CN117306993A - Mounting structure of arc window - Google Patents

Abstract

The application provides a mounting structure of arc window relates to door and window technical field, and its technical scheme main points are: the glass frame comprises frame bodies which are of bridge-cut-off structures, wherein glass mounting areas are arranged between the frame bodies, the frame bodies comprise first frames and second frames which are parallel to each other from outdoor to indoor and are spliced, and the first frames are connected with a wall body; the first frame comprises a first frame part which is close to the wall body and provided with a first inner cavity, and a first limit part which is far away from the wall body, extends and is connected with the first frame part, the first frame part and the first limit part surround to form a first containing cavity, and the first containing cavity is provided with a first opening towards the indoor. The mounting structure of the arc window has the advantages of preventing glass with small radius and large arc length from interfering with the arc window in the process of mounting rotation and avoiding the glass from being incapable of smoothly rotating into the frame.

Description

Mounting structure of arc window

Technical Field

The application relates to the technical field of doors and windows, in particular to an installation structure of an arc-shaped window.

Background

The arc window with smaller radius and longer arc length commonly seen in the market can lead to the fact that glass cannot be installed from the window, structural interference points can exist, namely interference is generated between the glass and the frame of the arc window, the installation rotation track of the glass is interfered or even blocked, and the glass cannot be installed smoothly.

In view of the above, improvements are needed.

Disclosure of Invention

An object of the application is to provide an arc window's mounting structure, have and prevent that small radius, big arc length's glass from producing the advantage that interferes, avoid glass unable smooth turning into in the frame with the arc window at the rotatory in-process of installation.

The application provides a mounting structure of arc window for realize that glass is rotatory at the installation of arc window, technical scheme is as follows:

the glass frame comprises frame bodies in a bridge-cut-off structure, wherein a glass mounting area is arranged between the frame bodies, each frame body comprises a first frame and a second frame which are mutually parallel from outdoor to indoor and are spliced, and the first frame is connected with a wall body;

the first frame comprises a first frame part which is close to the wall body and provided with a first inner cavity, and a first limit part which is far away from the wall body and is connected with the first frame part, the first frame part and the first limit part surround to form a first containing cavity, and a first opening is formed in the first containing cavity towards the indoor direction;

The second frame comprises a second frame part and a second limit part which is arranged far away from the wall body in an extending way and connected with the second frame part;

one side of the glass is installed in the first opening, the other side of the glass rotates to enter the opposite first opening, the first limiting part is abutted against one surface of the glass facing the outside, and the second limiting part is abutted against one surface of the glass facing the inside;

the first frame portion is provided with first connecting portion towards indoor, the second frame portion is provided with second connecting portion towards outdoor correspondence, first connecting portion with second connecting portion adaptation connection.

The mounting structure of the arc window is used for realizing the mounting rotation of glass on the arc window, comprises frame bodies which are of bridge-cut-off structures, wherein glass mounting areas are arranged between the frame bodies and used for providing mounting space for the mounting of the glass, the frame bodies comprise a first frame and a second frame which are mutually parallel and spliced from outdoor to indoor, the first frame is connected with a wall body, the connection and fixation between the integral structure and the wall body are realized, and a firm structural foundation is provided for the subsequent mounting of the glass; the first frame comprises a first frame part which is close to the wall body and provided with a first inner cavity, and a first limiting part which is far away from the wall body, extends and is connected with the first frame part, the first frame part and the first limiting part surround to form a first containing cavity, and the first containing cavity is provided with a first opening towards the indoor. The first opening is used for loading and connecting glass, and the first accommodating cavity is used for providing space for loading and extending glass, so that sufficient installation space is ensured; the second frame comprises a second frame part and a second limiting part which is arranged far away from the wall body in an extending way and connected with the second frame part, and the second limiting part is used for directly or indirectly abutting against the glass to ensure the stable function of the glass after installation; one side of the glass is provided with a first opening, the other side of the glass rotates to enter the opposite first opening, the first limiting part is abutted against one surface of the glass facing outdoors, and the second limiting part is abutted against one surface of the glass facing indoors, so that bidirectional surface limiting of the glass is realized, the glass is prevented from shaking or shifting in the daily use process, and the stability and the firmness of the glass after installation are ensured; the first frame portion is provided with first connecting portion towards indoor, and the second frame portion is provided with second connecting portion towards outdoor correspondence, and first connecting portion and second connecting portion adaptation are connected, then are used for realizing being connected between first frame and the second frame. On the basis of the structure, through dividing the frame body into two parts, namely a first frame and a second frame, and loading one side of glass into the first frame, wherein the first frame is used as a rotating pivot of the glass, the other side of the glass rotates into the opposite first frame, interference is prevented from being generated between the glass and the frame body on the basis of the layered structure of the first frame and the second frame, the installation rotating track of the glass is prevented from being interfered, the glass cannot be smoothly installed, and in addition, the second frame is abutted to the glass, so that the rotating installation of the glass is firmer and more reliable, and the smooth installation of the glass is realized. Through the structure, the problem that glass with small radius and large arc length can not smoothly rotate into the frame due to interference with the arc window in the installation and rotation process is prevented.

Further, in the application, the glass manufacturing device further comprises a pressing strip, wherein the pressing strip is arranged between the second limiting part and the glass, and the length of the pressing strip corresponds to the length of the first limiting part;

a first clamping groove is formed in one side, close to the second limiting part, of the pressing strip, a first clamping block is arranged at the free end of the second limiting part, and the first clamping block is in clamping fit with the first clamping groove;

and a third limiting part is arranged on one side of the pressing strip, facing the first limiting part, and the third limiting part is abutted to act on one surface of the glass, facing the room.

The mounting structure of the arc-shaped window further comprises a pressing strip, wherein the pressing strip is arranged between the second limiting part and the glass, the length of the pressing strip corresponds to the length of the first limiting part, the structure formed by the pressing strip and the second frame is kept flush with the integral structure of the first frame, the attractive appearance is prevented from being influenced, and meanwhile the application of balanced acting force to the glass is ensured; a first clamping groove is formed in one side, close to the second limiting part, of the pressing strip, a first clamping block is arranged at the free end of the second limiting part, and the first clamping block is matched with the first clamping groove in a clamping manner, so that a convenient connection structure between the pressing strip and the second limiting part is formed, namely, a convenient connection structure between the pressing strip and the second frame is formed, and the pressing strip is convenient to overhaul, replace or install and detach normally; the layering is provided with third spacing portion towards one side of first spacing portion, third spacing portion butt is acted on glass and is faced indoor one side, then be used for playing stable butt effect to glass to work with first spacing portion, play balanced and stable butt effort respectively towards indoor, outdoor two sides to glass, through regard as the structure of extra interpolation to the layering, make it be located glass's installation rotation track scope, and make it operate the installation as subsequent mounting structure, thereby make glass can install smoothly, also guarantee the stability after the installation, simultaneously, avoid having the installation visual angle blind area, prevent that the frame body after the installation is accomplished from having dislocation or the phenomenon that the flush degree lacks.

Further, in the present application, a distance between the first stopper portion and the first frame portion is larger than a loading length of the glass; correspondingly, the distance between the third limiting part and the second limiting part is larger than the loading length of the glass.

According to the mounting structure of the arc-shaped window, the distance between the first limiting part and the first frame part is set to be larger than the loading length of glass; correspondingly, the distance between the third limiting part and the second limiting part is set to be larger than the loading length of the glass, so that the glass can be fully loaded, after the glass is loaded, the first limiting part and the third limiting part are respectively and stably abutted to the two sides of the glass, which are respectively oriented outdoors and indoors, so that the stability and the firmness of the glass after the glass is mounted are ensured.

Further, in the present application, a first buffer is connected to the first limiting portion, and the first buffer is abutted against a surface of the glass facing the outside;

the third limiting part is connected with a second buffer piece, and the second buffer piece is abutted to act on one surface of the glass facing the indoor.

According to the mounting structure of the arc-shaped window, the first limiting part is connected with the first buffer piece, and the first buffer piece is abutted to the surface of the glass facing outdoors; the third limiting part is connected with a second buffer piece, and the second buffer piece is abutted to one surface of the glass facing the room. In the process of loading glass, certain inertia exists, the glass is a relatively fragile material, and in order to ensure that the glass has sufficient safety guarantee in the process of loading, the first buffer piece and the second buffer piece are respectively arranged to realize the buffer effect on the glass during loading, so that the glass can obtain good buffer effects on both sides of the glass facing outdoors and indoors, and the glass is prevented from being damaged due to overlarge inertia or other factors, and the installation quality of the glass is prevented from being influenced.

Further, in the application, a second clamping block is arranged at the connecting end of the first buffer piece, a second clamping groove is formed in the first limiting part, and the second clamping block is in clamping fit with the second clamping groove; the action end of the first buffer piece is provided with a plurality of pin-shaped bulges made of elastic materials, and the pin-shaped bulges are abutted against one surface of the glass facing the outside;

the connecting end of the second buffer piece is provided with a third clamping groove, the third limiting part is provided with a third clamping block, and the third clamping block is in clamping fit with the third clamping groove; the action end of the second buffer piece is provided with a gasket made of elastic materials, and the gasket is abutted to act on one surface of the glass facing the indoor.

Further, in this application, the second frame portion includes indoor frame portion, heat insulating strip and the outdoor frame portion that sets up from indoor towards outdoor, indoor frame portion, and outdoor frame portion is provided with the spacing groove of inversion trapezoidal form at the outer wall of mutual orientation, the both sides of heat insulating strip correspond respectively and are provided with the stopper of inversion trapezoidal form, the both sides the stopper respectively with the same side of each spacing groove joint cooperation.

Further, in the application, the device further comprises a gland, wherein guide strips are symmetrically arranged at two ends of one side of the gland facing the outside, and the distance between the two guide strips is smaller than the length of the gland;

the indoor frame portion is provided with a second opening at one side facing the indoor, the distance between the two guide strips corresponds to the width of the second opening, and the gland is in plug-in fit with the second opening through the guide strips.

Further, in this application, the guide way of just putting the trapezoidal form is offered towards indoor to first frame portion, the guide block of just putting the trapezoidal form is offered towards outdoor to outdoor frame portion, the guide block with the guide way grafting cooperation, the free end of guide block keeps the parallel and level with the inside bottom of guide way.

Further, in the application, a first connecting hole is formed in one side, close to the wall, of the first frame portion, and the first connecting hole is connected with the wall through a bolt.

Further, in the application, a first support leg is extended from one side of the first frame part, which is close to the wall, and a first bottom plate is extended from the first support leg along a direction parallel to the wall, and a gap is reserved between the first bottom plate and the first frame part;

Correspondingly, one side of the second frame part, which is close to the wall body, is provided with a second support leg in an extending mode, wherein the second support leg is provided with a second bottom plate in an extending mode along the direction parallel to the first bottom plate, and the second bottom plate is kept flush with the first bottom plate.

From the above, the installation structure of the arc window is used for realizing the installation rotation of glass on the arc window, and comprises frame bodies with bridge-cut-off structures, wherein glass installation areas are arranged between the frame bodies and used for providing installation space for the installation of glass, the frame bodies comprise a first frame and a second frame which are mutually parallel and spliced from outdoor to indoor, the first frame is connected with a wall body, the connection fixation between an integral structure and the wall body is realized, and a firm structural foundation is provided for the subsequent installation of glass; the first frame comprises a first frame part which is close to the wall body and provided with a first inner cavity, and a first limiting part which is far away from the wall body, extends and is connected with the first frame part, the first frame part and the first limiting part surround to form a first containing cavity, and the first containing cavity is provided with a first opening towards the indoor. The first opening is used for loading and connecting glass, and the first accommodating cavity is used for providing space for loading and extending glass, so that sufficient installation space is ensured; the second frame comprises a second frame part and a second limiting part which is arranged far away from the wall body in an extending way and connected with the second frame part, and the second limiting part is used for directly or indirectly abutting against the glass to ensure the stable function of the glass after installation; one side of the glass is provided with a first opening, the other side of the glass rotates to enter the opposite first opening, the first limiting part is abutted against one surface of the glass facing outdoors, and the second limiting part is abutted against one surface of the glass facing indoors, so that bidirectional surface limiting of the glass is realized, the glass is prevented from shaking or shifting in the daily use process, and the stability and the firmness of the glass after installation are ensured; the first frame portion is provided with first connecting portion towards indoor, and the second frame portion is provided with second connecting portion towards outdoor correspondence, and first connecting portion and second connecting portion adaptation are connected, then are used for realizing being connected between first frame and the second frame. On the basis of the structure, through dividing the frame body into two parts, namely a first frame and a second frame, and loading one side of glass into the first frame, wherein the first frame is used as a rotating pivot of the glass, the other side of the glass rotates into the opposite first frame, interference is prevented from being generated between the glass and the frame body on the basis of the layered structure of the first frame and the second frame, the installation rotating track of the glass is prevented from being interfered, the glass cannot be smoothly installed, and in addition, the second frame is abutted to the glass, so that the rotating installation of the glass is firmer and more reliable, and the smooth installation of the glass is realized. Through the structure, the problem that glass with small radius and large arc length can not smoothly rotate into the frame due to interference with the arc window in the process of installation and rotation is prevented; the structure formed by the pressing strip and the second frame is kept level with the integral structure of the first frame, thereby preventing the influence on the appearance and simultaneously ensuring the application of balanced acting force to the glass; a first clamping groove is formed in one side, close to the second limiting part, of the pressing strip, a first clamping block is arranged at the free end of the second limiting part, and the first clamping block is matched with the first clamping groove in a clamping manner, so that a convenient connection structure between the pressing strip and the second limiting part is formed, namely, a convenient connection structure between the pressing strip and the second frame is formed, and the pressing strip is convenient to overhaul, replace or install and detach normally; the third limiting part is arranged on one side of the pressing strip, facing the first limiting part, of the glass, and the third limiting part is abutted against one side, facing the indoor, of the glass, so that the third limiting part is used for playing a stable abutting action on the glass, and is in working cooperation with the first limiting part, balanced and stable abutting acting forces are respectively played on two sides, facing the indoor and the outdoor, of the glass, the pressing strip is used as an additional structure, is positioned in the installation rotation track range of the glass, and is used as a subsequent installation structure for operation installation, so that the glass can be smoothly installed, the stability after installation is ensured, meanwhile, the dead zone of an installation view angle is avoided, and the phenomenon that the frame body after the installation is completed is misplaced or lack of the flatness is prevented; the distance between the first limiting part and the first frame part is set to be larger than the loading length of the glass; correspondingly, the distance between the third limiting part and the second limiting part is set to be larger than the loading length of the glass, so that the glass can be fully loaded, after the glass is loaded, the first limiting part and the third limiting part can be respectively and stably abutted to the two sides of the glass facing outdoors and indoors, so that the stability and the firmness of the glass after being mounted are ensured; the first limiting part is connected with a first buffer piece, and the first buffer piece is abutted against one surface of the glass facing the outside; the third limiting part is connected with a second buffer piece, and the second buffer piece is abutted to one surface of the glass facing the room. In the process of loading glass, certain inertia exists, the glass is a relatively fragile material, and in order to ensure that the glass has sufficient safety guarantee in the process of loading, the first buffer piece and the second buffer piece are respectively arranged to realize the buffer effect on the glass during loading, so that the glass can obtain good buffer effects on both sides of the glass facing outdoors and indoors, and the glass is prevented from being damaged due to overlarge inertia or other factors, and the installation quality of the glass is prevented from being influenced.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the embodiments of the application. The objects and other advantages of the present application may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

Fig. 1 is a schematic structural view of an installation structure of an arc window provided in the present application under a first view angle.

Fig. 2 is a schematic structural view of a mounting structure of an arc window provided in the present application under a second view angle.

Fig. 3 is an exploded view of a mounting structure for an arcuate window provided herein.

Fig. 4 is an installation schematic diagram of an installation structure of an arc window provided in the present application.

Fig. 5 is a schematic structural view of a first frame of a mounting structure of an arc window provided in the present application.

In the figure: 1. a first frame; 101. a first frame portion; 1011. a first lumen; 1012. a guide groove; 1013. a first connection hole; 1014. a first leg; 1015. a first base plate; 1016. a first mounting port; 102. a first limit part; 1021. a first cavity; 1022. a second clamping groove; 10211. a first opening; 2. a second frame; 21. a second frame portion; 201. a chamber outer frame portion; 2011. a second opening; 2012. a guide block; 202. a heat insulating strip; 2021. a limiting block; 203. a chamber inner frame portion; 2031. a second leg; 2032. a second base plate; 2101. a limit groove; 22. a second limit part; 2201. a first clamping block; 3. glass; 4. a gland; 401. a guide bar; 5. pressing strips; 501. a first clamping groove; 502. a third limit part; 5021. a third clamping block; 6. a first buffer member; 601. a second clamping block; 602. a pin-like protrusion; 7. a second buffer member; 701. a third clamping groove; 702. a gasket.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. The components of the present application, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 5, the present application provides an installation structure of an arc window, for implementing installation rotation of glass 3 on the arc window, including a frame body with a bridge-cut-off structure, wherein an installation area of the glass 3 is provided between the frame bodies, the frame body includes a first frame 1 and a second frame 2 which are parallel to each other and spliced from outdoor to indoor, and the first frame 1 is connected with a wall; the first frame 1 comprises a first frame part 101 which is close to a wall body and provided with a first inner cavity 1011, and a first limit part 102 which is far away from the wall body and is connected with the first frame part 101, wherein the first frame part 101 and the first limit part 102 surround to form a first containing cavity 1021, and the first containing cavity 1021 is provided with a first opening 10211 towards the indoor; the second frame 2 comprises a second frame part 21 and a second limit part 22 which is arranged away from the wall body in an extending way and is connected with the second frame part 21; one side of the glass 3 is installed in the first opening 10211, the other side of the glass 3 rotates to enter the opposite first opening 10211, the first limiting part 102 is abutted against one surface of the glass 3 facing the outside, and the second limiting part 22 is abutted against one surface of the glass 3 facing the inside; the first frame portion 101 is provided with a first connection portion towards indoor, the second frame portion 21 is provided with a second connection portion towards outdoor, and the first connection portion is connected with the second connection portion in an adaptive mode.

Specifically, the arc window with smaller radius and longer arc length commonly seen in the market can lead the glass 3 to be incapable of being installed from the window, structural interference points can exist, namely interference is generated between the glass 3 and the frame of the arc window, so that the installation rotation track of the glass 3 is interfered and even hindered, namely, the glass 3 with smaller radius and longer arc length commonly seen in the market can interfere with the frame of the arc window in the installation rotation process, so that the glass 3 can not rotate into the frame and further the glass 3 can not be smoothly installed, therefore, in order to solve the problems, and realize the installation rotation of the glass 3 in the arc window, the glass 3 comprises frame bodies with bridge-cut structures, wherein an installation area of the glass 3 is arranged between the frame bodies, an installation space is provided for the installation of the glass 3, the frame bodies comprise a first frame 1 and a second frame 2 which are mutually parallel and spliced from outdoors to indoors, the first frame 1 is connected with a wall body, the connection and the fixation between the whole structure and the wall body are realized, and a firm structural foundation is provided for the installation of the subsequent glass 3; the first frame 1 comprises a first frame part 101, which is close to a wall body and provided with a first inner cavity 1011, and a first limiting part 102, which is far away from the wall body and extends to be connected with the first frame part 101, wherein the first frame part 101 and the first limiting part 102 surround to form a first containing cavity 1021, and the first containing cavity 1021 is provided with a first opening 10211 towards the indoor. Wherein, the first opening 10211 is used for loading and connecting the glass 3, and the first accommodating cavity 1021 is used for providing space for loading and extending the glass 3, so as to ensure sufficient installation space; the second frame 2 comprises a second frame part 21 and a second limit part 22 which is arranged far away from the wall body in an extending way and connected with the second frame part 21, and the second limit part 22 is used for directly or indirectly abutting against the glass 3 to ensure the stable function of the glass 3 after installation; one side of the glass 3 is arranged in the first opening 10211, the other side of the glass 3 rotates to enter the opposite first opening 10211, the first limiting part 102 is abutted against one surface of the glass 3 facing outdoors, and the second limiting part 22 is abutted against one surface of the glass 3 facing indoors, so that bidirectional surface limiting of the glass 3 is realized, shaking or shifting of the glass 3 in the daily use process is prevented, and the stability and firmness of the glass 3 after installation are ensured; the first frame portion 101 is provided with a first connection portion towards indoor, the second frame portion 21 is provided with a second connection portion towards outdoor, and the first connection portion is connected with the second connection portion in an adaptive mode, and then the first frame portion is used for achieving connection between the first frame 1 and the second frame 2. On the basis of the structure, through dividing the frame body into two parts, namely a first frame 1 and a second frame 2, and one side of the glass 3 is installed in the first frame 1, at the moment, the first frame 1 is used as a rotating fulcrum of the glass 3, the other side of the glass 3 rotates to enter the opposite first frame 1, interference is prevented from being generated between the glass 3 and the frame body on the basis of the layered structure of the first frame 1 and the second frame 2, the installation rotating track of the glass 3 is prevented from being interfered, the glass 3 cannot be smoothly installed, and in addition, the second frame 2 is abutted to the glass 3, so that the rotating installation of the glass 3 is firmer and more reliable, and the smooth installation of the glass 3 is realized. Through the structure, the problem that the glass 3 with small radius and large arc length can not smoothly rotate into the frame is solved by preventing the interference between the glass 3 with small radius and large arc length and the arc window in the process of installation and rotation.

In some preferred embodiments, the glass-melting device further comprises a pressing strip 5, wherein the pressing strip 5 is arranged between the second limiting part 22 and the glass 3, and the length of the pressing strip 5 corresponds to the length of the first limiting part 102; a first clamping groove 501 is formed in one side, close to the second limiting part 22, of the pressing bar 5, a first clamping block 2201 is arranged at the free end of the second limiting part 22, and the first clamping block 2201 is in clamping fit with the first clamping groove 501; a third limiting part 502 is arranged on one side of the pressing bar 5 facing the first limiting part 102, and the third limiting part 502 is abutted against one surface of the glass 3 facing the indoor.

Specifically, in this embodiment, the device further includes a pressing strip 5, where the pressing strip 5 is disposed between the second limiting portion 22 and the glass 3, and the length of the pressing strip 5 corresponds to the length of the first limiting portion 102, so that the structure formed by the pressing strip 5 and the second frame 2 is kept flush with the integral structure of the first frame 1, thereby preventing the aesthetic appearance from being affected, and ensuring the application of an equilibrium force to the glass 3; a first clamping groove 501 is formed in one side, close to the second limiting part 22, of the pressing strip 5, a first clamping block 2201 is arranged at the free end of the second limiting part 22, and the first clamping block 2201 is matched with the first clamping groove 501 in a clamping manner, so that a convenient connection structure between the pressing strip 5 and the second limiting part 22, namely a convenient connection structure between the pressing strip 5 and the second frame 2, is formed, and is convenient to overhaul, replace or install normally; the layering 5 is provided with third spacing portion 502 towards one side of first spacing portion 102, third spacing portion 502 butt is acted on the indoor one side of glass 3 orientation, then be used for playing stable butt effect to glass 3, thereby work cooperation with first spacing portion 102, play balanced and stable butt effort respectively towards indoor, outdoor two sides of glass 3 orientation, through regard layering 5 as the structure of extra interpolation, make it be located the installation rotation track scope of glass 3, and make it operate the installation as subsequent mounting structure, thereby make glass 3 can install smoothly while also guarantee the stability after the installation, simultaneously, avoid having the installation visual angle blind area, prevent that the frame body after the installation is accomplished from having dislocation or the phenomenon that the flushness lacks.

In some preferred embodiments, the distance between the first stopper 102 and the first frame 101 is greater than the loading length of the glass 3; correspondingly, the distance between the third limit portion 502 and the second limit portion 22 is larger than the loading length of the glass 3.

Specifically, by setting the distance between the first stopper 102 and the first frame 101 to be larger than the loading length of the glass 3; correspondingly, setting the distance between the third limiting portion 502 and the second limiting portion 22 to be greater than the loading length of the glass 3 is used for ensuring that the glass 3 can be fully loaded, and after the glass 3 is loaded, ensuring that the first limiting portion 102 and the third limiting portion 502 can be respectively and stably abutted against two surfaces of the glass 3 facing outdoors and indoors, so as to ensure the stability and firmness of the glass 3 after installation. Here, the loading length of the glass 3 means a length of an end portion of the glass 3 to be inserted into the target position at the time of installation of the glass 3, and an end portion of the glass 3 to be inserted into the connection, that is, the loading length of the glass 3.

In some preferred embodiments, the first limiting portion 102 is connected to the first buffer 6, and the first buffer 6 is abutted against a surface of the glass 3 facing the outside; the third stopper 502 is connected to a second buffer 7, and the second buffer 7 is abutted against a surface of the glass 3 facing the room.

Specifically, in the present embodiment, the first stopper 102 is connected to the first buffer 6, and the first buffer 6 is abutted against the surface of the glass 3 facing the outside; the third stopper 502 is connected to a second buffer 7, and the second buffer 7 is abutted against a surface of the glass 3 facing the room. In the process of loading the glass 3, certain inertia exists, the glass 3 is a relatively fragile material, in order to ensure that the glass 3 has sufficient safety guarantee in the process of loading, the first buffer piece 6 and the second buffer piece 7 are respectively arranged to realize the buffer effect on the glass 3 in the process of loading, so that the glass 3 can obtain good buffer effects on both sides of the glass 3 facing outdoors and indoors, and the glass 3 is prevented from being damaged due to overlarge inertia or other factors, thereby influencing the installation quality of the glass 3.

In some preferred embodiments, the connecting end of the first buffer member 6 is provided with a second clamping block 601, the first limiting portion 102 is provided with a second clamping groove 1022, and the second clamping block 601 is in clamping fit with the second clamping groove 1022; the action end of the first buffer 6 is provided with a plurality of pin-shaped bulges 602 made of elastic materials, and the pin-shaped bulges 602 are abutted against one surface of the glass 3 facing the outside; the connecting end of the second buffer piece 7 is provided with a third clamping groove 701, the third limiting part 502 is provided with a third clamping block 5021, and the third clamping block 5021 is matched with the third clamping groove 701 in a clamping way; the second buffer 7 has a spacer 702 made of an elastic material at the working end thereof, and the spacer 702 is abutted against a surface of the glass 3 facing the room.

Specifically, since the elastic force of the first buffer member 6 and the second buffer member 7 may be lost due to long-term use, and stable buffer performance cannot be exerted any more, in order to facilitate maintenance and replacement between the components, in this embodiment, the connection end of the first buffer member 6 is provided with a second clamping block 601, the first limiting portion is provided with a second clamping groove 1022, and the second clamping block 601 is in clamping fit with the second clamping groove 1022, thereby realizing a convenient connection structure between the first limiting portion and the first buffer member 6, and simultaneously facilitating convenient maintenance and replacement of the first buffer member 6; the action end of the first buffer member 6 is provided with a plurality of pin-shaped bulges 602 made of elastic materials, and the pin-shaped bulges 602 are abutted against one surface of the glass 3 facing outdoors, wherein the pin-shaped bulges 602 ensure that the glass 3 is evenly and stably abutted, and meanwhile, a certain buffer space is provided for the installation of the glass 3 in the installation process of the glass 3, so that sufficient installation space is provided for the installation of the glass 3, and the smooth installation of the glass 3 is facilitated; the connecting end of the second buffer piece 7 is provided with a third clamping groove 701, the third limiting part 502 is provided with a third clamping block 5021, and the third clamping block 5021 is matched with the third clamping groove 701 in a clamping way, so that a convenient connecting structure between the third limiting part 502 and the second buffer piece 7 is formed, and meanwhile convenient maintenance and replacement of the second buffer piece 7 are facilitated; the gasket 702 made of elastic materials is arranged at the action end of the second buffer piece 7, and the gasket 702 is abutted against one surface of the glass 3 facing the room, so that an even and firm attaching type abutting action is achieved on the glass 3, and the stability and balance of the glass 3 after installation are ensured. More specifically, the elastic material includes, but is not limited to, plastic, rubber.

In some preferred embodiments, the second frame portion 21 includes an indoor frame portion 203 disposed from indoor to outdoor, a heat insulation strip 202, and an outdoor frame portion 201, the indoor frame portion 201 and the indoor frame portion 203 are provided with inverted trapezoid-shaped limiting grooves 2101 on mutually facing outer walls, two sides of the heat insulation strip 202 are respectively provided with inverted trapezoid-shaped limiting blocks 2021 correspondingly, and the limiting blocks 2021 on two sides are respectively engaged with the same-side limiting grooves 2101.

Specifically, in order to achieve other functions of the window and make the overall structure more complete, in this embodiment, the second frame portion 21 includes a indoor frame portion 203, a heat insulation strip 202, and an outdoor frame portion 201 that are disposed from indoor to outdoor, the indoor frame portion 201 and the indoor frame portion 203 are provided with limiting grooves 2101 in inverted trapezoid shapes on outer walls facing each other, and two sides of the heat insulation strip 202 are respectively provided with limiting blocks 2021 in inverted trapezoid shapes, where the inverted trapezoid shapes refer to inverted trapezoid shapes in which the limiting grooves 2101 on the indoor frame portion 203 are long at top edges and short at bottom edges from the perspective of the indoor frame portion 203 to the outdoor frame portion 201; the limit groove 2101 on the outdoor frame 201 has an inverted trapezoidal structure with a long top side and a short bottom side from the perspective of the outdoor frame 201 to the indoor frame 203. A stopper 2021 provided on the heat insulating strip 202 for connection to the indoor frame 203, the stopper 2021 having an inverted trapezoidal structure with a long top edge and a short bottom edge from the view of the indoor frame 203 to the heat insulating strip 202; the stopper 2021 for connecting to the outdoor frame 201 is provided on the heat insulating strip 202, and the stopper 2021 has an inverted trapezoidal structure with a long top side and a short bottom side from the viewpoint of the outdoor frame 201 toward the heat insulating strip 202. Limiting blocks 2021 on two sides are respectively matched with limiting grooves 2101 on the same sides in a clamping mode, so that the stability of indoor temperature is maintained, the heat dissipated by the frame body is reduced, meanwhile, through an inverted trapezoid clamping matching structure, convenient and stable connection among the outdoor frame 201, the heat insulation strips 202 and the indoor frame 203 is achieved, the heat insulation strips are used as strong and stable supporting structures, after connection, the heat insulation strips are used as a whole to bear load jointly, and the supporting strength and stability of the whole structure are improved. The transmission of noise can be effectively reduced under the cooperation with the glass 3.

More specifically, the heat insulating strip 202 may be made of nylon, so that the cost performance of the heat insulating strip 202 is higher, and the effects of reducing heat conduction, reducing heat dissipation, bearing load, preventing condensation and reducing noise are better exerted. In one of the preferred embodiments, the heat insulation strip 202 is a multi-cavity profile structure, i.e. the heat insulation strip 202 has a plurality of inner cavities, so that the overall structure is light, and meanwhile, the heat insulation strip has good structural strength and supporting performance, and in addition, the heat conduction can be reduced, and the indoor temperature can be effectively kept stable.

In some preferred embodiments, the device further comprises a gland 4, wherein guide strips 401 are symmetrically arranged at two ends of the side of the gland 4 facing the outside, and the distance between the two guide strips 401 is smaller than the length of the gland 4; the inner frame 203 is provided with a second opening 2011 on the side facing the room, the distance between the two guide strips 401 corresponds to the width of the second opening 2011, and the gland 4 is in plug-in fit with the second opening 2011 through the guide strips 401.

Specifically, in order to make the connection between the first frame 1 and the second frame 2 more compact and leave no gap, and simultaneously realize the guiding connection between the first frame 1 and the second frame 2, and also ensure the supporting strength of the whole structure, in this embodiment, the device further comprises a gland 4, two ends of the gland 4 facing the outdoor side are symmetrically provided with guiding strips 401, and the distance between the two guiding strips 401 is smaller than the length of the gland 4; the second opening 2011 is formed in one side of the indoor inner frame portion 203, the distance between the two guide strips 401 corresponds to the width of the second opening 2011, the gland 4 is in plug-in fit with the second opening 2011 through the guide strips 401, in the process, the gland 4 is used for guaranteeing good tightness of the whole device after installation and use, outside water vapor is prevented from invading the first frame 1 and the second frame 2, the service life and the quality of the whole structure are guaranteed, the second opening 2011 serves as an auxiliary installation area of other parts, the extension type installation of the other parts is facilitated, and meanwhile, the sealing connection of the gland 4 is used for positioning type. Through the structure, accurate quick connection between the first frame 1 and the second frame 2 is realized, and connection stability and supporting performance between the first frame 1 and the second frame 2 are also ensured. As one of the preferred embodiments, in this example, the width of the second opening 2011 is less than or equal to half the width of the second frame 2, thereby ensuring the overall structural strength of the second frame 2 and preventing the loss of strong supporting performance due to excessive dispersion of the structure. After the pressing cover 4 is in snap fit connection with the second opening 2011, the outer end of the pressing cover 4 is kept flush with the outer end of the second frame 2, so that seamless tight connection is realized, the supporting strength of the whole structure is ensured while the attractiveness is not influenced, and the stability of the glass 3 after installation is also ensured.

In some preferred embodiments, the first frame 101 is provided with a guiding groove 1012 in the shape of a right trapezoid towards the indoor side, the outdoor frame 201 is provided with a guiding block 2012 in the shape of a right trapezoid towards the outdoor side, the guiding block 2012 is in plug fit with the guiding groove 1012, and the free end of the guiding block 2012 is kept flush with the inner bottom end of the guiding groove 1012.

Specifically, in order to make the connection between the first frame 1 and the second frame 2 more convenient and accurate, in this embodiment, the guide groove 1012 of the upright ladder shape is provided in the direction of the first frame 101 indoors, the guide block 2012 of the upright ladder shape is provided in the direction of the outdoor frame 201 outdoors, the guide block 2012 is in plug-in fit with the guide groove 1012, and the first frame 101 and the outdoor frame 201 are conveniently and accurately connected in a guiding manner by setting the guide connection structure of the upright ladder shape, so that a good guiding effect is achieved. Wherein, the right trapezoid is a right trapezoid structure with a short top edge and a long bottom edge from a selected view, i.e. from the view of indoor direction, the guide groove 1012 is right trapezoid structure; from the indoor perspective, the guide block 2012 also has a vertically arranged trapezoidal structure with a short top side and a long bottom side. On the basis of guiding effect, the guide block 2012 can carry out accurate and do not have the direction connection that rocks or misplace along the guide slot 1012, when the guide block 2012 reaches the extreme position of guide slot 1012, because the guide block 2012 keeps the parallel and level with the inside bottom of guide slot 1012, so the guide block 2012 can be in the same place with the inside bottom smooth butt of guide slot 1012, guarantee balanced atress, effectively promote overall structure's stability and supporting strength, in addition, when pull down or overhaul and change, because the guide slot 1012 is the trapezoidal structure of inversion from outside to inside, the guide block 2012 can naturally shift out along the smooth direction of side of guide slot 1012, the required dismantlement power of the process that the guide block 2012 shifted out along the guide slot 1012 is less, the dismantlement process is smoother, thereby get rid of the circumstances that the dismantlement process was hindered or unable to dismantle.

In some preferred embodiments, the mating direction of the guide block 2012 is perpendicular to the length direction of the glass 3.

Specifically, through making the grafting cooperation direction of guide block 2012 set up perpendicularly with the length direction of glass 3, make the installation of first frame 1 and second frame 2 more closely parallel and level to and effectively reduce the connection stroke between guide block 2012 and the guide way 1012, namely effectively reduce the installation stroke between first frame 1 and the second frame 2, when preventing to influence pleasing to the eye, also guarantee the connection stability between first frame 1 and the second frame 2.

In some preferred embodiments, a first connection hole 1013 is formed in a side of the first frame 101 adjacent to the wall, and the first connection hole 1013 is connected to the wall by a bolt.

Specifically, in order to prevent the first frame portion 101 from being severely corroded due to the fact that the partial structure is outdoor, meanwhile, rainwater or other water vapor is prevented from entering the first frame portion 101, in the embodiment, the first connecting hole 1013 is formed in one side, close to the wall, of the first frame portion 101, the first connecting hole 1013 is connected with the wall through bolts, on the basis of the structure of the first inner cavity 1011, the first frame portion 101 and the wall can be conveniently connected through the bolts through the first connecting hole 1013, meanwhile, the bolts are installed and connected from the inside of the first inner cavity 1011, and therefore the first connecting hole 1013 and the bolts are not located in the exposed outdoor area, corrosion seriously caused by the invasion of the rainwater or other water vapor can be effectively prevented, and good sealing performance is guaranteed.

In some preferred embodiments, the first frame part 101 is provided with a first mounting opening 1016 at a side facing the indoor, the first mounting opening 1016 corresponding to the position of the first connection hole 1013, i.e., the first mounting opening 1016 is located at the same height position as the first connection hole 1013.

Specifically, on the basis of the above structure, the first frame 101 and the wall body are conveniently connected and the complete protection performance of the external structure is ensured while the protection effect is good and the corrosion caused by the water vapor or the rainwater entering the structure is prevented, in this embodiment, the first frame 101 is provided with the first mounting opening 1016 on one side of the indoor direction, the first mounting opening 1016 corresponds to the position of the first connecting hole 1013, that is, the first mounting opening 1016 and the first connecting hole 1013 are located at the same height position, and because the first frame 101 and the second frame 21 are in a splicing structure, the bolt connected to the first connecting hole 1013 can be conveniently and easily mounted by penetrating the first mounting opening 1016 through a common wrench or a hexagonal wrench before the second frame 21 is connected with the first frame 101, so that the first frame 101 and the wall body are conveniently and easily connected and fixed to form a stable and firm connecting structure, and meanwhile, the complete protection performance of the first frame 101 is conveniently mounted, and the damage caused by the invasion of the external water vapor or the rainwater into the first frame 101 is prevented.

More specifically, as one of the preferred embodiments of the above-mentioned solution, the size of the first mounting opening 1016 is larger than the size of the first connection hole 1013, so that the conventional common wrench or hexagonal wrench is more beneficial to extend into the mounting operation, and the mounting operation is prevented from being difficult due to insufficient mounting space, or according to actual requirements, a mounting cover is disposed on the outside of the first frame 101 at the first mounting opening 1016, and the mounting cover is connected with the first mounting opening 1016 in a clamping or sliding manner, thereby realizing the opening or closing effect of the first mounting opening 1016, and thus realizing the mounting operation during opening or the sealing operation during closing.

In some preferred embodiments, the first frame 101 is provided with a first leg 1014 extending near a side of the wall, the first leg 1014 is provided with a first bottom plate 1015 extending in a direction parallel to the wall, and a gap is left between the first bottom plate 1015 and the first frame 101; correspondingly, a second leg 2031 is provided on one side of the second frame portion 21 adjacent to the wall body, and a second bottom plate 2032 is provided on the second leg 2031 in a direction parallel to the first bottom plate 1015, and the second bottom plate 2032 is flush with the first bottom plate 1015.

Specifically, in order to ensure that a stable and flat connection is formed between the first frame portion 101 and the wall, and a gap or a leak is avoided, in this embodiment, a first leg 1014 is extended on one side of the first frame portion 101 close to the wall, a first bottom plate 1015 is extended on the first leg 1014 along a direction parallel to the wall, and a gap is left between the first bottom plate 1015 and the first frame portion 101, so that balanced abutting and tight connection between the first frame portion 101 and the wall are achieved; correspondingly, a second supporting leg 2031 is arranged on one side, close to the wall, of the second frame portion 21 in an extending mode, a second bottom plate 2032 is arranged on the second supporting leg 2031 in an extending mode in a direction parallel to the first bottom plate 1015, and the second bottom plate 2032 is kept flush with the first bottom plate 1015, so that the second frame portion 21 corresponds to the first frame portion 101 in a flat mode, the uniform distance between the second frame portion 21 and the wall is kept, and stable carrier support of the first frame portion 101 and the second frame portion 21 in the glass 3 installation process is guaranteed.

In some preferred embodiments, the first frame portion 101 is provided with a first screw hole along a direction parallel to the wall body, and the second frame portion 21 is provided with a second screw hole correspondingly along a direction parallel to the wall body, and the first frame portion 101 and the second frame portion 21 are connected by screws.

Specifically, in order to facilitate stable connection between the first frame 1 and the second frame 2, in this embodiment, the first frame portion 101 is provided with a first screw hole along a direction parallel to the wall body, the second frame portion 21 is correspondingly provided with a second screw hole along a direction parallel to the wall body, the first frame portion 101 and the second frame portion 21 are connected by screws, and through the above structure, the screws sequentially penetrate into the second screw hole, the first screw hole and are screwed tightly and fixed, so that convenient stable connection between the first frame 1 and the second frame 2 is realized, and stable function of the glass 3 after firm installation is ensured.

Through the technical scheme, the mounting structure of the arc window is used for realizing the mounting rotation of glass 3 on the arc window and comprises frame bodies which are of bridge-cut-off structures, wherein a mounting area of the glass 3 is arranged between the frame bodies and used for providing a mounting space for the mounting of the glass 3, the frame bodies comprise a first frame 1 and a second frame 2 which are mutually parallel and spliced from outdoors to indoors, the first frame 1 is connected with a wall body, the connection and fixation between the integral structure and the wall body are realized, and a firm structural foundation is provided for the subsequent mounting of the glass 3; the first frame 1 comprises a first frame part 101, which is close to a wall body and provided with a first inner cavity 1011, and a first limiting part 102, which is far away from the wall body and extends to be connected with the first frame part 101, wherein the first frame part 101 and the first limiting part 102 surround to form a first containing cavity 1021, and the first containing cavity 1021 is provided with a first opening 10211 towards the indoor. Wherein, the first opening 10211 is used for loading and connecting the glass 3, and the first accommodating cavity 1021 is used for providing space for loading and extending the glass 3, so as to ensure sufficient installation space; the second frame 2 comprises a second frame part 21 and a second limit part 22 which is arranged far away from the wall body in an extending way and connected with the second frame part 21, and the second limit part 22 is used for directly or indirectly abutting against the glass 3 to ensure the stable function of the glass 3 after installation; one side of the glass 3 is arranged in the first opening 10211, the other side of the glass 3 rotates to enter the opposite first opening 10211, the first limiting part 102 is abutted against one surface of the glass 3 facing outdoors, and the second limiting part 22 is abutted against one surface of the glass 3 facing indoors, so that bidirectional surface limiting of the glass 3 is realized, shaking or shifting of the glass 3 in the daily use process is prevented, and the stability and firmness of the glass 3 after installation are ensured; the first frame portion 101 is provided with a first connection portion towards indoor, the second frame portion 21 is provided with a second connection portion towards outdoor, and the first connection portion is connected with the second connection portion in an adaptive mode, and then the first frame portion is used for achieving connection between the first frame 1 and the second frame 2. On the basis of the structure, through dividing the frame body into two parts, namely a first frame 1 and a second frame 2, and one side of the glass 3 is installed in the first frame 1, at the moment, the first frame 1 is used as a rotating fulcrum of the glass 3, the other side of the glass 3 rotates to enter the opposite first frame 1, interference is prevented from being generated between the glass 3 and the frame body on the basis of the layered structure of the first frame 1 and the second frame 2, the installation rotating track of the glass 3 is prevented from being interfered, the glass 3 cannot be smoothly installed, and in addition, the second frame 2 is abutted to the glass 3, so that the rotating installation of the glass 3 is firmer and more reliable, and the smooth installation of the glass 3 is realized. Through the structure, the glass 3 with small radius and large arc length is prevented from interfering with the arc window in the process of installation and rotation, and the problem that the glass 3 cannot smoothly rotate into the frame is solved; the glass frame also comprises a pressing strip 5, wherein the pressing strip 5 is arranged between the second limiting part 22 and the glass 3, the length of the pressing strip 5 corresponds to the length of the first limiting part 102, and the pressing strip is used for keeping the structure formed by the pressing strip 5 and the second frame 2 flush with the integral structure of the first frame 1, so that the appearance is prevented from being influenced, and the application of balanced acting force to the glass 3 is ensured; a first clamping groove 501 is formed in one side, close to the second limiting part 22, of the pressing strip 5, a first clamping block 2201 is arranged at the free end of the second limiting part 22, and the first clamping block 2201 is matched with the first clamping groove 501 in a clamping manner, so that a convenient connection structure between the pressing strip 5 and the second limiting part 22, namely a convenient connection structure between the pressing strip 5 and the second frame 2, is formed, and is convenient to overhaul, replace or install normally; a third limiting part 502 is arranged on one side of the pressing strip 5, which faces the first limiting part 102, and the third limiting part 502 is abutted against one side of the glass 3, which faces indoors, so that the glass 3 is abutted against the first limiting part 102 in a stable and abutting action mode, balanced and stable abutting action force is respectively exerted on two sides of the glass 3, which faces indoors and outdoors, through taking the pressing strip 5 as an additional structure, the pressing strip 5 is positioned in the installation rotation track range of the glass 3 and is taken as a subsequent installation structure to be installed in an operating mode, so that the glass 3 can be installed smoothly, the stability after installation is ensured, meanwhile, the installation view angle blind area is avoided, and the phenomenon that the frame body after the installation is completed is dislocated or the phenomenon that the flatness is deficient is avoided; by setting the distance between the first stopper 102 and the first frame 101 to be longer than the loading length of the glass 3; correspondingly, if the distance between the third limiting part 502 and the second limiting part 22 is set to be larger than the loading length of the glass 3, the glass 3 can be fully loaded, after the glass 3 is loaded, the first limiting part 102 and the third limiting part 502 can be respectively and stably abutted to the two surfaces of the glass 3 facing outdoors and indoors, so that the stability and the firmness of the glass 3 after being mounted are ensured; the first limiting part 102 is connected with a first buffer 6, and the first buffer 6 is abutted against one surface of the glass 3 facing the outside; the third stopper 502 is connected to a second buffer 7, and the second buffer 7 is abutted against a surface of the glass 3 facing the room. In the process of loading the glass 3, certain inertia exists, the glass 3 is a relatively fragile material, in order to ensure that the glass 3 has sufficient safety guarantee in the process of loading, the first buffer piece 6 and the second buffer piece 7 are respectively arranged to realize the buffer effect on the glass 3 in the process of loading, so that the glass 3 can obtain good buffer effects on both sides of the glass 3 facing outdoors and indoors, and the glass 3 is prevented from being damaged due to overlarge inertia or other factors, thereby influencing the installation quality of the glass 3.

The foregoing is merely exemplary embodiments of the present application and is not intended to limit the scope of the present application, and various modifications and variations may be suggested to one skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a mounting structure of arc window for realize that glass is rotatory at the installation of arc window, including being the frame body of bridge cut-off structure, be provided with between the frame body the installation region of glass (3), its characterized in that, the frame body includes from outdoor orientation indoor first frame (1) and second frame (2) that are parallel to each other and splice the setting, first frame (1) is connected with the wall body;

the first frame (1) comprises a first frame part (101) which is close to a wall body and provided with a first inner cavity (1011), and a first limiting part (102) which is far away from the wall body and is connected with the first frame part (101), wherein the first frame part (101) and the first limiting part (102) surround to form a first containing cavity (1021), and the first containing cavity (1021) is provided with a first opening (10211) towards the indoor;

The second frame (2) comprises a second frame part (21) and a second limit part (22) which is arranged away from the wall body in an extending way and connected with the second frame part (21);

one side of the glass (3) is installed in the first opening (10211), the other side of the glass (3) rotates to enter the opposite first opening (10211), the first limiting part (102) is abutted against one surface of the glass (3) facing outdoors, and the second limiting part (22) is abutted against one surface of the glass (3) facing indoors;

the first frame part (101) is provided with a first connecting part towards indoor, the second frame part (21) is correspondingly provided with a second connecting part towards outdoor, and the first connecting part is connected with the second connecting part in an adaptive mode.

2. The mounting structure of an arc window according to claim 1, further comprising a bead (5), the bead (5) being disposed between the second limit portion (22) and the glass (3), a length of the bead (5) remaining corresponding to a length of the first limit portion (102);

a first clamping groove (501) is formed in one side, close to the second limiting part (22), of the pressing strip (5), a first clamping block (2201) is arranged at the free end of the second limiting part (22), and the first clamping block (2201) is in clamping fit with the first clamping groove (501);

A third limiting part (502) is arranged on one side, facing the first limiting part (102), of the pressing bar (5), and the third limiting part (502) is abutted to one surface, facing the indoor, of the glass (3).

3. The arc window mounting structure according to claim 2, wherein a distance between the first stopper portion (102) and the first frame portion (101) is greater than a loading length of the glass (3); correspondingly, the distance between the third limit part (502) and the second limit part (22) is larger than the loading length of the glass (3).

4. A mounting structure of an arc window according to claim 3, wherein the first limiting portion (102) is connected with a first buffer member (6), and the first buffer member (6) is abutted against a surface of the glass (3) facing the outside;

the third limiting part (502) is connected with a second buffer (7), and the second buffer (7) is abutted against one surface of the glass (3) facing the indoor.

5. The mounting structure of the arc window according to claim 4, wherein a second clamping block (601) is arranged at the connecting end of the first buffer member (6), a second clamping groove (1022) is arranged at the first limiting portion (102), and the second clamping block (601) is in clamping fit with the second clamping groove (1022); the action end of the first buffer piece (6) is provided with a plurality of pin-shaped bulges (602) made of elastic materials, and the pin-shaped bulges (602) are abutted against one surface of the glass (3) facing the outside;

A third clamping groove (701) is formed in the connecting end of the second buffer piece (7), a third clamping block (5021) is arranged on the third limiting part (502), and the third clamping block (5021) is in clamping fit with the third clamping groove (701); the action end of the second buffer piece (7) is provided with a gasket (702) made of elastic materials, and the gasket (702) is abutted against one surface of the glass (3) facing the indoor.

6. The arc window mounting structure according to claim 1, wherein the second frame portion (21) comprises an indoor frame portion (203), a heat insulation strip (202) and an outdoor frame portion (201) which are arranged from indoor to outdoor, the outdoor frame portion (201) and the indoor frame portion (203) are provided with inverted trapezoid-shaped limit grooves (2101) on mutually-oriented outer walls, two sides of the heat insulation strip (202) are respectively provided with inverted trapezoid-shaped limit blocks (2021) correspondingly, and the limit blocks (2021) on two sides are respectively in clamping fit with the limit grooves (2101) on the same side.

7. The mounting structure of the arc window according to claim 6, further comprising a gland (4), wherein guide strips (401) are symmetrically arranged at two ends of the side of the gland (4) facing the outside, and the distance between the two guide strips (401) is smaller than the length of the gland (4);

The indoor frame part (203) is provided with a second opening (2011) on one side facing the indoor, the distance between the two guide strips (401) corresponds to the width of the second opening (2011), and the gland (4) is in plug-in fit with the second opening (2011) through the guide strips (401).

8. The arc window mounting structure according to claim 6, wherein the first frame portion (101) is provided with a guide groove (1012) in a vertically arranged trapezoid shape towards the indoor side, the outdoor frame portion (201) is provided with a guide block (2012) in a vertically arranged trapezoid shape towards the outdoor side, the guide block (2012) is in plug-in fit with the guide groove (1012), and the free end of the guide block (2012) is kept flush with the inner bottom end of the guide groove (1012).

9. The mounting structure of the arc window according to claim 1, wherein a first connection hole (1013) is formed in a side of the first frame portion (101) close to the wall body, and the first connection hole (1013) is connected with the wall body through a bolt.

10. The mounting structure of the arc window according to claim 9, wherein a first leg (1014) is extended from a side of the first frame portion (101) close to the wall, a first bottom plate (1015) is extended from the first leg (1014) in a direction parallel to the wall, and a gap is left between the first bottom plate (1015) and the first frame portion (101);

Correspondingly, a second supporting leg (2031) is arranged on one side, close to the wall, of the second frame portion (21), a second bottom plate (2032) is arranged on the second supporting leg (2031) in an extending mode in a direction parallel to the first bottom plate (1015), and the second bottom plate (2032) is kept flush with the first bottom plate (1015).