CN106760555A - A kind of construction method of installation of meter of byte point and radiation beam - Google Patents

Abstract

The invention provides a kind of meter of byte point and the construction method of installation of radiation beam, including：Assembled prefabricated components；Hang and rise the prefabricated components to installation site, the second end of the described first radiation beam is connected to the external structure of the installation site；In multigroup second radiation beam group is installed on the rice byte point successively, the first end of the described second radiation beam is connected to the rice byte point, the second end is connected to the external structure.The present invention is furtherd investigate by first, second radiation beam and rice byte point installation Technology, solve it and installation complexity that span is big, component weight is brought is installed, installation accuracy such as is difficult to ensure that at the unfavorable factor, largely reduce difficulty of construction, accelerate construction speed, it is ensured that construction safety.

Description

A kind of construction method of installation of meter of byte point and radiation beam

Technical field

The present invention relates to the realm of building construction, more particularly to a kind of meter of byte point and radiation beam construction method of installation.

Background technology

Radiation girder steel and rice word node installation are generally used for the positions such as cone cylinder, cylinder, radiate girder steel and rice word node installation It is general first to set up temporary support on lower floor's floor, after the completion of setting up, by the lifting of rice byte point in place, faced after the completion of correction When fix.Next start radiation beam to install, connect rice byte point with vertebra cylinder steel column.Girder steel is completed according to the order of after the former head times After installation, moulding bed is removed, complete to install.On the one hand radiation is installed in this construction method meter position for byte point that needs to have good positioning again Girder steel, it is difficult to ensure precision.On the other hand, using this construction method long construction period, it is necessary to set up temporary support, position Good rice word node location could install radiation girder steel, influence construction speed, meanwhile, also need to remove support after construction is completed, Wasting manpower and material resources.Therefore, it is necessary to sum up a kind of new construction method for radiation girder steel and rice byte point installation method.

The content of the invention

In view of the foregoing, the present invention provide one kind can solve present in prior art radiate beam installation site it is not smart Really, installing needs moulding bed to support so as to increase the problem of construction volume.

To achieve the above object, the invention provides a kind of meter of byte point and the construction method of installation of radiation beam, including with Lower step：

One meter of byte point and the first radiation beam group are provided, the first radiation beam group includes two first radiation beams；By two The first end of the first radiation beam described in root is symmetrically connected to the assembled formation prefabricated components in both sides of the rice byte point；

Hang and rise the prefabricated components to the installation site in cone cylinder post, the second end of the described first radiation beam is connected to institute State the barrel of cone cylinder post；

Multigroup second radiation beam group is provided, the multigroup second radiation beam group is sequentially arranged on the rice byte point；It is described Second radiation beam group includes two second radiation beams, and the first end of two second radiation beams is symmetrically connected into the rice word Node, the second end of two second radiation beams is connected to the barrel of the cone cylinder post.

The beneficial effects of the present invention are, it is first assembled by using, then lift, then installation second radiates beam successively The mode of group, it is ensured that radiation girder steel and rice byte point positional precision, accelerates construction speed, has saved manpower and materials, while Reduce difficulty of construction, it is ensured that construction quality and safety.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, multigroup second will radiate Beam group is sequentially arranged in the step on the rice byte point, synchronous two second spokes by the second radiation beam group described in every group Beam is penetrated to be installed on the rice byte point.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, multigroup second will radiate Beam group is sequentially arranged in the step on the rice byte point, synchronous first end and the second end difference by the described second radiation beam It is connected to the barrel of the rice byte point and the cone cylinder post.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, the rice byte point includes One main body and the multiple radiation legs connected in the main body, for the described first radiation beam and the second radiation beam are more In the individual radiation leg is generally aligned in the same plane, the angle angle between the adjacent radiation leg is identical.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, the radiation leg is work Shaped steel.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, one meter of byte point is being provided With the first radiation beam group, the step of be assembled into prefabricated components in, the described first radiation beam is connected to by the first attachment structure On the rice byte point；First attachment structure includes the first connector, the first fixture and the second fixture；By described One fixture wears the first end and the first radiation beam for being fixed on first connector, and second fixture is worn It is fixed on the second end of first connector and the radiation leg.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, one meter of byte point is being provided With the first radiation beam group, the step of be assembled into prefabricated components in, the first radiation beam is i shaped steel；First connector Including first clamping plate and second clamping plate；The first end of the first end of the first clamping plate and the second clamping plate is located in respectively The both sides of the web of the first radiation beam, first fixture is worn first end, the institute for being fixed on the first clamping plate State the first end of second clamping plate and the web of the first radiation beam；By the second end of the first clamping plate and the second clamping plate The second end be located in respectively it is described radiation leg web both sides, second fixture is worn and is fixed on described first The web at the second end of clamping plate, the second end of the second clamping plate and the radiation leg.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, multigroup second spoke is being provided Beam group is penetrated, the multigroup second radiation beam group is sequentially arranged in the step on the rice byte point, the second radiation Liang Weigong Shaped steel；Described second radiation beam is connected on the rice byte point by the second attachment structure；Second attachment structure Including the second connector, the 3rd fixture and the 4th fixture；3rd fixture is worn and is fixed on second connection The first end of part and it is described second radiation beam, the 4th fixture is worn be fixed on second connector the second end and The radiation leg.

Rice byte point of the present invention and radiation beam construction method of installation further improvement is that, multigroup second spoke is being provided Beam group is penetrated, the multigroup second radiation beam group is sequentially arranged in the step on the rice byte point, second connector includes Three-ply board and the 4th clamping plate；The first end of the first end of the three-ply board and the 4th clamping plate is located in described second The both sides of the web of beam are radiated, the 3rd fixture is worn into the first end for being fixed on the three-ply board, the 4th folder The web of the first end of plate and the second radiation beam；By the second end of the three-ply board and the second end of the 4th clamping plate The both sides of the web of the radiation leg are located in, the 4th fixture are worn and is fixed on the second of the three-ply board The web of end, the second end of the 4th clamping plate and the radiation leg.

Brief description of the drawings

Fig. 1 is the structural representation of the construction method of installation of rice byte point of the present invention and radiation beam.

Fig. 2 is the profile of A-A in Fig. 1.

Fig. 3 is the enlarged drawing at C in Fig. 2.

Fig. 4 is the enlarged drawing at D in Fig. 3.

Fig. 5 is the enlarged drawing at E in Fig. 3.

Specific embodiment

For the benefit of to the understanding of structure of the invention, illustrated below in conjunction with drawings and Examples.

Incorporated by reference to Fig. 1 and Fig. 2, the invention provides a kind of meter of byte point and the construction method of installation of radiation beam, including with Lower step：

1st, assembled prefabricated components.

Specifically, installation foundation of the prefabricated components as integral radiation beam, can be installed outside the venue.One is provided during installation The radiation beam group 11 of rice byte point 12 and first, wherein, the first radiation beam group includes two first radiation beams 11；By two first spokes The first end for penetrating beam 11 is symmetrically connected to the assembled formation prefabricated components in both sides of meter byte point 12.

Preferably, the first end of two first radiation beams 11 is connected to meter byte and selects 12 and in the rice byte point 12 The heart is symmetrical.Needs show that the quantity of the first radiation beam group does not terminate in one group in prefabricated components, and the first radiation beam group is intended to The position of installation needed for rice byte point 12 is installed on, its preferably implementation method is the first radiation Liang Zuwei in prefabricated components When multigroup, the first radiation Central Symmetry of the beam 11 on rice byte point 12 in every group first radiation beam group.First radiation beam 11 It is to connect between rice byte point in prefabricated components 12 and first is radiated into beam 11 to select 12 centrosymmetric modes on rice byte The stress at the place of connecing is uniformly distributed.

Preferably, rice byte point 12 includes a main body 121 and in the main body 121 for the multiple of the first radiation beam 11 Radiation leg 122, the angle that multiple radiation leg 122 is generally aligned in the same plane between interior, adjacent radiation leg 122 is identical, In the present embodiment, the number for radiating leg 122 is eight, and the angle between adjacent radiation leg 122 is 45 °.Preferably, radiate Leg 122 is i shaped steel.

In this step, the first radiation beam 11 is connected on meter byte point 12 by the first attachment structure；First connection Structure includes the first connector, the first fixture 53 and the second fixture 54；First fixture 53 is worn and is fixed on the first company The first end of fitting and the first radiation beam 11, the second fixture 54 is worn the second end and radiation branch for being fixed on the first connector Pin 122.

Fig. 5 is refer to, during for the first radiation beam 11 and radiation leg 122 for i shaped steel, preferably, the first connector Including first clamping plate 51 and second clamping plate 52, the first end of the first clamping plate 51 and the first end of second clamping plate 52 are located in first The both sides of web 111 of beam are radiated, the first fixture 53 is worn and is fixed on the first end of first clamping plate 51, the of second clamping plate 52 One end and the web 111 of the first radiation beam；Second end of first clamping plate 51 and the second end of second clamping plate 52 are located in radiation branch The web both sides of pin 122, the second fixture 54 is worn the second end, the second end of second clamping plate 52 for being fixed on first clamping plate 51 And the web of radiation leg 122.

Preferred first connector is shaped steel, and the first fixture 53 wears screw rod and the first clamp nut including first.Tool Body, the first end of first connector wears screw rod punching and fixes with the first radiation beam 11 by first, and spiral shell is worn first Away from the first clamp nut is arranged with the side of the first connector, first clamp nut is pushed against and radiates beam 11 in first bar. Similarly understand, the second fixture 54 wears screw rod and the second fastening bolt, the second end of first connector and spoke including second Penetrate leg 122 and wear screw rod punching fixation by second, worn second and be arranged with side of the screw rod away from the first connector Second clamp nut, the second solid nut is pushed against in radiation leg 122.Needs show, the of the two ends of the first connector The number of one fixture 53 and the second fixture 54 is not limited

Fig. 5 is refer to again, during for the first radiation beam 11, radiation leg 122 for i shaped steel, first clamping plate 51 and second Clamping plate 52 be located in the web 111 of the first radiation beam and radiation leg 122 web on (i shaped steel include two relative wings Plate and the web between wing plate, this is prior art, and those skilled in the art can be beyond all doubt from i shaped steel Web position is drawn, therefore does not make unnecessary explanation).

2nd, hoisting prefabricated component is to installation site.

Specifically, hanging the installation site in liter prefabricated components to cone cylinder post 3, the second end of the first radiation beam 11 is connected to The barrel of cone cylinder post 3.

Position to be installed is marked after being measured to radiation beam installation site, the good prefabricated components of liter assembly to peace are then hung Holding position, the cone cylinder post 3 of the position to be installed is connected to respect to the second end of first end by the first radiation beam 11 of prefabricated components Barrel on.

3rd, in installed successively on rice byte point it is multigroup second radiation beam group.

Specifically, providing multigroup second radiation beam group, the multigroup second radiation beam group is sequentially arranged on meter byte point 12； Second radiation beam group includes two second radiation beams 2, and the first end of two second radiation beams 2 is symmetrically connected into a meter byte point 12, the second end of two second radiation beams 2 is connected to the barrel of cone cylinder post.

Preferably, in this step, it is synchronous that the two second radiation beams 2 that every group second radiates in beam group are installed on a meter word On node 12.Prevent the both sides distribution of force of meter byte point 12 uneven, the accuracy that on the one hand influence is installed, another aspect stress The uneven stress damage that can also cause in structure.

Similarly, it is synchronous that the first end of the second radiation beam 2 and the second end are connected to meter byte point 12 and cone cylinder post Barrel.The asynchronous connection of barrel of the second radiation beam 2 and rice byte point 12 or cone cylinder post, may result in connecting node should receive The uneven generation stress of power fractures, so as to influence installation quality.

Now include two first radiation beam 11 and rice byte points 12 for precast construction, wherein rice byte point 12 includes one It is described in detail as a example by main body 121 and eight radiation legs 122 in main body 121：

This eight angles radiated between the radiation leg 122 in same level and adjacent of legs 122 are 45 °； Two first radiation beams 11 are respectively arranged on on two symmetrical radiation legs 122 of main body 121, and being fixed on cone cylinder post 3.Will The radiation of the six roots of sensation second beam 2 is two-by-two one group, is installed successively.

It is i shaped steel for the second radiation beam 2；Second radiation beam 2 is connected to a meter byte point by the second attachment structure On 12；Second attachment structure includes the second connector, the 3rd fixture 43 and the 4th fixture 44；3rd fixture 43 is worn The first end and the second radiation beam 2 of the second connector are fixed on, the 4th fixture 44 are worn and is fixed on the of the second connector Two ends and radiation leg 122.

Preferably, the second connector includes the clamping plate 42 of three-ply board 41 and the 4th；By the first end of three-ply board 41 and The first end of four clamping plates 42 is located in the both sides of the web 21 of the second radiation beam, the 3rd fixture 43 is worn and is fixed on the 3rd folder The web 21 of the first end of plate 41, the first end of the 4th clamping plate 42 and the second radiation beam；By the second end of three-ply board 41 and institute The second end for stating four clamping plates is located in the both sides of the web for penetrating leg, the 4th fixture 44 is worn and is fixed on three-ply board The web at 41 the second end, the second end of the 4th clamping plate 42 and radiation leg 122.

Preferably, the second connector is shaped steel, and the 3rd fixture 43 wears screw rod and the 3rd clamp nut including the 3rd.Tool Body, the first end of second connector wears screw rod punching and fixes with the second radiation beam 2 by the 3rd, and screw rod is worn the 3rd Away from the 3rd clamp nut is arranged with the side of the second connector, the 3rd clamp nut is pushed against and radiates beam 2 in second.Similarly Understand, the 4th fixture 44 wears screw rod and the 4th clamp nut including the 4th, the second end and the radiation branch of second connector Pin 122 wears screw rod punching and fixes by the 4th, is worn second and be arranged with the 4th on side of the screw rod away from the second connector Clamp nut, the 4th clamp nut is pushed against in radiation leg 122.Need to show, the 3rd of the two ends of the second connector the The number of the fixture 44 of fixture 43 and the 4th is not limited.

Needs show, the first radiation beam 11 and cone cylinder post can by being weldingly connected or the 3rd connector is connected, the Two radiation beams 2 and cone cylinder posts 3 can be by being weldingly connected or the 4th connector is connected.Wherein the 3rd connector and the 4th connector It is only different link position from the difference of the first connector, its structure function is identical with the first connector, and those skilled in the art can The structure and function of the 3rd connector and the 4th connector are unambiguously drawn according to the first connector, therefore is no longer done herein Unnecessary repeated description.

After being installed by above step, carry out checking correction, beyond the question after, in the first radiation beam 11 and rice byte Select 12 junction, the junction of the first radiation beam 11 and external structure 3, the junction of the second radiation beam 2 and rice byte point 12, Second radiation beam 2 is welded and fixed with the junction of external structure 3, to ensure no longer to be subjected to displacement deformation.

Above-mentioned technical proposal is taken, following technique effect is obtained：

The construction method of installation of rice byte point of the present invention and radiation beam, rice byte point 12 assembled first and two relative are located at The first radiation beam 11 on rice byte point 12 forms prefabricated components, then integral hoisting prefabricated components are fixed on the outside of installation site Structure 3, then installs second and radiates beam 2 successively, until all steel girder erections are completed, completes construction.Such detail design is protected First, second radiation beam 2 and the positional precision of rice byte point 12 is demonstrate,proved, construction speed has been accelerated, manpower and materials have been saved, while drop Low difficulty of construction, it is ensured that construction quality and safety.

In the present embodiment, the radiation beam mounting structure of rice byte point of the present invention is used in the pre-buried structure of concrete column.Compared with Good, the cone cylinder post cage that cone cylinder post 3 is made for steel construction, position to be installed is located at the inside of cone cylinder post cage.

The present invention is described in detail above in association with accompanying drawing embodiment, those skilled in the art can be according to upper State and bright various changes are made to the present invention.Thus, on the premise of claim objective of the invention is not violated, in embodiment Some details should not constitute limitation of the invention, the scope that the present invention will be defined using appended claims is used as protection model Enclose.

Claims (9)

1. a kind of meter of byte point and radiation beam construction method of installation, it is characterised in that comprise the following steps：

One meter of byte point and the first radiation beam group are provided, the first radiation beam group includes two first radiation beams；By two institutes The first end for stating the first radiation beam is symmetrically connected to the assembled formation prefabricated components in both sides of the rice byte point；

Hang and rise the prefabricated components to the installation site in cone cylinder post, the second end of the described first radiation beam is connected to the cone The barrel of barrel mast；

Multigroup second radiation beam group is provided, the multigroup second radiation beam group is sequentially arranged on the rice byte point；Described second Radiation beam group includes two second radiation beams, and the first end of two second radiation beams is symmetrically connected into the rice byte Point, the second end of two second radiation beams is connected to the barrel of the cone cylinder post.

2. the construction method of installation of according to claim 1 meter of byte point and radiation beam, it is characterised in that by multigroup the Two radiation beam groups are sequentially arranged in the step on the rice byte point, synchronous two radiated described in every group second in beam group Second radiation beam is installed on the rice byte point.

3. the construction method of installation of according to claim 2 meter of byte point and radiation beam, it is characterised in that by multigroup the Two radiation beam groups are sequentially arranged in the step on the rice byte point, the synchronous first end and second by the described second radiation beam End is connected to the barrel of the rice byte point and the cone cylinder post.

4. according to claim 1 meter of byte point and radiation beam construction method of installation, it is characterised in that the rice byte Point includes a main body and in the main body, for the described first radiation beam and multiple radiation branch of the second radiation beam connection Pin, in multiple radiation legs are generally aligned in the same plane, the angle angle between the adjacent radiation leg is identical.

5. according to claim 4 meter of byte point and radiation beam construction method of installation, it is characterised in that the radiation branch Pin is i shaped steel.

6. according to claim 5 meter of byte point and radiation beam construction method of installation, it is characterised in that provide one meter Byte point and the first radiation beam group, the step of be assembled into prefabricated components in, described first will radiate beam by the first attachment structure It is connected on the rice byte point；First attachment structure includes the first connector, the first fixture and the second fixture；Will First fixture wears the first end and the first radiation beam for being fixed on first connector, and described second is fixed Part wears the second end and the radiation leg for being fixed on first connector.

7. according to claim 6 meter of byte point and radiation beam construction method of installation, it is characterised in that provide one meter Byte point and the first radiation beam group, the step of be assembled into prefabricated components in, the first radiation beam is i shaped steel；Described first Connector includes first clamping plate and second clamping plate；The first end of the first end of the first clamping plate and the second clamping plate is distinguished The both sides of the web of the first radiation beam are located in, first fixture are worn and is fixed on the first of the first clamping plate The web at end, the first end of the second clamping plate and the first radiation beam；By the second end of the first clamping plate and described Second end of second splint is located in the both sides of the web of the radiation leg respectively, second fixture is worn and is fixed on institute State the web at the second end of first clamping plate, the second end of the second clamping plate and the radiation leg.

8. according to claim 5 meter of byte point and radiation beam construction method of installation, it is characterised in that provide it is multigroup Second radiation beam group, the multigroup second radiation beam group is sequentially arranged in the step on the rice byte point, second radiation Beam is i shaped steel；Described second radiation beam is connected on the rice byte point by the second attachment structure；Described second connects Binding structure includes the second connector, the 3rd fixture and the 4th fixture；3rd fixture is worn and is fixed on described The first end of two connectors and the second radiation beam, the 4th fixture are worn and are fixed on the of second connector Two ends and the radiation leg.

9. according to claim 8 meter of byte point and radiation beam construction method of installation, it is characterised in that provide it is multigroup Second radiation beam group, the multigroup second radiation beam group is sequentially arranged in the step on the rice byte point, second connection Part includes three-ply board and the 4th clamping plate；The first end of the first end of the three-ply board and the 4th clamping plate is located in institute The both sides of the web of the second radiation beam are stated, the 3rd fixture is worn and is fixed on the first end of the three-ply board, described The web of the first end of the 4th clamping plate and the second radiation beam；By the second end of the three-ply board and the 4th clamping plate Second end is located in the both sides of the web of the radiation leg, the 4th fixture is worn and is fixed on the three-ply board The web at the second end, the second end of the 4th clamping plate and the radiation leg.