阅读说明：本技术 一种钢架结构厂房内无锈高效装配式建筑钢横梁及其承重柱 (Stainless high-efficiency assembly type building steel beam in steel frame structure factory building and bearing column thereof ) 是由 袁建华 许莉莉 袁建峰 于 2021-09-02 设计创作，主要内容包括：本发明公开了一种钢架结构厂房内无锈高效装配式建筑钢横梁及其承重柱,包括承重机构、制成机构、横梁桥接机构、密封机构和气流疏导机构,所述承重机构包括压紧部和辅助固定部,所述压紧部包括钢架外壳、连接在所述钢架外壳内的螺杆和压块。通过设置,且在钢架外壳内活动安装螺杆和压块,并在钢架外壳的底端安装限位组合和底座,在使用时,通过预制处适配插接在钢架外壳内腔的混凝土竖桩,利用混凝土竖桩插接在钢架外壳内部,并利用调节螺杆来控制压块将钢架外壳整体固定夹紧在混凝土竖桩的外侧,同时设置底座在混凝土竖桩的根部,从而能够避免该钢结构承重柱内壁受损,进而避免外界因素对该装置的金属层进行腐蚀。(The invention discloses a rust-free high-efficiency assembly type building steel beam in a steel frame structure factory building and a bearing column thereof. Through setting up, and at steel frame shell internal movable mounting screw rod and briquetting, and install spacing combination and base in steel frame shell's bottom, when using, peg graft at the concrete vertical pile of steel frame shell inner chamber through prefabricated department adaptation, utilize the concrete vertical pile to peg graft inside steel frame shell, and utilize adjusting screw to control the briquetting and press from both sides the outside at the concrete vertical pile with steel frame shell monolithic fixation, set up the root of base at the concrete vertical pile simultaneously, thereby can avoid this steel construction bearing post inner wall impaired, and then avoid external factors to corrode the metal level of the device.)

1. The utility model provides a rust-free high-efficient assembled building steel crossbeam and heel post in steel frame construction factory building which characterized in that includes:

a load-bearing mechanism (100) including a pressing portion and an auxiliary fixing portion;

the pressing part comprises a steel frame shell (110), a screw rod (130) connected in the steel frame shell (110) and a pressing block (140);

the supporting mechanism (200) comprises a steel frame main body (210) arranged in the steel frame shell (110) and a positioning combination (220) movably arranged in the steel frame main body (210);

a beam bridging mechanism (300) comprising a bridging assembly (310) and an exhaust pipe (320);

the bridge connection assembly (310) comprises a reinforcing sleeve (311) arranged in the steel frame main body (210), a stabilizing rod (313) and a skid-proof piece (314) arranged in the reinforcing sleeve (311), and a sealing sleeve (315) inserted in the reinforcing sleeve (311);

a sealing mechanism (400), the sealing mechanism (400) being mounted on the support mechanism (200);

the airflow dredging mechanism (500) comprises a directional airflow end (510) arranged on the sealing mechanism (400), a housing (520) connected in the directional airflow end (510) and fan blades (530) movably arranged in the housing (520).

2. The rust-free high-efficiency assembled construction steel beam and the bearing column thereof in the steel frame structure factory building according to claim 1, wherein the auxiliary fixing part comprises a protection combination (120) installed outside the steel frame shell (110), a limit combination (150) inserted in the steel frame shell (110), a base (160) connected to the bottom end of the limit combination (150), and a waterproof sleeve (170) sleeved on the top end of the limit combination (150).

3. The assembly type steel beam and the bearing column thereof with high efficiency and without rust in a steel frame structure factory building according to claim 1, wherein the positioning assembly (220) further comprises a plug pin (223) installed in the sealing mechanism (400), a fixing member (222) connected in the sealing mechanism (400), and a plug rod (221) installed in the fixing member (222).

4. The rust-free high-efficiency fabricated construction steel beam and the load-bearing column thereof in the steel-frame structure factory building according to claim 1, wherein the beam bridging mechanism (300) further comprises an adhesive member (312) installed in a groove at the outer end of the reinforcing sleeve (311) and a prefabricated beam (316) inserted into the inner cavity of the reinforcing sleeve (311).

5. The rust-free high-efficiency fabricated construction steel beam and the load-bearing column thereof in the steel-frame structure factory building according to claim 1, wherein the sealing mechanism (400) comprises a main pile (410), a sealing ring (420) installed outside the main pile (410), and an outer pad (430) inserted in the sealing ring (420).

6. The rust-free high-efficiency fabricated construction steel beam and the bearing column thereof in the steel-frame structure factory building according to claim 1, wherein the airflow channeling mechanism (500) further comprises an air bin (560) installed in the inner cavity of the directional airflow end (510), an air pipe (550) connected to the air bin (560) through the air pipe (550), an air gathering groove (540) connected to the other end of the air pipe (550), a cover (570) installed at the top end of the directional airflow end (510), and a pressing member (580) installed in the airflow channeling mechanism (510).

7. The assembly type steel beam and the bearing column thereof with high efficiency and without rust in the steel frame structure factory building according to claim 2, wherein the protection combination (120) is composed of two vertical sliding rails and a U-shaped clamping shell, and the two vertical sliding rails are welded on two sides of the circular hole on the outer part of the steel frame shell (110).

8. The assembly type steel beam and the bearing column thereof with high efficiency and without rust in the steel frame structure factory building as claimed in claim 2, wherein the limiting combination (150) is composed of a threaded straight cylinder, a screw rod and a T-shaped fixing rod, and the bottom end of the screw rod is provided with a disc-shaped protruding fixture block for pushing and pressing the T-shaped fixing rod.

9. The assembly type steel beam and the bearing column thereof with high efficiency and without rust in the steel frame structure factory building according to claim 1 are characterized in that the exhaust pipe (320) is made of a vertical pipeline and a disc-shaped jet steal, and the vertical pipeline is provided with horizontal transverse pipes which are distributed in a cross shape.

10. The rust-free efficient assembly type construction steel beam and the bearing column thereof in the steel frame structure factory building according to claim 4, wherein the adhesive member (312) is a magic tape, an adhesive batt layer is arranged on the inner side of the sealing sleeve (315), and the two adjacent sides of the adhesive member (312) and the sealing sleeve (315) are mutually matched.

Technical Field

The invention relates to the field of construction steel structures, in particular to a rust-free efficient assembly type construction steel cross beam in a steel frame structure factory building and a bearing column thereof.

Background

The steel structure building is a novel building system, breaks through the trade boundary between the house ground industry, the building industry, the metallurgical industry, assembles into a new industry system, and steel structure building compares traditional concrete construction, replaces reinforced concrete with steel sheet or shaped steel, and intensity is higher, and the shock resistance is better to the component can batch production preparation, and the field installation, consequently the time limit for a project that has significantly reduced, because the reuse of steel, can significantly reduced building rubbish's production.

Nowadays, steel structure building technology tends to mature gradually, but each component of steel structure building is made of metal, when the protective film on steel structure component surface is worn and torn, receives the influence of external various factors, loses the protection of protective film, and steel structure component takes place the corrosion easily, in order to improve the durable and stability of steel structure heel post of use of steel structure building main part, so people improve the more important protection to steel structure building heel post inside wall.

According to the above, how to improve the protection of the steel structure bearing column and the crossbeam fixed between the steel structure bearing column and the bearing column and reduce the damage degree of the protective film on the inner wall of the steel structure member is the technical difficulty which needs to be solved by the inventor.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

Therefore, the technical scheme adopted by the invention is as follows:

the utility model provides a rust-free high-efficient assembled building steel crossbeam and heel post in steel frame construction factory building, includes bearing mechanism, makes mechanism, crossbeam bridging mechanism, sealing mechanism and air current dredging mechanism, bearing mechanism includes clamping part and supplementary fixed part, the clamping part includes the steelframe shell, connects screw rod and briquetting in the steelframe shell, it installs including installing steelframe main part in the steelframe shell and mobile the installation in the location combination in the steelframe main part to make the mechanism, crossbeam bridging mechanism includes bridging combination and blast pipe, bridging combination is including installing reinforcing sleeve in the steelframe main part, installing stabilizer bar and anti-skidding piece in the reinforcing sleeve and peg graft in the sealing sleeve in the reinforcing sleeve, sealing mechanism installs make on the mechanism, air current dredging mechanism is including installing directional air current end on the sealing mechanism, The fan comprises an outer cover connected in the directional airflow end and fan blades movably arranged in the outer cover.

Through adopting above-mentioned technical scheme, when the construction, operating personnel need according to the adaptation is pour in advance to the size of steelframe shell bottom notch concrete foundation pile of steelframe shell inner chamber, and after the foundation pile shaping, operating personnel need adjust a plurality of screw rods in the steelframe shell for the screw rod drives the briquetting and hugs closely steelframe shell inner wall, in order to reach the purpose that makes things convenient for the foundation pile to peg graft at steelframe shell inner chamber, and then the unified setting the number of turns of screw rod makes the screw rod drive the briquetting and evenly compress tightly can on the outer wall of foundation pile.

The present invention in a preferred example may be further configured to: the auxiliary fixing part comprises a protection combination arranged outside the steel frame shell, a limit combination inserted in the steel frame shell, a base connected to the bottom end of the limit combination and a waterproof sleeve sleeved on the top end of the limit combination.

Through adopting above-mentioned technical scheme, set up spacing combination, utilize clockwise rotation and the anticlockwise rotation of the screw rod in the spacing combination to surpass reading bulldozing of base to can make the whole stability on the foundation pile of bearing mechanism.

The present invention in a preferred example may be further configured to: the positioning combination further comprises a plug pin arranged in the sealing mechanism, a fixing piece connected in the sealing mechanism and an inserted rod arranged in the fixing piece.

Through adopting above-mentioned technical scheme, will the top of inserted bar is pegged graft in the inside recess of sealing ring, utilize the rust-resistant protection of sealing ring to the inserted bar to can avoid the whole rust of location combination.

The present invention in a preferred example may be further configured to: the beam bridging mechanism also comprises an adhesive piece arranged in a groove at the outer end of the reinforcing sleeve and a prefabricated beam inserted in the inner cavity of the reinforcing sleeve.

By adopting the technical scheme, the section, close to the reinforcing sleeve, of the prefabricated cross beam is provided with the inwards-recessed trapezoidal groove, and the trapezoidal groove in the prefabricated cross beam is connected with the anti-skid piece in an inserting mode, so that welding-free fixation can be achieved between the prefabricated cross beam and the reinforcing sleeve.

The present invention in a preferred example may be further configured to: the sealing mechanism comprises a main pile, a sealing ring arranged outside the main pile and an outer gasket inserted in the sealing ring.

Through adopting above-mentioned technical scheme, set up the king pile, utilize the king pile as the fixed bridge between steelframe main part and the directional air current end, utilize two outside seal rings of king pile to the protection of tight casting die and location combination simultaneously to can improve the holistic stability of the device.

The present invention in a preferred example may be further configured to: the airflow dredging mechanism further comprises an air bin arranged in the inner cavity of the directional airflow end, an air delivery pipe connected to the air bin through the air delivery pipe, an air gathering groove connected to the other end of the air delivery pipe, a sealing cover arranged at the top end of the directional airflow end, and a pressing piece arranged in the airflow dredging mechanism.

Through adopting above-mentioned technical scheme, utilize directional air current end inner chamber fixed mounting gas storehouse utilizes the gas-supply pipe to communicate gas storehouse and a plurality of air collecting groove, can make the dry air current of building top eminence can be by directional transmission.

The present invention in a preferred example may be further configured to: the protection combination is composed of two vertical sliding rails and a U-shaped clamping shell, and the two vertical sliding rails are welded on two sides of the circular hole outside the steel frame shell.

Through adopting above-mentioned technical scheme, the utilization is in two vertical slide rails of outside fixed welding of steelframe shell to utilize U font card shell to peg graft in vertical slide rail, can make the screw rod can obtain fine guard action.

The present invention in a preferred example may be further configured to: the limiting combination is composed of a threaded straight cylinder, a screw rod and a T-shaped fixing rod, and a disc-shaped protruding fixture block used for pushing and pressing the T-shaped fixing rod is arranged at the bottom end of the screw rod.

Through adopting above-mentioned technical scheme, utilize the spacing combination of fixed mounting in the rectangular slab of steelframe shell bottom, the degree of depth that the T font fixed rod that utilizes the rotation of the screw rod in the spacing combination to control in it bulldozes the base to can make the stability of steelframe shell base.

The present invention in a preferred example may be further configured to: the exhaust pipe is made of a vertical pipeline and a disc-shaped jet steal, and horizontal transverse pipes which are distributed in a cross shape are arranged on the vertical pipeline.

Through adopting above-mentioned technical scheme, the utilization sets up the blast pipe at the middle part of steelframe main part inner chamber to the level that utilizes the blast pipe outside to be the cross and distributes violently manages the grafting at bushing's inner chamber, thereby can make the dry air current of building top can blow the bushing inner chamber, thereby has ensured prefabricated crossbeam and bushing position and has kept aridity.

The present invention in a preferred example may be further configured to: the adhesive part is a magic tape, an adhesive wool layer is arranged on the inner side of the sealing sleeve, and the adhesive part is matched with two adjacent sides of the sealing sleeve.

Through adopting above-mentioned technical scheme, utilize fixed the pasting piece in the recess of strengthening sleeve pipe both ends inboard to utilize the seal cover can paste in the outside of pasting the piece, thereby can make prefabricated crossbeam peg graft behind strengthening sleeve pipe inner chamber, the seal cover can realize good leakproofness.

By adopting the technical scheme, the invention has the beneficial effects that:

1. according to the invention, as shown above, because each component of the current steel structure is assembled by welding, as the most central bearing column of the steel structure building, the overall stability of the steel structure building is borne, in order to avoid the steel structure building bearing column from being corroded by various factors in the external environment and reduce the damage of a protective film outside the steel structure bearing column, by arranging, and movably installing a screw rod and a pressing block in a steel frame shell, and installing a limiting combination and a base at the bottom end of the steel frame shell, when in use, the concrete vertical pile inserted in the inner cavity of the steel frame shell is adapted through a prefabricated part, the concrete vertical pile is inserted in the steel frame shell, and the pressing block is controlled by an adjusting screw rod to fixedly clamp the steel frame shell on the outer side of the concrete vertical pile integrally, and the base is arranged at the root of the concrete vertical pile, thereby can avoid this steel construction heel-carrying post inner wall impaired, and then avoid external factors to corrode the metal level of the device.

2. According to the invention, as the steel structure bearing column and the steel structure cross beam are fixed by adopting a welding mode at present, and the welding port is prevented from being oxidized and rusted, the steel structure bearing column and the steel structure cross beam are arranged, the reinforcing sleeve distributed in a cross shape is arranged in the groove of the inner cavity of the steel structure main body, the stabilizing rod and the anti-skidding piece are movably arranged in the reinforcing sleeve at two ends, the slot is preset on the prefabricated cross beam, and after one end of the prefabricated cross beam is inserted in the steel structure, the prefabricated cross beam is fixed by the buckle of the anti-skidding piece, so that the steel structure cross beam and the steel structure bearing column can be effectively fixed, the problem that the welding port between the steel structures is easy to oxidize and rust at present can be solved, and the service durability of the steel structure member is greatly improved.

3. In the invention, as shown above, because the inner cavities of the steel structure bearing columns are all hollow, in order to avoid the water vapor corrosion of the steel parts in the closed cavity of the steel structure bearing column contacted with the ground, therefore, by arranging the directional airflow end, installing the outer cover on the four walls outside the directional airflow end and movably installing the fan blades in the outer cover, when the high-altitude airflow flows along the directional airflow end, the flowing airflow blows the fan blades, the fan blades can collect the airflow and directionally transmit the airflow to the air bin, and the airflow is conducted to the exhaust pipe through the vertical pipe at the bottom of the air bin, thereby leading the high-altitude airflow to blow and dry against the plurality of bridging combinations and the inner cavities of the steel frame main body and the steel frame shell, and then can dispel the moisture of steel construction heel post inner chamber, the effectual degree of drying of controlling steel construction heel post inner chamber reduces the corrosion that steel construction heel post inner chamber metal level received steam.

Drawings

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a schematic side bottom view of an embodiment of the present invention;

FIG. 3 is a partial schematic structural view of FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the internal dispersion and its cross-sectional structure of FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a partial schematic structural view of FIG. 2 according to an embodiment of the present invention;

FIG. 6 is a partial schematic structural view of FIG. 5 in accordance with an embodiment of the present invention;

FIG. 7 is a schematic diagram of the side scattering structure and its cross-sectional structure of FIG. 6 according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of the internal cross-sectional structure of FIG. 7 according to an embodiment of the present invention;

FIG. 9 is a partial schematic structural view of FIG. 6 in accordance with an embodiment of the present invention;

FIG. 10 is a schematic view of the partial cross-sectional structure of FIG. 9 according to an embodiment of the present invention;

FIG. 11 is a schematic diagram of the partial dispersion and its cross-sectional structure of FIG. 8 according to one embodiment of the present invention;

FIG. 12 is a partial enlarged structural view of FIG. 11 according to an embodiment of the present invention;

FIG. 13 is a partial cross-section and a schematic view of a portion of the bulk structure of FIG. 11 according to an embodiment of the present invention.

Reference numerals:

100. a load bearing mechanism; 110. a steel frame housing; 120. protection combination; 130. a screw; 140. briquetting; 150. limiting and combining; 160. a base; 170. a waterproof jacket;

200. manufacturing a mechanism; 210. a steel frame main body; 220. positioning and combining; 221. inserting a rod; 222. a fixing member; 223. a bolt;

300. a beam bridging mechanism; 310. a bridging combination; 320. an exhaust pipe; 311. a reinforcing sleeve; 312. magic tape; 313. a stabilizer bar; 314. an anti-slip member; 315. sealing sleeves; 316. prefabricating a cross beam;

400. a sealing mechanism; 410. a main pile; 420. a seal ring; 430. an outer cushion;

500. an airflow channeling mechanism; 510. a directional airflow end; 520. a housing; 530. a fan blade; 540. a gas gathering tank; 550. a gas delivery pipe; 560. a gas bin; 570. sealing the cover; 580. and (5) tightening and pressing the piece.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

It is to be understood that this description is made only by way of example and not as a limitation on the scope of the invention.

The invention provides a rust-free high-efficiency assembly type construction steel beam in a steel frame structure factory building and a bearing column thereof, which are provided by some embodiments of the invention.

The first embodiment is as follows:

referring to fig. 4, 7, 9, 11 and 13, the rust-free high-efficiency assembly type steel beam for construction in a steel frame structure factory building and the load-bearing column thereof provided by the invention comprise a bearing mechanism 100, a manufacturing mechanism 200, a beam bridging mechanism 300, a sealing mechanism 400 and an airflow dredging mechanism 500, wherein the manufacturing mechanism 200 is installed in the bearing mechanism 100, the beam bridging mechanism 300 is installed in the manufacturing mechanism 200, the sealing mechanism 400 is inserted into the manufacturing mechanism 200, and the airflow dredging mechanism 500 is inserted into the sealing mechanism 400.

The bearing mechanism 100 comprises a steel frame shell 110, a protection combination 120, a screw 130, a pressing block 140, a limiting combination 150, a base 160 and a waterproof jacket 170, the manufacturing mechanism 200 comprises a steel frame main body 210 and a positioning combination 220, the positioning combination 220 further comprises an inserted rod 221, a fixing piece 222 and a inserted pin 223, the beam bridging mechanism 300 comprises a bridging combination 310 and an exhaust pipe 320, the bridging combination 310 further comprises a reinforcing sleeve 311, an adhesive piece 312, a stabilizing rod 313, an anti-slip piece 314, a sealing sleeve 315 and a prefabricated beam 316, the sealing mechanism 400 comprises a main pile 410, a sealing ring 420 and an outer cushion 430, and in addition, the airflow channeling mechanism 500 comprises a directional airflow end 510, an outer cover 520, a fan blade 530, an air gathering groove 540, an air pipe 550, an air bin 560, a sealing cover 570 and a pressing piece 580.

Specifically, the load-bearing mechanism 100 includes a pressing portion and an auxiliary fixing portion, the pressing portion includes a steel frame housing 110, a screw 130 and a pressing block 140 connected in the steel frame housing 110, the supporting mechanism 200 includes a steel frame main body 210 installed in the steel frame housing 110 and a positioning assembly 220 movably installed in the steel frame main body 210, the beam bridging mechanism 300 includes a bridging assembly 310 and an exhaust pipe 320, the bridging assembly 310 includes a reinforcing sleeve 311 installed in the steel frame main body 210, a stabilizing rod 313 and an anti-slip member 314 installed in the reinforcing sleeve 311, and a sealing sleeve 315 inserted in the reinforcing sleeve 311, the sealing mechanism 400 is installed on the manufacturing mechanism 200, the airflow channeling mechanism 500 includes a directional airflow end 510 installed on the sealing mechanism 400, an outer cover 520 connected in the directional airflow end 510, and a fan blade 530 movably installed in the outer cover 520, when the concrete bottom pile is formed, an operator needs to adjust the plurality of screws 130 in the steel frame housing 110, so that the screw 130 drives the pressing block 140 to tightly attach to the inner wall of the steel frame shell 110, so as to achieve the purpose of facilitating the bottom pile to be inserted into the inner cavity of the steel frame shell 110, and then uniformly set the number of rotation turns of the screw 130, so that the screw 130 drives the pressing block 140 to be uniformly pressed on the outer wall of the bottom pile.

Example two:

referring to fig. 4, in the above embodiment, the base 160 is pushed and read successfully by clockwise rotation and counterclockwise rotation of the screw rod in the limiting combination 150, so that the stability of the whole bearing mechanism 100 on the bottom pile can be achieved, and the screw rod 130 can obtain a good protection effect by inserting the U-shaped clamping shell into the vertical sliding rail, and the depth of pushing the base 160 by the T-shaped fixing rod in the limiting combination 150 is controlled by rotation of the screw rod in the limiting combination 150, so that the stability of the base of the steel frame housing 110 can be achieved, the auxiliary fixing portion includes a protection combination 120 installed outside the steel frame housing 110, the limiting combination 150 inserted into the steel frame housing 110, the base 160 connected to the bottom end of the limiting combination 150, and a waterproof cover 170 sleeved on the top end of the limiting combination 150, the protection combination 120 is composed of two vertical sliding rails and a U-shaped clamping shell, and the two vertical sliding rails are welded on two sides of the circular hole outside the steel frame housing 110, the limiting combination 150 is composed of a threaded straight cylinder, a screw rod and a T-shaped fixing rod, and a disc-shaped protruding fixture block for pushing and pressing the T-shaped fixing rod is arranged at the bottom end of the screw rod.

Example three:

in the above embodiment, as shown in fig. 11 and 12, the seal ring 420 is used to protect the insertion rod 221 from rust, so as to prevent the positioning assembly 220 from rusting as a whole, and the positioning assembly 220 further includes the insertion pin 223 installed in the sealing mechanism 400, the fixing member 222 connected in the sealing mechanism 400, and the insertion rod 221 installed in the fixing member 222.

Example four:

referring to fig. 11 and 13, in the above embodiment, the trapezoidal groove in the prefabricated beam 316 is inserted into the anti-slip member 314, so that the prefabricated beam 316 and the reinforcing sleeve 311 can be fixed without welding, the horizontal pipes distributed in a cross shape outside the exhaust pipe 320 are inserted into the inner cavity of the reinforcing sleeve 311, so that the dry airflow above the building can blow the inner cavity of the reinforcing sleeve 311, so as to ensure that the connection position between the prefabricated beam 316 and the reinforcing sleeve 311 maintains the dry performance, and the sealing sleeve 315 can be adhered to the outside of the adhesive member 312, so that the prefabricated beam 316 is inserted into the inner cavity of the reinforcing sleeve 311, the sealing sleeve 315 can achieve good sealing performance, the beam bridging mechanism 300 further includes the adhesive member 312 installed in the groove at the outer end of the reinforcing sleeve 311 and the prefabricated beam 316 inserted into the inner cavity of the reinforcing sleeve 311, the exhaust pipe 320 is made of a vertical pipe and a disc-shaped jet steal, a horizontal transverse pipe which is distributed in a cross shape is arranged on the vertical pipe, the sticking piece 312 is a magic tape, a sticking fur layer is arranged on the inner side of the sealing sleeve 315, and the sticking piece 312 is matched with two adjacent sides of the sealing sleeve 315.

Example five:

in the above embodiment, as shown in fig. 9, the main pile 410 is used as a fixed bridge between the steel frame body 210 and the directional airflow end 510, and the two sealing rings 420 outside the main pile 410 are used for protecting the pressing member 580 and the positioning assembly 220, and the sealing mechanism 400 includes the main pile 410, the sealing rings 420 installed outside the main pile 410, and the outer pads 430 inserted into the sealing rings 420.

Example six:

in the above embodiment, as shown in fig. 7, the air chamber 560 communicates with the plurality of air collecting grooves 540 via the air pipes 550, so that the drying air flow at a high position above the building can be directionally transmitted, and the air flow channeling mechanism 500 further includes the air chamber 560 installed in the inner cavity of the directional air flow end 510, the air pipe 550 connected to the air chamber 560 via the air pipe 550, the air collecting groove 540 connected to the other end of the air pipe 550, a cover 570 installed on the top end of the directional air flow end 510, and a pressing member 580 installed in the air flow channeling mechanism 510.

The working principle and the using process of the invention are as follows:

before use: an operator needs to calculate the needed load-bearing columns according to the area of a steel structure building site, then a rectangular bottom pile is manufactured in a place where each load-bearing column is installed in advance by using cement and reinforcing steel bars, then the operator needs to movably install a stabilizing rod 313 and an anti-skidding piece 314 in an inner cavity of a reinforcing sleeve 311, then an adhesive piece 312 is fixed in grooves on the inner sides of two ends of the reinforcing sleeve 311, then a sealing sleeve 315 is inserted in grooves on two ends of a 3311 and the sealing sleeve 315 is adhered to the adhesive piece 312, and then the reinforcing sleeve 311 is integrally inserted and fixedly welded in an inner notch of a steel frame main body 210;

before use: after the above operations are completed, an operator needs to fix the plurality of air collecting grooves 540 and the outer cover 520 along four sides of the outside of the directional airflow end 510, movably install the fan blades 530 between the outer cover 520 and the air collecting grooves 540, connect the air collecting grooves 540 and the air bins 560 by using the air pipes 550, seal the tops of the directional airflow ends 510 by using the sealing caps 570, fix the vertical pipes at the bottoms of the air bins 560 by using the main piles 410, integrally fix the airflow channeling mechanism 500 at the tops of the steel frame main bodies 210, and fix the airflow channeling mechanism 500 and the sealing mechanism 400 on the manufacturing mechanism 200 by using the pressing member 580 and the positioning assembly 220, respectively;

when in use: operating personnel need loosen the anticlockwise twisting of the multiunit screw rod 130 of steel frame casing 110 female connection, make screw rod 130 drive briquetting 140 hug closely at the inner wall of steel frame casing 110, then utilize the loop wheel machine with whole the inserting on the rectangular foundation pile of preforming of bearing mechanism 100 along the notch that plays the bottom, and make base 160 be located the bottom of foundation pile, operating personnel need carry out clockwise rotation with the inside screw rod 130 of steel frame casing 110 respectively after that, make screw rod 130 promote briquetting 140 with steel frame casing 110 monolithic stationary on the rectangular foundation pile, it can to push base 160 to compress tightly the bottom of foundation pile through the screw rod of adjusting in the spacing combination 150 simultaneously.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.