CN210858407U - Stand column, window frame structure and window - Google Patents

Abstract

The utility model provides a column, a window frame structure and a window, relating to the technical field of building doors and windows; the upright post is of a split structure and comprises a first sub-upright post, a second sub-upright post and a connecting part for connecting the first sub-upright post and the second sub-upright post, and the first sub-upright post, the second sub-upright post and the connecting part can be spliced and assembled to form the upright post; the utility model discloses a set up the stand into the split type structure that can splice the equipment, be favorable to the production and processing equipment and the transmission transportation of mill, show the packaging efficiency who improves stand and other subassemblies in the field processing, improve the on-the-spot installation effectiveness of whole window.

Description

Stand column, window frame structure and window

Technical Field

The utility model relates to a building door and window technical field, concretely relates to stand, window frame structure and window.

Background

The assembled external window system is a system for producing a window frame according to drawings, delivering the window frame to an assembled building construction production enterprise, pouring the window frame in the building construction by the building element production enterprise, and installing a window sash in the building assembly process by the window and door enterprise. The current building exterior window installation status and the standardized attached frame installation technology are described in detail in the application of the DGJ32/J157-2017 standardized exterior window system of the residential building.

The assembly type process of the building external window in the current market firstly manufactures a window frame, secondly pours the window frame by a building element production enterprise, and finally plays a role in saving the window sash installation process by the door and window enterprise, but simultaneously has some defects, for example, 1) the window frame and the window sash are not assembled at one time, need to be constructed and installed for the second time, and belong to the phenomenon of labor consumption; 2) the installation of the external window system is not completed by one enterprise or one team, the process is completed by three enterprises, the communication cost needs to be increased, and the transportation cost can be increased; 3) the building external window is arranged in the building window hole and can not wrap a building beam, a column and a floor slab, an independent window is seen from the outside of the building, and the decorative effect of a curtain wall cannot be achieved from the decorative angle.

The stand among the current prior art mainly adopts the integral type structure, need install the window frame structure earlier in building wall's window opening when building installation window, is provided with solitary stand among the window frame structure, also is provided with solitary stand on the casement of assembling with the cooperation of window frame structure, and when casement and window frame cooperation equipment, two stand cooperations are assembled. When the external window system is produced and manufactured in a factory, at least two specifications of stand columns are required to be manufactured respectively, and are further assembled into a window and then conveyed to an installation site, at the moment, a window frame and a window sash are required to be installed on a construction site respectively, so that the assembly efficiency of the external window installation site is low; in addition, because the prior art needs to manufacture the upright posts of the window sash and the window frame respectively, a large amount of aluminum alloy upright post manufacturing materials need to be consumed, so that the production cost of the building outer window is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stand, window frame structure and window through setting up the stand into split type package assembly, simplifies the installation of window, and the packaging efficiency when improving stand production and construction equipment to reduce the production consumptive material simultaneously.

To achieve the above objective, the present invention provides the following technical solutions: an upright post comprises a first sub-upright post, a second sub-upright post and a connecting part, wherein the connecting part is used for connecting the first sub-upright post and the second sub-upright post; the first branch upright post, the second branch upright post and the connecting part can be spliced and assembled to form the upright post. The first branch upright post comprises a first profile part, a second profile part and a first heat insulation strip, wherein the first profile part and the second profile part are longitudinally parallel and correspondingly arranged, the first heat insulation strip is used for connecting the first profile part and the second profile part, and a first bridge cut-off structure is formed among the first profile part, the second profile part and the first heat insulation strip; the transverse sections of the first profile component and the second profile component are both of a first U-shaped structure, the opening directions of the first profile component and the second profile component are the same, the first profile component is installed close to the indoor space, and the second profile component is installed close to the outdoor space. First bridge cut-off structure is favorable to improving the heat-proof quality and the thermal insulation performance of first branch stand, and simultaneously, the structure of first section bar part and second section bar part is favorable to the mill to adopt standardized mould to make the stand and divides the part, and different preparation materials can be chooseed for use to first section bar part and second section bar part simultaneously, reduces the holistic radiating efficiency of stand.

Furthermore, the second subsidiary columns are parallel and correspond to the first subsidiary columns, and the second subsidiary columns have the same structure as the first subsidiary columns; the opening directions of the first profile component and the second profile component on the second split column are opposite to the opening directions of the first profile component and the second profile component on the first split column, and the second split column is correspondingly spliced with the first split column at the opening end along the longitudinal direction; adopt two first branch stands to install relatively, when being applicable to the stand and being used as vertical well club, the stand both sides are installed respectively and are set up glass.

Furthermore, the connecting part comprises a first cover plate and a second cover plate which are arranged in parallel along the longitudinal direction, the transverse sections of the first cover plate and the second cover plate are both in an I shape, and the first cover plate and the second cover plate are respectively arranged at the splicing positions of the first sub-upright column and the second sub-upright column along the longitudinal part; two first clamping grooves longitudinally formed in two sides of the first cover plate I-shaped structure are respectively clamped with a wing plate of a first profile component on a first sub-column, which is far away from a second profile component, and a wing plate of the first profile component on a second sub-column, which is far away from the second profile component, and two second clamping grooves longitudinally formed in two sides of the second cover plate I-shaped structure are respectively clamped with a wing plate of a second profile component on the first sub-column, which is far away from the first profile component, and a wing plate of the second profile component on the second sub-column, which is far away from the first profile component; first apron and second apron are favorable to first branch stand and second branch stand fixed, make the stand along vertically constituting confined cavity structures, and the cavity is favorable to vertical well club to keep warm and the noise absorption.

Furthermore, the second sub-column comprises a third profile component, a fourth profile component and a second heat insulation strip, wherein the third profile component and the fourth profile component are arranged in parallel and correspondingly, the second heat insulation strip is used for connecting the third profile component and the fourth profile component, and a second bridge cut-off structure is formed among the third profile component, the fourth profile component and the second heat insulation strip; the transverse sections of the third section component and the fourth section component are both set to be L-shaped structures, the third section component, the fourth section component and the second heat insulation strip form a second sub-upright post with a transverse section of a second U-shaped structure, the third section component is installed close to the indoor space, and the fourth section component is installed close to the outdoor space; the opening directions of the second U-shaped structures on the second branch columns are opposite to the opening directions of the first U-shaped structures on the first branch columns, and the second U-shaped structures and the first branch columns are correspondingly spliced at the opening ends of the second U-shaped structures and the first U-shaped structures along the longitudinal direction. The second bridge cut-off structure is favorable to improving the heat-proof quality and the thermal insulation performance of second branch stand, simultaneously, adopts first branch stand and the second branch stand relative installation that the cross-section is the second U-shaped, when being applicable to the stand and being used as window frame limit stand, window frame limit stand one side is connected the floor wall body, and the opposite side installation sets up glass.

Furthermore, the connecting part is arranged inside the second U-shaped structure on the second sub-upright column and forms two third clamping grooves with openings facing the first sub-upright column along the longitudinal direction with the opposite side walls of the second U-shaped structure on the second sub-upright column; wing plates at one ends, far away from each other, of the first profile part and the second profile part on the first branch upright post are respectively inserted into the two third clamping grooves; the connecting part on the second partial upright post and the opposite side wall of the second U-shaped structure form a third clamping groove, which is beneficial to ensuring that the second partial upright post and the first partial upright post can always form a closed chamber structure along the longitudinal direction under the condition of hydraulic deformation.

Further, a half-enclosed space formed by the first U-shaped structures of the first profile component and the second profile component along the longitudinal direction is defined as an inner part, and a space outside the half-enclosed space is defined as an outer side; the outer side of the web plate of the second profile component is longitudinally provided with a glass baffle plate used for abutting glass, and the glass baffle plate is vertically connected with the web plate of the second profile component; because the second section bar component is installed and is close to outdoor side, therefore the glass baffle on the second section bar component is favorable to preventing glass from droing, reinforcing glass installation stability. A plurality of nylon slots are longitudinally formed in the outer side of the web plate of the first profile part; because the first profile part is arranged close to the indoor side for installation, the damping groove is used for installing glass clamping pieces abutting against glass, connecting other fixing pieces or turning over a window frame at the indoor side.

The utility model also discloses a window frame structure, window frame structural mounting has foretell stand, solves among the prior art technical problem that window frame and casement set up independent stand respectively.

Furthermore, the utility model also discloses a window of adopting above-mentioned window frame structure, the packaging efficiency is high during this window production and construction, and the production consumptive material is few.

According to the technical scheme provided by the utility model, stand, window frame structure and window that technical scheme provided have obtained following beneficial effect:

the stand column, the window frame structure and the window have high assembly efficiency, are convenient for indoor glass replacement, and reduce the difficulty of window installation and glass replacement; the upright post is of a split structure and comprises a first sub-upright post, a second sub-upright post and a connecting part for connecting the first sub-upright post and the second sub-upright post, and the first sub-upright post, the second sub-upright post and the connecting part can be spliced and assembled to form the upright post; based on the installation position of the upright post, the second subsidiary upright post is provided with two structures which are respectively assembled with the first subsidiary upright post and the connecting part to be used as a longitudinal mullion and an edge upright post of the window; the utility model discloses a set up the stand into the split type structure that can splice the equipment, be favorable to processing equipment, transmission transportation and the installation site equipment of the production window subassembly of mill, the packaging efficiency of stand and other subassemblies when showing the installation of improvement window site.

And, because the stand sets up to split type structure, can avoid setting up many integral stands on window frame and casement in step, adopt split type stand to replace many integral stands among the prior art, compare and reduce aluminum alloy consumptive material volume and reach 35% in prior art. In addition, due to the adoption of a split type upright post structure, a window frame and a window sash can be synchronously installed on a window installation site and are fixed at the matching part of the first branch upright post and the second branch upright post, and the on-site installation efficiency of the window is further improved.

It should be understood that all combinations of the foregoing concepts and additional concepts described in greater detail below can be considered as part of the inventive subject matter of the present disclosure unless such concepts are mutually inconsistent.

The foregoing and other aspects, embodiments and features of the present teachings can be more fully understood from the following description taken in conjunction with the accompanying drawings. Additional aspects of the present invention, such as features and/or advantages of exemplary embodiments, will be apparent from the description which follows, or may be learned by practice of the specific embodiments in accordance with the teachings of the present invention.

Drawings

The drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures may be represented by a like numeral. For purposes of clarity, not every component may be labeled in every drawing. Embodiments of various aspects of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a detailed structure diagram of a first branch post of the present invention;

FIG. 2(a) is a detailed structure diagram of a second sub-column of the present invention;

FIG. 2(b) is a detailed structure diagram of a second sub-column of the present invention;

FIG. 3 is a detailed structure diagram of the upright of the present invention;

FIG. 4 is a detailed structure diagram of the upright of the present invention;

FIG. 5 is a view showing the installation structure of the hollow glass and the pillar in FIG. 3;

fig. 6 is a view showing an installation structure of the pillar and the insulating glass in fig. 4.

In the figure, the specific meaning of each mark is:

1-first sub-column, 1.1-first section bar component, 1.2-second section bar component, 1.3-glass baffle, 1.4-nylon groove, 1.5-first heat insulation strip, 2-second sub-column, 2.1-third section bar component, 2.2-fourth section bar component, 2.3-second heat insulation strip, 3-connecting part, 3.1-first cover plate, 3.2-second cover plate, 3.3-first clamping groove, 3.4-second clamping groove, 3.5-third clamping groove, 5-glass, 6-glass clamping piece and 7-foam bar.

Detailed Description

For a better understanding of the technical content of the present invention, specific embodiments are described below in conjunction with the accompanying drawings.

In this disclosure, aspects of the present invention are described with reference to the accompanying drawings, in which a number of illustrative embodiments are shown. Embodiments of the present disclosure are not intended to include all aspects of the present invention. It should be appreciated that the various concepts and embodiments described above, as well as those described in greater detail below, may be implemented in any of numerous ways, as the disclosed concepts and embodiments are not limited to any implementation. Additionally, some aspects of the present disclosure may be used alone or in any suitable combination with other aspects of the present disclosure.

Based on the technical problems that the upright posts in the prior art mainly adopt an integral structure, the window width and the window sash are respectively provided with the integral upright posts, so that the efficiency of window production, processing and assembly and field assembly is low, and the material consumption for preparation is high; the utility model aims at providing a stand, this stand sets up to split type but mosaic structure, replaces the integral stand among the prior art on window frame and the casement, reduces the preparation consumptive material of window, is showing the packaging efficiency who improves mill's processing branch stand and assemble into stand and stand scene and other window subassemblies.

The following description will be made in detail with reference to the accompanying drawings, which illustrate the pillar, the window frame structure and the window of the present invention.

Referring to fig. 3, the column is a split structure, and includes a first sub-column 1, a second sub-column 2, and a connecting portion 3 for connecting the first sub-column 1 and the second sub-column 2; the first sub-upright post 1, the second sub-upright post 2 and the connecting part 3 can be spliced and assembled to form the upright post. The stand column of the utility model adopts a split design and is divided into three components, so that the whole window can be quickly assembled by the stand column after the production of each component of the window is finished in a factory, the stand column is further assembled with other window components to be transported to a construction site, and the factory assembly efficiency is obviously improved; simultaneously, the split type structure of stand replaces and sets up many integral stands simultaneously on window frame and casement among the prior art, compares and reduces the aluminum alloy consumptive material volume and reach 35% in prior art, is showing the aluminum alloy consumptive material volume that reduces the stand and make.

In connection with the embodiment shown in fig. 1, the first sub-column 1 includes a first profile component 1.1, a second profile component 1.2, and a first insulating strip 1.5 for connecting the first profile component 1.1 and the second profile component 1.2, which are parallel and disposed correspondingly in the longitudinal direction, and a first bridge-cut structure is formed among the first profile component 1.1, the second profile component 1.2, and the first insulating strip 1.5; the transverse sections of the first profile component 1.1 and the second profile component 1.2 are both of a first U-shaped structure, the openings of the first profile component 1.1 and the second profile component 1.2 are in the same direction, the first profile component 1.1 is installed close to the indoor side, and the second profile component 1.2 is installed close to the outdoor side; the first bridge cut-off structure formed by assembling the first profile component 1.1, the second profile component 1.2 and the first heat insulation strip 1.5 is beneficial to improving the heat insulation performance and the heat preservation performance of the first sub-column 1; meanwhile, a factory adopts a standardized die to manufacture the sub assemblies of the stand columns in batches, and the first section component 1.1 and the second section component 1.2 can be formed by aluminum alloy materials of different types during preparation, so that the overall heat dissipation efficiency of the first sub-stand column 1 is further reduced.

With reference to the embodiments shown in fig. 3 and 5, when the vertical column is a longitudinal mullion of a window, two sides of the longitudinal mullion are respectively provided with glass 5, and at this time, the second sub-vertical column 2 is parallel and corresponding to the first sub-vertical column 1, and the second sub-vertical column 2 has the same structure as the first sub-vertical column 1; the opening orientation of the first section bar component 1.1 and the second section bar component 1.2 on the second section bar column 2 is opposite to the opening orientation of the first section bar component 1.1 and the second section bar component 1.2 on the first section bar column 1, and the second section bar column 2 is correspondingly spliced at the opening end along the longitudinal direction and the first section bar column 1.1 and forms a main body structure of the longitudinal mullion.

As further shown in fig. 3, the connecting portion 3 of the longitudinal mullion includes a first cover plate 3.1 and a second cover plate 3.2 which are arranged in parallel along the longitudinal direction, the transverse cross sections of the first cover plate 3.1 and the second cover plate 3.2 are both i-shaped, and the first cover plate 3.1 and the second cover plate 3.2 are respectively arranged at the splicing positions of the first sub-column 1 and the second sub-column 2 along the longitudinal portion. The concrete connection structure is as follows: two first clamping grooves 3.3 formed in the longitudinal direction on two sides of the I-shaped structure of the first cover plate 3.1 are respectively clamped with a wing plate of the first section component 1.1 on the first sub-column 1, which is far away from the second section component 1.2, and a wing plate of the first section component 1.1 on the second sub-column 2, which is far away from the second section component 1.2; the pterygoid lamina that the pterygoid lamina of first section bar part 1.1 was kept away from to two second draw-in grooves 3.4 that vertical formation was followed in both sides of second apron 3.2I-shaped structure on 1 respectively with first branch stand 1 second section bar part 1.2, the pterygoid lamina joint that first section bar part 1.1 was kept away from to second section bar part 1.2 on the second branch stand 2. First apron 3.1 and second apron 3.2 are fixed back with first branch stand column 1 and second branch stand column 2 for vertical well club is inside along vertically constituting two confined cavity structures, and cavity structure's horizontal cross-section is the rectangle structure, and cavity structure is favorable to improving vertical well heat preservation performance and the ability of noise absorption of club.

Generally, in the specific implementation process, after the first cover plate 3.1 and the second cover plate 3.2 are respectively clamped with the first sub-column 1 and the second sub-column 2, a sealant is further coated at the clamping matching position to enhance the sealing effect. In addition, in the concrete implementation process, a plurality of first heat insulation strips 1.5 are arranged between the first profile component 1.1 and the second profile component 1.2 in the first sub-column 1 at intervals, and a cavity structure is formed between the adjacent first heat insulation strips 1.5 along the longitudinal direction, so that the heat insulation performance and the noise absorption capability of the longitudinal mullion are further improved by the cavity structure.

With reference to the embodiments shown in fig. 2(a), 2(b), 4 and 6, when the pillar is a side pillar, the second sub-pillar 2 of the side pillar is connected to a building wall to serve as a window frame pillar connected to the building wall, and the first sub-pillar 1 of the side pillar is installed with a glass 5 to serve as a window sash pillar matched with a window frame. The second subsidiary columns 2 are parallel and correspond to the first subsidiary columns 1 and comprise third profile parts 2.1 and fourth profile parts 2.2 which are longitudinally parallel and correspondingly arranged, and second heat insulation strips 2.3 used for connecting the third profile parts 2.1 and the fourth profile parts 2.2, wherein a second bridge cut-off structure is formed among the third profile parts 2.1, the fourth profile parts 2.2 and the second heat insulation strips 2.3, and the second bridge cut-off structure is favorable for improving the heat insulation performance and the heat preservation performance of the second subsidiary columns 2; the transverse sections of the third profile component 2.1 and the fourth profile component 2.2 are both set to be L-shaped structures, the third profile component 2.1, the fourth profile component 2.2 and the second heat insulation strip 2.3 form a second sub-column 1.2 with a transverse section of a second U-shaped structure, the third profile component 2.1 is installed close to the indoor side, and the fourth profile component 2.2 is installed close to the outdoor side; the opening of the second U-shaped structure on the second branch upright post 2 is opposite to the opening of the first U-shaped structure on the first branch upright post 1 in the direction, and the second U-shaped structure and the opening end of the first U-shaped structure are correspondingly spliced with the first branch upright post 1 along the longitudinal direction to form the main body of the side upright post.

As further shown in connection with fig. 4, the connection part 3 of the discrete pole is arranged inside the second U-shaped structure on the second partial pillar 2 and forms, in the longitudinal direction, two third snapping grooves 3.5 opening towards the first partial pillar 1 with the opposite side walls of the second U-shaped structure on the second partial pillar 2; and the end wing plates, far away from each other, of the first profile component 1.1 and the second profile component 1.2 on the first branch column 1 are respectively inserted into the two third clamping grooves 3.5. After the first sub-upright post 1 and the second sub-upright post 2 are fixed, two closed cavity structures with rectangular cross sections are formed inside the sub-upright posts along the longitudinal direction, and the cavity structures are favorable for improving the heat insulation performance and the noise absorption capacity of the side upright posts; and the structure of the connecting part 3 in the sub-vertical column is beneficial to ensuring that the second sub-vertical column 2 can always form a closed chamber structure with the first sub-vertical column 1 along the longitudinal direction under the condition of hydraulic deformation when being installed with a wall body.

In the specific embodiment, a plurality of second heat insulating strips 2.3 are arranged between the third profile component 2.1 and the fourth profile component 2.2 at intervals, and the adjacent second heat insulating strips 2.3 form a cavity structure along the longitudinal direction, so that the heat insulating performance and the noise absorbing capacity of the side column are further improved by the cavity structure. In some embodiments, the third profile part 2.1 and the fourth profile part 2.2 are directly connected by an O-shaped heat insulation strip with a more stable connection effect. In addition, the side column is connected with the wall body, a foam rod 7 is adopted to form a foam layer to reinforce and fill the installation gap between the second sub-column 2 and the wall body, and the gap between the side column and the wall body is avoided.

With further reference to the embodiment shown in fig. 4, the connecting portion 3 is disposed inside the second U-shaped structure on the second sub-column 2 and forms two third snapping grooves 3.5 which are opened towards the first sub-column 1 with the opposite side walls of the second U-shaped structure on the second sub-column 2 along the longitudinal direction; the side walls of the end of the first section bar component 1.1 far away from the second section bar component 1.3 on the first branch column 1 are respectively inserted into the two third clamping grooves 3.5. In this embodiment, the connection portion 3 and the second subsidiary column 2 form the third slot for connecting the first subsidiary column 1, which is beneficial to ensure that when the second subsidiary column 2 is connected with the floor, the third slot and the first subsidiary column 1 can always form a closed chamber structure along the longitudinal direction under the condition of hydraulic deformation.

In some embodiments, the third and fourth profile parts 2.1, 2.2 of the second sub-column 2 are made of different types of aluminum alloys in order to further reduce the heat transfer efficiency of the side column.

With further reference to the embodiments shown in fig. 5 and 6, the half-enclosed space formed by the first U-shaped structure of the first profile element 1.1 and the second profile element 1.3 in the longitudinal direction is defined as the inner side, and the space outside the half-enclosed space is defined as the outer side; the outer side of the web plate of the first profile part 1.1 is longitudinally provided with a plurality of nylon grooves 1.4, and the nylon grooves 1.4 are used for installing glass clamping pieces 6 which are abutted to glass 5 at the indoor side and connecting other fixing pieces or a window frame of a tilt-up window. A glass baffle plate 1.3 used for abutting against the glass 5 is arranged on the outer side of the web plate of the second profile component 1.2 along the longitudinal direction, and the glass baffle plate 1.3 is vertically connected to the web plate of the second profile component 1.2; in the specific implementation process, in order to prevent the surface of the glass 5 from being scratched due to the direct contact of the glass baffle 1.3 and the glass 5, a rubber cushion block is arranged at the matching part of the glass baffle 1.3 and the glass 5; in the embodiment, the glass 5 is made of hollow glass, a foam rod 7 is arranged at the matching position of the hollow glass and the upright column to fill the installation gap, the matching position of the indoor side glass 5 is sealed by sealant, and the matching position of the outdoor side glass 5 is sealed by a sealing rubber strip. Hollow glass has glass baffle 1.3 to support being close to outdoor side, is being close to indoor side and is being provided with 6 chucking of glass fastener and fix, can directly install the change indoor when hollow glass consume needs to be changed, reduces the installation and changes the degree of difficulty, reduces the installation risk. In addition, the first profile part 1.1 and the second profile part 1.2 of the first sub-column 1, and the third profile part 2.1 and the fourth profile part 2.2 of the second sub-column 2 are all internally provided with a plurality of reinforcing ribs, and the reinforcing ribs are used for reinforcing the structural strength of the first sub-column 1 and the second sub-column 2 on one hand, and are used for positioning the connecting pieces when the first sub-column 1 and the second sub-column 2 are connected with other structures on the other hand.

For solving prior art middle standing pillar and adopting monolithic structure, the preparation consumptive material is more, the technical problem of the inefficiency of production and processing equipment and field assembly, the utility model also discloses a window frame structure of installing above-mentioned stand, this window frame structure is through using split type stand, when the window frame structure carries out field assembly, can install the window frame and the casement that are equipped with a branch stand respectively fast in step, again at first branch stand 1 and 2 cooperation departments lug connection window frames and casement of second branch stand, the concatenation constitutes a stand, is showing and is improving window field assembly efficiency, reduces the aluminum alloy consumptive material quantity of manufacturing the stand.

For solving prior art middle standing pillar and adopting monolithic structure, the preparation consumptive material is more, the technical problem of the inefficiency of production and processing equipment and field assembly, the utility model also discloses a window of installing above-mentioned window frame structure, this window is assembled efficiently when installing on-the-spot production and construction, and the production consumptive material is few.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The present invention is intended to cover by those skilled in the art various modifications and adaptations of the invention without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention is subject to the claims.

Claims (10)

1. A stand column is characterized in that the stand column is arranged into a split structure and comprises

A first branch post;

a second subsidiary column;

the connecting part is used for connecting the first branch upright post and the second branch upright post;

the first branch upright post, the second branch upright post and the connecting part can be spliced and assembled to form the upright post.

2. The column according to claim 1, wherein the first sub-column comprises a first profile component, a second profile component and a first heat insulation strip, wherein the first profile component and the second profile component are arranged in parallel and corresponding along the longitudinal direction, the first heat insulation strip is used for connecting the first profile component and the second profile component, and a first bridge cut-off structure is formed among the first profile component, the second profile component and the first heat insulation strip;

the transverse sections of the first profile component and the second profile component are both of a first U-shaped structure, the opening directions of the first profile component and the second profile component are the same, the first profile component is installed close to the indoor space, and the second profile component is installed close to the outdoor space.

3. The column according to claim 2, wherein the second sub-column is parallel and corresponding to the first sub-column, and the second sub-column is identical in structure to the first sub-column;

the opening directions of the first profile component and the second profile component on the second split column are opposite to the opening directions of the first profile component and the second profile component on the first split column, and the second split column is correspondingly spliced with the first split column at the opening end along the longitudinal direction.

4. The column according to claim 3, wherein the connecting part comprises a first cover plate and a second cover plate which are arranged in parallel along the longitudinal direction, the transverse cross section of the first cover plate and the transverse cross section of the second cover plate are I-shaped, and the first cover plate and the second cover plate are respectively arranged at the splicing positions of the first sub-column and the second sub-column along the longitudinal part;

the both sides of first apron I-shaped structure are along two first draw-in grooves of vertical formation respectively with first section bar part on the first branch stand keep away from the pterygoid lamina of second section bar part, the pterygoid lamina joint of second section bar part is kept away from to first section bar part on the second branch stand, the pterygoid lamina joint of first section bar part is kept away from to second section bar part on the both sides of second apron I-shaped structure along two second draw-in grooves of vertical formation respectively with first branch stand on second section bar part keep away from the pterygoid lamina of first section bar part, the second branch stand on the second section bar part.

5. The column according to claim 2, wherein the second sub-column is parallel and corresponding to the first sub-column, and comprises a third profile component, a fourth profile component and a second heat insulation strip for connecting the third profile component and the fourth profile component, which are parallel and corresponding to each other in the longitudinal direction, wherein a second bridge cut-off structure is formed among the third profile component, the fourth profile component and the second heat insulation strip;

the transverse sections of the third section component and the fourth section component are both set to be L-shaped structures, the third section component, the fourth section component and the second heat insulation strip form a second branch upright post with the transverse section of a second U-shaped structure, the third section component is installed close to the indoor space, and the fourth section component is installed close to the outdoor space.

6. The column according to claim 5, wherein the opening of the second U-shaped structure on the second sub-column faces opposite to the opening of the first U-shaped structure on the first sub-column and is longitudinally spliced with the first sub-column at the opening ends of the second U-shaped structure and the first U-shaped structure.

7. The column according to claim 6, wherein the connecting part is arranged inside the second U-shaped structure on the second sub-column and forms two third clamping grooves which are opened towards the first sub-column with the opposite side walls of the second U-shaped structure on the second sub-column along the longitudinal direction; and wing plates at one ends, far away from each other, of the first profile component and the second profile component on the first branch column are respectively inserted into the two third clamping grooves.

8. A pillar according to claim 2, characterized in that the half-enclosed space formed in the longitudinal direction of the first U-shaped structure defining the first profile member and the second profile member is the inner side, and the space outside the half-enclosed space is the outer side;

the outer side of the web plate of the first profile component is longitudinally provided with a plurality of nylon slots, the outer side of the web plate of the second profile component is longitudinally provided with a glass baffle plate used for abutting glass, and the glass baffle plate is vertically connected to the web plate of the second profile component.

9. A window frame structure, characterized in that the window frame structure is fitted with a stud according to any one of claims 1 to 8.

10. A window, characterized in that it comprises a frame structure according to claim 9.

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