CN113668708B - Steel construction wall beam column connected node mechanism - Google Patents

Abstract

The invention provides a steel structure wall beam column connection node mechanism, which structurally comprises a connection hole, a top cover, a main body, a penetrating pipe and a positioning end, wherein the connection hole is embedded in the top cover, the main body and the top cover are integrated, the penetrating pipe is embedded outside the main body, and the positioning end is arranged below the penetrating pipe.

Description

Steel construction wall beam column connected node mechanism

Technical Field

The invention relates to the field of house construction, in particular to a steel structure wall beam column connecting joint mechanism.

Background

The steel structure wall beam column connecting node mechanism is effectively welded and clamped with the wall beam column through the changeability of the self steel material and the shape, so that the fixing and connecting effect of the beam body can be effectively enhanced through the self fixing effect and the connecting property, and the stability of building construction can be improved;

in summary, the present inventors have found that the following defects mainly exist in the conventional connection node mechanism: when the node mechanism used for steel factory building fixedly supports the beam bodies, the steel structure connecting node penetrates through and fixes each beam body through the connecting pipe of the steel structure connecting node, the penetrating pipe of the node mechanism can be in a mutually-contacted and fixed state with the beam bodies, so that when welding and fixing are carried out subsequently, the generated welding heat and the welded shape change can cause the change of the penetrating pipe shape, so that the condition that the self and the center of a circle of the beam body are easily generated to form an offset state and the center of a circle can not be in the same center of a circle is easily generated, and the stability of the whole steel factory building is easily directly influenced by the asymmetry of the subsequent assembly and welding positions.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the utility model provides a steel construction wall beam column connected node mechanism, its structure includes, connecting hole, top cap, main part, wears the intubate, location end, the connecting hole imbeds among the top cap, main part and top cap are as an organic whole, it inlays in the outside of main part to alternate the pipe, the location end is installed in the below of wearing the intubate, it carries out the location connection through main part and top cap to wear the intubate.

The utility model discloses a wear intubate, including the top cap, wear the intubate and be equipped with link, spacing layer, interlude passageway, link upper end and spacing layer carry out fixed connection, it is as an organic whole with the spacing layer to alternate the passageway, it communicates with each other with the main part to alternate the passageway, it carries out the location with the location end through the main part to alternate the passageway, it communicates with each other with the top cap to alternate the passageway, the spacing layer is solid state and has corresponding toughness.

As a further improvement of the invention, the penetrating channel is provided with a hollow groove, a positioning wheel, a movable rod, a contact shaft and a central block, the hollow groove is in clearance fit with the positioning wheel, the movable rod is movably connected with the positioning wheel, the contact shaft is embedded in the movable rod, the central block is in clearance fit with the contact shaft, the contact shaft is in positioning connection with the limiting layer, and the central block is in a circular shape.

As a further improvement of the invention, the contact shaft is provided with an extrusion layer, a connecting shaft and a rotating wheel, the extrusion layer and the connecting shaft are integrated, the rotating wheel is embedded in the connecting shaft and is in movable fit, the rotating wheel and the movable rod are in clearance fit, the rotating wheel and the center block are positioned on the same horizontal line, the extrusion layer has corresponding toughness and resilience, and the connecting shaft is in a solid arc shape, so that the rotating wheel is in a double-layer state.

As a further improvement of the present invention, the rotating wheel is provided with a clamping block, a connecting groove, a solid body and a lifting ring, the clamping block is embedded in the connecting groove, the solid body is fixedly connected with the connecting groove, the lifting ring is in clearance fit with the solid body, the lifting ring is movably connected with the connecting shaft, the clamping block is provided with a corresponding buckle, the connecting groove is in a hollow state, and the inside of the lifting ring comprises a plurality of balls.

As a further improvement of the present invention, the lifting ring is provided with a center piece, a balance bar and a rolling body, the center piece is fixedly connected with the balance bar, the rolling body is movably connected with the balance bar, the rolling body is in clearance fit with the connecting groove, the rolling body is in clearance fit with the solid body, the center piece is made of stainless steel and is in a circular shape, four balance bars are arranged on the outer side of the center piece, and the outer layer of the rolling body is in a solid state.

As a further improvement of the invention, the center block is provided with a connecting seat, an inserting block, a telescopic layer and a clamping block, the upper end of the connecting seat is fixedly connected with the inserting block, the telescopic layer is arranged at the upper end of the inserting block, the clamping block is movably connected with the telescopic layer, the hollow grooves of the clamping block are communicated, the clamping block is communicated with the contact shaft, and two sides of the telescopic layer of the clamping block are respectively provided with one clamping block and form a symmetrical state.

As a further improvement of the invention, the clamping block is provided with a block body, a movable body, a telescopic block and an ejector rod, the upper end of the block body is in clearance fit with the movable body, the telescopic block is embedded into the side end of the movable body, the ejector rod is movably connected with the telescopic block, the telescopic block is movably connected with the telescopic layer, the telescopic block is in positioning connection with the penetrating block, and the ejector rod has corresponding toughness and contraction performance.

As a further improvement of the invention, the telescopic block is provided with a chassis, a collecting ring, a movable channel and balls, the upper end of the chassis is in clearance fit with the collecting ring, the movable channel is communicated with the collecting ring, the balls are embedded into two sides of the movable channel, the balls are movably connected with the ejector rod, the chassis is movably connected with the movable body, and the chassis is in an arc solid shape.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, under the mutual matching of the center block newly added in the insertion channel inside the insertion pipe and the contact shaft, after key steel is inserted into the center block, the contact shaft extends out through the telescopic performance of the movable rod to be mutually attached to the side edge of the steel, and the extrusion layer can be tightly pressed against the side edge of the steel under the driving of the rotating wheel, so that the rotating wheel can effectively improve the self activity performance and the dismounting and mounting effect through the lifting ring and the connecting groove inside the rotating wheel, and meanwhile, the clamping phenomenon generated in the activity is prevented, so that the key steel can be effectively positioned in the center block, and the positioning condition of the steel is increased through the contact shaft, and the circle center offset phenomenon generated in the subsequent welding is prevented.

2. The improved center block can effectively drive the telescopic layer and the clamping block to move when steel enters the clamping block through the mutual matching of the telescopic layer and the clamping block, so that the ejector rod can continuously adjust the length of the ejector rod to support the connecting part of the steel, the telescopic layer can effectively control the moving range of the clamping block, the positioning effect of the steel can be effectively improved, and the fixation of the steel in the circle center is improved to further prevent the situation of circle center deviation caused by subsequent welding.

Drawings

Fig. 1 belongs to a structural schematic diagram of a steel structure wall beam column connection node mechanism.

Fig. 2 is a schematic sectional view of an insertion tube.

FIG. 3 is a schematic top view of a penetration passage.

Fig. 4 is a front view of a contact shaft.

Fig. 5 is a schematic view of the entire structure of the inside of the rotor.

Fig. 6 is a front view of a lifting ring with parts.

Fig. 7 is a side view of a center block.

Fig. 8 is a schematic structural diagram of a movable front view of a clamping block.

Fig. 9 is a front view of a telescopic block.

In the figure: the device comprises a connecting hole-1, a top cover-2, a main body-3, a penetrating pipe-4, a positioning end-5, a connecting end-41, a limiting layer-42, an inserting channel-43, a hollow groove-431, a positioning wheel-432, a movable rod-433, a contact shaft-434, a central block-435, an extrusion layer-a 1, a connecting shaft-a 2, a rotating wheel-a 3, a clamping block-a 31, a connecting groove-a 32, a solid body-a 33, a lifting ring-a 34, a central sheet-b 1, a balancing rod-b 2, a rolling body-b 3, a connecting seat-c 1, an inserting block-c 2, a telescopic layer-c 3, a clamping block-c 4, a block-c 41, a movable body-c 42, a telescopic block-c 43, a push rod-c 44, a chassis-d 1, a summarizing ring-d 2, a movable channel-d 3 and a ball-d 4.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

fig. 1 to 6 show:

the invention provides a steel structure wall beam column connecting node mechanism,

its structure includes, connecting hole 1, top cap 2, main part 3, interlude pipe 4, location end 5, connecting hole 1 imbeds among top cap 2, main part 3 and top cap 2 are as an organic whole, it inlays in the outside of main part 3 to wear intubate 4, location end 5 installs in the below of wearing intubate 4, it carries out the location connection through main part 3 and top cap 2 to wear intubate 4.

Wear intubate 4 to be equipped with link 41, spacing layer 42, alternate passageway 43, link 41 upper end and spacing layer 42 carry out fixed connection, alternate passageway 43 and spacing layer 42 as an organic whole, alternate passageway 43 and main part 3 communicate with each other, alternate passageway 43 and carry out the location through main part 3 and location end 5 and be connected, alternate passageway 43 and top cap 2 communicate with each other, spacing layer 42 is solid state and has corresponding toughness, spacing layer 42 can adapt to the roof beam body of multiple diameter through self under solid and the toughness state and fix to can improve corresponding fixed effect under the toughness effect.

The penetrating channel 43 is provided with a hollow groove 431, a positioning wheel 432, a movable rod 433, a contact shaft 434 and a center block 435, the hollow groove 431 is in clearance fit with the positioning wheel 432, the movable rod 433 is movably connected with the positioning wheel 432, the contact shaft 434 is embedded in the movable rod 433, the center block 435 is in clearance fit with the contact shaft 434, the contact shaft 434 is in positioning connection with the limiting layer 42, the center block 435 is in a circular shape, and the center block 435 can effectively lift a center positioning point of the beam body after penetrating through the circular shape.

Wherein, contact shaft 434 is equipped with extrusion layer a1, connecting axle a2, runner a3, extrusion layer a1 and connecting axle a2 are as an organic whole, runner a3 imbeds and carries out clearance fit among connecting axle a2, runner a3 and movable rod 433 carry out clearance fit, runner a3 and centre block 435 are located same water flat line, extrusion layer a1 has corresponding toughness and resilience, and connecting axle a2 is solid arc shape, causes runner a3 to be double-deck state, extrusion layer a1 can effectively play corresponding cushioning effect to the roof beam body that runs through self performance to can change fixed position along with runner a 3's activity under the drive of the solid arc through connecting axle a2 to and runner a3 can promote self fixed point rotation effect and can balance control the movable effect of connecting axle a2 through self double-deck state.

The turning wheel a3 is provided with a clamping block a31, a connecting groove a32, a solid body a33 and a lifting ring a34, the clamping block a31 is embedded into the connecting groove a32, the solid body a33 is fixedly connected with the connecting groove a32, the lifting ring a34 is in clearance fit with the solid body a33, the lifting ring a34 is movably connected with the connecting shaft a2, the clamping block a31 is provided with a corresponding buckle, the connecting groove a32 is in a hollow state, a plurality of balls are contained in the lifting ring a34, the clamping block a31 can position the connecting groove a32 at an original point through the buckle of the clamping block a31, and meanwhile, the plurality of balls of the lifting ring a34 can effectively improve the moving speed of each component and prevent the occurrence of a blocking phenomenon.

The lifting ring a34 is provided with a center piece b1, a balance bar b2 and a rolling body b3, the center piece b1 is fixedly connected with the balance bar b2, the rolling body b3 is movably connected with the balance bar b2, the rolling body b3 is in clearance fit with a connecting groove a32, the rolling body b3 is in clearance fit with a solid body a33, the center piece b1 is made of stainless steel and is in a circular shape, the balance bar b2 is provided with four pieces on the outer side of the center piece b1, the outer layer of the rolling body b3 is in a solid state, the center piece b1 can effectively achieve the effect of fixed-point rotation of the component through the stainless steel and the circular shape, and the balance bar b2 is used for maintaining the movable balance of the component and the solid state of the surface layer of the rolling body b3 to prevent external impurities from falling into the component to generate a blocking phenomenon.

The specific functions and operation flow of this embodiment are as follows:

according to the invention, the steel structure wall beam body connecting node mechanism can position the body 3 and the penetrating pipe 4 at the original point through the connecting hole 1 and the positioning end 5, so that when the beam body and the steel material are mutually penetrated and fixed with the penetrating pipe 4, the limiting layer 42 can limit the diameter of the penetrating channel 43, and further the fixing effect is improved, the central block 435 of the penetrating channel 43 can guide the positioning position of the steel material after entering, meanwhile, the contact shaft 434 can be continuously extended by the movable rod 433 and extrude the surface end of the steel material by using the extrusion layer a1 of the contact shaft a1, and simultaneously, the fixing effect of the extrusion layer a1 on the surface end of the steel material is enhanced under the control of the connecting shaft a2 and the rotating wheel a3, so that the original point positioning effect of each component can be effectively improved through the connecting grooves a32 on two sides of the rotating wheel a3 and the clamping block a31, the activity stability of the extrusion layer a1 can be greatly improved according to the lifting ring a34 in the solid body a33, and the rolling body b3 of the lifting ring a rolling body a34 can prevent impurities from entering the balancing rod b2 and the central piece b2 and the balance rod b2 from being matched with the steel material, and the steel material can be effectively prevented from being positioned under the condition that the steel material can pass through the balance rod b2 and the balance rod b.

Example 2:

fig. 7 to 9 show:

the invention provides a steel structure wall beam column connecting node mechanism,

its structure includes, center piece 435 is equipped with connecting seat c1, alternates piece c2, flexible layer c3, clamp splice c4, connecting seat c1 upper end carries out fixed connection with alternating piece c2, flexible layer c3 is installed in the upper end of interleaving piece c2, clamp splice c4 carries out swing joint with flexible layer c3, the hollow groove 431 of clamp splice c4 communicates with each other, clamp splice c4 communicates with each other with contact shaft 434, clamp splice c4 respectively is equipped with one and forms the symmetric state in flexible layer c 3's both sides, the clamp splice c4 can be by a wide margin the location effect of promotion roof beam body through the symmetric state of self.

The clamping block c4 is provided with a block body c41, a movable body c42, a telescopic block c43 and a mandril c44, the upper end of the block body c41 is in clearance fit with the movable body c42, the telescopic block c43 is embedded into the side end of the movable body c42, the mandril c44 is movably connected with the telescopic block c43, the telescopic block c43 is movably connected with a telescopic layer c3, the telescopic block c43 is in positioning connection with the insertion block c2, the mandril c44 has corresponding toughness and contraction performance, and the mandril c44 can be conveniently connected with all the components through the performance of the mandril c 44.

The telescopic block c43 is provided with a chassis d1, a collecting ring d2, a movable channel d3 and balls d4, the upper end of the chassis d1 is in clearance fit with the collecting ring d2, the movable channel d3 is communicated with the collecting ring d2, the balls d4 are embedded into two sides of the movable channel d3, the balls d4 are movably connected with a mandril c44, the chassis d1 is movably connected with a movable body c42, the chassis d1 is arc-shaped and solid, and the chassis d1 can be effectively matched with the collecting ring d2 through the arc-shaped and solid state of the chassis d1 so as to achieve a fixing effect.

The specific functions and operation flow of this embodiment are as follows:

in the invention, under the basic action of embodiment 1, the center block 435 is improved and then the inserting block c2 can be positioned at the original point through the connecting seat c1, so that when a steel beam enters the inserting block c2, the clamping block c4 clamps the convex block of the steel, and when the telescopic layer c3 extends out, the movable body c42 can be driven to control the movable range of the ejector rod c44 of the clamping block c4, and the telescopic block c43 can continuously adjust the length of the ejector rod c44 to achieve a perfect matching state, so that the telescopic block c43 can achieve a balance effect of controlling the ejector rod c44 through the self induction ring d2 and the ball d4 in the movable channel d3, and the ring d2 can effectively coil the residual length of the ejector rod c44 to prevent accumulation of residual lines, and the fixation of the steel at the center of the center can be effectively increased through the mutual matching of the components to further prevent the center offset of the subsequent welding.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (1)

1. The utility model provides a steel construction wall beam column connected node mechanism, its structure includes, connecting hole (1), top cap (2), main part (3), wears intubate (4), location end (5) its characterized in that: the connecting hole (1) is embedded into the top cover (2), the main body (3) and the top cover (2) are integrated, the penetrating pipe (4) is embedded outside the main body (3), the positioning end (5) is installed below the penetrating pipe (4), and the penetrating pipe (4) is connected with the top cover (2) in a positioning mode through the main body (3);

the penetrating pipe (4) is provided with a connecting end (41), a limiting layer (42) and a penetrating channel (43), the upper end of the connecting end (41) is fixedly connected with the limiting layer (42), the penetrating channel (43) and the limiting layer (42) are integrated, the penetrating channel (43) is communicated with the main body (3), the penetrating channel (43) is in positioning connection with the positioning end (5) through the main body (3), and the penetrating channel (43) is communicated with the top cover (2);

the inserting channel (43) is provided with a hollow groove (431), a positioning wheel (432), a movable rod (433), a contact shaft (434) and a center block (435), the hollow groove (431) is in clearance fit with the positioning wheel (432), the movable rod (433) is movably connected with the positioning wheel (432), the contact shaft (434) is embedded into the movable rod (433), the center block (435) is in clearance fit with the contact shaft (434), and the contact shaft (434) is in positioning connection with the limiting layer (42);

the contact shaft (434) is provided with an extrusion layer (a 1), a connecting shaft (a 2) and a rotating wheel (a 3), the extrusion layer (a 1) and the connecting shaft (a 2) are integrated, the rotating wheel (a 3) is embedded in the connecting shaft (a 2) and is in movable fit, the rotating wheel (a 3) and the movable rod (433) are in clearance fit, and the rotating wheel (a 3) and the center block (435) are located on the same horizontal line;

the rotating wheel (a 3) is provided with a clamping block (a 31), a connecting groove (a 32), a solid body (a 33) and a lifting ring (a 34), the clamping block (a 31) is embedded into the connecting groove (a 32), the solid body (a 33) is fixedly connected with the connecting groove (a 32), the lifting ring (a 34) is in clearance fit with the solid body (a 33), and the lifting ring (a 34) is movably connected with the connecting shaft (a 2);

the lifting ring (a 34) is provided with a center piece (b 1), a balance rod (b 2) and a rolling body (b 3), the center piece (b 1) is fixedly connected with the balance rod (b 2), the rolling body (b 3) is movably connected with the balance rod (b 2), the rolling body (b 3) is in clearance fit with a connecting groove (a 32), and the rolling body (b 3) is in clearance fit with a solid body (a 33);

the center block (435) is provided with a connecting seat (c 1), an inserting block (c 2), a telescopic layer (c 3) and a clamping block (c 4), the upper end of the connecting seat (c 1) is fixedly connected with the inserting block (c 2), the telescopic layer (c 3) is installed at the upper end of the inserting block (c 2), the clamping block (c 4) is movably connected with the telescopic layer (c 3), the hollow groove (431) of the clamping block (c 4) is communicated, and the clamping block (c 4) is communicated with the contact shaft (434);

the clamping block (c 4) is provided with a block body (c 41), a movable body (c 42), a telescopic block (c 43) and a push rod (c 44), the upper end of the block body (c 41) is in clearance fit with the movable body (c 42), the telescopic block (c 43) is embedded into the side end of the movable body (c 42), the push rod (c 44) is movably connected with the telescopic block (c 43), the telescopic block (c 43) is movably connected with the telescopic layer (c 3), and the telescopic block (c 43) is in positioning connection with the penetrating block (c 2);

the telescopic block (c 43) is provided with a chassis (d 1), a collecting ring (d 2), a movable channel (d 3) and balls (d 4), the upper end of the chassis (d 1) is in clearance fit with the collecting ring (d 2), the movable channel (d 3) is communicated with the collecting ring (d 2), the balls (d 4) are embedded into two sides of the movable channel (d 3), the balls (d 4) are movably connected with a mandril (c 44), and the chassis (d 1) is movably connected with a movable body (c 42);

the steel structure wall beam body connecting node mechanism can position a main body (3) and a penetrating insertion pipe (4) at an origin through a connecting hole (1) and a positioning end (5), so that when the beam body and steel materials penetrate and are fixed with the penetrating insertion pipe (4) mutually, a limiting layer (42) limits the diameter of a penetrating channel (43), further the fixing effect is improved, a central block (435) of the penetrating channel (43) guides the positioning position of the steel materials after entering, a contact shaft (434) can be continuously extended by a movable rod (433) to extrude the surface end of the steel materials by utilizing an extrusion layer (a 1) of the rotating wheel (a 3), meanwhile, the fixing effect of the extrusion layer (a 1) on the surface end of the steel materials is enhanced under the control of the connecting shaft (a 2) and the rotating wheel (a 3), so that the rotating wheel (a 3) can effectively improve the positioning effect of the origin through connecting grooves (a 32) on two sides of the rotating wheel (a 3) and the connecting block (a 31) on the rotating wheel (a 3), and the balance effect of the movable rod (b) can be improved by utilizing the stability of the extrusion layer (a 2) of the balance rod (a) and the balance rod (b) of a) can be improved according to the balance state of a solid body (34) and the balance rod (b) can be improved correspondingly under the balance rod (b);

after the central block (435) is improved, the inserting block (c 2) can be positioned at the original point through the connecting seat (c 1), so that when a steel beam body enters the inserting block (c 2) of the central block, the clamping block (c 4) can clamp a convex block of steel, the telescopic layer (c 3) extends out, the movable body (c 42) can be driven to control the movable range of the ejector rod (c 44) of the clamping block (c 4), the telescopic block (c 43) can continuously adjust the length of the ejector rod (c 44) to achieve a perfect matching state, the telescopic block (c 43) can achieve balance of control over the ejector rod (c 44) through a ring (d 2) of the telescopic block and a ball (d 4) in the movable channel (d 3), and the ring (d 2) can effectively collect and coil the residual length of the ejector rod (c 44).

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