CN219653911U - Assembled frame structure - Google Patents

Abstract

The utility model relates to the technical field of assembled buildings, in particular to an assembled frame structure, which comprises support columns, beam column connecting points and frame beams, wherein the beam column connecting points comprise end plates and side connecting plates arranged along the edges of the end plates, the support columns are inserted into spaces formed by surrounding the end plates and the side connecting plates, the end parts of the support columns are fixedly connected with the end plates, the end parts of the frame beams are provided with beam connecting plates, and the beam connecting plates are fixedly connected with the side connecting plates. The support columns and the frame beams are connected and fixed through the beam-column connection points, so that the connection form between the beam columns is unified, the on-site installation and management can be facilitated, the construction errors are reduced, the workload of on-site and design personnel is reduced, the installation is facilitated, the beam-column connection points have obvious engineering economic benefits under the same conditions, and the standardization degree of the assembled frame structure is greatly improved.

Description

Assembled frame structure

Technical Field

The utility model relates to the technical field of assembly type buildings, in particular to an assembly type frame structure.

Background

The assembled building has the characteristics of design standardization, production industrialization, construction mechanization, decoration integration and the like, the traditional assembled building mainly comprises a prefabricated assembled concrete structure, a steel structure, a modern wood structure building and the like, wherein the steel structure mainly comprises a column, a beam, a support, a purline and the like, the column-beam connection node form generally adopts a welding or welding and bolting combination form according to the stress intensity, and the welding quality is difficult to guarantee due to uneven technical level of field welding personnel, so that certain potential safety hazard exists in welding.

Therefore, most of construction sites adopt bolt connection to replace welding to realize the fixation between the column and the beams, but the connection forms at each bolt connection node are different due to the different sizes of the beams and the column members, so that the workload of sites and designers is increased, and the standardization degree of the traditional steel structure is limited.

Disclosure of Invention

Therefore, the utility model aims to overcome the defects of inconsistent connection form between beams and columns, large installation workload and limitation of standardization of the steel structure in the assembled steel structure in the prior art, thereby providing an assembled frame structure which can realize standardized connection of the beams and the columns, reduce the workload and is beneficial to realizing standardization.

In order to solve the above problems, the present utility model provides a fabricated frame structure comprising: a support column; the beam column connecting point comprises an end plate and a side connecting plate arranged along the edge of the end plate, the support column is inserted into a space formed by the end plate and the side connecting plate in a surrounding mode, and the end portion of the support column is fixedly connected with the end plate; the frame beam, the tip of frame beam is equipped with the roof beam connecting plate, the roof beam connecting plate with the side connecting plate is connected fixedly.

Optionally, the support column is connected gradually along vertical direction by a plurality of standard post festival, and each standard post festival's tip all is equipped with the beam column tie point, adjacent one of them the end plate on the standard post festival with adjacent one of them the end plate fixed connection on the standard post festival, be located the top the beam column tie point on the standard post festival is connected fixedly with the frame roof beam.

Optionally, the beam column connecting point further comprises a column connecting bolt, a column connecting hole is formed in the end plate, and the adjacent end plates on the standard column section are connected in the column connecting hole through the column connecting bolt to achieve connection and fixation.

Optionally, the frame beam is formed by connecting a plurality of standard spans in sequence, and the end part of each standard span is provided with a beam connecting plate, and the adjacent standard spans are fixedly connected through the beam connecting plates at the end parts, and the beam connecting plates on the outermost standard spans are fixedly connected with the side connecting plates.

Optionally, the frame roof beam is provided with a plurality of and along horizontal and vertical interval distribution, and the frame roof beam of horizontal interval distribution and the frame roof beam of vertical interval distribution are alternately formed the frame construction, and the intersection of frame roof beam is provided with the beam column tie point, the support column is through a plurality of beam column tie point and intersection the frame roof beam all is connected.

Optionally, be equipped with the roof beam connecting hole on the roof beam connecting plate, be equipped with the side connecting hole on the side connecting plate, the roof beam post tie point still includes: the beam column connecting bolts are connected in the beam connecting holes and the side connecting holes so as to fixedly connect the beam connecting plates and the side connecting plates; and/or a beam connecting bolt connected in a beam connecting hole on a beam connecting plate between the adjacent standard spans to fix the adjacent standard spans.

Optionally, the standard span includes: a dazzling rod is arranged on the upper part; the lower dazzling rod is arranged below the upper dazzling rod, and the lower dazzling rod and the upper dazzling rod are arranged in four corners to form a rectangular frame beam; the vertical web members are arranged between the upper dazzling rods and the lower dazzling rods, and the transverse web members are arranged between the upper dazzling rods and between the lower dazzling rods.

Optionally, the standard span further comprises an inclined strut, and the inclined strut is obliquely arranged between the upper dazzling rod and the lower dazzling rod.

Optionally, the assembled frame structure further comprises a roof color plate, and the roof color plate is arranged above the frame beam.

Optionally, the assembled frame structure further includes a plurality of purlins, and is a plurality of the purlins are followed the length direction interval setting of frame roof beam is in the top of frame roof beam, the inner wall of roofing color slab all is connected fixedly with a plurality of the purlins.

The utility model has the following advantages:

1. the assembled frame structure realizes the connection and fixation between the support column and the frame beam by arranging the beam-column connection points, particularly, the beam-column connection points comprise end plates and side connection plates arranged along the edges of the end plates, the support column is inserted into a space surrounded by the end plates and the side connection plates of the beam-column connection points, the end parts of the support column are fixedly connected with the end plates, and the beam connection plates are further arranged at the end parts of the frame beam, so that the beam connection plates and the side connection plates are fixedly connected, the connection and fixation between the support column and the frame beam are realized through the arranged beam-column connection points, the connection form between the beam-column is unified, the on-site installation and management can be convenient, the construction errors are reduced, the workload of on-site and design personnel is reduced, the installation is convenient, and under the same conditions, the beam-column connection points have remarkable engineering economic benefits, and the standardization degree of the assembled frame structure is greatly improved.

2. According to the assembled frame structure, the support columns are sequentially connected in the vertical direction by the standard column sections, the end part of each standard column section is provided with the beam column connecting point, the end plate on one adjacent standard column section is fixedly connected with the end plate on the other adjacent standard column section, and the beam column connecting point on the top standard column section is fixedly connected with the frame beam. This setting sets up the support column into the form of a plurality of standard post sections to all be equipped with the beam column tie point at the tip of every standard post section, the beam column tie point of two adjacent standard post section accessible tip realizes connecting fixedly, and then realizes the matching installation of support column, compares in the form of whole spinal branch dagger, and standard post section can facilitate construction and transportation, and a plurality of standard post sections can form the support column of different vertical lengths simultaneously, and then form the assembled frame construction of co-altitude, satisfies different service scenario.

3. According to the assembled frame structure, the frame beam is formed by sequentially connecting a plurality of standard spans, the end part of each standard span is provided with the beam connecting plate, the adjacent standard spans are fixedly connected through the beam connecting plates at the end parts, and the beam connecting plate on the standard span at the outermost side is fixedly connected with the side connecting plates. The frame beams are arranged in a mode of a plurality of standard spans, the modularized production and the manufacturing are convenient, the site installation and the management are also convenient, the adjacent standard spans are fixedly connected through the beam connecting plates at the end parts, so that the frame beams with required lengths are formed by matching the standard spans, the beam connecting plates on the standard spans at the outermost sides are fixedly connected with the side connecting plates, the outer sides of the frame beams with certain lengths are fixedly connected with the supporting columns through the beam column connecting points, and the two ends of the frame beams are stably supported through the supporting columns.

4. The assembled frame structure comprises a plurality of frame beams which are distributed at intervals in the transverse direction and the longitudinal direction, wherein the frame beams which are distributed at intervals in the transverse direction and the frame beams which are distributed at intervals in the longitudinal direction are crossed to form the frame structure, beam-column connecting points are arranged at the crossing positions of the frame beams, and supporting columns are connected with the plurality of frame beams at the crossing positions through the beam-column connecting points. The frame beams which are distributed transversely and longitudinally at intervals are crossed to form a frame structure with stable structural steel, beam column connecting points are arranged at the crossing positions of the frame beams, and the supporting columns are connected with the frame beams at the crossing positions through the beam column connecting points, so that the frame beams at the crossing positions are stably supported through the supporting columns, and the whole installation construction of the whole assembled frame structure is realized.

5. The standard span comprises an upper dazzling rod, a lower dazzling rod, a vertical web member and a transverse web member, wherein the lower dazzling rod is arranged below the upper dazzling rod, the lower dazzling rod and the upper dazzling rod are arranged in four corners to form a rectangular frame beam, the vertical web member is arranged between the upper dazzling rod and the lower dazzling rod, and the transverse web member is arranged between the adjacent upper dazzling rods and between the adjacent lower dazzling rods. This setting, with the standard stride set up to the frame construction that upper boom, lower boom, vertical web and horizontal web are constituteed to vertical web sets up in upper boom and lower boom between, with the reinforcing upper boom with lower boom between connection structure intensity, horizontal web sets up between adjacent upper boom and adjacent lower boom between, with to upper boom between and lower boom between connect fixedly, thereby make whole frame construction stability good, and light in weight, save material.

6. The assembled frame structure further comprises the diagonal brace, and the diagonal brace is obliquely arranged between the upper dazzling rod and the lower dazzling rod so as to further connect and support the upper dazzling rod and the lower dazzling rod.

7. The assembled frame structure of the utility model further comprises a roof color plate, wherein the roof color plate is arranged above the frame beam. The roof color plate is arranged above the frame beam and used as a ceiling of the assembled frame structure for shielding wind and rain.

8. The assembled frame structure further comprises a plurality of purlines, the purlines are arranged at the top of the frame beam at intervals along the length direction of the frame beam, and the inner wall of the roof color plate is fixedly connected with the purlines. All the positions of the roof color plates are connected and supported through the purlines so as to ensure the stable reliability of the installation of the roof color plates.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 illustrates a top view of a fabricated frame structure of an embodiment of the present utility model;

FIG. 2 illustrates a front view of a fabricated frame structure of an embodiment of the present utility model;

FIG. 3 shows a schematic view of a partial enlarged structure of a frame beam and support column connection at a beam-column connection point in an embodiment of the utility model;

FIG. 4 illustrates a top view of a beam-column connection point in accordance with an embodiment of the present utility model;

FIG. 5 shows a schematic structural view of a side connection plate according to an embodiment of the present utility model;

FIG. 6 shows a schematic structural view of a beam attachment plate according to an embodiment of the utility model;

fig. 7 is a schematic view showing the structure of a support column according to an embodiment of the present utility model connected to a plurality of frame beams through beam-column connection points;

fig. 8 shows a schematic structural view of a frame beam according to an embodiment of the utility model;

FIG. 9 shows an enlarged schematic view of the structure of FIG. 8 at A;

FIG. 10 illustrates a top view of a standard span of an embodiment of the present utility model;

FIG. 11 illustrates a front view of a standard span of an embodiment of the present utility model.

Reference numerals illustrate:

1. a support column; 2. a beam-column connection point; 21. an end plate; 211. a column connection hole; 22. a side connection plate; 221. a side connection hole; 23. a beam column connecting bolt; 24. a beam connecting bolt; 3. a frame beam; 31. a beam connecting plate; 311. a beam connection hole; 32. a standard span; 321. a dazzling rod is arranged on the upper part; 3211. pre-mounting holes; 322. a lower glare rod; 323. vertical web members; 324. a transverse web member; 325. a diagonal brace; 4. roof color plates; 5. purlins.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1 to 11, the present embodiment discloses an assembled frame structure, which comprises a support column 1, a beam column connection point 2 and a frame beam 3, wherein the beam column connection point 2 comprises an end plate 21 and a side connection plate 22 arranged along the edge of the end plate 21, the support column 1 is inserted into a space formed by surrounding the end plate 21 and the side connection plate 22, the end part of the support column 1 is fixedly connected with the end plate 21, the end part of the frame beam 3 is provided with a beam connection plate 31, and the beam connection plate 31 and the side connection plate 22 are fixedly connected.

The assembled frame structure of this embodiment realizes the connection fixed between support column 1 and the frame roof beam 3 through setting up beam column tie point 2, specifically, beam column tie point 2 includes end plate 21 and along the side connecting plate 22 of end plate 21's edge setting, support column 1 peg graft in the space of being enclosed by end plate 21 and the side connecting plate 22 of beam column tie point 2 and establish the formation, and the tip and the end plate 21 fixed connection of support column 1, further set up beam connecting plate 31 at the tip of frame roof beam 3, beam connecting plate 31 and side connecting plate 22 connect fixedly, consequently, realize connecting fixedly through the beam column tie point 2 that sets up between support column 1 and the frame roof beam 3, with the connection form between this unified standard beam column, can make things convenient for on-the-spot installation and management, reduce construction error, reduce on-the-spot and-designer's work load, be convenient for install, under the same condition, this beam column tie point 2 has apparent engineering economic benefits, very big improvement assembled frame structure's standardization degree.

The fabricated frame structure will now be described in detail with reference to the accompanying drawings.

The support column 1 acts as a bottom support, which is arranged vertically. Specifically, the support column 1 may be a circular column or a square column, or the like.

In some specific embodiments, the support columns 1 are sequentially connected by a plurality of standard column sections along the vertical direction, the end part of each standard column section is provided with a beam column connecting point 2, the end plate 21 on one adjacent standard column section is fixedly connected with the end plate 21 on the other adjacent standard column section, and the beam column connecting point 2 on the topmost standard column section is fixedly connected with the frame beam 3. This setting sets up support column 1 into the form of a plurality of standard post festival to all be equipped with beam column tie point 2 at the tip of every standard post festival, the beam column tie point 2 of two adjacent standard post festival accessible tip realizes connecting fixedly, and then realizes the matching installation of support column 1, compares in the form of whole support column 1, and standard post festival can conveniently be under construction and transportation, and a plurality of standard post festival can form the support column 1 of different vertical lengths simultaneously, and then forms the assembled frame construction of co-altitude not, satisfies different service scenario.

Regarding the number of standard column sections in each support column 1, the higher the total height of the fabricated frame structure, the longer the support column 1 length, the more the number of standard column sections are set, and conversely, the lower the total height of the fabricated frame structure, the shorter the support column 1 length, the fewer the number of standard column sections are set, which is not particularly limited in this embodiment.

In this embodiment, as shown in fig. 3 to 7, the end plate 21 and the side connection plates 22 are rectangular plates, the side connection plates 22 are provided along four edges of the end plate 21, and a space formed by the side connection plates 22 and the end plate 21 in cooperation is a rectangular space. The side connection plates 22 and the end plates 21 may be fixed by welding. Further, the end plate 21 is provided with a column connection hole 211, and the side connection plate 22 is provided with a side connection hole 221.

Further, the beam-column connection point 2 further comprises a column connection bolt, and the end plate 21 on the adjacent support column 1 is connected in the column connection hole 211 through the column connection bolt to realize connection fixation. The adjacent support columns 1 are connected in the column connecting holes 211 through the column connecting bolts to realize connection fixation, namely the screw connection between the support columns 1, compared with a welding mode, the construction amount is small, the difficulty is low, and the disassembly and the assembly are convenient.

It will be appreciated herein that the post attachment holes 211 are threaded holes to facilitate the threaded attachment of the post attachment bolts within the post attachment holes 211.

In terms of the number, in order to improve the connection stability between the support columns 1, four column connection holes 211 are formed in four corners of each end plate 21, so that the end plates 21 are connected in the four column connection holes 211 in a one-to-one correspondence manner through four column connection bolts to achieve connection fixation, and the connection reliability and stability between the support columns 1 are good.

The beam connecting plate 31 is provided with a beam connecting hole 311, the beam connecting hole 311 corresponds to the side connecting hole 221, the beam-column connecting point 2 further comprises a beam-column connecting bolt 23, and the beam-column connecting bolt 23 is connected in the beam connecting hole 311 and the side connecting hole 221 to connect and fix the beam connecting plate 31 and the side connecting plate 22. The beam connecting plate 31 and the side connecting plate 22 are connected in the beam connecting holes 311 and the side connecting holes 221 through the beam column connecting bolts 23 to realize connection and fixation, so that the frame beam 3 and the support column 1 are connected and fixed through bolts, and compared with a welding mode, the beam connecting plate is lower in construction difficulty, smaller in workload and convenient to assemble and disassemble.

Here, at least one of the beam coupling hole 311 and the side coupling hole 221 is provided as a screw hole so as to be screw-locked with the beam-column coupling bolt 23.

In terms of the number, for improving the connection stability between the support column 1 and the frame beam 3, four beam connecting holes 311 are formed in four corners of each beam connecting plate 31, four side connecting holes 221 are formed in four corners of each side connecting plate 22, the four beam connecting holes 311 are in one-to-one correspondence with the four side connecting holes 221, so that the beam connecting plates 31 and the side connecting plates 22 are connected to the four beam connecting holes 311 and the four side connecting holes 221 in one-to-one correspondence through the four beam column connecting bolts 23, and connection fixation is achieved in the four side connecting holes 221, so that connection reliability and stability between the support column 1 and the frame beam 3 are good.

In some specific embodiments, as shown in fig. 1, 2 and 8 to 11, the frame beam 3 is formed by sequentially connecting a plurality of standard spans 32, and the end part of each standard span 32 is provided with a beam connecting plate 31, the adjacent standard spans 32 are fixedly connected through the beam connecting plates 31 at the end parts, and the beam connecting plates 31 on the outermost standard spans 32 are fixedly connected with the side connecting plates 22. The frame beam 3 is arranged in the form of a plurality of standard spans 32, the modular production and the manufacturing are convenient, the site installation and the management are also convenient, the adjacent standard spans 32 are fixedly connected through the beam connecting plates 31 at the end parts, so that the frame beam 3 with the required length is formed by matching the standard spans 32, the beam connecting plates 31 on the standard spans 32 at the outermost side are fixedly connected with the side connecting plates 22, and the outer side of the frame beam 3 with the certain length is fixedly connected with the support columns 1 through the beam column connecting points 2, so that the two ends of the frame beam 3 are stably supported through the support columns 1.

Therefore, in the embodiment, the support column 1 is arranged in the form of a plurality of standard column sections, the frame beam 3 is arranged in the form of a plurality of standard spans 32, and the connection between the standard spans 32 and the standard column sections is realized through the beam-column connection points 2, so that the modular production and the manufacture of the assembled frame structure are realized, the connection form between the beams and the columns is unified, the on-site installation and the management can be facilitated, the construction error is reduced, the workload of on-site and design staff is reduced, the installation is facilitated, and the standardization degree of the assembled frame structure is greatly improved.

To facilitate the connection between the adjacent standard spans 32, the beam-column connection point 2 of the present embodiment further includes a beam connection bolt 24, and the beam connection bolt 24 is connected in a beam connection hole 311 on a beam connection plate 31 between the adjacent standard spans 32 to connect and fix the adjacent standard spans 32. The beam connecting holes 311 are reserved bolt holes, so that the beam connecting bolts 24 are connected in the bolt holes in a threaded manner, and the adjacent standard spans 32 are connected and fixed.

In terms of the number of the beam connecting plates, since four beam connecting holes 311 are formed in each beam connecting plate 31, the four beam connecting bolts 24 are arranged in the four pairs of beam connecting holes 311 in a one-to-one matching manner, so that adjacent standard spans 32 are connected and fixed, and the stability is good.

Regarding the number of standard spans 32 in each frame beam 3, it is necessary to consider according to the total design length of the frame beams 3, and in particular, two, three or more standard spans 32 may be sequentially connected to form the frame beams 3, which is not particularly limited in this embodiment.

On setting and arranging, frame roof beam 3 is provided with a plurality of and along horizontal and vertical interval distribution, and the frame roof beam 3 of horizontal interval distribution is crossed with the frame roof beam 3 of vertical interval distribution and is formed frame construction to the intersection of frame roof beam 3 is provided with beam column tie point 2, and support column 1 all is connected with a plurality of frame roof beams 3 of intersection through beam column tie point 2. The frame beams 3 which are distributed transversely and longitudinally at intervals are crossed to form a frame structure with stable structural steel, beam column connecting points 2 are arranged at the crossing positions of the frame beams 3, the support columns 1 are connected with the frame beams 3 at the crossing positions through the beam column connecting points 2, and therefore the frame beams 3 at the crossing positions are stably supported through the support columns 1, and accordingly the whole installation construction of the whole assembled frame structure is achieved.

In this embodiment, three frame beams 3 are distributed at intervals in parallel in the transverse direction, four frame beams 3 are distributed at intervals in parallel in the longitudinal direction, twelve intersecting points are formed by the frame beams 3 distributed at intervals in parallel in the transverse direction and the four frame beams 3 distributed at intervals in parallel in the longitudinal direction, one beam-column connecting point 2 is correspondingly arranged at each intersecting point, and support columns 1 are correspondingly arranged at the beam-column connecting points 2 so as to stably support the twelve intersecting points of the frame structure.

It should be further noted here that, since four side connection plates 22 are provided in each beam-column connection point 2, each beam-column connection point 2 can be connected to four frame beams 3 simultaneously, in this embodiment, the beam-column connection point 2 located at the intersection point in the middle of the frame structure is connected to four frame beams 3 simultaneously, and the beam-column connection point 2 located at the intersection point around is connected to two or three frame beams 3 simultaneously.

For a specific structure, in this embodiment, the standard span 32 includes that go up and dazzle pole 321, lower pole 322, erect web 323 and horizontal web 324, wherein, lower pole 322 sets up in the below that goes up and dazzles pole 321 to lower pole 322 and last pole 321 that dazzles are the four corners setting and form rectangular frame, erect web 323 and set up in going up and dazzle pole 321 and lower between the pole 322, horizontal web 324 sets up between adjacent pole 321 that dazzles and between the adjacent pole 322 that dazzles down. This sets up, with standard striding 32 set to the frame construction that upper boom 321, lower boom 322, erect web 323 and horizontal web 324 are constituteed to erect web 323 and set up between upper boom 321 and lower boom 322, with the reinforcing upper boom 321 and lower boom 322 between the connection structural strength, horizontal web 324 sets up between adjacent upper boom 321 and adjacent lower boom 322, with connect fixedly between upper boom 321 and lower boom 322, thereby make whole frame construction stability good, and light in weight, save material.

Lower dazzling rod 322 and lower dazzling rod 322 are the rectangle girder steel, and two are gone up and are dazzled pole 321 and two lower dazzling rod 322 four corners parallel arrangement and form rectangular frame, and perpendicular web member 323 and horizontal web member 324 all can be the steel pipe, and perpendicular web member 323 both ends weld on last dazzling rod 321 and lower dazzling rod 322, horizontal web member 324 both ends weld between adjacent last dazzling rod 321 and between the adjacent lower dazzling rod 322 to make two last dazzling rod 321 and two lower dazzling rod 322 form a stable in structure reliable rectangular frame.

In addition, in order to further enhance the overall structure joint strength of the standard span 32, the standard span 32 further comprises an inclined strut 325, wherein the inclined strut 325 is obliquely arranged between the upper dazzling rod 321 and the lower dazzling rod 322 so as to further connect and support the upper dazzling rod 321 and the lower dazzling rod 322, and therefore, the inclined strut 325 and the vertical web member 323 which are arranged together play a role in connecting and supporting the upper dazzling rod 321 and the lower dazzling rod 322, and the stable and reliable structural connection is enhanced.

In addition to the above arrangement, the fabricated frame structure further comprises a roof color plate 4, wherein the roof color plate 4 is arranged above the frame beam 3. The roof color plate 4 is arranged above the frame beam 3 and is used as a ceiling of the assembled frame structure for shielding wind and rain.

For realizing the connection to roofing color plate 4, the assembled frame construction of this embodiment still includes a plurality of purlins 5, and a plurality of purlins 5 set up at the top of frame roof beam 3 along the length direction interval of frame roof beam 3, and the inner wall of roofing color plate 4 is all connected fixedly with a plurality of purlins 5. All the positions of the roof color plates 4 are connected and supported through the purlines 5, so that the stable and reliable installation of the roof color plates 4 is ensured.

The top of the upper dazzling rod 321 and the bottom of the purline 5 are respectively provided with a pre-installation hole 3211, and a fixing piece is arranged in the pre-installation holes 3211 to realize connection and fixation between the upper dazzling rod 321 and the purline 5. Specifically, the pre-installation hole 3211 may be a pre-set threaded hole, and the fixing member may be a fixing bolt, and is screwed into the pre-set threaded hole through the fixing bolt to lock the upper dazzle rod 321 and the purlin 5; the pre-installation hole 3211 may also be a pre-set pin hole, and the fixing piece may be a fixing pin, and is inserted into the pre-set pin hole through the fixing pin to fix the upper dazzling bar 321 and the purline 5.

Similarly, the roof color plate 4 and the purline 5 can also be fixed by screw connection, pin connection or welding, and the embodiment is not particularly limited.

It should be noted that, the roofing color plate 4 and the purline 5 are all existing structures, and this embodiment is not repeated.

In summary, in the fabricated frame structure of this embodiment, since the support columns 1 and the frame beams 3 are connected in a unified manner through the beam-column connection points 2, construction errors can be reduced, and the support columns 1 and the frame beams 3 are all designed in a modularized manner, so that production, manufacturing, transportation and installation are facilitated, the standardization degree of the fabricated frame structure is greatly improved, the installation procedure is reduced, the construction efficiency is improved, and the engineering construction cost is reduced.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. A fabricated frame structure, comprising:

a support column (1);

the beam column connecting point (2) comprises an end plate (21) and a side connecting plate (22) arranged along the edge of the end plate (21), the support column (1) is inserted into a space formed by surrounding the end plate (21) and the side connecting plate (22), and the end part of the support column (1) is fixedly connected with the end plate (21);

the frame beam (3), the tip of frame beam (3) is equipped with roof beam connecting plate (31), roof beam connecting plate (31) with side connecting plate (22) are connected fixedly.

2. The fabricated frame structure according to claim 1, wherein the support columns (1) are sequentially connected in a vertical direction by a plurality of standard column sections, the end portion of each standard column section is provided with the beam-column connection point (2), the end plate (21) on one of the adjacent standard column sections is fixedly connected with the end plate (21) on the other of the adjacent standard column sections, and the beam-column connection point (2) on the top standard column section is fixedly connected with the frame beam (3).

3. The fabricated frame structure according to claim 2, wherein the beam-column connection point (2) further comprises a column connection bolt, the end plate (21) is provided with a column connection hole (211), and the end plate (21) on the adjacent standard column section is connected in the column connection hole (211) through the column connection bolt to achieve connection fixation.

4. A fabricated frame structure according to any one of claims 1 to 3, wherein the frame beams (3) are formed by sequentially connecting a plurality of standard spans (32), and each standard span (32) is provided with a beam connecting plate (31) at the end, the adjacent standard spans (32) are fixedly connected through the beam connecting plates (31) at the end, and the beam connecting plates (31) on the outermost standard spans (32) are fixedly connected with the side connecting plates (22).

5. The fabricated frame structure according to claim 4, wherein the frame beams (3) are provided with a plurality of frame beams (3) and are distributed at intervals in the transverse direction and the longitudinal direction, the frame beams (3) distributed at intervals in the transverse direction and the frame beams (3) distributed at intervals in the longitudinal direction are crossed to form the frame structure, the crossing positions of the frame beams (3) are provided with the beam-column connection points (2), and the support columns (1) are connected with a plurality of frame beams (3) at the crossing positions through the beam-column connection points (2).

6. The fabricated frame structure according to claim 4, wherein beam connection plates (31) are provided with beam connection holes (311), the side connection plates (22) are provided with side connection holes (221), and the beam-column connection point (2) further comprises:

a beam-column connecting bolt (23) connected to the beam connecting hole (311) and the side connecting hole (221) to connect and fix the beam connecting plate (31) and the side connecting plate (22);

and/or a beam connecting bolt (24) is connected in a beam connecting hole (311) on a beam connecting plate (31) between the adjacent standard spans (32) to fixedly connect the adjacent standard spans (32).

7. The fabricated frame structure of claim 4, wherein the standard span (32) comprises:

an upper glare bar (321);

the lower dazzling rod (322) is arranged below the upper dazzling rod (321), and the lower dazzling rod (322) and the upper dazzling rod (321) are arranged in four corners to form a rectangular frame beam (3);

a vertical web member (323) arranged between the upper glare rod (321) and the lower glare rod (322),

the transverse web members (324) are arranged between the adjacent upper dazzling rods (321) and between the adjacent lower dazzling rods (322).

8. The fabricated frame structure of claim 7, wherein said standard span (32) further comprises diagonal braces (325), said diagonal braces (325) being disposed obliquely between said upper (321) and lower (322) glare bars.

9. A fabricated frame structure according to any one of claims 1 to 3, further comprising a roofing sheet (4), the roofing sheet (4) being arranged above the frame beams (3).

10. The fabricated frame structure according to claim 9, further comprising a plurality of purlines (5), wherein a plurality of purlines (5) are disposed at intervals along the length direction of the frame beam (3) at the top of the frame beam (3), and the inner wall of the roof color plate (4) is connected and fixed with a plurality of purlines (5).