CN205476071U - Steel structure support structure - Google Patents

Abstract

The utility model discloses a steel structure support structure, a serial communication port, including stand and bracket structure, the stand has the column tube chamber, the bracket structure includes the sleeve pipe, the sleeve pipe has the sleeve pipe pipe wall, the sleeve pipe pipe wall encloses into the sleeve pipe lumen, be provided with on the sleeve pipe pipe wall and run through the first through -hole of sleeve pipe pipe wall, first through -hole with sleeve pipe lumen intercommunication, the sleeve pipe pipe wall with the stand is connected. The utility model discloses a structure principle, the application roof beam solved that the steel constructs in the steel constructs in succession, fixed, the node strength's of structure problem, the ingenious utilizes the condition in back concrete watering groove to weld, has solved the steel totally and has constructed a difficult problem.

Description

Steel structure support structure

Technical field

This utility model is specifically related to a kind of steel structure support structure.

Background technology

Steel construction is used in modern house construction in a large number.In steel house, its structure includes column and beam.Upright supports beam.Requiring difference according to bearing capacity, beam is divided into again girder and secondary beam.Beam leans on upright supports.In prior art, column realizes with the sun bracket structure that is connected by of beam.Sun bracket is arranged on column outer surface.The end of beam is connected with sun bracket.Such structure is arranged brings many restrictions to the enforcement of steel construction, and one is that outward appearance is numerous and diverse, and sun bracket is arranged on column outer surface so that it is seem mixed and disorderly, outward appearance disunity；Two is the length of restraint beam, owing to the structure of sun bracket limits so that the length of beam it may be only configured to the length between two root posts, and the two ends of the beam of the length limitation exceeded will be unable to be arranged on the positive bracket of two root posts.Three is the structure limiting steel construction product, such as, needs to arrange one in the position of some height and chooses platform, owing to the beam end of existing structure is required to be supported on column, if only there is column one end, then cannot arrange beam, the most just cannot arrange and choose platform.Arranging and choose platform, the two ends of beam must be supported on could realizing on column or by means of additionally arranging girth member.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art, it is provided that a kind of use more flexible steel structure support structure.

For realizing object above, this utility model is achieved through the following technical solutions:

Steel structure support structure, it is characterised in that include column and bracket structure；Described column has column tube chamber；Described bracket structure includes sleeve pipe；Described sleeve pipe has set tube wall, and described set tube wall surrounds sleeve pipe tube chamber；The first through hole of described set tube wall it is provided through on described set tube wall；Described first through hole connects with described sleeve pipe tube chamber, and described set tube wall is connected with described column.

According to an embodiment of the present utility model, also including that connector, described connector are arranged in described sleeve pipe tube chamber, described connector is connected with described set tube wall

According to an embodiment of the present utility model, described connector includes that one or more base plate, described base plate one end or multiterminal are connected with described set tube wall；Described polylith base plate interval is arranged.

According to an embodiment of the present utility model, described connector also includes one or more sidewall paneling, and described sidewall paneling is connected with described base plate and/or is connected with described set tube wall, and described polylith sidewall paneling interval is arranged.

According to an embodiment of the present utility model, described connector also includes that top board, described top board and described base plate interval are arranged；Described top board is connected with described sidewall paneling, and described top board is connected with described set tube wall.

According to an embodiment of the present utility model, described top board is provided with through slot, or described top board number is more than two pieces and interval setting.

According to an embodiment of the present utility model, described connector number is two or more, and arranged in a crossed manner or along described sleeve pipe short transverse interval is arranged.

According to an embodiment of the present utility model, described connector is welded to connect with described set tube wall.

According to an embodiment of the present utility model, described sleeve pipe is tetragon pipe, and described first through hole is arranged on the set tube wall at two sides, three or four sides.

Steel construction bracket, it is characterised in that include sleeve pipe；Described sleeve pipe has set tube wall, and described set tube wall surrounds sleeve pipe tube chamber, and described set tube wall is provided through the first through hole of described set tube wall, and described first number of through-holes is one or more.

According to an embodiment of the present utility model, also including that connector, described connector include that the first connecting tube, described first connecting tube have the first tube wall, described first tube wall surrounds the first tube chamber；Described first connecting tube is arranged in described sleeve pipe tube chamber, and described first connecting tube two ends are connected with described set tube wall；At least one described first through hole structural member of making from described first through hole insert relative with the first tube chamber position of described first connecting tube is inserted in described first tube chamber.

According to an embodiment of the present utility model, it is provided with the first groove on first tube wall of described first connecting tube, described first groove runs through the first tube wall of described first connecting tube, and described first groove extends selected length along the length direction of described first connecting tube.

According to an embodiment of the present utility model, described first connecting tube being provided with one or more first connecting plate, described first connecting plate is connected with the first tube wall of described first groove both sides；Described polylith the first connecting plate is spaced apart along the length direction of described first connecting tube.

According to an embodiment of the present utility model, one end of the first tube wall of described first connecting tube is connected around the first through hole one of them described with described set tube wall.

According to an embodiment of the present utility model, described connector also includes that the second connecting tube, described second connecting tube have the second tube wall, and described second tube wall surrounds the second tube chamber；Described second connecting tube is arranged in described sleeve pipe tube chamber, described second connecting tube two ends are connected with described set tube wall, and at least one described first through hole is relative with described second tube chamber position so that being inserted in described second tube chamber from the structural member of described first through hole insertion.

According to an embodiment of the present utility model, the second tube wall of described second connecting tube being provided with the second groove, described second groove runs through the tube wall of described second connecting tube, and described second groove extends selected length along the length direction of described second connecting tube.

According to an embodiment of the present utility model, described second connecting tube being provided with one or more second connecting plate, described second connecting plate is connected with the second tube wall of described second groove both sides；Described polylith the second connecting plate is spaced apart along the length direction of described second connecting tube.

According to an embodiment of the present utility model, one end of the second tube wall of described second connecting tube is connected around the first through hole one of them described and with described set tube wall.

According to an embodiment of the present utility model, described first connecting tube runs through described second connecting tube, and described first connecting tube length direction is vertical with described second connecting tube length direction；Or described second connecting tube runs through described first connecting tube, described first connecting tube length direction is vertical with described second connecting tube length direction.

According to an embodiment of the present utility model, the first tube wall of described first connecting tube offers the second through hole；Described first connecting tube two ends are connected with set tube wall respectively；Described second connecting tube number is one or more, and each second connecting tube one end is connected with set tube wall, and the other end and the first tube wall connect；Described second tube chamber one end is relative with the first lead to the hole site and connects, and the other end and the second lead to the hole site relatively and connect.

According to an embodiment of the present utility model, described sleeve pipe is tetragon pipe, and described first through hole each two is one group, and the first through hole described in least one set is relative with described first tube chamber position from described first connecting tube two ends respectively and communicates；First through hole described in least one set is relative with described second tube chamber position from described second connecting tube two ends respectively and communicates.

It is welded to connect with described set tube wall according to an embodiment of the present utility model, described first connecting tube and/or described second connecting tube.

Steel construction bracket, it is characterised in that include sleeve pipe；Described sleeve pipe has set tube wall, and described set tube wall surrounds sleeve pipe tube chamber, and described set tube wall is provided through the first through hole of described set tube wall.

According to an embodiment of the present utility model, being also connected with part, described connector includes that the first tank-type connecting component, described first tank-type connecting component have the first cell wall, and described first cell wall surrounds the first groove；Described first tank-type connecting component is arranged in described sleeve pipe tube chamber, and described first tank-type connecting component two ends are connected with described set tube wall；At least one described first through hole structural member of making from described first through hole insert relative with the first groove location of described first tank-type connecting component is inserted in described first groove.

According to an embodiment of the present utility model, described first tank-type connecting component being provided with one or more the 3rd connecting plate, described 3rd connecting plate is connected with described first cell wall；Described polylith the 3rd connecting plate is spaced apart along the length direction of described first groove.

According to an embodiment of the present utility model, the first cell wall of described first tank-type connecting component is connected around described first through hole with described set tube wall.

According to an embodiment of the present utility model, described connector includes that the second tank-type connecting component, described second tank-type connecting component have the second cell wall, and described second cell wall surrounds the second groove；Described second tank-type connecting component is arranged in described sleeve pipe tube chamber, and described second tank-type connecting component two ends are connected with described set tube wall；At least one described first through hole structural member of making from described first through hole insert relative with the second groove location of described second tank-type connecting component is inserted in described second groove.

According to an embodiment of the present utility model, described second tank-type connecting component being provided with one or more the 4th connecting plate, described 4th connecting plate is connected with described second cell wall；Described polylith the 4th connecting plate is spaced apart along the length direction of described second groove.

According to an embodiment of the present utility model, the second cell wall of described second tank-type connecting component is connected around described first through hole and with described set tube wall.

According to an embodiment of the present utility model, described first tank-type connecting component runs through described second tank-type connecting component, and described first tank-type connecting component length direction is vertical with described second tank-type connecting component length direction；Or described second tank-type connecting component runs through described first tank-type connecting component, described first tank-type connecting component length direction is vertical with described second tank-type connecting component length direction.

According to an embodiment of the present utility model, the first cell wall of described first tank-type connecting component offering breach, described first tank-type connecting component two ends are connected with set tube wall respectively；Described second tank-type connecting component number is one or more, and each second tank-type connecting component one end is connected with set tube wall, and the other end and the first cell wall connect；Described second groove one end is relative with the first lead to the hole site, and the other end is relative with described gap position.

According to an embodiment of the present utility model, described sleeve pipe is tetragon pipe, and described first through hole each two is one group, and the first through hole described in least one set is relative with described first groove location from described first tank-type connecting component two ends respectively and communicates；First through hole described in least one set is relative with described second groove location from described second tank-type connecting component two ends respectively and communicates.

It is welded to connect with described set tube wall according to an embodiment of the present utility model, described first tank-type connecting component and/or described second tank-type connecting component.

According to an embodiment of the present utility model, described set tube wall includes casing main body and insertion pipe；Described insertion pipe is inserted in described column tube intracavity, and described casing main body outer wall aligns with described column outer wall.

Steel structure support structure in this utility model, its bracket structure uses cloudy bracket structure, and cloudy bracket can keep consistent with column in appearance, and outward appearance is neatly unified, the most in a jumble.Bracket structure in this utility model uses and offers the first through hole on sleeve pipe, and connector is arranged in the tube chamber of sleeve pipe, both can support the structural member from the first through hole insertion, such as beam, it is also possible to supply the bearing capacity loss caused because the first through hole offered by sleeve pipe.Base plate is set so that this utility model simple in construction, it is easy to produce.Cavity bracket, when bearing capacity is problematic, arranges sidewall paneling on base plate so that this utility model bearing capacity strengthens.Connector is set to tubulose, tubular connection is welded on set tube wall around the first through hole, and set tube wall is connected as one by connector, further enhances the bearing capacity of sleeve pipe, make up the bearing capacity loss caused because the first through hole offered by sleeve pipe so that this utility model is more firm.Bracket structure in this utility model can be produced as independent parts respectively with column, beam and be welded to connect so that this utility model can be processed at factory floor, assemble the most at the construction field (site), can be that the production of scale provides standard component, and efficiency is high.First groove is set on the first tube wall, facilitates welder will stretch into the first intraluminal structural member in stretching into the first tube chamber and the first tube wall is welded to connect.Arrange the first connecting plate to be connected by the first tube wall of the first groove both sides, can avoid offering the bearing capacity reduction problem that groove brings, make the first connecting tube more solid and reliable.After welding completes, it is also possible to by the first groove penetration concrete, make steel construction more firm.Second groove is set on the second tube wall, facilitates welder will stretch into the second intraluminal structural member in stretching into the second tube chamber and the second tube wall is welded to connect.Arrange the second connecting plate to be connected by the second tube wall of the second groove both sides, can avoid offering the bearing capacity reduction problem that groove brings, make the first connecting tube more solid and reliable.After welding completes, it is also possible to by the second groove penetration concrete, make steel construction more firm.Use the steel construction bracket in this utility model so that column and beam can be made standard component according to standard and construct the most easily.Even if the length of beam is also not required to cutting beyond the distance between two root posts, beam can pass steel construction bracket, still can use.Use the steel construction bracket in this utility model, so that steel construction room has more changes structure, a unsettled platform is such as set, as long as beam is through the steel construction bracket in this utility model, prominent certain length.

Existing steel building, it is necessary first to design then factory process of publishing picture, requires by figure manufacture different component according to design, for in-site installation.Use the steel construction in the present invention, first each building block can be made as standard element, carry out different building and Demand Design.Each building block in steel construction in the present invention can meet any design requirement of current steel reinforced concrete system, and can reduce the cost of labor of construction and installation.The structural principle of the present invention, the problem being used in steel structure the intensity of fixing, the node of continuous, the structure that can solve beam, utilize the condition of back concrete casting groove to weld cleverly, completely solve a steel structure difficult problem.

Relative to sun bracket structure of the prior art, the bracket structure in this utility model can save steel using amount more than 30%.And the bracket structure in this utility model can be processed as standard component at factory floor, then assembling with column or beam at the construction field (site), on-site construction time is short, at least can save on-site construction time more than 60%.

Accompanying drawing explanation

The structural representation of the steel structure support structure that Fig. 1 show in this utility model.

Fig. 2 is the column partial structurtes schematic diagram in this utility model.

Fig. 3 is the steel construction bracket structure schematic diagram in this utility model embodiment 1.

Fig. 4 is the steel construction bracket structure schematic diagram in this utility model embodiment 1, the not shown insertion pipe of Fig. 4.

Fig. 5 is the connecting-piece structure schematic diagram in this utility model embodiment 1.

Fig. 6 is the first connecting pipe structure schematic diagram in this utility model embodiment 1.

Fig. 7 is the second connecting pipe structure schematic diagram in this utility model embodiment 1.

Fig. 8 is the connecting-piece structure schematic diagram in this utility model embodiment 2.

Fig. 9 is the first tank-type connecting component structural representation in this utility model embodiment 2.

Figure 10 is the second tank-type connecting component structural representation in this utility model embodiment 2.

Figure 11 is the bracket structure partial structurtes schematic diagram in this utility model embodiment 3.

Figure 12 is the bracket structure partial structurtes schematic diagram in this utility model embodiment 4.

The use view of the steel structure support structure that Figure 13 show in this utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described in detail:

Embodiment 1

As shown in Figure 1 and Figure 2, steel structure support structure, including column 200 and bracket structure 100.Column 200 is tubular structure, and it includes column tube chamber 210.

As shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, steel construction bracket 100 includes sleeve pipe 10 and connector 20.Described sleeve pipe 10 has set tube wall 11, and described set tube wall 11 surrounds sleeve pipe tube chamber 12.Set tube wall includes casing main body 111 and insertion pipe 112.Casing main body 111 two ends are respectively arranged with an insertion pipe 112.Insertion pipe 112 and casing main body 111 are integral type structure.Insertion pipe 112 overall dimensions is less than described casing main body 111.Insertion pipe 112 is inserted in column tube chamber 210.Casing main body 111 outer wall aligns with column 200 outer wall.The first through hole 13 of described set tube wall 11 it is provided through on described set tube wall 11.The shape of set tube wall 11 and the shape of sleeve pipe tube chamber 12 can be tetragon or circle, also can be chosen as other shape according to actual needs.Described tetragon both can be rectangle, it is also possible to be square or other available shapes.In example as depicted, set tube wall 11 is rectangle, and sleeve pipe tube chamber 12 is also rectangle.First through hole 13 can select its position and quantity according to actual needs.In the present embodiment, four faces of the set tube wall 11 of tetragon offer four the first through holes 13 respectively.Each two is one group, and aligned in position two-by-two is equivalently-sized.

Described connector 20 includes the first connecting tube 30.Described first connecting tube 30 has the first tube wall 31, and described first tube wall 31 surrounds the first tube chamber 32.Described first connecting tube 30 is arranged in described sleeve pipe tube chamber 12, and described first connecting tube 30 two ends are connected with described set tube wall 11.At least one described first through hole 13 is relative with the first tube chamber 32 position of described first connecting tube 30 so that the structural member inserted from described first through hole 13 is inserted in described first tube chamber 32.The size of the first through hole 13 both can equivalently-sized with the first tube chamber 32, it is also possible to mutual difference, the size of the such as first through hole 13 is more than the size of the first tube chamber 32, it is also possible to the size of the first tube chamber 32 is more than the size of the first through hole 13.Size such as the first through hole 13 is more than the size of the first tube chamber 32, then the first tube chamber 32 and the first through hole 13 stagger setting, so that the first tube wall 31 can contact with set tube wall 11 and be welded to connect, the structural member inserted from described first through hole 13 can be made again to be inserted in described first tube chamber 32.In the present embodiment as depicted, the size of the first tube chamber 32 is equal to or slightly greater than the size of the first through hole 13, and the first connecting tube 30 is arranged around the first through hole 13.First connecting tube 30 contacts with set tube wall 11 and utilizes and is welded to connect both.First connecting tube 30 two ends are centered around around two the first through holes 13 respectively so that the first tube chamber 32 two ends connect with two the first through holes 13 respectively.

Being provided with the first groove 33 on first tube wall 31 of described first connecting tube 30, described first groove 33 runs through the first tube wall 31 of described first connecting tube, and described first groove 33 extends selected length along the length L1 direction of described first connecting tube 30.Being provided with one or more the first connecting plate 34 in described first connecting tube 30, described first connecting plate 34 is connected with the first tube wall 31 of described first groove 33 both sides.Described polylith the first connecting plate 34 is spaced apart along the length direction of described first connecting tube 30.First connecting plate 34 both may be located at the outer wall of the first connecting tube 30, it is also possible to is positioned at the first tube chamber 32, it is also possible to is positioned at the first groove 33, and two ends are all connected with the first tube wall 31.In preferred exemplary as depicted, described first connecting plate 34 is positioned at the first groove 33.It is further opened with the second through hole 35 on first tube wall 31 of described first connecting tube 30.It will be appreciated that the first groove 33 and the second through hole 35 are opened on the not coplanar of the first tube wall 31.In example as depicted, the second through hole 35 number is two, and aligned in position is arranged.

As shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 7, described connector 20 also includes the second connecting tube 40.Described second connecting tube 40 has the second tube wall 41, and described second tube wall 41 surrounds the second tube chamber 42；Described second connecting tube 40 is arranged in described sleeve pipe tube chamber 12, described second connecting tube 40 two ends are connected with described set tube wall 11, and at least one described first through hole 13 is relative with described second tube chamber 42 position so that being inserted in described second tube chamber 42 from the structural member of described first through hole 13 insertion.The size of the first through hole 13 both can equivalently-sized with the second tube chamber 42, it is also possible to mutual difference, the size of the such as first through hole 13 is more than the size of the second tube chamber 42, it is also possible to the size of the second tube chamber 42 is more than the size of the first through hole 13.Size such as the first through hole 13 is more than the size of the second tube chamber 42, then the second tube chamber 42 and the first through hole 13 stagger setting, so that the second tube wall 41 can contact with set tube wall 11 and be welded to connect, the structural member inserted from described first through hole 13 can be made again to be inserted in described first tube chamber 32.In the present embodiment as depicted, the size of the second tube chamber 42 is equal to or slightly greater than the size of the first through hole 13, and the second connecting tube 40 is arranged around the first through hole 13.Second connecting tube 40 contacts with set tube wall 11 and utilizes and is welded to connect both.

Being provided with the second groove 44 on second tube wall 41 of described second connecting tube 40, described second groove 44 runs through the second tube wall 41 of described second connecting tube 40, and described second groove 44 extends selected length along the length direction L2 of described second connecting tube 40.Being provided with one or more the second connecting plate 44 in described second connecting tube 40, described second connecting plate 44 is connected with the second tube wall 41 of described second groove 44 both sides；Described polylith the second connecting plate 44 is spaced apart along the length L2 direction of described second connecting tube 40.Second connecting plate 44 both may be located at the outer wall of the second connecting tube 40, it is also possible to is positioned at the second tube chamber 42, it is also possible to is positioned at the second groove 44.In preferred exemplary as depicted, described second connecting plate 44 is positioned at the second groove 44, and two ends are all connected with the second tube wall 41.

In example as depicted, in sleeve pipe tube chamber 12, it is provided with first connecting tube 30 and two the second connecting tubes 40.First connecting tube 30 two ends are welded to connect with set tube wall 11.First tube wall 31 is arranged around the first through hole 13.Two the first through holes 13 are relative with the first tube chamber 12 position from two ends respectively and connection.Each second connecting tube 40 one end is welded to connect with set tube wall 11, and the other end and the first tube wall 31 are welded to connect.Second tube wall 41 one end is around the first through hole 13, and the other end is around the second through hole 35.Second tube chamber 32 one end is relative with the first through hole 13 position and connection, the other end and the second through hole 35 position relatively and connect.Described in the utility model around, both can be from two sides around, it is also possible to be three around or four sides around.

After the structural member of one of them first through hole 13 insertion may pass through the first tube chamber 32 outside another first through hole 32 stretches out the first tube chamber 32 and sleeve pipe 10.After the structural member of one of them first through hole 13 insertion may pass through the second tube chamber 42 of two the second connecting tubes 40 outside another first through hole 32 stretches out the second tube chamber 42 and sleeve pipe 10.

In the present embodiment, two the second connecting tubes 40 can be one, and two ends are connected to overlap on tube wall 11.Second connecting tube 40 runs through the first connecting tube 30 from the second through hole 35.

Embodiment 2

As shown in Figure 8, the bracket structure in the present embodiment is different from embodiment 1.Bracket structure 100 includes sleeve pipe 10 and connector 20.Sleeve pipe 10 structure is as shown in Figure 3.Described sleeve pipe 10 has set tube wall 11, and described set tube wall 11 surrounds sleeve pipe tube chamber 12, and described set tube wall 11 is provided through the first through hole 13 of described set tube wall 11.The shape of set tube wall 11 and the shape of sleeve pipe tube chamber 12 can be tetragon or circle, also can be chosen as other shape according to actual needs.Described tetragon both can be rectangle, it is also possible to be square or other available shapes.In example as depicted, set tube wall 11 is rectangle, and sleeve pipe tube chamber 12 is also rectangle.First through hole 13 can select its position and quantity according to actual needs.In the present embodiment, four faces of the set tube wall 11 of rectangle offer four the first through holes 13 respectively.Each two is one group, and aligned in position two-by-two is equivalently-sized.

As shown in Figure 8, Figure 9, described connector 20 includes the first tank-type connecting component 50.Described first tank-type connecting component 50 has the first cell wall 51, and described first cell wall 51 surrounds the first groove 52.Described first tank-type connecting component 50 is arranged in described sleeve pipe tube chamber 12, and described first tank-type connecting component 50 two ends are welded to connect with described set tube wall 11.At least one described first through hole 13 structural member of making from described first through hole 13 insert relative with the first groove 52 position of described first tank-type connecting component 50 is inserted in described first groove 52.The size of the first through hole 13 both can equivalently-sized with the first groove 52, it is also possible to mutual difference, the size of the such as first through hole 13 is more than the size of the first groove 52, it is also possible to the size of the first groove 52 is more than the size of the first through hole 13.Size such as the first through hole 13 is more than the size of the first groove 52, then the first groove 52 and the first through hole 13 stagger setting, so that the first tube wall 51 can contact with set tube wall 11 and be welded to connect, the structural member inserted from described first through hole 13 can be made again to be inserted in described first groove 52.In the present embodiment as depicted, the size of the first groove 52 is equal to or slightly greater than the size of the first through hole 13, and the first tank-type connecting component 50 is arranged around the first through hole 13 from three.First tank-type connecting component 50 contacts with set tube wall 11 and utilizes and is welded to connect both.First tank-type connecting component 50 two ends are respectively around two the first through holes 13 so that the first groove 52 two ends connect with two the first through holes 13 respectively.

Breach 54 is offered on first cell wall 51 of described first tank-type connecting component 50.In example as depicted, described breach 54 number is two, is oppositely arranged.Being provided with one or more the 3rd connecting plate 55 on described first tank-type connecting component 50, described 3rd connecting plate 55 is connected with described first cell wall 51；Described polylith the 3rd connecting plate 55 is spaced apart along the length L3 direction of described first groove 52.

As shown in Fig. 8, Figure 10, described connector 20 also includes the second tank-type connecting component 60.Described second tank-type connecting component 60 has the second cell wall 61, and described second cell wall 61 surrounds the second groove 62.Described second tank-type connecting component 60 is arranged in described sleeve pipe tube chamber 12, and described second tank-type connecting component 60 two ends are welded to connect with described set tube wall 11.At least one described first through hole 13 structural member of making from described first through hole 13 insert relative with the second groove 62 position of described second tank-type connecting component 60 is inserted in described second groove 62.The size of the first through hole 13 both can equivalently-sized with the second groove 62, it is also possible to mutual difference, the size of the such as first through hole 13 is more than the size of the second groove 62, it is also possible to the size of the second groove 62 is more than the size of the first through hole 13.Size such as the first through hole 13 is more than the size of the second groove 62, then the second groove 62 and the first through hole 13 stagger setting, so that the second tube wall 61 can contact with set tube wall 11 and be welded to connect, the structural member inserted from described first through hole 13 can be made again to be inserted in described second groove 62.In the present embodiment as depicted, the size of the second groove 62 is equal to or slightly greater than the size of the first through hole 13, and the second tank-type connecting component 60 is arranged around the first through hole 13 from three.Second tank-type connecting component 60 contacts with set tube wall 11 and utilizes and is welded to connect both.Second tank-type connecting component 60 two ends are centered around around two the first through holes 13 respectively so that the second groove 62 two ends connect with two the first through holes 13 respectively.

Being provided with one or more the 4th connecting plate 64 on described second tank-type connecting component 60, described 4th connecting plate 64 is connected with described second cell wall 61.Described polylith the 4th connecting plate 64 is along the interval point, length L4 direction of described second groove 62

In example as depicted, described sleeve pipe 10 is rectangular tube, and described first through hole 13 each two is one group, aligns two-by-two and equivalently-sized.Described first tank-type connecting component 50 two ends are connected with set tube wall 11 respectively；Described second tank-type connecting component 60 number is two, and each second tank-type connecting component 60 one end is connected with set tube wall 11, and the other end and the first cell wall 51 connect.Each described second groove 62 one end is relative with the first through hole 13 position, and the other end is relative with described breach 54 position.First through hole 13 described in one of which is relative with described first groove 51 position from described first tank-type connecting component 50 two ends respectively and communicates；Another described first through hole 13 of group is relative with described second groove 62 position from described second tank-type connecting component 60 two ends respectively and communicates.

Embodiment 3

Figure 11 shows the sleeve pipe tube chamber internal structure in the present embodiment.From the difference of embodiment 1, the present embodiment is that bracket structure is different.As shown in figure 11, described steel construction bracket includes sleeve pipe 10 and connector 20.Sleeve pipe 10 structure is as shown in Figure 1.Described sleeve pipe 10 has set tube wall 11, and described set tube wall 11 surrounds sleeve pipe tube chamber 12.The first through hole 13 of described set tube wall 11 it is provided through on described set tube wall 11.The shape of set tube wall 11 and the shape of sleeve pipe tube chamber 12 can be tetragon or circle, also can be chosen as other shape according to actual needs.Described tetragon both can be rectangle, it is also possible to be square or other available shapes.In example as depicted, set tube wall 11 is rectangle, and sleeve pipe tube chamber 12 is also rectangle.First through hole 13 can select its position and quantity according to actual needs.In the present embodiment, four faces of the set tube wall 11 of tetragon offer four the first through holes 13 respectively.Each two is one group, and aligned in position two-by-two is equivalently-sized.Described connector 20 includes that one or more base plate 70, described base plate 70 insert the structural member in described tube chamber 12 for holding from described through hole 131.Along sleeve pipe 10 axially, described base plate 70 is positioned at below described through hole 13.Described base plate 70 both can be and described tube chamber 12 shape of cross section, equivalently-sized, and edge contacts with set tube wall 11 and welds on four sides, it is also possible to be shape and/or size different, only edge, two sides or three edges contact with overlapping tube wall 11 and weld.

Structure in various embodiments above can also use other combination, such as uses the second through hole 35 in embodiment 1 to replace the breach 54 in embodiment 2.

Embodiment 4

Figure 12 shows sleeve pipe tube chamber internal structure.As it is shown in figure 9, the present embodiment is on the basis of embodiment 3, increasing by two pieces of sidewall panelings 71, two pieces of sidewall panelings 71 are welded on base plate 70, and interval is arranged.Two pieces of sidewall paneling 71 two ends are also welded on set tube wall 11.70, two pieces of sidewall panelings 71 of base plate are arranged around the first through hole 13.

It is the use view of steel structure support structure in this utility model as shown in figure 13.As shown in figure 13, the steel construction bracket 100 in this utility model is arranged on column 200.Beam 300 is inserted through steel construction bracket 100 from the first through hole 13.Column 200 and steel construction bracket 100 support beam 300.Use the steel construction bracket 100 in this utility model so that beam 300 right-hand member is extensible protrudes from the length that column 200 is certain, and the right-hand member of beam 300 is not provided with column 200 and supports.Therefore, using the steel construction bracket 100 in this utility model, the structure that can make steel house is more various, setting of can the most freely arranging in pairs or groups.

Steel structure support structure in this utility model, its bracket structure uses cloudy bracket structure, and cloudy bracket can keep consistent with column in appearance, and outward appearance is neatly unified, the most in a jumble.Bracket structure in this utility model uses and offers the first through hole on sleeve pipe, and connector is arranged in the tube chamber of sleeve pipe, both can support the structural member from the first through hole insertion, such as beam, it is also possible to supply the bearing capacity loss caused because the first through hole offered by sleeve pipe.Base plate is set so that this utility model simple in construction, it is easy to produce.Cavity bracket, when bearing capacity is problematic, arranges sidewall paneling on base plate so that this utility model bearing capacity strengthens.Connector is set to tubulose, tubular connection is welded on set tube wall around the first through hole, and set tube wall is connected as one by connector, further enhances the bearing capacity of sleeve pipe, make up the bearing capacity loss caused because the first through hole offered by sleeve pipe so that this utility model is more firm.Bracket structure in this utility model can be produced as independent parts respectively with column, beam and be welded to connect so that this utility model can be processed at factory floor, assemble the most at the construction field (site), can be that the production of scale provides standard component, and efficiency is high.First groove is set on the first tube wall, facilitates welder will stretch into the first intraluminal structural member in stretching into the first tube chamber and the first tube wall is welded to connect.Arrange the first connecting plate to be connected by the first tube wall of the first groove both sides, can avoid offering the bearing capacity reduction problem that groove brings, make the first connecting tube more solid and reliable.After welding completes, it is also possible to by the first groove penetration concrete, make steel construction more firm.Second groove is set on the second tube wall, facilitates welder will stretch into the second intraluminal structural member in stretching into the second tube chamber and the second tube wall is welded to connect.Arrange the second connecting plate to be connected by the second tube wall of the second groove both sides, can avoid offering the bearing capacity reduction problem that groove brings, make the first connecting tube more solid and reliable.After welding completes, it is also possible to by the second groove penetration concrete, make steel construction more firm.Use the steel construction bracket in this utility model so that column and beam can be made standard component according to standard and construct the most easily.Even if the length of beam is also not required to cutting beyond the distance between two root posts, beam can pass steel construction bracket, still can use.Use the steel construction bracket in this utility model, so that steel construction room has more changes structure, a unsettled platform is such as set, as long as beam is through the steel construction bracket in this utility model, prominent certain length.

Existing steel building, it is necessary first to design then factory process of publishing picture, requires by figure manufacture different component according to design, for in-site installation.Use the steel construction bracket in this utility model, can first be made as standard element, carry out different building and Demand Design.Steel construction bracket in this utility model can meet any design requirement of current steel reinforced concrete system, and can reduce the cost of labor of construction and installation.Structural principle of the present utility model, the problem being used in the intensity of fixing, the node of continuous, the structure of the solved beam of steel structure in steel structure, utilize the condition of back concrete casting groove to weld cleverly, completely solve a steel structure difficult problem.

Relative to sun bracket structure of the prior art, the bracket structure in this utility model can save steel using amount more than 30%.And the bracket structure in this utility model can be processed as standard component at factory floor, then assembling with column or beam at the construction field (site), on-site construction time is short, at least can save on-site construction time more than 60%.

Embodiment in this utility model is only used for illustrating this utility model, is not intended that the restriction to right, those skilled in that art it is contemplated that other replacements being substantially equal to, all in this utility model protection domain.

Claims (32)

1. steel structure support structure, it is characterised in that include column and bracket structure；Described column has column tube chamber；Described bracket structure includes sleeve pipe；Described sleeve pipe has set tube wall, and described set tube wall surrounds sleeve pipe tube chamber；The first through hole of described set tube wall it is provided through on described set tube wall；Described first through hole connects with described sleeve pipe tube chamber, and described set tube wall is connected with described column.

Steel structure support structure the most according to claim 1, it is characterised in that also including that connector, described connector are arranged in described sleeve pipe tube chamber, described connector is connected with described set tube wall.

Steel structure support structure the most according to claim 2, it is characterised in that described connector includes that one or more base plate, described base plate one end or multiterminal are connected with described set tube wall；Described polylith base plate interval is arranged.

Steel structure support structure the most according to claim 3, it is characterised in that described connector also includes one or more sidewall paneling, described sidewall paneling is connected with described base plate and/or is connected with described set tube wall, and described polylith sidewall paneling interval is arranged.

Steel structure support structure the most according to claim 4, it is characterised in that described connector also includes that top board, described top board and described base plate interval are arranged；Described top board is connected with described sidewall paneling, and described top board is connected with described set tube wall.

Steel structure support structure the most according to claim 5, it is characterised in that described top board is provided with through slot, or described top board number is more than two pieces and interval setting.

Steel structure support structure the most according to claim 1, it is characterised in that described connector number is two or more, arranged in a crossed manner or along described sleeve pipe short transverse interval is arranged.

Steel structure support structure the most according to claim 1, it is characterised in that described connector is welded to connect with described set tube wall.

Steel structure support structure the most according to claim 1, it is characterised in that described sleeve pipe is tetragon pipe, described first through hole is arranged on the set tube wall at two sides, three or four sides.

Steel structure support structure the most according to claim 2, it is characterised in that described connector includes that the first connecting tube, described first connecting tube have the first tube wall, and described first tube wall surrounds the first tube chamber；Described first connecting tube is arranged in described sleeve pipe tube chamber, and described first connecting tube two ends are connected with described set tube wall；At least one described first through hole structural member of making from described first through hole insert relative with the first tube chamber position of described first connecting tube is inserted in described first tube chamber.

11. steel structure support structures according to claim 10, it is characterized in that, it is provided with the first groove on first tube wall of described first connecting tube, described first groove runs through the first tube wall of described first connecting tube, and described first groove extends selected length along the length direction of described first connecting tube.

12. steel structure support structures according to claim 11, it is characterised in that be provided with one or more first connecting plate in described first connecting tube, described first connecting plate is connected with the first tube wall of described first groove both sides；Described polylith the first connecting plate is spaced apart along the length direction of described first connecting tube.

13. steel structure support structures according to claim 10, it is characterised in that one end of the first tube wall of described first connecting tube is connected around the first through hole one of them described with described set tube wall.

14. steel structure support structures according to claim 10, it is characterised in that described connector also includes that the second connecting tube, described second connecting tube have the second tube wall, and described second tube wall surrounds the second tube chamber；Described second connecting tube is arranged in described sleeve pipe tube chamber, described second connecting tube two ends are connected with described set tube wall, and at least one described first through hole is relative with described second tube chamber position so that being inserted in described second tube chamber from the structural member of described first through hole insertion.

15. steel structure support structures according to claim 14, it is characterized in that, being provided with the second groove on second tube wall of described second connecting tube, described second groove runs through the tube wall of described second connecting tube, and described second groove extends selected length along the length direction of described second connecting tube.

16. steel structure support structures according to claim 15, it is characterised in that be provided with one or more second connecting plate in described second connecting tube, described second connecting plate is connected with the second tube wall of described second groove both sides；Described polylith the second connecting plate is spaced apart along the length direction of described second connecting tube.

17. steel structure support structures according to claim 14, it is characterised in that one end of the second tube wall of described second connecting tube is connected around the first through hole one of them described and with described set tube wall.

18. steel structure support structures according to claim 14, it is characterised in that described first connecting tube runs through described second connecting tube, described first connecting tube length direction is vertical with described second connecting tube length direction；Or described second connecting tube runs through described first connecting tube, described first connecting tube length direction is vertical with described second connecting tube length direction.

19. steel structure support structures according to claim 14, it is characterised in that offer the second through hole on the first tube wall of described first connecting tube；Described first connecting tube two ends are connected with set tube wall respectively；Described second connecting tube number is one or more, and each second connecting tube one end is connected with set tube wall, and the other end and the first tube wall connect；Described second tube chamber one end is relative with the first lead to the hole site and connects, and the other end and the second lead to the hole site relatively and connect.

20. steel structure support structures according to claim 14, it is characterized in that, described sleeve pipe is tetragon pipe, and described first through hole each two is one group, and the first through hole described in least one set is relative with described first tube chamber position from described first connecting tube two ends respectively and communicates；First through hole described in least one set is relative with described second tube chamber position from described second connecting tube two ends respectively and communicates.

21. steel structure support structures according to claim 14, it is characterised in that described first connecting tube and/or described second connecting tube are welded to connect with described set tube wall.

22. steel structure support structures according to claim 2, it is characterised in that described connector includes that the first tank-type connecting component, described first tank-type connecting component have the first cell wall, and described first cell wall surrounds the first groove；Described first tank-type connecting component is arranged in described sleeve pipe tube chamber, and described first tank-type connecting component two ends are connected with described set tube wall；At least one described first through hole structural member of making from described first through hole insert relative with the first groove location of described first tank-type connecting component is inserted in described first groove.

23. steel structure support structures according to claim 22, it is characterised in that be provided with one or more the 3rd connecting plate on described first tank-type connecting component, described 3rd connecting plate is connected with described first cell wall；Described polylith the 3rd connecting plate is spaced apart along the length direction of described first groove.

24. steel structure support structures according to claim 22, it is characterised in that the first cell wall of described first tank-type connecting component is connected around described first through hole with described set tube wall.

25. steel structure support structures according to claim 22, it is characterised in that described connector includes that the second tank-type connecting component, described second tank-type connecting component have the second cell wall, and described second cell wall surrounds the second groove；Described second tank-type connecting component is arranged in described sleeve pipe tube chamber, and described second tank-type connecting component two ends are connected with described set tube wall；At least one described first through hole structural member of making from described first through hole insert relative with the second groove location of described second tank-type connecting component is inserted in described second groove.

26. steel structure support structures according to claim 25, it is characterised in that be provided with one or more the 4th connecting plate on described second tank-type connecting component, described 4th connecting plate is connected with described second cell wall；Described polylith the 4th connecting plate is spaced apart along the length direction of described second groove.

27. steel structure support structures according to claim 25, it is characterised in that the second cell wall of described second tank-type connecting component is connected around described first through hole and with described set tube wall.

28. steel structure support structures according to claim 25, it is characterised in that described first tank-type connecting component runs through described second tank-type connecting component, described first tank-type connecting component length direction is vertical with described second tank-type connecting component length direction；Or described second tank-type connecting component runs through described first tank-type connecting component, described first tank-type connecting component length direction is vertical with described second tank-type connecting component length direction.

29. steel structure support structures according to claim 28, it is characterised in that offer breach on the first cell wall of described first tank-type connecting component, described first tank-type connecting component two ends are connected with set tube wall respectively；Described second tank-type connecting component number is one or more, and each second tank-type connecting component one end is connected with set tube wall, and the other end and the first cell wall connect；Described second groove one end is relative with the first lead to the hole site, and the other end is relative with described gap position.

30. steel structure support structures according to claim 25, it is characterized in that, described sleeve pipe is tetragon pipe, and described first through hole each two is one group, and the first through hole described in least one set is relative with described first groove location from described first tank-type connecting component two ends respectively and communicates；First through hole described in least one set is relative with described second groove location from described second tank-type connecting component two ends respectively and communicates.

31. steel structure support structures according to claim 25, it is characterised in that described first tank-type connecting component and/or described second tank-type connecting component are welded to connect with described set tube wall.

32. steel structure support structures according to claim 1, it is characterised in that described set tube wall includes casing main body and insertion pipe；Described insertion pipe is inserted in described column tube intracavity, and described casing main body outer wall aligns with described stud end outer wall.