tank is not less than the volume of the liquid space, the outlet pipe is provided with an electromagnetic valve, and the outlet pipe is a hose with the surplus length.

4. The building with the green steel structure as claimed in claim 3, wherein the number of the storage tanks is two, the number of the liquid storage tanks is two, and the two storage tanks and the two liquid storage tanks are in one-to-one correspondence and are respectively communicated through one ignition channel; each storage groove is communicated with the corresponding ignition channel through one air-entraining channel.

5. The building with the green steel structure as claimed in claim 4, wherein the number of the driving assemblies is two, the two driving assemblies correspond to the two liquid storage tanks one by one, and the combustible guy cable of each driving assembly extends into the corresponding liquid storage tank and is fixedly connected with the fireproof inner core.

6. The building with the green steel structure as claimed in claim 5, wherein the number of the fire-proof covers is two, and the two fire-proof covers are respectively covered at the notches of the two liquid storage tanks; the gas outlet on the fire-proof cover is provided with at least one section of bending part.

7. The building with the green steel structure as claimed in claim 6, wherein a stud is fixed at one end of the combustible inhaul cable away from the motor, a threaded hole is formed in the bottom of the liquid storage tank, and the stud is fixed with the threaded hole in a threaded mode.

8. The building of claim 7, wherein the inner cavity is a groove, the groove comprises two opposite side limiting groove sections and a bottom limiting groove section which is located between and communicates with the two side limiting groove sections, two sides of the fireproof inner core are slidably fitted with the two side limiting groove sections, and the bottom side of the fireproof inner core can be inserted into the bottom limiting groove section.