CN103382768A - Multifunctional constructional engineering construction support assembly - Google Patents

Abstract

The invention relates to a multifunctional constructional engineering construction support assembly which comprises a vertical pipe, a horizontal pipe, a straight-line-shaped double-head connection screw and multi-direction connectors and is characterized in that the diameters of the vertical pipe and the horizontal pipe are identical, and nuts are arranged at two ends of the inner walls of the vertical pipe and the horizontal pipe. A first hexagon nut is fixedly connected with the middle of the straight-line-shaped double-head connection screw, and reverse threads are arranged on the left portion and the right portion. The multi-direction connectors at least comprise connectors in four directions, the axes of the connectors in all the directions intersect at one point, and a nut is arranged on the inner wall of the connector in each direction. One end of the straight-line-shaped double-head connection screw is connected with the multi-direction connectors, and the other end of the straight-line-shaped double-head connection screw is connected with one end of the vertical pipe or the horizontal pipe. The construction support assembly is reasonable in structure, regular in geometrical shape, fast to install, reliable in connection, high in bearing capability, wide in application range and capable of completely meeting the construction requirements of various buildings such as houses, bridges and culverts, tunnels, chimneys and water towers.

Description

Multifunction architecture engineering construction bracket assembly

Technical field

The present invention relates to the building engineering construction facility, be specifically related to a kind of multifunction architecture engineering construction bracket assembly.

Background technology

In Building Construction, the shared ratio very high (more than 50%) of human casualty accident of collapsing and causing because of the pin support for shuttering.These support for shuttering major accident of collapsing makes us startling, causes heavy losses not only for the country and people's lives and properties, also causes huge prestige and economic loss to enterprise.The reason that causes these accidents is many-sided, scaffolding is off quality, construction and installation are lack of standardization etc. all may be accidents caused, but some units in charge of construction do not design or fail before scaffold building and correctly design, and only formulating the scaffold construction scheme with oneself experience in the past is also one of major reason.Cause the very large error of result of calculation due to the improper meeting of working design, cause the mistake of scaffolding structure safety is estimated, finally bring construction safety hidden danger.The height of modern architecture, span are in continuous increase, and structural form and form of structure are also more and more diversified, and this brings increasing challenge to construction technology, and the security reliability of traditional design of coupler scaffold has also been proposed new problem and challenge.These problems can not be avoided, otherwise tragedy is repeat itself also.

Falsework and outer protected decoration support are facilities commonly used in building operations, no matter are to build building, workshop, or build road, bridge, all be unable to do without falsework and outer protected decoration support.At present, general falsework and outer protected decoration support are that fastener is formed by connecting steel pipe in length and breadth, can reclaim repeatedly and use.But installation site lack of standardization due to the length of steel pipe, fastener is unfixing, so installation rate is slow, the adjustment length that expends time in also needs steel pipe cutting sometimes, can satisfy the requirement of bearing height, and fastener easily loses when the installation and removal support, causes unnecessary loss.Bracing frame vertical rod and transverse horizontal bar are to be connected with fastener is eccentric, the antiskid low bearing capacity, and be subjected to the restriction of screw-down torque.The vertical rod of bowl fastening type bracing frame and horizon bar can not be used mutually, and be relatively poor to the house practicality.Therefore, the falsework and the outer protected decoration support that need other structure of exploitation.

Summary of the invention

The purpose of this invention is to provide a kind of multifunction architecture engineering construction bracket assembly, its structure is reasonable, the geometry standard, quick for installation, connect reliably, supporting capacity is strong, applied widely, can fully satisfy the construction requirement of the multiple buildings such as house, bridges and culverts, tunnel, chimney, water tower.

Multifunction architecture engineering construction bracket assembly of the present invention comprises uprise, horizontal tube, in-line double end connecting screw rod and multidirectional connector, it is characterized in that:

The diameter of described uprise and horizontal tube is identical, and the two ends of inwall are equipped with nut or screw thread;

The middle part of described in-line double end connecting screw rod is fixedly connected with the first hex nut, left part and right part and is equipped with reverse thread;

Described multidirectional connector has the connector of four direction at least, and the axial line of all directions connector intersects at a point, and the inwall of all directions connector is equipped with nut or screw thread;

One end of described in-line double end connecting screw rod is connected with described multidirectional connector, and the other end of described in-line double end connecting screw rod is connected with an end of uprise or horizontal tube.

Described multifunction architecture engineering construction bracket assembly, also comprise down tube, the diameter of described down tube is identical with the diameter of uprise or horizontal tube, and the two ends of described down tube inwall are equipped with nut or screw thread, and is connected with described multidirectional connector by in-line double end connecting screw rod respectively.

Described multifunction architecture engineering construction bracket assembly also comprises adjusting screw(rod) and adjusting screw jacking;

The equal diameters of the diameter of described adjusting screw(rod) and described in-line double end connecting screw rod, the middle part of described adjusting screw(rod) also is fixedly connected with the second hex nut, left part and right part and is equipped with reverse thread, and the length of the left part of described adjusting screw(rod) and right part is all greater than the left part of in-line double end connecting screw rod and the length of right part;

Described adjusting screw jacking is made of concave components, the screw rod that is vertically connected on center below concave components and the adjusting nut that coordinates with screw rod, and the port straight up of the bottom of described screw rod and uprise or multidirectional connector is connected.

Described multifunction architecture engineering construction bracket assembly, its described multidirectional connector comprise that four-way connector, five is to connector, the or six to connector, the two or six to connector, seven to connector and nine to connector;

The axial line of the four direction connector of described four-way connector intersects at a point, wherein first upwards connects head and first and overlaps to the axial line of lower contact, first to front connector with first to the axial line of right connector mutually vertical and with first upwards connect vertical to the axial line of lower contact with first.

Further, described five axial lines to five direction connectors of connector intersect at a point, wherein second upwards connects head and the second axial line coincidence to lower contact, second left joint overlap and with second upwards to connect head vertical to the axial line of lower contact with second to the axial line of right connector with second, second to the axial line of front connector both with second upwards to connect head vertical to the axial line of lower contact with second, joint is vertical to the axial line of right connector with second left with second again.

Further, the described the 1 axial line to the six direction connector of connector intersects at a point, wherein the 3rd axial line that upwards connects head and three-dimensional lower contact overlaps, the three-dimensional front connector with the 3rd backward the axial line of joint overlap and with the 3rd upwards to connect head vertical with the axial line of three-dimensional lower contact, both with the 3rd upwards to connect head vertical with the axial line of three-dimensional lower contact, the axial line of joint was vertical backward with the 3rd with the three-dimensional front connector again for the axial line of three-dimensional right connector; The axial line of the first oblique joint, the 3rd upwards connects the axial line of head and the axial line of three-dimensional front connector in a plane, the angle that the axial line of the first oblique joint and the 3rd upwards connects the axial line of head is 45 °, and the angle of the axial line of the first oblique joint and the axial line of three-dimensional front connector is also 45 °.

Further, the described the 26 axial line to the six direction connector of connector intersects at a point, the axial line that wherein connects head and four-way lower contact on four-way overlaps, the axial line of the left joint of four-way and four-way right connector overlap and with four-way on to connect head vertical with the axial line of four-way lower contact, after four-way front connector and four-way, the axial line of joint overlaps frame both with on four-way to connect head vertical with the axial line of four-way lower contact, vertical with the axial line of four-way right connector with the left joint of four-way again.

Further, described seven axial lines to seven direction connectors of connector intersect at a point, wherein the 5th upwards connects head and the 5th axial line coincidence to lower contact, the 5th left joint overlap and with the 5th upwards to connect head vertical to the axial line of lower contact with the 5th to the axial line of right connector with the 5th, the 5th to the axial line of front connector both with the 5th upwards to connect head vertical to the axial line of lower contact with the 5th, joint is vertical to the axial line of right connector with the 5th left with the 5th again; The axial line and the 5th that the axial line of the second oblique joint, the 5th upwards connects head left the axial line of joint in a plane, the angle that the axial line of the second oblique joint and the 5th upwards connects the axial line of head is 45 °, and the axial line of the second oblique joint and the 5th angle of the axial line of joint left is also 45 °; The axial line and the 5th that the axial line of the 3rd oblique joint, the 5th upwards connects head to the axial line of right connector in a plane, the angle of axial line that the axial line of the 3rd oblique joint and the 5th upwards connects head is 45 °, and the axial line of the 3rd oblique joint and the 5th angle to the axial line of right connector are also 45.

Further, described nine axial lines to nine direction connectors of connector intersect at a point, and wherein the 6th upwards connects head and the 6th axial line coincidence to lower contact; The 6th left joint overlap and with the 6th upwards to connect head vertical to the axial line of lower contact with the 6th to the axial line of right connector with the 6th; The 6th to the axial line of front connector both with the 6th upwards to connect head vertical to the axial line of lower contact with the 6th, joint is vertical to the axial line of right connector with the 6th left with the 6th again; The axial line and the 6th that the axial line of the 4th oblique joint, the 6th upwards connects head left the axial line of joint in a plane, the angle that the axial line of the 4th oblique joint and the 6th upwards connects the axial line of head is 45 °, and the axial line of the 4th oblique joint and the 6th angle of the axial line of joint left is also 45 °; The axial line and the 6th that the axial line of the 5th oblique joint, the 6th upwards connects head to the axial line of right connector in a plane, the angle of axial line that the axial line of the 5th oblique joint and the 6th upwards connects head is 45 °, and the axial line of the 5th oblique joint and the 6th angle to the axial line of right connector are also 45; The axial line of the 6th oblique joint, the 6th to the axial line and the 6th of lower contact left the axial line of joint in a plane, the axial line of the 6th oblique joint and the 6th angle to the axial line of lower contact are 45 °, and the axial line of the 6th oblique joint and the 6th angle of the axial line of joint left is also 45 °; The axial line and the 6th that the axial line of the 7th oblique joint, the 6th connects head downwards to the axial line of right connector in a plane, the angle of axial line that the axial line of the 7th oblique joint and the 6th connects head downwards is 45 °, and the axial line of the 7th oblique joint and the 6th angle to the axial line of right connector are also 45.

The length of described uprise, horizontal tube and down tube is 200mm, 400mm, 600mm, 800mm, 1000mm, 1200mm, 1400mm or 1600mm; Uprise, horizontal tube and down tube are used interchangeably, and are welded with nut in the two ends of uprise, horizontal tube and down tube, and nut is along the silk tooth.The length of the first segment uprise of falsework and protected decoration support bottom is outside 200mm, and all the other select different uprises and horizontal tube to connect according to the constructure scheme of building structure different types and establishment.If any building structure pattern abnormity uprise and horizontal tube can not meet the demands, deviation can adopt adjusting screw to connect to meet the demands less than or equal to 150mm the time.The top of falsework can not meet the demands, and can adopt the adjusting screw jacking to meet the demands.

The present invention constructs rationally, and manufacture craft is simple, has spelling and tears open rapid, laborsaving, Stability Analysis of Structures is reliable, be equipped with perfect, highly versatile, uprise, horizontal tube and down tube can be general, bearing capacity is large, and is safe and reliable, is easy to processing, but be convenient to any spreading Reusability, save steel, be convenient to management, be easy to transportation; The scope of application is wide, can fully satisfy the construction requirement of the multiple buildings such as house, bridges and culverts, tunnel, chimney, water tower.

Description of drawings

Fig. 1 is the structural representation of the in-line double end connecting screw rod in the present invention;

Fig. 2 is the structural representation of the four-way connector in the present invention;

Fig. 3 is the top view of Fig. 2;

Fig. 4 schematic diagram that to be the four-way connector be connected with horizontal tube with uprise;

Fig. 5 is that five in the present invention is to the structural representation of connector;

Fig. 6 is the top view of Fig. 5;

Fig. 7 is five schematic diagrames that are connected with horizontal tube to connector and uprise;

Fig. 8 is the one or six structural representation to connector in the present invention;

Fig. 9 is the top view of Fig. 8;

Figure 10 is the one or six schematic diagram that is connected with uprise, horizontal tube and down tube to connector;

Figure 11 is the two or six structural representation to connector in the present invention;

Figure 12 is the top view of Figure 11;

Figure 13 is the two or six schematic diagram that is connected with horizontal tube to connector and uprise;

Figure 14 is that seven in the present invention is to the structural representation of connector;

Figure 15 is the top view of Figure 14;

Figure 16 is seven schematic diagrames that are connected with uprise, horizontal tube and down tube to connector;

Figure 17 is that nine in the present invention is to the structural representation of connector;

Figure 18 is the top view of Figure 17;

Figure 19 is nine schematic diagrames that are connected with uprise, horizontal tube and down tube to connector;

Figure 20 is the nut schematic diagram in the present invention;

Figure 21 is the nut-welding schematic diagram in uprise, horizontal tube or down tube in the present invention;

Figure 22 is the adjusting screw(rod) schematic diagram in the present invention;

Figure 23 is the schematic diagram that adjusting screw(rod) and uprise, horizontal tube or down tube are connected;

Figure 24 is the schematic diagram that adjusting screw jacking in the present invention and a multidirectional connector (five to) are connected;

Figure 25 is the partial sectional view of Figure 24;

Figure 26 is the falsework schematic diagram that is assembled into part assembly of the present invention;

Figure 27 is one of protected decoration support schematic diagram that is assembled into part assembly of the present invention;

Figure 28 is two of the protected decoration support schematic diagram that is assembled into part assembly of the present invention.

The specific embodiment

The present invention is further illustrated below in conjunction with drawings and Examples.

Referring to Fig. 1 to Figure 25, described multifunction architecture engineering construction bracket assembly comprises uprise 1, horizontal tube 2, in-line double end connecting screw rod 3 and multidirectional connector;

Described uprise 1 is identical with the diameter of horizontal tube 2, and the two ends of inwall are equipped with nut 8;

The middle part of described in-line double end connecting screw rod 3 is fixedly connected with the first hex nut 31, left part and right part and is equipped with reverse thread;

Described multidirectional connector has the connector of four direction at least, and the axial line of all directions connector intersects at a point, and the inwall of all directions connector is equipped with nut 8;

One end of described in-line double end connecting screw rod 3 is connected with described multidirectional connector, and the other end of described in-line double end connecting screw rod 3 is connected with an end of uprise 1 or horizontal tube 2.

Described building engineering construction bracket component, also comprise down tube 10, the diameter of described down tube 10 is identical with the diameter of uprise 1 or horizontal tube 2, and the two ends of described down tube 10 inwalls are equipped with nut 8, and is connected with described multidirectional connector by in-line double end connecting screw rod 3 respectively.

Described a kind of multifunction architecture engineering construction bracket assembly also comprises adjusting screw(rod) 11 and adjusting screw jacking;

The equal diameters of the diameter of described adjusting screw(rod) 11 and described in-line double end connecting screw rod 3, the middle part of described adjusting screw(rod) also is fixedly connected with the second hex nut 111, left part and right part and is equipped with reverse thread, and the length of the left part of described adjusting screw(rod) and right part is all greater than the left part of in-line double end connecting screw rod and the length of right part;

Described adjusting screw jacking is made of concave components 12, the screw rod 13 that is vertically connected on center below concave components and the adjusting nut 14 that coordinates with screw rod, and the port straight up of the bottom of described screw rod and uprise 1 or multidirectional connector is connected.

Described a kind of multifunction architecture engineering construction bracket assembly, its described multidirectional connector comprise that four-way connector 4, five is to connector 5, the or six to connector 61, the two or six to connector 62, seven to connector 7 and nine to connector 9;

Referring to Fig. 2, Fig. 3 and Fig. 4, the axial line of the four direction connector of described four-way connector 4 intersects at a point, wherein first upwards connects 41 and first axial line to lower contact 42 and overlaps, first to front connector 43 with to the axial line of right connector 44 mutually vertical and with first upwards connect 41 vertical to the axial line of lower contact 42 with first.

Referring to Fig. 5, Fig. 6 and Fig. 7, described five axial lines to five direction connectors of connector 5 intersect at a point, wherein second upwards connects 51 and second axial line coincidence to lower contact 52, second left joint 53 with second to the axial line of right connector 54 overlap and with second upwards connect 51 vertical to the axial line of lower contact 52 with second, second both upwards connected 51 vertically to the axial line of lower contact 52 with second with second to the axial line of front connector 55, and joint 53 is vertical to the axial line of right connector 54 with second left with second again;

Referring to Fig. 8, Fig. 9 and Figure 10, the described the 1 axial line to the six direction connector of connector 61 intersects at a point, wherein the 3rd upwards connect 611 and the axial line of three-dimensional lower contact 612 overlap, three-dimensional front connector 613 with the 3rd backward the axial line of joint 614 overlap and with the 3rd upwards connect 611 vertical with the axial line of three-dimensional lower contact 612, the axial line of three-dimensional right connector 615 both upwards connected 611 vertically with the axial line of three-dimensional lower contact 612 with the 3rd, and the axial line of joint 614 is vertical backward with the 3rd with three-dimensional front connector 613 again; The axial line of the first oblique joint 616, the 3rd upwards connects the axial line of 611 axial line and three-dimensional front connector 613 in a plane, the angle that the axial line of the first oblique joint 616 and the 3rd upwards connects an axial line of 611 is 45 °, and the angle of the axial line of the first oblique joint 616 and the axial line of three-dimensional front connector 613 is also 45 °.

referring to Figure 11, Figure 12 and Figure 13, the described the 26 axial line to the six direction connector of connector 62 intersects at a point, wherein connect on four-way 621 and the axial line of four-way lower contact 622 overlap, the axial line of the left joint 623 of four-way and four-way right connector 624 overlap and with four-way on connect 621 vertical with the axial line of four-way lower contact 622, after four-way front connector 625 and four-way the axial line of joint 626 overlap frame both with four-way on connect 621 vertical with the axial line of four-way lower contact 622, vertical with the axial line of four-way right connector 624 with the left joint 623 of four-way again.

Referring to Figure 14, Figure 15 and Figure 16, described seven axial lines to seven direction connectors of connector 7 intersect at a point, wherein the 5th upwards connects the 71 and the 5th axial line coincidence to lower contact 72, the 5th left joint 73 with the 5th to the axial line of right connector 74 overlap and with the 5th upwards connect 71 vertical to the axial line of lower contact 72 with the 5th, the 5th both upwards connected 71 vertically to the axial line of lower contact 72 with the 5th with the 5th to the axial line of front connector 75, and joint 73 is vertical to the axial line of right connector 74 with the 5th left with the 5th again; The axial line of the second oblique joint 76, the 5th upwards connect an axial line and the 5th of 71 left the axial line of joint 73 in a plane, the angle that the axial line of the second oblique joint 76 and the 5th upwards connects an axial line of 71 is 45 °, and the axial line of the second oblique joint 76 and the 5th angle of the axial line of joint 73 left is also 45 °; The axial line of the 3rd oblique joint 77, the 5th upwards connect an axial line of 71 and the 5th to the axial line of right connector 74 in a plane, the angle that the axial line of the 3rd oblique joint 77 and the 5th upwards connects an axial line of 71 is 45 °, and the axial line of the 3rd oblique joint 77 and the 5th angle to the axial line of right connector 74 are also 45.

Referring to Figure 17, Figure 18 and Figure 19, described nine axial lines to nine direction connectors of connector 9 intersect at a point, and wherein the 6th upwards connects the 91 and the 6th axial line to lower contact 92 and overlap; The 6th left joint 93 with the 6th to the axial line of right connector 94 overlap and with the 6th upwards connect 71 vertical to the axial line of lower contact 92 with the 6th; The 6th both upwards connected 91 vertically to the axial line of lower contact 92 with the 6th with the 6th to the axial line of front connector 95, and joint 93 is vertical to the axial line of right connector 94 with the 6th left with the 6th again; The axial line of the 4th oblique joint 96, the 6th upwards connect an axial line and the 6th of 91 left the axial line of joint 93 in a plane, the angle that the axial line of the 4th oblique joint 96 and the 6th upwards connects an axial line of 91 is 45 °, and the axial line of the 4th oblique joint 96 and the 6th angle of the axial line of joint 93 left is also 45 °; The axial line of the 5th oblique joint 97, the 6th upwards connect an axial line of 71 and the 6th to the axial line of right connector 94 in a plane, the angle that the axial line of the 5th oblique joint 97 and the 6th upwards connects an axial line of 71 is 45 °, and the axial line of the 5th oblique joint 97 and the 6th angle to the axial line of right connector 94 are also 45; The axial line of the 6th oblique joint 98, the 6th to the axial line and the 6th of lower contact 92 left the axial line of joint 93 in a plane, the axial line of the 6th oblique joint 98 and the 6th angle to the axial line of lower contact 92 are 45 °, and the axial line of the 6th oblique joint 98 and the 6th angle of the axial line of joint 93 left is also 45 °; The axial line of the 7th oblique joint 99, the 6th connect downwards 92 axial line and the 6th to the axial line of right connector 94 in a plane, the angle that the axial line of the 7th oblique joint 99 and the 6th connects an axial line of 92 downwards is 45 °, and the axial line of the 7th oblique joint 99 and the 6th angle to the axial line of right connector 94 are also 45.

Described four-way connector, five to connector, the one or six to connector, the two or six to connector, seven to connector and nine be welded with in the connector nut, nut for along a silk tooth, cross and lead to fitting and adopt the moulding of ordinary steel pipe support material processing and fabricating.When adjusting screw and in-line double end connecting screw rod are anti-silk tooth use, select different connectors according to the different position of support body.

Embodiment one: referring to Figure 26, and the falsework that is assembled into to connector 62 with the uprise 1 in the present invention, horizontal tube 2, adjusting screw jacking, four-way connector 4, the two or six.

Embodiment two: referring to Figure 27, with uprise 1 of the present invention, horizontal tube 2, four-way connector 4, the two or six to one of connector 62, protected decoration support of being assembled into

Embodiment three: referring to Figure 28, and two of the protected decoration support that is assembled into to connector 9 to connector 7 and nine to connector 61, seven to connector 5, the or six with uprise 1 of the present invention, horizontal tube 2, down tube 10, four-way connector 4, five.

The present invention has the following advantages:

1) multi-functional: as according to the Specific construction requirement, to form not single, double row's scaffold of frame size, shape and supporting capacity on the same group, bracing frame, support column, material lifting frame, climbing scaffold, the construction equipment of the several functions such as suspension scaffold.Also can be used for the structure such as erection construction canopy, material shed, beacon.Be particularly suitable for setting up curved surface scaffold and heavily loaded bracing frame.

2) high effect: the longest in pipe fitting commonly used is 1600mm, heavy 6.35kg.Whole the spelling speed of tearing open is torn fast power-saving open than the fast spelling of routine, and the workman can complete whole operations to fixing spanner with one, the inconvenience of having avoided the operation of multiplex's tool to bring.

3) highly versatile: main member all adopts common fastener type steel pipe scaffold steel pipe machine-shaping, and available fitting and the in-line screw rod of respectively leading to connects with the machine-shaping steel pipe, spreading arbitrarily, highly versatile.

4) bearing capacity is large: the uprise connection is that the in-line double end connecting screw rod connection of concentric is fastening, has reliable bending resistance, shearing resistance, antitorque mechanical property.And each meets at a bit to the axial line at two, and in a plane, therefore, stabilized structure is reliable at framework for node, and bearing capacity is large.(whole bearing capacity improves, improve more than 50% than the fastener type steel pipe scaffold of square one)

5) safe and reliable: as during joint design, to consider the effect of screw rod rotating wire tooth power, make joint have reliable self-lock ability.The load that acts on cross bar passes to uprise by screw rod, and very strong shear resistance is arranged.The cross bar joint also is unlikely and causes the accident.Outrigger is equipped with safety net support, horizontal tube, down tube, scaffold floor, foot guard plate, ladder, the steel fine strain of millet of encorbelmenting simultaneously. the bar accessories such as wall connecting rod, and safe and reliable.

6) be easy to processing: each member is all used the Q 235 steel pipe blanking machine-shapings of Φ 48.3 * 3.6.Down tube two end nuts of adjusting screw, adjusting screw jacking, in-line double end connecting screw rod and uprise, horizontal tube, outer protected decoration frame etc. all adopt Q 235 to make tapping and forming, and manufacturing process is simple, and cost is moderate, does not need complicated process equipment.

7) maintenance is few: this scaffold member has been eliminated the bolt connection. and member is through touching anti-knocking. and general corrosion does not affect to spell tears operation open, does not need special curing, maintenance.

8) be convenient to management: member is series standardized, and the member appearance is coated with orange redness.Elegant in appearance, member is stacked neat, is convenient on site material management, satisfies the civilized construction requirement.

9) good engineering quality: mould bases has higher strength and stiffness, has greatly improved concrete pouring quality, guarantees verticality, the planeness of wall, the vertical smooth error of metope.Outrigger has higher strength and stiffness, outrigger planeness, verticality, aesthetic property.

Claims (9)

1. multifunction architecture engineering construction bracket assembly, comprise uprise (1), horizontal tube (2), in-line double end connecting screw rod (3) and multidirectional connector, it is characterized in that:

Described uprise (1) is identical with the diameter of horizontal tube (2), and the two ends of inwall are equipped with nut (8) or screw thread;

The middle part of described in-line double end connecting screw rod (3) is fixedly connected with the first hex nut (31), left part and right part and is equipped with reverse thread;

Described multidirectional connector has the connector of four direction at least, and the axial line of all directions connector intersects at a point, and the inwall of all directions connector is equipped with nut (8) or screw thread;

One end of described in-line double end connecting screw rod (3) is connected with described multidirectional connector, and the other end of described in-line double end connecting screw rod (3) is connected with an end of uprise (1) or horizontal tube (2).

2. multifunction architecture engineering construction bracket assembly according to claim 1, it is characterized in that: also comprise down tube (10), the diameter of described down tube (10) is identical with the diameter of uprise (1) or horizontal tube (2), the two ends of described down tube (10) inwall are equipped with nut (8) or screw thread, and are connected with described multidirectional connector by in-line double end connecting screw rod (3) respectively.

3. multifunction architecture engineering construction bracket assembly according to claim 1 and 2, is characterized in that: also comprise adjusting screw(rod) (11) and adjusting screw jacking;

The equal diameters of the diameter of described adjusting screw(rod) (11) and described in-line double end connecting screw rod (3), the middle part of described adjusting screw(rod) also is fixedly connected with the second hex nut (111), left part and right part and is equipped with reverse thread, and the length of the left part of described adjusting screw(rod) and right part is all greater than the left part of in-line double end connecting screw rod and the length of right part;

Described adjusting screw jacking by concave components (12), be vertically connected on the screw rod (13) at center below concave components and the adjusting nut (14) that coordinates with screw rod consists of, the port straight up of the bottom of described screw rod and uprise (1) or multidirectional connector is connected.

4. multifunction architecture engineering construction bracket assembly according to claim 1 and 2, it is characterized in that: described multidirectional connector comprises that four-way connector (4), five is to connector (5), the or six to connector (61), the two or six to connector (62), seven to connector (7) and nine to connector (9);

The axial line of the four direction connector of described four-way connector (4) intersects at a point, wherein first upwards connects head (41) and first and overlaps to the axial line of lower contact (42), and first is mutual vertical and with first upwards to connect (41) vertical to the axial line of lower contact (42) with first to the axial line of right connector (44) to front connector (43) and first.

5. multifunction architecture engineering construction bracket assembly according to claim 4, it is characterized in that: described five axial lines to five direction connectors of connector (5) intersect at a point, wherein second upwards connects head (51) and the second axial line coincidence to lower contact (52), second left joint (53) overlap and with second upwards to connect head (51) vertical to the axial line of lower contact (52) with second to the axial line of right connector (54) with second, second to the axial line of front connector (55) both with second upwards to connect head (51) vertical to the axial line of lower contact (52) with second, joint (53) is vertical to the axial line of right connector (54) with second left with second again.

6. multifunction architecture engineering construction bracket assembly according to claim 4, it is characterized in that: the described the 1 axial line to the six direction connector of connector (61) intersects at a point, wherein the 3rd axial line that upwards connects head (611) and three-dimensional lower contact (612) overlaps, three-dimensional front connector (613) with the 3rd backward the axial line of joint (614) overlap and with the 3rd upwards to connect head (611) vertical with the axial line of three-dimensional lower contact (612), the axial line of three-dimensional right connector (615) both with the 3rd upwards connect the head (611) vertical with the axial line of three-dimensional lower contact (612), the axial line of joint (614) is vertical backward with the 3rd with three-dimensional front connector (613) again, the axial line, the 3rd of the first oblique joint (616) upwards connects the axial line of the head axial line of (611) and three-dimensional front connector (613) in a plane, the angle that the axial line and the 3rd of the first oblique joint (616) upwards connects the axial line of head (611) is 45 °, and the angle of the axial line of the first oblique joint (616) and the axial line of three-dimensional front connector (613) is also 45 °.

7. multifunction architecture engineering construction bracket assembly according to claim 4, it is characterized in that: the described the 26 axial line to the six direction connector of connector (62) intersects at a point, the axial line that wherein connects head (621) and four-way lower contact (622) on four-way overlaps, the axial line of the left joint of four-way (623) and four-way right connector (624) overlap and with four-way on to connect head (621) vertical with the axial line of four-way lower contact (622), after four-way front connector (625) and four-way, the axial line of joint (626) overlaps frame both with on four-way to connect head (621) vertical with the axial line of four-way lower contact (622), vertical with the axial line of four-way right connector (624) with the left joint of four-way (623) again.

8. multifunction architecture engineering construction bracket assembly according to claim 4, it is characterized in that: described seven axial lines to seven direction connectors of connector (7) intersect at a point, wherein the 5th upwards connects head (71) and the 5th axial line coincidence to lower contact (72), the 5th left joint (73) overlap and with the 5th upwards to connect head (71) vertical to the axial line of lower contact (72) with the 5th to the axial line of right connector (74) with the 5th, the 5th to the axial line of front connector (75) both with the 5th upwards to connect head (71) vertical to the axial line of lower contact (72) with the 5th, joint (73) is vertical to the axial line of right connector (74) with the 5th left with the 5th again, the axial line and the 5th that the axial line, the 5th of the second oblique joint (76) upwards connects head (71) left the axial line of joint (73) in a plane, the angle that the axial line and the 5th of the second oblique joint (76) upwards connects the axial line of head (71) is 45 °, and the axial line and the 5th of the second oblique joint (76) angle of the axial line of joint (73) left is also 45 °, the axial line and the 5th that the axial line, the 5th of the 3rd oblique joint (77) upwards connects head (71) to the axial line of right connector (74) in a plane, the angle of axial line that the axial line and the 5th of the 3rd oblique joint (77) upwards connects head (71) is 45 °, and the axial line of the 3rd oblique joint (77) and the 5th angle to the axial line of right connector (74) are also 45.

9. multifunction architecture engineering construction bracket assembly according to claim 4, it is characterized in that: described nine axial lines to nine direction connectors of connector (9) intersect at a point, and wherein the 6th upwards connects head (91) and the 6th axial line coincidence to lower contact (92); The 6th left joint (93) overlap and with the 6th upwards to connect head (71) vertical to the axial line of lower contact (92) with the 6th to the axial line of right connector (94) with the 6th; The 6th to the axial line of front connector (95) both with the 6th upwards to connect head (91) vertical to the axial line of lower contact (92) with the 6th, joint (93) is vertical to the axial line of right connector (94) with the 6th left with the 6th again; The axial line and the 6th that the axial line, the 6th of the 4th oblique joint (96) upwards connects head (91) left the axial line of joint (93) in a plane, the angle that the axial line and the 6th of the 4th oblique joint (96) upwards connects the axial line of head (91) is 45 °, and the axial line and the 6th of the 4th oblique joint (96) angle of the axial line of joint (93) left is also 45 °; The axial line and the 6th that the axial line, the 6th of the 5th oblique joint (97) upwards connects head (71) to the axial line of right connector (94) in a plane, the angle of axial line that the axial line and the 6th of the 5th oblique joint (97) upwards connects head (71) is 45 °, and the axial line of the 5th oblique joint (97) and the 6th angle to the axial line of right connector (94) are also 45; The axial line of the 6th oblique joint (98), the 6th to the axial line and the 6th of lower contact (92) left the axial line of joint (93) in a plane, the axial line of the 6th oblique joint (98) and the 6th angle to the axial line of lower contact (92) be 45 ° of the 6th oblique joint (98) axial line and the 6th left the angle of the axial line of joint (93) be also 45 °; The axial line and the 6th that the axial line, the 6th of the 7th oblique joint (99) connects head (92) downwards to the axial line of right connector (94) in a plane, the angle of axial line that the axial line and the 6th of the 7th oblique joint (99) connects head (92) downwards is 45 °, and the axial line of the 7th oblique joint (99) and the 6th angle to the axial line of right connector (94) are also 45.

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