CN211776912U - Frame section bar and hollow glass door and window hidden sash - Google Patents

Abstract

The utility model relates to a frame section bar and cavity glass door and window hide fan, wherein, the frame section bar is a many die cavity section bars, including sealed inlayer die cavity and be located the outer die cavity in the inlayer die cavity outside. The frame profiles are embedded into the edge of the hollow glass, the edge of a cavity in the sealed hollow glass forms a hidden sash of the hollow glass door and window, and the hidden sash can be provided with a notch mounting structure accessory and can form a full-hollow glass door and window with pulleys or hook hanging rails.

Description

Frame section bar and hollow glass door and window hidden sash

Technical Field

The utility model belongs to the technical field of the relevant building materials of glass door and window and specifically relates to a frame section bar and cavity glass door and window latent fan.

Background

In the prior art, the hollow glass door and window is made of two or more layers of common plate glass. Bonding and sealing two or more pieces of glass with the sealing strips and the glass strips by using a high-strength and high-airtightness composite adhesive at the periphery, filling dry gas into the middle, and filling a drying agent into the frame to ensure the dryness of the air between the glass pieces; and finally, an aluminum alloy frame is coated outside the sealing strip, the aluminum alloy frame is an aluminum part parting strip and is a single-cavity section, the glass door leaf is fixed in the middle in an external packaging mode, the outer side of the aluminum alloy frame is arranged on a wheel of the hollow glass door and window, structural members such as sealing, pulley hook assembly and the like are realized by the sealing strip and the aluminum alloy in a separated mode, the peripheral aluminum part parting strips are peripheral components, the consistency of the whole appearance is poor, and the full glass door and window with the hidden frame cannot be obtained.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a frame section bar and cavity glass door and window latent fan solves prior art and can't obtain the full glass door and window structure problem that has stealthy frame, mountable pulley.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a frame section bar is a multi-cavity section bar and comprises a sealed inner-layer cavity and an outer-layer cavity positioned outside the inner-layer cavity

In some embodiments, the frame profile further comprises an outer slot, the outer slot being located outside the outer layer cavity;

the frame section is used for being embedded into the hollow glass and sealing the hollow glass at the edge of the hollow glass;

the inner-layer cavity is used for sealing the interval between the hollow glasses so as to seal the inner cavity; the outer layer cavity is used for sealing hollow glass and/or spacing the inner layer cavity and/or used for enhancing the strength of the section bar and/or used for fixing accessories of doors and windows; the outer side notch is used for installing accessories of doors and windows.

As some embodiments, the frame profile comprises an integrally formed top wall, two side walls connected with the top wall, and two layers of partition boards;

the interior of the frame profile is divided into the inner-layer cavity and the outer-layer cavity by two layers of partition plates, and correspondingly, the two layers of partition plates are respectively used as the bottom wall of the inner-layer cavity and the bottom wall of the outer-layer cavity;

the bottom wall of the inner layer cavity, the bottom wall of the outer layer cavity and the top wall of the frame profile are parallel to each other or two of the two walls are parallel to each other;

the inner layer cavity and/or the outer side notch extend through along the length direction of the frame profile;

the two tail ends of the frame section bar in the length direction are provided with openings;

the two side walls of the frame profile extend from the top wall to the bottom and respectively correspond to the two side walls of the inner-layer cavity, the two side walls of the outer-layer cavity and the two side walls of the notch from the top to the bottom;

the tail ends of the two side walls of the frame section are not connected in a closed mode, and the frame section and the bottom wall of the outer-layer cavity jointly form the outer side notch with the open bottom.

As some embodiments, a desiccant is placed in the inner cavity;

the outer walls of the two side walls of the frame profile form a plurality of steps to form an adhesive containing groove for containing an adhesive to form a bonding and sealing structure with the surface of the glass; and/or a plurality of steps are formed on the inner walls of the two side walls of the frame profile, so that a clamping groove is formed on the inner walls and is used for being tightly matched with the door and window accessories;

door and window accessories are arranged in the groove openings on the outer sides of the frame profiles;

the tail ends of the frame profiles are cut into a preset angle so as to be beneficial to splicing two frame profiles;

the tail end of each frame profile is provided with a notch to form a glue injection hole, the glue injection holes at the splicing positions of the tail ends of two adjacent frame profiles are connected to form a glue injection cavity, and glue is injected into the glue injection cavity to form a section of integral sealant so as to seal a gap possibly generated when the tail ends of the two frame profiles are spliced;

the frame section is suitable for being embedded into the space between two layers of glass at the edge of the hollow glass in a concealed mode to seal the hollow glass, and a notch is formed in the edge of the hollow glass to enable a door and window accessory to be installed additionally.

The utility model also provides a hollow glass door and window hidden sash, which comprises hollow glass, and the hollow glass door and window hidden sash also comprises a plurality of frame profiles as above; the frame section bar is embedded into the edge of the hollow glass to seal the inner cavity of the hollow glass.

In some embodiments, two side walls of the frame profile are respectively bonded and sealed with two glass surfaces by an adhesive layer;

the shape and the size of the frame section are matched with the interval between the two layers of glass of the hollow glass and the edge of the hollow glass, and the frame section is embedded into the interval between the two layers of glass at the edge of the hollow glass to seal the interval of the hollow glass;

the outer side notch of the frame section bar forms a notch of the hollow glass door and window so as to install door and window accessories.

As some embodiments, the ends of two adjacent frame profiles are connected by corner connectors;

the frame section bar is additionally provided with a door and window accessory, and correspondingly, a hollow glass door and window hidden sash with the door and window accessory is obtained;

and the glue injection holes at the splicing positions of the tail ends of the two frame profiles are connected to form a glue injection cavity, a section of integral sealant is formed inside the glue injection cavity, and the sealant is hermetically connected with the splicing tail ends of the two frame profiles.

As some embodiments, the ends of the two frame profiles are cut into matched angles and spliced into a whole;

two ends of the corner fastener are respectively inserted into an inner cavity or an outer side notch of the tail end of the two frame profiles, and the corner fastener is further used for fixing the corner fastener with the frame profiles, so that the tail ends of the two frame profiles are fixedly connected;

the notch at the tail end of the bottom wall of the outer layer cavity of the frame profile serves as a glue injection hole, the glue injection cavity is formed between the tail ends of the outer layer cavities at the splicing part of the two frame profiles, and the sealant in the glue injection cavity is positioned at the end part of the outer layer cavity;

the outer walls of the two side walls of the inner layer cavity of the frame section are respectively bonded and sealed with the surfaces of the two layers of glass by a first adhesive layer to form a tight and firm bonding structure;

and the outer walls of the two side walls of the outer layer cavity of the frame profile and/or the two side walls of the outer side notch are respectively bonded and sealed with the surfaces of the two layers of glass by a second adhesive layer to form a tight and firm bonding structure.

As some embodiments, the outer wall of the side wall of the inner layer cavity is provided with a step, a first adhesive containing groove is formed between the step and the surface of the two layers of glass, and the first adhesive layer is formed inside the step to bond and seal the interval between the frame section bar and the two layers of glass;

a step is formed between the outer wall of the side wall of the inner layer cavity and the outer wall of the side wall of the outer layer cavity and/or a step is formed on the outer wall of the side wall of the notch, and a second adhesive containing groove is formed between the step and the surfaces of the two layers of glass; the second adhesive layer is formed inside to bond and seal the interval between the two layers of glass of the frame section;

the door and window accessory comprises a pulley assembly and/or a hook hanger rail assembly and/or an anti-collision structure;

the frame section is embedded in the edge of the hollow glass in a hidden manner, and the frame section does not cover the outer side of the edge of the hollow glass;

the door and window accessory can be selectively fixed on the bottom wall of the outer layer cavity of the frame profile by using a fastener;

the fastener end and/or the top of the door and window accessory penetrate through the bottom wall of the outer cavity of the frame section bar and can be selectively accommodated in the outer cavity without penetrating through the inner cavity.

As some embodiments, the hollow glass door and window hidden sash is an integral structure with a pulley or a hook hanging rail;

the bottom of the hollow glass door and window hidden sash is provided with a lower pulley assembly, the lower pulley assembly is installed in an outer groove of the frame section bar, and a lower pulley of the lower pulley assembly is in sliding fit with a lower track of a door and window installation wall to form a walking wheel type hollow glass door and window hidden sash and bear the hollow glass door and window hidden sash; the lower pulley assembly is clamped and fixed through a lower pulley auxiliary material, and the lower pulley auxiliary material is in clamping fit with the inner wall of the notch of the frame profile, the clamping groove of the inner wall and the edge of the notch and is fixed on the bottom wall of the outer layer cavity; an upper pulley component or a buffer component is arranged in an outer side notch of the frame section bar at the top of the hidden sash of the hollow glass door and window, and guides the top of the hidden sash of the hollow glass door and window to be in sliding fit with an upper track of a door and window mounting wall; or

The hollow glass door and window hidden sash is of a hanger rail type hollow glass door and window hidden sash structure, a hook hanger rail assembly is installed in an outer side notch of the frame section at the top and is fixedly connected with the bottom wall of the outer layer cavity, and the hook hanger rail assembly bears the hollow glass door and window hidden sash so as to drive the hollow glass door and window hidden sash to be hung on a lower rail and to be in sliding fit with an upper rail of the installation wall; a lower positioning wheel is accommodated in an outer side notch of the frame section bar at the bottom, and the hidden sash of the hollow glass door and window is in sliding fit along the lower positioning wheel;

anti-collision rubber strips are arranged in outer side grooves of the frame profiles on two sides of the hidden sash of the hollow glass door and window, are tightly clamped in the outer side grooves and are fixed on the bottom wall of the outer layer cavity by fasteners;

decorating buckle covers in the outer side notches of the frame profiles on two sides of the hidden sash of the hollow glass door and window; the decorative buckle cover is consistent with the shape of the outer side notch, and the outer wall and the edge of the decorative buckle cover are clamped on the inner wall and the outer edge of the outer side notch in a clamping fit manner; the anti-collision rubber strip is clamped in the decorative buckle cover and is tightly matched with the decorative buckle cover; the anti-collision rubber strip and the decorative buckle cover are further fastened by the fastener to form a firm matching structure on the bottom wall of the outer-layer cavity.

The utility model has the advantages that:

the utility model discloses a hidden fan frame section bar of glass, inside embedding the cavity between the double glazing border stealthily, obtain the stealthy full glass door and window of frame. The hidden fan frame section comprises two layers of cavities, drying agents can be placed in the inner layer cavities, cavities between the sealed and dried double-layer glass are separated from the outer layer cavities, the outer layer cavities are used for installing structural parts, screws can be used for installing anti-collision structures or installing pulleys/hooks and the like, the sealing structures of the inner layer cavities cannot be damaged when holes are punched in the outer layer cavities, and therefore the sealing performance of the hollow glass cannot be influenced. The double-layer cavity can also improve the structural strength of the hidden fan frame.

Further, this application only by latent fan frame section bar alright realize cavity glass's sealed and the function of installation pulley/couple or other structure spare, and can form from the cavity glass door and window structure of taking the integrative structure of pulley/couple.

The present invention will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a perspective view of a hidden sash frame structure of a hollow glass door and window of the embodiment of the present invention.

Fig. 2 is a partial sectional view of the hidden sash frame structure of the hollow glass door/window of the embodiment of the present invention.

Fig. 3 is an exploded view of the hidden sash frame structure of the hollow glass door and window of the embodiment of the present invention.

Fig. 4 is a horizontal sectional view of an insulated glass door or window according to an embodiment of the present invention.

Fig. 5 is a horizontal sectional view of an insulated glass door or window according to another embodiment of the present invention.

Fig. 6 is an assembly schematic view of the left and right sides of the hidden sash of the hollow glass door and window of the embodiment of the present invention.

Fig. 7 is a vertical sectional view of an insulated glazing unit according to an embodiment of the present invention.

FIG. 8 (a) is a perspective view of the upper wheel assembly; FIG. 8 (b) is a schematic view of the top assembly of the blind sash of the insulated glazing of FIG. 7.

Fig. 9 (a) is a bottom assembly view of the sash of the insulated glazing unit of fig. 7, and fig. 9 (b) is a perspective view of the lower pulley assembly.

FIG. 10 (a) is a perspective view of the upper bumper assembly; FIG. 10 (b) is a schematic view of an alternative top structure of the blind sash of the insulated glazing of FIG. 7.

Fig. 11 is a vertical sectional view of another insulated glass door or window according to an embodiment of the present invention.

Fig. 12 (a) is a perspective view of the hanger rail; FIG. 12 (b) is a schematic view of the top assembly of the blind sash of the insulated glazing of FIG. 11.

FIG. 13 is a bottom assembly view of the blind sash of the insulated glazing of FIG. 11.

Detailed Description

It should be noted that, in the present application, the embodiments and features of the embodiments may be combined with each other without conflict, and the present invention is further described in detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-13, the embodiment relates to a hidden sash frame 10 and a hidden sash 100 for hollow glass doors and windows. The hidden sash frame section bar 10 is formed by splicing a plurality of hollow glass door and window hidden sash frame section bars 3 and 3' and is used for being embedded in a cavity at the edge of hollow glass in a hidden manner so as to seal the periphery of the hollow glass and also used as an additional structural accessory such as a pulley assembly (such as a lower pulley, a hanging wheel or an upper pulley) or a hook hanging rail assembly or an anti-collision structure. The periphery of the glass door and window 10 is sealed and fixed by the hidden sash frame section bar 10, and the frame section bar does not cover the edge of the outer surface of the hollow glass, so that the full glass door and window can be obtained. The bottom of the hollow glass door and window hidden sash 100 can be provided with the lower pulley assembly 20, and the top can be provided with the hook hanging rail, so that an integral ground wheel all-glass door and window or hanging rail type all-glass door and window structure is formed. The pulley/hook hanger rails arranged at the bottom and the top can also be hidden in the bottom and the top hidden sash frame profiles of the hidden sash frame 10.

The utility model discloses a latent fan frame section bar 3, 3 ', be integrated into one piece's line type material, along the direction of height of section bar, including multilayer die cavity structure, be the outer die cavity 31 in the inlayer die cavity 30 and the inlayer die cavity 30 outside respectively, the outside of outer die cavity 31 still further forms and is located outmost notch 32, and three layer construction follows section bar length direction parallel arrangement, and the preferred is two ends for extending to link up to section bar length. The two ends of the section bars 3 and 3 'are provided with openings, and connecting pieces such as mounting corner connectors 13 can be additionally arranged in the openings at the ends when the frame section bars 3 and 3' are spliced. As an example, the inner cavity 30, the outer cavity 31 and the outermost slot 32, which run through the length of the profiles 3, 3 ', run through the entire profile 3, 3', respectively.

The three-layer structure of the frame section bars 3 and 3' is formed by separating two cavity bottom walls as a middle partition plate, and is correspondingly an inner cavity bottom wall 36 and an outer cavity bottom wall 37. The frame section bar is a cavity section bar with an open bottom formed by a top wall 34 and two side walls 35, and a multi-cavity section bar structure is formed by separating an inner cavity bottom wall 36 and an outer cavity bottom wall 37. Preferably, the two layers of cavity bottom walls are parallel to each other and to the top wall 34 of the frame profile 3, 3'. The width of the frame section bars 3 and 3 'corresponds to the interval between the two layers of glass, thereby the interval between the two layers of glass is sealed, the top wall 34 of the frame section bars 3 and 3' seals the interval towards the inside of the hollow glass cavity, and the two side walls 35 are respectively bonded and sealed with the glass surfaces at the two sides by adhesive layers. The adhesive layer may comprise a first adhesive layer 4 and a second adhesive layer 6, which are respectively bonded and sealed with the outer wall of the two side walls of the frame section bar, the glass surface and the contact gap. The two side walls 35 of the frame section bar 3, 3 ' correspond to the two side walls including the inner layer cavity 30, the outer layer cavity 31, the notch 32, the outer wall and/or the inner wall of the two side walls 35 can form steps, wherein, the steps of the outer wall of the two side walls 35 of the frame section bar 3, 3 ' are favorable for containing the binder, thereby forming a tight and firm bonding and sealing structure with the glass surface, the steps of the inner wall of the two side walls 35 of the frame section bar 3, 3 ' can form clamping grooves, so as to be favorable for clamping and installing other structural members such as pulley assemblies/hook hanger rail assemblies/anti-collision structures.

Frame section bar 3, 3 ' can adopt the aluminum alloy section bar, and the shape and the interval between the two-layer glass of frame section bar 3, 3 ' and cavity glass and border shape and size suit, install back in the cavity in cavity glass border, and inlayer die cavity 30 is located cavity glass border cavity inside more inboard, mainly used sealed cavity glass's cavity. Specifically, the outer walls of the two side walls of the cavity of the inner-layer cavity 30 are clamped between two layers of glass and are bonded and sealed by a first adhesive layer. Thereby the lateral wall of inlayer die cavity 30 can form the step and form binder appearance groove between outer wall and glass surface, and form inseparable firm bonding structure through first viscose layer 4 between the lateral wall of inlayer die cavity 30 and the glass surface, and viscose layer 4 can be the butyl glue layer. A desiccant 5 may be placed in the inner cavity 30 to dry the hollow glass.

After installation, the outer cavity 31 is located outside the cavity along the edge of the hollow glass. The outer cavity 31 is mainly used for being separated from the inner cavity 30, and is also used for further sealing the hollow glass and/or installing and fixing structural accessories, such as a mounting pulley assembly (including a lower pulley, an upper pulley/a hanging wheel and the like), a hook hanging rail assembly, an anti-collision structure such as an anti-collision rubber strip and other structural members, and screws can be screwed on the cavity bottom wall 37 of the outer cavity 31 to fix the structural accessories. When the mounting structure accessories are fixed by using fasteners such as screws, the end parts of the screws penetrate through the bottom wall 37 of the outer cavity and then extend into the inner cavity 31, but do not penetrate through the bottom wall 36 of the inner cavity and/or the top wall 34 of the section bar, and the sealing performance of the hollow glass is not damaged. The outer walls of the two side walls of the outer layer cavity 31 can form steps or form steps with the outer wall of the inner layer cavity, so that a containing groove for containing an adhesive is formed between the outer walls of the two side walls of the outer layer cavity 31 and the surface of the glass, a tight and firm bonding structure is formed between the outer walls of the two side walls of the outer layer cavity 31 and the surface of the glass through the second adhesive layer 6, and gaps between the outer walls of the inner layer molding compound 30/the outer layer cavity 31 and the surface of the glass are further sealed. The second adhesive layer 6 may be a structural adhesive.

The outermost layer of the frame section bar 3, 3 'is a notch 32 on the outer side of the outer layer cavity 31, and two side walls of the hollow glass door and window hidden sash frame section bar 3, 3' extend outwards from the outer layer cavity 31 by a certain height and form a notch 32 together with the bottom wall 37 of the outer layer cavity. The two side walls of the notch 32 may be formed by integrally extending the two side walls of the outer cavity 31 by a certain height to form a notch 32 together with the bottom wall of the outer cavity 31, the cross-sectional shape of the notch 32 is "square", as shown in fig. 3-6, the vertical hidden sash frame profile 3 on the left and right sides of the hidden sash frame of the hollow glass door and window can adopt such a structure.

Or, the two side walls of the notch 32 are integrally extended outwards by two side walls of the outer layer cavity 31 by a certain height, then bent to form a step, and then extended by a certain height, the steps of the two side walls form a shoulder corresponding to the inner wall of the notch 32, that is, a clamping groove 33 is formed, and the clamping groove 33 is used for clamping and installing structural accessories, such as clamping pulley accessories. The cross-sectional shape of the slot 32 is "T" shaped, as shown in fig. 3 and 7-13, and the horizontal hidden sash frame section bar 3' at the bottom and top of the hidden sash frame 10 of the hollow glass door and window can adopt such a structure.

The outer walls of the two side walls of the notch 32 and the glass surfaces on the two sides form a tight and firm bonding structure through the second adhesive layer 6, the adhesive layers 6 between the two side walls of the notch 32 and the glass surfaces and the adhesive layers between the two side walls of the outer layer cavity 31 and the glass surfaces can form an integral adhesive layer, and therefore the bonding strength and the sealing effect are improved.

Frame section bar 3, 3' of the hidden fan of cavity glass door and window form open notch 32 at its outside or bottom, and preferably, notch 32 link up along length direction, and various door and window structure annex of the installation of the hidden fan frame 10 outside of mainly used holding can form hidden installation, for example structure such as stealthy installation pulley assembly/couple hanger rail subassembly/crashproof adhesive tape. Frame section bar 3, 3' are hidden and are installed in inside back in cavity glass border, and notch 32 forms the hidden fan of cavity glass door and window from taking the notch, installs various structural accessories.

In the embodiment shown in fig. 1-3, the hollow glass door and window hidden sash frame 10 of the present invention comprises an upper horizontal hidden sash frame section bar 3' and a lower horizontal hidden sash frame section bar 3, and a left vertical hidden sash frame section bar 3 and a right vertical hidden sash frame section bar, wherein two adjacent section bars are connected by an angle code 13 at the end. For forming the sealed effect of preferred in the junction, according to the contained angle between two section bars 3 of junction, 3 ', cut into corresponding oblique angle with the link of section bar 3, 3 ', the embodiment of the utility model provides an example with square cavity glass, cavity glass door and window hides fan frame 10 and corresponds for squarely, be the right angle between the link of two section bars 3, 3 ', correspond each strip section bar 3, the end of 3 ' is cut into 45 degrees oblique angles, uses right angle sign indicating number 13, and the 13 both ends of angle sign indicating number insert respectively two and hide fan frame section bars 3, the 30 tip openings of 3's inlayer die cavity and by fastener fixed connection to hide fan frame section bar end with two cavity glass door and window and link firmly, form the cavity glass door and window that the structure is firm and hide fan frame. Outer die cavity diapire 37 is as injecting glue hole 370 in the cut-off incision of tip, and the link forms one section injecting glue chamber during the concatenation of two latent fan frame section bars 3, 3 ', injects the colloid in injecting glue hole 370 to at the inside sealed glue 371 that forms one section in the both ends of concatenation, the gap that probably produces of the concatenation of two latent fan frame section bars 3, 3' is sealed completely. The sealant 371 is disposed in the end of the outer cavity 31 at the joint of the two hidden sash frame profiles 3 and 3'. The sealant 371 in the end portions of the two hidden sash frame profiles 3 and 3' is an integral sealant layer.

In the embodiment shown in fig. 4 and 6, including the austral window, sliding sash of four hollow glass door and window hidden sash 100, every window is hollow glass door and window hidden sash 100, frame section bar 3, 3' assemble into hidden sash frame 10 and inlay completely in locating the cavity of hollow glass 2 inside borders, thereby obtain from the hollow glass door and window hidden sash of taking the installation notch, installed the annex like pulley assembly in the installation notch, then corresponding hollow glass door and window hidden sash of taking pulley assembly, can directly use during installation hollow glass door and window. The vertical materials 3 on the left side and the right side adopt the section bar of the multi-cavity structure, the left side edge and the right side edge of the hidden sash of the hollow glass door and window are respectively sealed, the drying agent 5 is placed in the inner-layer cavity 30 positioned on the inner side of the hollow glass cavity, and the outer walls on the two sides of the inner-layer cavity 30 and the surface of the glass are bonded and sealed by the first adhesive layer 4, such as a butyl adhesive layer. The outer cavity 31 and the outer walls of the two side walls of the notch 32 are bonded and further sealed to the glass surface by another layer of adhesive 4, such as structural adhesive. The outer walls of the two side walls of the frame profile 3 (including the inner layer cavity 30, the outer layer cavity 31 and the two side walls of the notch 32) are provided with steps so as to accommodate the adhesive to form a tight and firm bonding and sealing structure. Structural accessories such as a decorative buckle cover 7 and an anti-collision rubber strip 8 are clamped and fixed in the notch 32 and further fixed on the bottom wall 37 of the outer layer cavity through a screw 9, and the tail end of the screw penetrates through the bottom wall 37 of the outer layer cavity and can extend into the inner part of the outer layer cavity 31. The decorative buckle closure 7 is consistent with the shape of the notch 32, the cross section of the decorative buckle closure 7 is a C-shaped groove, the outer wall and the edge are clamped on the inner wall and the outer edge of the notch 32, the outer wall and the edge are tightly clamped and matched with each other, the fastening adhesive layer 6 is covered outside, and the anti-collision adhesive tape 8 is clamped into the C-shaped groove of the decorative buckle closure 7 and tightly matched with the decorative buckle closure 7. Further, the anti-collision rubber strip 8 and the decorative buckle cover 7 are further fastened on the bottom wall 37 of the outer-layer cavity by screws 9 to form a firm matching structure. In the border of cavity glass's two-layer glass 2, hide fan frame section bar 3 and can hide in the clearance of embedding two-layer glass installation and flush with glass 2's border, vertical hidden fan frame section bar 3 is hidden inside glass border, and crashproof adhesive tape 8 assembles in the notch 32 in the 3 outsides of hidden fan frame section bar with hiding, hidden fan frame section bar 3 and with glass surface's 6 ends of viscose layer by decorating buckle closure 7 closing cap.

Fig. 5 shows a sliding hollow glass window with two hollow glass door and window hidden sashes 100, wherein the hidden sash frame structure of the hollow glass door and window hidden sash 100 is the same as that of the above embodiments, and the details are not repeated herein.

In the floor-roller-type hollow glass door and window sash-hiding structure and frame-matching structure (fig. 5) shown in fig. 7-10, the bottom of the hollow glass door and window sash can be integrally provided with a lower pulley assembly 20 from the inside of a notch 32, and is in sliding fit with an upper guide rail strip 22 arranged on a lower rail 21 of a door and window mounting wall. The top and the bottom frame of the hidden sash of hollow glass door and window adopt the above-mentioned hidden sash frame section bar 3 'to hide in the interval between the 2 borders of embedding double glazing for sealed double glazing 2's upper and lower border just is used for installing door and window structure annex. Referring to fig. 7 and fig. 9, fixed mounting has pulley assembly 20 in the outside notch 32 of the horizontal hidden fan frame section bar 3 'of bottom, and pulley assembly 20 is earlier by lower pulley auxiliary material 19 chucking, and the shape of lower pulley auxiliary material 19 is unanimous with the inner wall and the border shape of the bottom notch 32 of hidden fan frame section bar 3', and the similar "I" shape of cross section, chucking are at notch 32 inner wall and border. Convex trip 190 is provided with at the top of lower pulley auxiliary material 19 both sides wall, stretches into the draw-in groove 33 inside the slot 32 inner wall and the fastening cooperation, and the lower pulley auxiliary material 19 both sides wall bottom forms protruding structure 191, thereby protruding structure 191 outside supports the fastening cooperation each other with slot 32 border. The lower pulley assembly 20 is clamped in the lower pulley auxiliary material 19, and the two ends of the length of the lower pulley assembly are fixed with the auxiliary material 19 through screws or other fasteners. The pulley 27 is mounted to the auxiliary material 19 by a pulley bracket 28. The pulley 27 in the pulley assembly 20 is slidably supported on an upward protruding upper rail 22 disposed on the bottom surface of the mounting wall, so as to drive the entire door/window hidden sash to slide and bear the entire door/window hidden sash. The auxiliary material 19 may be further secured to the outer cavity bottom wall 37 by fasteners, thereby securing the slide assembly 2 to the outer cavity bottom wall 37 and concealed within the slot 32 and shielded by the two side walls of the slot 32. The top of the pulley 27 is pivotally mounted through the auxiliary material 19 and the outer cavity bottom wall 37.

Install upper wheel subassembly 11 in the notch 32 of the outside of the horizontal hidden fan frame section bar 3 'at cavity glass door and window hidden fan top, install in frame section bar 3' and upper rail 14 upper wheel subassembly 11 hiddenly, connect cavity glass door and window hidden fan 100 top slidable in installation wall upper rail 14, guide cavity glass door and window hidden fan 100 slides along upper rail 14.

Referring to the right window sash of fig. 7 and fig. 8, the upper wheel assembly 11 includes an upper wheel support 18 clamped in the notch 32 and two upper positioning wheels 15 arranged at two ends of a cross beam at the top of the upper wheel, the upper wheel support 18 has a contour identical to the shape of the notch 32, and is clamped in the notch 32 and can be fixed with the bottom wall 37 of the outer cavity by screws, so as to guide the hollow glass door and window hidden sash 100 to slide along the upper rail 14, and the upper wheel support 18 is supported between the upper rails 14 of the installation wall and is in rolling fit with the inner walls at two sides of the upper rail 14.

In another embodiment, referring to fig. 7 and fig. 10, a buffer assembly 19 is installed in a notch 32 at the outermost side of a horizontal hidden sash frame profile 3' at the top of a hidden sash of a hollow glass door and window, and includes a buffer 12 and a buffer base tube positive piece 16 clamped between the buffer 12 and the notch 32, the buffer base tube positive piece 16 is matched and clamped with the notch 32 in shape, in this example, in a square cross-sectional structure with an open upper end, the buffer 12 is clamped and fixed in the square structure of the buffer base tube positive piece 16, the buffer 12 is accommodated and clamped in the notch 32 in a hidden manner, a hook between the damper arranged at the top end of the buffer 12 and the bottom of the top buffer 23 is in mutual buckling fit, and sliding of the top of the hidden sash of the hollow glass door and window is guided by sliding fit between the buffer and the upper rail.

Referring to fig. 11-13, a rail type hollow glass door and window hidden sash structure, its top and bottom frame adopt the above-mentioned hidden sash frame section bar 3 ', the notch 32 of top frame section bar 3' is connected with the couple rail subassembly, hangs the hidden sash of hollow glass door and window above lower fixed pulley 24, with the track sliding fit on the installation wall. The hook 250 is in clamping fit with the notch 32, the shape and the size of the hook are matched with the inner wall of the notch 32, the hook 250 is of an inverted T-shaped cross section, the bottoms of the two side walls are correspondingly provided with protruding platform forming hook parts which extend into the clamping grooves 33 of the inner wall of the notch to be in clamping fit with each other and can be further fixed by fasteners such as screws, the top of the hook 250 is fixedly connected to the hanger rail 26 through a hanger rod, the hanger rail 26 is connected with the hollow glass door and window hidden sash 100 through the hook 25 and bears the hollow glass door and window hidden sash, and the pulley on the hanger rail 26 drives the hollow glass door and window hidden sash. Frame section bar 3' of latent fan bottom of cavity glass door and window has accommodated down positioning wheel 24 in its notch 32, and lower positioning wheel 24 sets up in the lower rail top protrudingly, sliding fit between the inner wall of its both sides and notch 32, and the guide effect is got simultaneously to lower positioning wheel 24.

The utility model discloses cavity glass door and window hidden fan frame section bar can adopt thickness to be 1-3 mm's aluminum alloy ex-trusions, and double-deck die cavity makes whole section bar intensity higher, and the sealed cavity glass of inlayer die cavity, the sealed cavity glass of outer die cavity and/or fixed knot construct the annex.

It is understood that the term "hidden" as used herein refers to a physical location, not limited to being optically invisible, and the frame profile 3 of the hidden sash edge of the insulated glazing unit is hidden and embedded inside the edge of the insulated glazing unit, not covering the edge of the insulated glazing unit, but because of the transparency of the glass, the frame profile 3 can be optically visible from the outside. The hollow glass edge can be further coated with a shading coating or dressing, so that the frame profile is not visible from the outside optically.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The use of the terms "a" or "an" and the like in the description or the claims of the present invention includes one or more than one unless explicitly stated to the contrary. Sometimes, words such as "plurality", "one or more" or "at least one" may be included in the claims and the description, however, in the absence of such a limitation, it is not meant and should not be construed as meaning, and it cannot be envisaged, that there are a plurality.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, and are intended to be within the scope of the application; the scope of the invention is defined by the appended claims and equivalents thereof.

Claims (13)

1. A frame section bar which is characterized in that: the frame section is used as a frame section of the hidden sash of the hollow glass door and window, and an open notch is formed at the outer side or the bottom of the frame section; the notch is through along the length direction and is used for installing various door and window accessories.

2. The frame profile of claim 1, wherein:

the frame section is a multi-cavity section and comprises a sealed inner-layer cavity and an outer-layer cavity positioned outside the inner-layer cavity; the notch is positioned on the outer side of the outer layer cavity; the inner-layer cavity is used for sealing the interval between the hollow glasses so as to seal the inner cavity;

the outer layer cavity is used for sealing the hollow glass and/or spacing the inner layer cavity and/or used for enhancing the strength of the section bar and/or used for fixing door and window accessories.

3. The frame profile of claim 2, wherein:

the frame section comprises an integrally formed top wall, two side walls connected with the top wall and two layers of partition plates;

the interior of the frame profile is divided into the inner-layer cavity and the outer-layer cavity by two layers of partition plates, and correspondingly, the two layers of partition plates are respectively used as the bottom wall of the inner-layer cavity and the bottom wall of the outer-layer cavity;

the bottom wall of the inner layer cavity, the bottom wall of the outer layer cavity and the top wall of the frame profile are parallel to each other or two of the two walls are parallel to each other;

the inner layer cavity and/or the outer layer cavity and/or the notch extend through along the length direction of the frame profile;

the two tail ends of the frame section bar in the length direction are provided with openings;

the two side walls of the frame profile extend from the top wall to the bottom, and respectively correspond to the two side walls of the inner-layer cavity, the two side walls of the outer-layer cavity and the two side walls of the notch from the top wall to the bottom;

the tail ends of the two side walls of the frame section are not connected in a closed mode, and the tail ends of the two side walls of the frame section and the bottom wall of the outer-layer cavity jointly enclose the notch with the open bottom.

4. The frame profile of any one of claims 1 to 3, wherein:

a drying agent is placed in an inner layer cavity of the frame profile;

the outer walls of the two side walls of the frame profile form a plurality of steps to form an adhesive containing groove for containing an adhesive to form a bonding and sealing structure with the surface of the glass; and/or a plurality of steps are formed on the inner walls of the two side walls of the frame profile, so that a clamping groove is formed on the inner walls and is used for being tightly matched with the door and window accessories;

door and window accessories are arranged in the notches of the frame profiles;

the tail ends of the frame profiles are cut into a preset angle so as to be beneficial to splicing two frame profiles;

the tail end of each frame profile is provided with a notch to form a glue injection hole, the glue injection holes at the splicing positions of the tail ends of two adjacent frame profiles are connected to form a glue injection cavity, and glue is injected into the glue injection cavity to form a section of sealant so as to seal a gap possibly generated when the tail ends of the two frame profiles are spliced;

the frame section is suitable for being embedded into the space between two layers of glass at the edge of the hollow glass in a concealed mode to seal the hollow glass, and a notch is formed in the edge of the hollow glass to enable a door and window accessory to be installed additionally.

5. The utility model provides a cavity glass door and window latent fan, includes cavity glass, its characterized in that: the hollow glass door and window hidden sash also comprises a plurality of side frame profiles; an open notch is formed at the outer side or the bottom of the frame profile; the frame section bar is embedded into the edge of the hollow glass to seal the cavity in the hollow glass, and the frame section bar is additionally provided with a door and window accessory, so that the hollow glass door and window hidden sash with the door and window accessory is correspondingly obtained.

6. The hidden sash for hollow glass doors and windows according to claim 5, wherein:

the door and window accessory comprises a pulley assembly and/or a hook hanger rail assembly and/or an anti-collision structure;

the notch is communicated along the length direction; the door and window accessories are arranged in the notch;

the frame section is a multi-cavity section and comprises a sealed inner-layer cavity and an outer-layer cavity positioned outside the inner-layer cavity; the notch is positioned on the outer side of the outer layer cavity; the inner-layer cavity is used for sealing the interval between the hollow glasses so as to seal the inner cavity;

the outer layer cavity is used for sealing the hollow glass and/or spacing the inner layer cavity and/or used for enhancing the strength of the section bar and/or used for fixing door and window accessories.

7. The hidden sash for hollow glass doors and windows according to claim 6, wherein:

the frame section comprises an integrally formed top wall, two side walls connected with the top wall and two layers of partition plates;

the interior of the frame profile is divided into the inner-layer cavity and the outer-layer cavity by two layers of partition plates, and correspondingly, the two layers of partition plates are respectively used as the bottom wall of the inner-layer cavity and the bottom wall of the outer-layer cavity;

the bottom wall of the inner layer cavity, the bottom wall of the outer layer cavity and the top wall of the frame profile are parallel to each other or two of the two walls are parallel to each other;

the inner layer cavity and/or the outer layer cavity and/or the notch extend through along the length direction of the frame profile;

the two tail ends of the frame section bar in the length direction are provided with openings;

the two side walls of the frame profile extend from the top wall to the bottom, and respectively correspond to the two side walls of the inner-layer cavity, the two side walls of the outer-layer cavity and the two side walls of the notch from the top wall to the bottom;

the tail ends of the two side walls of the frame section are not connected in a closed mode, and the tail ends of the two side walls of the frame section and the bottom wall of the outer-layer cavity jointly enclose the notch with the open bottom.

8. The hidden sash for hollow glass doors and windows according to claim 5, wherein:

a drying agent is placed in an inner layer cavity of the frame profile;

the outer walls of the two side walls of the frame profile form a plurality of steps to form an adhesive containing groove for containing an adhesive to form a bonding and sealing structure with the surface of the glass; and/or a plurality of steps are formed on the inner walls of the two side walls of the frame profile, so that a clamping groove is formed on the inner walls and is used for being tightly matched with the door and window accessories;

the tail ends of the frame profiles are cut into a preset angle so as to be beneficial to splicing two frame profiles;

the tail end of the frame section bar is provided with a notch to form an injection hole, the injection holes at the splicing part of the tail ends of two adjacent frame section bars are connected to form an injection cavity, and the inside of the injection cavity is injected with glue to form a section of sealant so as to seal a gap possibly generated when the tail ends of the two frame section bars are spliced.

9. The hidden sash for hollow glass doors and windows according to claim 5, wherein:

two side walls of the frame section bar are respectively bonded and sealed with the surfaces of the two layers of glass by adhesive layers;

the shape and the size of the frame section are matched with the interval between the two layers of glass of the hollow glass and the edge of the hollow glass, and the frame section is embedded into the interval between the two layers of glass at the edge of the hollow glass, so that the interval of the hollow glass is sealed.

10. The hidden sash for hollow glass doors and windows according to claim 5, wherein:

the tail ends of two adjacent frame sectional materials are connected by an angle connector;

and the glue injection holes at the splicing part of the tail ends of the two frame profiles are connected to form a glue injection cavity, a section of sealant is formed inside the glue injection cavity, and the sealant is hermetically connected with the splicing tail ends of the two frame profiles.

11. The hidden sash for hollow glass doors and windows as claimed in claim 10, wherein:

the tail ends of the two frame profiles are cut into adaptive angles and are spliced into a whole;

two ends of the corner fastener are respectively inserted into an inner cavity or an outer cavity or the notch of the tail end of the two frame profiles, and the corner fastener is further used for fixing the corner fastener with the frame profiles, so that the tail ends of the two frame profiles are fixedly connected;

the notch at the tail end of the bottom wall of the outer layer cavity of the frame profile serves as a glue injection hole, the glue injection cavity is formed between the tail ends of the outer layer cavities at the splicing part of the two frame profiles, and the sealant in the glue injection cavity is positioned at the end part of the outer layer cavity;

the outer walls of the two side walls of the inner layer cavity of the frame section are respectively bonded and sealed with the surfaces of the two layers of glass by a first adhesive layer to form a tight and firm bonding structure;

and the outer walls of the two side walls of the outer layer cavity of the frame profile and/or the outer walls of the two side walls of the notch are respectively bonded and sealed with the surfaces of the two layers of glass by a second adhesive layer to form a tight and firm bonding structure.

12. The hidden sash for hollow glass doors and windows as claimed in claim 11, wherein:

the outer wall of the side wall of the inner layer cavity is provided with a step, a first adhesive containing groove is formed between the step and the surfaces of the two layers of glass, and a first adhesive layer is formed inside the step to bond and seal the frame section bar at the interval between the two layers of glass;

a step is formed between the outer wall of the side wall of the inner layer cavity and the outer wall of the side wall of the outer layer cavity and/or a step is formed on the outer wall of the side wall of the notch, and a second adhesive containing groove is formed between the step and the surfaces of the two layers of glass; a second adhesive layer is formed inside to bond and seal the interval between the two layers of glass of the frame section;

the frame section is embedded in the edge of the hollow glass in a hidden manner, and the frame section does not cover the outer side of the edge of the hollow glass;

the door and window accessory can be selectively fixed on the bottom wall of the outer layer cavity of the frame profile by using a fastener;

the fastener end and/or the top of the door and window accessory penetrate through the bottom wall of the outer cavity of the frame section bar and can be selectively accommodated in the outer cavity without penetrating through the inner cavity.

13. The hidden sash for hollow glass doors and windows according to any one of claims 5 to 12, wherein:

the hidden sash of the hollow glass door and window is of an integral structure with a pulley or a hook hanging rail;

the bottom of the hollow glass door and window hidden sash is provided with a lower pulley assembly, the lower pulley assembly is arranged in the groove of the frame section bar, and a lower pulley of the lower pulley assembly is in sliding fit with a lower track of a door and window mounting wall to form a walking wheel type hollow glass door and window hidden sash and bear the hollow glass door and window hidden sash; the lower pulley assembly is clamped and fixed through a lower pulley auxiliary material, and the lower pulley auxiliary material is in clamping fit with the inner wall of the notch of the frame profile, the clamping groove of the inner wall and the edge of the notch and is fixed on the bottom wall of the outer layer cavity; an upper pulley component or a buffer component is arranged in the groove of the frame section bar at the top of the hidden sash of the hollow glass door and window to guide the top of the hidden sash of the hollow glass door and window to be in sliding fit with an upper track of a door and window mounting wall; or

The hollow glass door and window hidden sash is of a hanging rail type hollow glass door and window hidden sash structure, the hook hanging rail assembly is installed in the notch of the frame section at the top and is fixedly connected with the bottom wall of the outer layer cavity, and the hook hanging rail assembly bears the hollow glass door and window hidden sash so as to drive the hollow glass door and window hidden sash to be hung on the lower rail and to be in sliding fit with the upper rail of the installation wall; a lower positioning wheel is accommodated in a notch of the frame section bar at the bottom, and the hidden sash of the hollow glass door and window is in sliding fit with the lower positioning wheel;

anti-collision rubber strips are arranged in the notches of the frame profiles on the two sides of the hidden sash of the hollow glass door and window, are tightly clamped in the notches and are fixed on the bottom wall of the outer layer cavity by fasteners;

decorative buckle covers are arranged in the notches of the frame profiles on the two sides of the hidden sash of the hollow glass door and window; the decorative buckle cover is consistent with the shape of the notch, and the outer wall and the edge of the decorative buckle cover are clamped on the inner wall and the outer edge of the notch in a clamping fit manner; the anti-collision rubber strip is clamped in the decorative buckle cover and is tightly matched with the decorative buckle cover; the anti-collision rubber strip and the decorative buckle cover are further fastened by the fastener to form a firm matching structure on the bottom wall of the outer-layer cavity.

Images