CN213597791U - Hollow glass window frame for shutter - Google Patents

Abstract

The utility model discloses a hollow glass window frame with louver blades, which comprises an upper side frame, a left side frame, a right side frame and a lower side frame, wherein the upper side frame and the lower side frame are fixedly connected with the left side frame and the right side frame through 4 plug-in units respectively to form the hollow glass window frame with louver blades in a rectangular shape integrally, and the frames adopt high-temperature-resistant high-strength warm-edge composite frames to play a good role in bridge cut-off and heat insulation; the frame is made of stainless steel materials, so that the compressive strength can be improved, the heat conduction can be reduced, and the frame cannot deform or change color even under the high-temperature and high-pressure environment for a long time; the drying agent components are fixedly arranged in the frames on the upper side, the left side and the right side, and the drying agents arranged in the drying agent components adsorb water vapor in the hollow glass cavity, so that the dew point of the hollow glass is improved, and the service life of the hollow glass of the louver is effectively guaranteed.

Description

Hollow glass window frame for shutter

Technical Field

The utility model relates to a glass window frame, in particular to side frame of low heat conduction coefficient of tripe cavity glass window belongs to the green energy-conserving glass field of building trade.

Background

The hollow glass shutter is also called built-in shutter hollow glass, and is a new product for installing shutters in a hollow glass cavity, and the shutters are opened or closed by adopting a manual pull rope or a mechanical method. The shutter curtain is integrally installed in the hollow glass by means of advanced technology, magnetic force is used for controlling the shutter curtain in the hollow glass, and the angle of the shutter curtain in the hollow glass can be adjusted at will, so that the shutter curtain is completely transparent, semi-transparent or shading, and meanwhile, the shutter curtain can be completely pulled up to be changed into a whole transparent window.

The hollow glass window is usually provided with a side frame with high strength and low heat conduction coefficient at the periphery of the glass window as a fixed side frame so as to ensure the structural stability of the glass window. In particular, the top low-thermal conductivity side frame, the hollow built-in blind and its operating mechanism are often hung on the top low-thermal conductivity side frame, because a high-strength low-thermal conductivity side frame is usually used as the top low-thermal conductivity side frame. However, the following problems exist:

first, when the low thermal conductivity side frame adopts single low thermal conductivity side frame of high strength, often can sacrifice the heat-proof quality of low thermal conductivity side frame, like this, carry out the heat exchange through this low thermal conductivity side frame between external and indoor for the cavity glass window has a thermal-insulated relatively poor area in border position, is unfavorable for heat preservation or thermal-insulated. And the single heat insulation material is adopted, so the engineering strength of the heat insulation material cannot support the weight of a heavy object. For example, a frame made of pure metal has poor heat insulation, and a frame made of pure plastic cannot bear the weight of the louver, and is deformed.

Second, the low thermal conductivity side frames of hollow blinds generally consist of a single color both inside and outside the room, which is not aesthetically pleasing, and the light materials are susceptible to reaction and color change, such as white, which is susceptible to color change under ultraviolet irradiation, under long-term irradiation of the sun.

Thirdly, most of the side frames with low heat conductivity coefficient at the top in the market are aluminum strips, so that the side frames cannot bear too high strength pressure, are easy to bend and even deform, and are difficult to maintain when used.

Fourthly, the existing louver glass is difficult to pass a dew point test at 60 ℃ below zero due to the insufficient filling amount of the desiccant, and can not meet the existing national standard.

The existing shutter hollow glass window frame has high heat conduction, easy color change and unqualified hollow glass dew point performance, so that the technical service life of the hollow glass is shortened, the hollow glass is frequently replaced, and the maintenance and use cost is increased.

The window frame of the utility model is filled with the drying agent, so that the dew point of the hollow glass is improved, the hollow glass meets the national standard, and the service life of the hollow glass is prolonged; reducing heat conduction and improving strength.

Disclosure of Invention

The utility model aims to provide a window frame of a hollow glass louver, aiming at the technical problems of low dew point, easy color change, high heat transfer, short service life and the like of hollow glass in the existing louver hollow glass window frame, the window frame of the invention has low heat transfer coefficient, and the side frame adopts the technologies of multi-cavity bridge cut-off, increase of filling amount of drying agents, stainless steel materials and the like, thereby playing a good heat insulation role; the window frame is simple in structure, high in strength and good in stability, the structure of the window frame is not deformed after the window frame is used for a long time, the service life of the side frame is prolonged, and the window frame is not deformed after the window frame is used for a long time; the window frame is easy to disassemble, disassemble and maintain, the original structure of the product is not damaged in the maintenance process, the deformation is avoided, the working procedures are simplified, the production speed is accelerated, and the production efficiency is improved.

In order to realize the purpose of the utility model, the utility model provides a louver hollow glass window frame, which comprises an upper frame, a lower frame, a left frame, a right frame and 4 plug-in units, wherein the upper frame and the left frame and the right frame are respectively fixedly connected through the two plug-in units; the lower frame is fixedly connected with the left frame and the right frame through two plug-in units respectively to form a cuboid-shaped integral louver hollow glass window frame, and the louver hollow glass window frame also comprises 3 integral cuboid-shaped drying components, wherein one drying component is fixedly arranged at the lower part of the upper frame, and the second drying component is fixedly arranged at the right side of the left frame; a third drying component is fixedly arranged on the left side of the right frame

The drying component comprises a cuboid drying shell with a cavity inside and a molecular sieve drying agent packaged inside the shell.

Particularly, the side of the drying shell facing the hollow glass is provided with an air vent. The aperture of the air holes is smaller than the grain size of the drying agent.

In particular, the desiccant component is connected with the glass of the hollow louver glass window through hot-melt butyl rubber.

Wherein, the frame includes inside cavity, wholly be cuboid form and the upper and lower air chamber that is parallel to each other and the first drying assembly of fixed mounting in air chamber lower part down, and wherein the upper air chamber is less than air chamber down, and upper and lower air chamber is separated along the horizontal direction by the last baffle that extends along frame length direction and is formed.

In particular, the upper partition plate is provided with at least 1 ventilation through hole (namely an air hole of the upper partition plate).

In particular, the upper air chamber is filled with a molecular sieve desiccant. The air holes of the upper clapboard can be uniformly distributed or non-uniformly distributed on the upper clapboard. The pore diameter of the pores of the upper clapboard is smaller than the grain diameter of the desiccant grains.

Particularly, the upper clapboard is uniformly provided with two rows of air holes along the length direction of the hollow glass window, the distance between the two rows is 2.8-3.2mm, and the diameter of the upper clapboard air hole is 0.08-0.14 mm.

The whole upper air chamber is cuboid, the left end and the right end in the horizontal direction are open, an upper frame fastener and a front fixing groove are arranged at the front end of the outer side of the bottom of the upper air chamber along the length direction (horizontal direction) of the upper frame, and the front fixing groove and the upper frame fastener can be integrated; the rear end of the outer side of the bottom of the upper air chamber is provided with a rear fixing groove along the length direction of the upper frame. The lower air chamber comprises an upper frame front cover plate and an upper frame rear cover plate which are parallel to each other, wherein the upper frame front cover plate is arranged at the front end of the lower air chamber; the upper frame rear cover plate is arranged at the rear end of the lower air chamber and is integrally connected with the rear end of the upper air chamber; the front end of the outer side of the bottom of the upper air chamber is provided with an upper frame buckle along the length direction of the upper frame, and the upper frame buckle is used for fixing an upper frame front cover plate of the lower air chamber.

Particularly, the upper frame front cover plate comprises an upper frame front cover body and an upper frame front cover buckle, and the upper frame front cover buckle is arranged at the upper end part of the front cover body and is integrally connected with the front cover body; the upper frame back shroud includes the upper frame back shroud body and sets up at the back shroud body lower part, towards the fixed subassembly of upper frame back shroud of upper frame protecgulum body, wherein the fixed subassembly of upper frame back shroud includes the first fixed plate of upper frame and upper frame second fixed plate, and the first fixed plate of upper frame, second fixed plate mutually perpendicular and fixed connection are integrative, and the first fixed plate of upper frame is integrative with back shroud body mutually perpendicular and fixed connection, and the first fixed plate fixed mounting of upper frame is in the position of a take the altitude apart from back shroud body bottom, and the mounting height is unanimous with the height of upper frame second fixed plate.

In particular, the first fixing plate of the upper frame and the upper partition plate are parallel to each other, the length of the first fixing plate of the upper frame is matched with that of the upper frame, and the width of the first fixing plate of the upper frame is matched with the thickness of the upper frame.

Particularly, at least 1 upper frame rear cover reinforcing rib is arranged on one side of the upper frame rear cover body facing the upper frame front cover plate; at least 1 upper frame fixing reinforcing rib is arranged on one side, facing the upper air chamber, of the first upper frame fixing plate; an upper frame fixing boss A is fixedly arranged at the lower end of one side of the upper frame rear cover body, which faces the front cover plate; an upper frame fixing boss B is arranged on one side, facing the upper frame rear cover plate, of the upper frame second fixing plate; the connecting line of the upper frame fixing boss B and the fixing boss A is parallel to the upper partition plate, and the distances from the fixing boss A, B to the first upper frame fixing plate are the same and are matched with the height of the first drying assembly; the first desiccant component is fixed on the lower portion of the upper frame through the first fixing plate of the upper frame, the second fixing plate, the rear cover body of the upper frame and the fixing bosses A and B.

Wherein, the drying component of fixed mounting at last frame is first drying component, and the lower part of its dry shell has seted up the bleeder vent on one side towards cavity glass promptly. The aperture of the air holes is smaller than the grain size of the drying agent.

In particular, the first drying module has a length matching the length of the upper frame, a width matching the thickness of the upper frame, and a height matching the height of the fixing protrusion A, B to the first fixing plate.

The left frame comprises a left frame left air chamber and a right frame right air chamber which are hollow inside, rectangular on the whole and parallel to each other, and a second drying assembly fixedly arranged on the right side of the left frame right air chamber; the right frame comprises a right frame left air chamber and a right air chamber which are hollow inside, are in a cuboid shape integrally and are parallel to each other, and a drying agent component fixedly arranged on the left side of the right frame left air chamber; the drying component comprises a cuboid drying shell with a cavity inside and used for packaging drying agent, and molecular sieve drying agent packaged inside the shell.

Particularly, the left air chamber of the left frame is smaller than the right air chamber of the left frame, and the left air chamber and the right air chamber of the left frame are formed by separating a left clapboard extending along the length direction of the left frame along the vertical direction; the right frame right air chamber is smaller than the right frame left air chamber, and the right frame left air chamber and the right frame right air chamber are formed by separating a right partition plate extending along the length direction of the right frame along the vertical direction.

Particularly, at least 1 ventilation through hole, namely a left clapboard air hole, is formed in the left clapboard; the right clapboard is provided with at least 1 ventilation through hole, namely a right clapboard air hole.

In particular, the left frame left air chamber and the right frame right air chamber are filled with a desiccant. The left and right baffle air holes can be distributed on the left and right baffles uniformly or non-uniformly. The pore diameters of the air holes of the left and the right partition plates are smaller than the grain diameter of the desiccant grains.

Particularly, the left and right clapboard air holes are respectively and uniformly provided with two rows on the left and right clapboards along the height direction of the hollow glass window, the distance between the two rows is 2.8-3.2mm, and the diameters of the left and right clapboard air holes are 0.08-0.14 mm.

Particularly, the upper end of the left air chamber of the left frame is fixedly connected with the left end of the upper air chamber of the upper frame through an insert, and the lower end of the left air chamber of the left frame is fixedly connected with the left end of the lower frame through an insert; the upper end of the right frame right air chamber is fixedly connected with the right end of the upper frame upper air chamber through a plug-in, and the lower end of the right frame right air chamber is fixedly connected with the right end of the lower frame through a plug-in.

Particularly, the left air chamber of the left frame is cuboid, the upper end and the lower end of the left air chamber in the vertical direction are open, the front end of the outer wall of the right side of the left air chamber is provided with a left buckle along the length direction of the left frame (namely the height direction of the hollow glass shutter), and the left buckle faces the front cover plate of the left air chamber and is used for fixing the front cover plate of the right air chamber of the left frame.

Especially, left side frame right air chamber wholly is the rectangular bodily form, and vertical the placing, upper and lower both ends are open, including the left frame protecgulum that is parallel to each other, left frame back shroud, wherein left side frame back shroud includes left frame back shroud body and sets up on left frame back shroud body right side, towards the fixed subassembly of left frame back shroud of left frame protecgulum body, the fixed subassembly of left side frame back shroud includes mutually perpendicular, and is the first fixed plate of left frame and left frame second fixed plate of a body coupling, and wherein left frame first fixed plate and left frame back shroud body mutually perpendicular and fixed connection are integrative, and left frame first fixed plate is parallel to each other with left shelf.

Particularly, the length of the left air chamber of the left frame is greater than that of the right air chamber of the left frame; the length of the left air chamber of the left frame is equal to the sum of the length of the right air chamber of the left frame and the height of the lower air chamber of the upper frame; the length of the right air chamber of the right frame is greater than that of the left air chamber of the right frame; the length of the right air chamber of the right frame is equal to the sum of the length of the left air chamber of the right frame and the height of the lower air chamber of the upper frame.

Particularly, the left frame front cover plate is arranged at the front end of the left frame right air chamber and is fixedly connected with the front end of the outer wall of the right side of the left frame left air chamber through a left buckle; the left frame rear cover plate is arranged at the rear end of the left frame right air chamber and is integrally connected with the rear end of the left frame left air chamber.

Particularly, the left frame front cover plate comprises a left frame front cover body and a left frame front cover buckle arranged at the left end of the left frame front cover body; wherein the left frame front cover body is flat; the left frame front cover buckle is arranged at the left end of the left frame front cover body and is integrally connected with the front cover body. The right frame front cover body is parallel to the right frame rear cover body.

Particularly, at least 1 left frame rear cover reinforcing rib is arranged on one side of the left frame rear cover body facing the left frame front cover plate; at least 1 left frame fixing reinforcing rib is arranged on the left side of the left frame first fixing plate, namely the side facing the left air chamber of the left frame; a left frame fixing boss A is fixedly arranged near the right end of one side, facing the front cover plate, of the left frame rear cover body; a left frame fixing boss B is arranged on one side, facing the left frame rear cover plate, of the left frame second fixing plate; the connecting line of the left frame fixing boss B and the fixing boss A is parallel to the left partition plate, and the distance from the fixing boss A, B to the first left frame fixing plate is the same and is matched with the thickness of the drying assembly; the desiccant component is fixed on the right side of the left frame through the first left frame fixing plate, the second left frame fixing plate, the left frame rear cover body and the fixing bosses A and B.

Wherein, right frame left air chamber wholly is the rectangular bodily form, and vertical the placing, upper and lower both ends are open, including the right frame protecgulum that is parallel to each other, right frame back shroud, wherein right frame back shroud includes right frame back shroud body and sets up in right frame back shroud body left side, towards the fixed subassembly of right frame back shroud of right frame protecgulum body, the fixed subassembly of right frame back shroud includes mutually perpendicular, and is the first fixed plate of right frame and right frame second fixed plate of a body coupling, and wherein the first fixed plate of right frame is integrative with right frame back shroud body mutually perpendicular and fixed connection, and the first fixed plate of right frame is parallel to each other with right shelf.

Particularly, the right frame front cover plate is arranged at the front end of the right frame left air chamber and is fixedly connected with the front end of the outer wall of the left side of the right frame right air chamber through a right buckle; the right frame rear cover plate is arranged at the rear end of the right frame left air chamber and is integrally connected with the rear end of the right frame right air chamber.

Particularly, the right frame front cover plate comprises a right frame front cover body and a right frame front cover buckle arranged at the right end of the right frame front cover body; wherein the right frame front cover body is flat plate-shaped; the right frame front cover buckle is arranged at the right side end part of the right frame front cover body and is integrally connected with the front cover body. The right frame front cover body is parallel to the right frame rear cover body.

Particularly, at least 1 right frame rear cover reinforcing rib is arranged on one side, facing the right frame front cover plate, of the right frame rear cover body; at least 1 right frame fixing reinforcing rib is arranged on the right side of the right frame first fixing plate; a right frame fixing boss A is fixedly arranged near the left end of one side, facing the front cover plate, of the right frame rear cover body; a right frame fixing boss B is arranged on one side, facing the right frame rear cover plate, of the right frame second fixing plate; the connecting line of the right frame fixing boss B and the fixing boss A is parallel to the right clapboard, and the distance from the fixing boss B to the right frame first fixing plate is the same as the distance from the fixing boss A to the right frame first fixing plate and is matched with the width of the desiccant assembly; the desiccant component is fixed on the left side of the right frame through the right frame first fixing plate, the second fixing plate, the right frame rear cover body and the fixing bosses A and B.

The drying component is integrally cuboid and comprises a cuboid drying shell and a molecular sieve drying agent, wherein the cuboid drying shell is internally provided with a cavity and used for packaging the drying agent, and the molecular sieve drying agent is packaged in the shell.

Particularly, the drying components fixedly arranged on the left frame and the right frame are second drying components, wherein air holes are formed in the right side of the drying shell of the second drying component fixedly arranged on the right side of the left frame, namely the side of the drying shell facing the hollow glass; the left side of the drying shell of the second drying component fixedly mounted on the left side of the right frame faces one side of the hollow glass, and air holes are formed in the left side of the drying shell. The aperture of the air holes is smaller than the grain size of the drying agent.

In particular, the second drying component has a length matching the lengths of the left and right frames, a width matching the thicknesses of the left and right frames, and a thickness matching the distance from the left frame fixing protrusion A, B to the left frame first fixing plate or the distance from the right frame fixing protrusion A, B to the right frame first fixing plate, respectively, so that the drying agent component is embedded in the right side of the left frame right air chamber and the left side of the right frame left air chamber.

The lower frame is integrally rectangular and internally provided with a cavity.

In particular, the lower frame is made of a metal strip that is hollow inside. The lower frame is horizontally arranged and arranged at the bottom of the hollow louver glass window frame.

Particularly, the cavity of the lower frame is filled with a drying agent; the upper part of the lower frame, namely the side facing the hollow glass, is provided with an air hole. The aperture of the air holes is smaller than the grain size of the drying agent.

In particular, the longitudinal direction of the lower frame is identical to the longitudinal direction of the hollow glass shutter, and extends in the horizontal direction.

In particular, the length of the lower frame is matched with the length of the hollow glass shutter, and the thickness of the lower frame is matched with the thickness of the hollow glass shutter.

In particular, the lower frame is a stainless steel strip and an aluminum hollow strip which are hollow inside, and the lower frame is preferably an aluminum hollow strip.

The width of the splicing column is matched with the thickness of an upper air chamber and the thickness of a lower frame of a top frame of the hollow louver glass window frame, the thickness of a left air chamber of a left frame and the thickness of a right air chamber of a right frame; the height of the air chamber is matched with the height of the upper air chamber of the upper frame, the height of the lower frame, the width of the left air chamber of the left frame and the width of the right air chamber of the right frame.

Particularly, the whole of the inserting column is cuboid, and the surface of the inserting column is provided with a bulge and a groove, so that the friction force between the inserting column and the upper frame, the left frame, the right frame and the lower frame is increased, and the stability of the window frame is improved.

In particular, the thickness of the upper frame is matched with that of the hollow glass louver frame; the length of the hollow glass louver window frame is matched with that of the hollow glass louver window frame; the length of the hollow louver glass window frame is the length in the horizontal direction; the height of the hollow glass louver window frame is the vertical dimension.

In particular, the thickness of the lower frame is matched with that of the hollow glass louver frame; the length of the hollow glass louver window frame is matched with that of the hollow glass louver window frame. The thickness of the left frame is matched with that of the hollow louver glass window frame; the length of the left side frame is matched with the height of the hollow louver glass window frame. The thickness of the right frame is matched with that of the hollow louver glass window frame; the length of the right frame is matched with the height of the hollow louver glass window frame.

Particularly, the upper end of the left air chamber of the left frame is fixedly connected with the left end of the upper air chamber of the upper frame through an insert, and the lower end of the left air chamber of the left frame is fixedly connected with the left end of the lower frame through an insert; the upper end of the right frame right air chamber is fixedly connected with the right end of the upper air chamber of the upper frame through an insert, and the lower end of the right frame right air chamber is fixedly connected with the right end of the lower frame through an insert.

Particularly, after the 4 plug-in components are fixedly connected with the upper frame upper air chamber, the left frame left air chamber, the right frame right air chamber and the lower frame, the upper frame upper air chamber, the left frame left air chamber, the right frame right air chamber and the lower frame are sealed to form relatively independent cavities.

Compared with the prior art, the utility model has the advantages of as follows and benefit:

1. the side frame with low heat conduction coefficient of the hollow louver glass window has simple and stable structure, and after the product is used for a long time, the structure is not deformed, the service time is long, and the service life of the window frame is prolonged; the window frame is easy to disassemble, disassemble and maintain, the original structure of the product is not damaged in the maintenance process, and the deformation is avoided.

2. The utility model discloses a tripe cavity glass window's low heat-transfer coefficient side frame has set up the dry subassembly that a plurality of inside packings have the drier, has improved the use the utility model discloses the dew point of the cavity glass window of window frame for the real realization-60 ℃ of dew point performance of cavity glass window in the use does not condense.

3. The utility model discloses an effectual improvement cavity glass's of tripe cavity glass window's low heat conduction coefficient side frame life-span has prolonged cavity glass window's life, has reduced cavity glass window's change frequency, has reduced glass window's use and maintenance cost.

4. The utility model discloses a set up a plurality of strengthening ribs in the tripe cavity glass window frame, improved the intensity of window frame for the window frame is firm in production, installation, maintenance, dismantlement in-process, and indeformable is difficult for being destroyed, has improved production efficiency, installation effectiveness.

Drawings

FIG. 1 is a schematic view of the structure of the frame of the hollow glass window blind of the present invention;

FIG. 2 is an enlarged schematic view of the upper frame of the hollow louver window frame of the present invention;

FIG. 3 is a schematic structural view of a front cover plate of an upper frame;

FIG. 4 is a schematic structural view of a rear cover plate of the upper frame;

FIG. 5 is an enlarged schematic view of the left side frame of the hollow louver window frame of the present invention;

FIG. 6 is an enlarged schematic view of the right side frame of the hollow louver window frame of the present invention;

FIG. 7 is a cross-sectional view of the bottom frame of FIG. 1 taken along line A-A of the drawing;

FIG. 8 is an enlarged view of the connecting member of the hollow glass louver frame according to the present invention;

fig. 9 is a cross-sectional view taken along line B-B of fig. 8.

Description of the reference numerals

1. An upper frame; 11. an upper air chamber; 111. a front fixing groove; 112. a rear fixing groove; 12. a lower air chamber; 121. an upper frame front cover plate; 1211. an upper frame front cover buckle; 1212. an upper frame front cover body; 122. an upper frame rear cover plate; 1221. an upper frame rear cover body; 1222. an upper frame first fixing plate; 1223. an upper frame second fixing plate; 1224. reinforcing ribs are fixed on the upper frame; 1225. the upper frame fixes the boss A; 1226. the upper frame is covered with a reinforcing rib; 1227. the upper frame is fixed with a boss B; 13. an upper partition plate; 131. an upper baffle plate air hole; 14. an upper frame buckle; 15. a first drying assembly; 151. a first dry housing; 152. a desiccant; 2. a left frame; 21. a left frame left air chamber; 22. a left frame right air chamber; 221. a left frame front cover body; 222. a left frame front cover buckle; 223. a left frame rear cover body; 224. a left frame first fixing plate; 225. a left frame second fixing plate; 226. A reinforcing rib is covered on the left frame rear cover; 227. a left frame fixing boss A; 228. a reinforcing rib is fixed on the left frame; 229. a left frame fixing boss B; 23. a left baffle plate; 231. a left baffle air hole; 24. a left buckle; 25. a second drying assembly; 251. a second dry housing; 3. a right frame; 31. a right frame right air chamber; 32. a right frame left air chamber; 321. a right frame front cover body; 322. a right frame front cover buckle; 323. a right frame rear cover body; 324. a right frame first fixing plate; 325. a right frame second fixing plate; 326. A right frame rear cover reinforcing rib; 327. a right frame fixing boss A; 328. a reinforcing rib is fixed on the right frame; 329. a right frame fixing boss B; 33. a right baffle plate; 331. a right baffle gas hole; 34. a right buckle; 4. a lower frame; 5. a plug-in; 51. and (5) inserting the columns.

Detailed Description

The invention will be further described with reference to specific embodiments, the advantages and features of the invention will become more apparent as the description proceeds. These examples are merely illustrative and do not limit the scope of the invention in any way. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention, and that such changes and modifications are intended to be included within the scope of the invention.

The invention will be further described with reference to the drawings and the detailed description, which are illustrative of the invention and are not to be construed as limiting the scope of the invention in any way.

The terms "up, down, left and right" in the invention mean that when a user faces the glass window, the left side of the user is left; the right side of the user is the right side; the upper part of the glass window is the upper part; the lower portion of the glazing is as follows, without particular limitation to the mechanism of the device of the invention.

The terms "front and rear" in the present invention refer to the case where the user faces the glass window, and the side close to the user is front and the side far from the user is rear, and are not intended to limit the mechanism of the device of the present invention.

The length and the height of the hollow glass shutter are the sizes of the hollow glass shutter in the horizontal direction and the vertical direction after being installed.

As shown in fig. 1, the side frame with low thermal conductivity of the hollow louver glass of the present invention comprises: go up frame 1, left frame 2, right frame 3, lower frame 4 and four plug-in components 5, go up, left, right, lower frame set up respectively at the top, the left side of shutter glass window, the right side and the bottom. The upper frame is fixedly connected with the left frame and the right frame through two plug-ins; the lower frame is fixedly connected with the bottoms of the left frame and the right frame through two plug-in units to form a shutter hollow glass window frame which is integrally rectangular. The plug-in unit fixes and connects the upper, left, right and lower frames to form a frame structure with stable structure. The window frame also comprises a control component for controlling the lifting of the blind and controlling the direction of the blind blades.

The upper frame, the left frame, the right frame and the lower frame are integrally rectangular, and are respectively horizontally arranged and respectively positioned at the top and the bottom of the hollow louver glass window; the left frame and the right frame are respectively vertically arranged and are respectively positioned on the left side and the right side of the hollow louver glass window. The length directions of the upper and lower frames are consistent with the length direction of the hollow louver glass window and extend along the horizontal direction; the length of the glass window is matched with that of the hollow glass louver, the thickness of the glass window is matched with that of the hollow glass louver, and the glass window extends along a horizontal method; the height of which extends in the vertical direction. The length directions of the left frame and the right frame are consistent with the height direction of the hollow louver glass window and extend along the vertical direction; the length of the glass window is matched with the height of the hollow glass louver; the thickness of the hollow glass is matched with that of the shutter, and the hollow glass extends along a horizontal method; the width of which extends in the horizontal direction.

As shown in fig. 1 and 2, the upper frame includes 2 upper and lower air chambers (i.e. upper and lower cavities) 11, 12 which are hollow inside and rectangular and parallel to each other as a whole, and a first drying assembly 15 fixedly installed at the outer side of the bottom of the lower air chamber, the upper air chamber 11 is smaller than the lower air chamber 12, an upper partition plate 13 extending along the length direction of the upper frame (i.e. along the horizontal direction) is arranged between the upper and lower air chambers, and the upper partition plate horizontally partitions the upper frame into an upper air chamber and a lower air chamber which are relatively independent to each other. The upper air chamber is filled with a molecular sieve desiccant (not shown in the drawing), and the lower air chamber is close to the hollow glass. The upper clapboard is provided with at least 1 ventilation through hole, namely an upper clapboard air hole 131, and the aperture of the upper clapboard air hole is smaller than the grain diameter of the desiccant grains. If a plurality of ventilation through holes are arranged, the ventilation through holes are uniformly or non-uniformly distributed on the upper partition plate. Usually, two rows of the air holes of the upper clapboard are uniformly arranged on the upper clapboard along the length direction of the hollow glass window, the distance between the two rows is 2.8-3.2mm, and the diameter of the air holes of the upper clapboard is 0.08-0.14 mm. The left end and the right end of the upper air chamber are fixedly connected with the left frame and the right frame through two plug-in units 5. The thickness and height of the upper air chamber are matched with the size of the plug-in unit.

The moisture in the air in the drier adsorption cavity, because the cavity thickness of built-in tripe cavity glass is big, current cavity glass's dew point is low, leads to the life of cavity glass window short, the utility model discloses an increase the packing volume of drier in the window frame, show to improve cavity glass's dew point, make it improve to-60 ℃, obviously prolong cavity glass window's life.

As shown in fig. 2, the upper air chamber is a cuboid, the left and right ends in the horizontal direction are open (when installed, the upper air chamber is fixed with two plug-in components respectively to form a whole, and the two ends are closed), the front end of the outer side of the bottom of the upper air chamber is provided with an upper frame fastener 14 and a front fixing groove 111 along the length direction (horizontal direction) of the upper frame, the front fixing groove and the upper frame fastener can be integrated into a whole, and can also be separated from each other, in the specific embodiment of the invention, the upper air chamber and the lower air chamber are integrated into a; the rear end of the outer side of the bottom of the upper air chamber is provided with a rear fixing groove 112 along the length direction of the upper frame.

As shown in fig. 2 and 3, the lower air chamber 12 is rectangular in overall shape, and has left and right ends open in the horizontal direction, and includes an upper frame front cover plate 121 and an upper frame rear cover plate 122 which are parallel to each other. The upper frame front cover plate is arranged at the front end of the lower air chamber and is fixedly connected with the front end of the lower part of the upper air chamber through an upper frame buckle 14; the upper frame rear cover plate is arranged at the rear end of the lower air chamber and is integrally connected with the rear end of the upper air chamber. After the upper frame front cover plate is fixedly connected with the upper frame in a clamping way, the upper partition plate, the upper frame front cover plate and the upper frame rear cover plate enclose an upper frame lower air chamber, and the upper frame lower air chamber form an upper frame. The upper frame buckle faces the upper frame front cover plate, and the opening of the front fixing groove deviates from the upper frame front cover plate; the rear fixing groove faces the upper frame front cover plate and deviates from the upper frame rear cover plate.

The upper front cover plate includes an upper front cover body 1212, which is made of polypropylene or stainless steel, and an upper front cover buckle 1211, which is integrally connected to the upper end of the upper front cover body, as shown in fig. 2 and 3, and serves as a reinforcing rib for stabilizing the upper frame.

As shown in fig. 2 and 4, the upper frame rear cover plate 122 includes an upper frame rear cover body 1221 and an upper frame rear cover fixing component disposed at the lower portion of the upper frame rear cover body and facing the upper frame front cover body, the upper frame rear cover fixing component includes an upper frame first fixing plate 1222 and an upper frame second fixing plate 1223, wherein the upper frame first fixing plate is perpendicular to and fixedly connected to the upper frame second fixing plate, the upper frame first fixing plate is perpendicular to and fixedly connected to the upper frame rear cover body, the upper frame first fixing plate is fixedly mounted at a position having a certain height from the bottom of the rear cover body, and the mounting height is consistent with the height of the upper frame second fixing plate. The upper frame rear cover body is flat and made of polypropylene or stainless steel materials, the first upper frame fixing plate is parallel to the upper partition plate 13, the length of the upper frame fixing plate is matched with that of the upper frame, and the width of the upper frame fixing plate is matched with the thickness of the upper frame. The upper frame first fixing plate, the upper frame second fixing plate and the lower part of the rear cover body form a cuboid shape with an opening at one side of the bottom, the length of the formed cuboid shape is matched with the length of the hollow glass shutter, the width is matched with the thickness of the hollow glass shutter, and the height is matched with the height of the second fixing plate.

The length of the upper frame rear cover body is matched with that of the upper frame; the length of the first fixing plate is matched with the length of the upper frame, and the width of the first fixing plate is matched with the thickness of the upper frame, namely the thickness of the hollow glass shutter.

At least 1 upper frame rear cover reinforcing rib 1226 is arranged on one side of the upper frame rear cover body facing the upper frame front cover plate, and in this embodiment, 3 reinforcing ribs are provided, as shown in fig. 2 and 4. The strengthening rib extends along the length direction of back lid body on the back lid body, can evenly distributed at the direction of height of back lid body, also can unevenly distributed.

At least 1 upper frame fixing rib 1224 is provided on the first upper frame fixing plate facing the upper air chamber, and in the present embodiment, 2 fixing plate ribs are provided, as shown in fig. 2 and 4. The reinforcing ribs extend along the length direction of the upper frame on the first fixing plate, and may be uniformly distributed or non-uniformly distributed in the width direction of the first fixing plate.

The upper frame, the left frame and the right frame are covered with a body; set up the strengthening rib on upper ledge, left frame, the first fixed plate of right frame respectively, improved the compressive strength of section bar, increased frame structure's stability for the sound construction of window frame, non-deformable.

The fixed boss A1225 of upper frame that is provided with of upper frame is fixed in the bottom top of upper cover body towards one side of upper frame front shroud, and the fixed boss A of upper frame sets up the below at the first fixed plate of upper frame, and the fixed boss A of upper frame extends along the length direction of last frame, and its distance that sets up position to first fixed plate matches with the height phase-match of drier subassembly.

An upper frame fixing boss B1227 is arranged on one side, facing the upper frame rear cover body, of the upper portion of the bottom of the upper frame second fixing plate, the upper frame fixing boss B is arranged below the upper frame first fixing plate, the upper frame fixing boss B extends along the length direction of the upper frame, and the distance from the upper frame fixing boss B to the first fixing plate is matched with the height of the drying agent component. The setting height of the upper frame fixing boss B is consistent with that of the upper frame fixing boss A, and the desiccant component is embedded and fixed between the first fixing plate and the second fixing plate of the upper frame, the upper frame fixing boss A, B and the upper frame rear cover body to fix the desiccant component.

The first desiccant assembly 15 has an overall rectangular parallelepiped shape, and includes a rectangular parallelepiped first desiccant casing 151 having a cavity therein for enclosing a desiccant, and a molecular sieve desiccant 152 enclosed inside the desiccant assembly casing. The side of the first drying shell facing the hollow glass is provided with a desiccant vent (not shown in the attached drawing), and the aperture of the desiccant vent is smaller than the particle size of the desiccant packaged in the drying shell. The length phase-match of first dry subassembly and the length phase-match of last frame, its width and the thickness phase-match of last frame, its height and the high phase-match of fixed boss A, B to first fixed plate for first dry subassembly embedding is in the lower part of the lower air chamber of last frame, towards cavity glass, and the window frame is installed the back on cavity glass, adsorbs the internal moisture of cavity glass, improves cavity glass's dew point, extension glass's life, and it is pleasing to the eye to visualize.

The first drying module is embedded and fixed in the lower portion of the lower air chamber of the upper frame, as shown in fig. 2. According to the size of the hollow glass shutter window, at least 2 blind cord holes for the blind cords to pass through are respectively formed along the length direction of the upper frame, the blind cord holes are formed in the first fixing plate 1222 of the upper frame, through holes matched with the blind cord holes and used for the cords to pass through are formed in corresponding positions on two shells of the first drying component parallel to the upper partition plate, the blind cords pass through the first drying component, and meanwhile, sealing elements are arranged on the through holes of the drying shells to prevent the drying agents from flowing out. The control line of the blind can move freely, and the lifting or/and direction of the blind can be controlled.

Cord control holes are respectively formed in one side, close to the left frame, of the upper frame lower air chamber and one side, close to the right frame, of the right frame, so that the upper frame lower air chamber is respectively communicated with the left frame right air chamber and the right frame left air chamber, and lifting cords or overturning cords of the blind are respectively connected with blind lifting components (generally lifting magnetic control switches) or blind overturning components (generally overturning magnetic control switches) installed in the left frame right air chamber and the right frame left air chamber through the control holes, so that the lifting or the rotation of the blind is realized.

The position of the cord control hole close to the left frame is matched with the position of the left frame right air chamber of the left frame; the position of the cord control hole close to the right frame is matched with the position of the right frame left air chamber of the right frame.

When the upper frame front cover plate 121 is fixedly connected with the upper frame buckle 14 at the front end of the upper air chamber bottom, the upper frame front cover buckle at the top end of the front cover plate is matched with the upper frame buckle 14 arranged at the front end of the upper air chamber bottom along the length direction of the upper frame, and the upper frame front cover buckle and the upper frame buckle 14 are connected and fixed into a whole to form the relatively closed lower air chamber 12. The lower air chamber is fixedly provided with a mounting and positioning component for mounting the blind, wherein a blind mounting bar (not shown in the figure) is arranged in a space where the front fixing groove and the rear fixing groove are opposite, so that the blind is more firmly mounted in the window frame.

As shown in fig. 1 and 5, the left frame 2 is rectangular, is disposed on the left side of the hollow glass louver frame, and is disposed vertically, and has a length direction corresponding to the height direction of the hollow glass louver frame and extending in the vertical direction. The length of the left frame is matched with the height direction of the hollow glass shutter, the thickness of the left frame is matched with the thickness of the hollow glass shutter, and the width of the left frame extends along the length direction (namely the horizontal direction) of the hollow glass shutter.

The left frame includes 2 inside hollows, wholly be rectangular bodily form and the left side that is parallel to each other, two air chambers in the right side are left frame left air chamber 21 promptly, left frame right air chamber 22 and fixed mounting are at the dry subassembly 25 of the second on left frame right air chamber right side, left frame left air chamber space is less than left frame right air chamber, control between the air chamber by 23 along the left baffle that left frame length direction extends separate left frame into about two mutually independent left frame left air chambers, left frame right air chamber along vertical direction. The left frame left air chamber is filled with a molecular sieve drying agent (not shown in the drawing), and the left frame right air chamber is close to the hollow glass. The left clapboard is provided with at least 1 ventilation through hole, namely a left clapboard ventilation through hole (called as a left clapboard air hole 231 for short), and the aperture of the left clapboard air hole is smaller than the grain diameter of the drying agent grains. If a plurality of ventilation through holes are arranged, the ventilation through holes are uniformly or non-uniformly distributed on the left clapboard. Usually, two rows of the left clapboard air holes are uniformly formed in the left clapboard along the height direction of the hollow glass window, the distance between the two rows is 2.8-3.2mm, and the diameter of the left clapboard air holes is 0.08-0.14 mm. The upper end of the left air chamber of the left frame is fixedly connected with the left end of the upper air chamber of the upper frame through a plug-in unit 5, and the lower end of the left air chamber of the left frame is fixedly connected with the left end of the lower frame 4 through a plug-in unit 5. The width and the thickness of the left air chamber of the left frame are matched with the size of the plug-in unit. The drying agent component is arranged on one side of the left frame, which is close to the hollow glass window, and is fixedly connected with the right side of the left frame and the right air chamber. The length of the desiccant assembly extends along the height of the hollow louvers, matching the left frame length (i.e., the height of the hollow louvers); the thickness is matched with the thickness of the left frame (namely the thickness of the hollow shutter); the length of the left frame is in the vertical direction; the thickness is in the horizontal direction. The height of the hollow shutter is in the vertical direction; the thickness and length of the film extend in the horizontal direction.

The length of the left air chamber of the left frame is greater than that of the right air chamber of the left frame, and the bottoms of the left air chamber and the right air chamber of the left frame are parallel and level, namely the bottoms of the left air chamber and the right air chamber of the left frame are in the same horizontal plane, and in the upper part of the left air chamber, the height of the left air chamber of the left frame is greater than that of the right air chamber, and the length of the left air chamber of the left frame is equal to the sum of the length of the right air chamber of the left.

As shown in fig. 5, the left air chamber of the left frame is rectangular, the upper and lower ends of the left air chamber in the vertical direction are open (when installed, they are fixed with two inserts respectively, and the two ends are closed), a drying agent (not shown in the drawing) is filled in the left air chamber, and the front end of the outer wall of the right side of the left air chamber is provided with a left buckle 24 along the length direction of the left frame (i.e. the height direction of the hollow louver glass window), and the left buckle faces the front cover plate of the left air chamber and is used for fixing the front cover plate 221 of.

The left and right air chambers 22 are rectangular in shape, and have vertical upper and lower ends open, and include a left frame front cover plate and a left frame rear cover plate which are parallel to each other. The left frame front cover plate is arranged at the front end of the left frame right air chamber and is fixedly connected with the front end of the outer wall of the right side of the left frame left air chamber through a left buckle 24; the left frame rear cover plate is arranged at the rear end of the left frame right air chamber and is integrally connected with the rear end of the left frame left air chamber. After the left frame front cover plate is fixedly connected with the left buckle, the left clapboard, the left frame front cover plate and the rear cover plate enclose a left frame right air chamber. The left and right air chambers and the drying agent component fixed on the right side of the left air chamber form a left frame.

The left frame front cover plate comprises a left frame front cover body 221 and a left frame front cover buckle 222 arranged at the left end of the left frame front cover body, wherein the left frame front cover body is flat and is made of polypropylene or stainless steel materials, the left frame front cover buckle is arranged at the left end of the left frame front cover body and is integrally connected with the front cover body, and as shown in fig. 5, the left frame front cover plate has the effect of stabilizing a reinforcing rib of a left frame. The length of the left frame front cover body is matched with that of the left frame. The left frame front cover buckle and the left buckle are buckled with each other to fix the left frame front cover plate.

Left frame back shroud includes left frame back shroud body 223 and sets up on left frame back shroud body right side, the fixed subassembly of left frame back shroud towards left frame protecgulum body, left frame back shroud fixed subassembly includes left frame first fixed plate 224 and left frame second fixed plate 225, wherein left frame first fixed plate is integrative with left frame second fixed plate mutually perpendicular and fixed connection, left frame first fixed plate is integrative with left frame back shroud body mutually perpendicular and fixed connection, left frame first fixed plate is parallel to each other with left shelf, left frame first fixed plate fixed mounting is in the position apart from left frame back shroud body right-hand member certain distance, its distance apart from left frame back shroud body right-hand member portion and the width phase-match of left frame second fixed plate, the distance of left frame second fixed plate to left frame back shroud body and the thickness phase-match of left frame. The left frame rear cover body is flat and made of polypropylene or stainless steel materials, the length of the first left frame fixing plate is matched with that of the left frame, and the width of the first left frame fixing plate is matched with that of the left frame. The left frame first fixing plate, the left frame second fixing plate and the right side part of the left frame rear cover body form a cuboid with an opening on the right side, the length of the formed cuboid is matched with that of the left frame right air chamber, and the width of the cuboid is matched with that of the hollow glass shutter.

When the left buckle of the left frame front cover plate and the front end of the outer wall of the left side of the left air chamber is fixedly connected, the left frame front cover buckle of the left end of the left frame front cover plate is matched with the left buckle 24 arranged at the front end of the outer wall of the right side of the left air chamber along the length direction of the left frame, and the left buckle are fixedly connected together to form the left frame right air chamber 22 which is relatively closed.

The length of lid body suits with the length of the frame on the left side behind the left frame, and the length of the first fixed plate of left frame suits with the length of the frame on the left side, and the width suits with the thickness of left side frame, promptly with the thickness phase-match of tripe cavity glass window.

Left frame back lid body sets up lid reinforcing rib 226 behind 1 at least left frame towards one side of left frame front shroud, and with setting up 3 reinforcing ribs as an example in the concrete implementation, lid reinforcing rib extends along the length direction of left frame behind the left frame on the lid body, and lid body's width direction can be even or inhomogeneous distribution behind the left frame, like fig. 5.

The left frame rear cover body is fixed towards the right end of one side of the front cover plate and is provided with a left frame fixing boss A227, the left frame fixing boss A is arranged on the right side of the left frame first fixing plate, the distance from the left frame fixing boss A to the left frame first fixing plate is matched with the width of the second drying component, and the width direction of the second drying component is consistent with the length direction of the hollow louver glass window.

The length direction of the hollow glass louver is the horizontal direction; the height direction is vertical direction, and the thickness is horizontal direction extension, and is perpendicular with the length direction of glass window mutually.

At least 1 left frame fixing rib 228 is provided on the left side of the left frame first fixing plate, i.e., on the side facing the left air chamber of the left frame, and 2 ribs are provided in the present embodiment, as shown in fig. 5. The fixed strengthening rib of left frame extends along the length direction of left side frame on the first fixed plate of left frame, and thickness direction along left side frame can be even or inhomogeneous distribution.

The left frame second fixed plate sets up left frame fixed boss B229 towards one side of left frame back shroud, and left frame fixed boss B sets up on the right side of the first fixed plate of left frame, and the distance of fixed boss B apart from the first fixed plate of left frame matches with the width phase-match of second drying component, and the width direction of second drying component is unanimous with the length direction of tripe cavity glass window.

The connecting line of the left frame fixing boss B and the fixing boss A is parallel to the left partition plate, and the distance from the fixing boss A, B to the left frame first fixing plate is the same, so that the second drying assembly is fixed, namely, the second drying assembly is embedded between the left frame first fixing plate, the second fixing plate, the fixing boss A and the fixing boss B, as shown in fig. 5.

The second drying component 25 has a rectangular parallelepiped shape as a whole, and includes a second drying casing 251 having a rectangular parallelepiped shape with a cavity therein for enclosing a drying agent and a molecular sieve drying agent 152 enclosed inside the casing. The right side of the second drying shell, namely the side facing the hollow glass, is provided with a desiccant vent (not shown in the attached drawing), and the aperture of the desiccant vent is smaller than the particle size of the desiccant packaged in the drying shell. The length of second drying component and the high phase-match of the frame on the left side, its width and the thickness phase-match of the frame on the left side, its thickness and the fixed boss A, B of the frame on the left side apart from the phase-match to the first fixed plate of the frame on the left side for the embedding of second drying component is on the right side of the right air chamber of the frame on the left side, towards cavity glass, and the window frame is installed on cavity glass back, adsorbs the moisture in the cavity of cavity glass, improves cavity glass's dew point, extension glass's life, and is visual pleasing to the eye.

The first drying shell and the second drying shell are of aluminum structures and hollow aluminum strips, and the drying agent components are respectively embedded into the lower portion of the lower air chamber of the upper frame, the right side of the right air chamber of the left frame and the left side of the left air chamber of the right frame. The embedded structure is simpler in installation and more stable in use. Can not easily fall off. If the falling phenomenon is worried about, the drying agent component is connected with the glass of the hollow louver glass window through hot melt butyl rubber, namely glue is coated on the joint part of the aluminum strip and the groove, and then the drying agent component is fixed through the reinforcing rib on the groove.

And a lifting component (generally a lifting magnetic switch, not shown in the figure) for controlling the lifting of the blind or a turning component (generally a turning magnetic switch, not shown in the figure) for controlling the rotation direction of the blind blade is arranged in the left frame and the right air chamber, and the lifting component or the turning component is connected with a lifting cord or a turning cord of the blind, penetrates through a cord control hole of the left frame and controls the lifting of the blind or the rotation direction of the blind blade.

As shown in fig. 1 and 6, the right frame 3 is rectangular, is disposed on the right side of the hollow glass louver, is vertically disposed, and has a length direction consistent with the height direction of the hollow glass louver and extends in the vertical direction. The length of the right frame is matched with the height direction of the hollow glass shutter, the thickness of the right frame is matched with the thickness of the hollow glass shutter, and the width of the right frame extends along the length direction (namely the horizontal direction) of the hollow glass shutter.

The right frame includes 2 inside hollows, wholly is rectangular bodily form and the left and right two air chambers that are parallel to each other are right frame left air chamber 32 promptly, right frame right air chamber 31 and fixed mounting at the left second drying component 25 of right frame left air chamber, and right frame right air chamber space is less than right frame left air chamber, controls between the air chamber by following the right baffle 33 that right frame length direction extends and separating into right frame left air chamber, right frame right air chamber of controlling two mutually independent right frame left air chambers, right frame right air chamber along vertical direction. The right frame and the right air chamber are filled with a molecular sieve drying agent (not shown in the drawing), and the right frame and the left air chamber are close to the hollow glass. The right clapboard is provided with at least 1 ventilation through hole, namely a right clapboard ventilation through hole (called as a right clapboard air hole 331 for short), and the aperture of the right clapboard air hole is smaller than the grain diameter of the desiccant grains. If a plurality of ventilation through holes are arranged, the ventilation through holes are uniformly or non-uniformly distributed on the right clapboard. Usually, two rows of right clapboard air holes are uniformly formed in the right clapboard along the height direction of the hollow glass window, the distance between the two rows is 2.8-3.2mm, and the diameter of the right clapboard air holes is 0.08-0.14 mm. The upper end of the right air chamber of the right frame is fixedly connected with the right end of the upper air chamber of the upper frame through a plug-in 5, and the lower end of the right air chamber of the right frame is fixedly connected with the right end of the lower frame 4 through a plug-in 5. The width and the thickness of the right air chamber of the right frame are matched with the size of the plug-in unit. The drying agent component is arranged on one side, close to the hollow glass window, of the right frame and is fixedly connected with the left side of the left air chamber of the right frame. The length of the desiccant assembly extends along the height of the hollow shutter, matching the length of the right frame (i.e., the height of the hollow shutter); the thickness is matched with the thickness of the right frame (namely the thickness of the hollow shutter); the length of the right frame is in the vertical direction; the thickness is in the horizontal direction. The height of the hollow shutter is in the vertical direction; the thickness and length of the film extend in the horizontal direction.

The length of the right frame right air chamber is greater than that of the right frame left air chamber, and the bottoms of the left and right air chambers of the right frame are parallel and level, i.e. the bottoms of the left and right air chambers of the right frame are on the same horizontal plane, and in the upper part of the right frame, the height of the right frame right air chamber is greater than that of the left air chamber, and the height of the right frame right air chamber is equal to the sum of the height of the right frame left air chamber and the height of the upper frame lower air chamber, as shown.

As shown in fig. 6, the right frame and the right air chamber are rectangular, the upper and lower ends of the right frame and the right air chamber in the vertical direction are open (when being installed, they are fixed with two inserts respectively, and the two ends are closed), a drying agent (not shown in the drawing) is filled in the right air chamber, a right buckle 34 is arranged at the front end of the left outer wall of the right air chamber along the length direction of the right frame (i.e. the height direction of the hollow louver glass window), and the right buckle faces the right frame front cover plate for fixing the right frame and the right frame front cover plate of the left.

The right frame left air chamber 32 is rectangular in shape as a whole, and has open upper and lower ends in the vertical direction, and includes a right frame front cover plate and a right frame rear cover plate which are parallel to each other. The right frame front cover plate is arranged at the front end of the right frame left air chamber and is fixedly connected with the front end of the outer wall of the left side of the right frame right air chamber through a right buckle 34; the right frame rear cover plate is arranged at the rear end of the right frame left air chamber and is integrally connected with the rear end of the right frame right air chamber. And after the right frame front cover plate is fixedly connected with the right buckle, the right baffle plate, the right frame front cover plate and the rear cover plate enclose a right frame left air chamber. The left air chamber, the right air chamber and the desiccant component fixed on the left side of the right air chamber form a right frame.

The right frame front cover plate comprises a right frame front cover body 321 and a right frame front cover buckle 322 arranged at the right end of the right frame front cover body, wherein the right frame front cover body is flat and is made of polypropylene or stainless steel materials, the right frame front cover buckle is arranged at the right end part of the right frame front cover body and is integrally connected with the front cover body, and as shown in fig. 6, the right frame front cover plate has the effect of stabilizing the reinforcing rib of the right frame. The length of the right frame front cover body is matched with the length of the right frame. The right frame front cover buckle and the right buckle are buckled with each other to fix the right frame front cover plate.

The right frame back shroud includes right frame back shroud body 323 and sets up in right frame back shroud body left side, the fixed subassembly of right frame back shroud towards right frame protecgulum body, right frame back shroud fixed subassembly includes right frame first fixed plate 324 and right frame second fixed plate 325, wherein right frame first fixed plate and right frame second fixed plate mutually perpendicular and fixed connection are integrative, right frame first fixed plate and right frame back shroud body mutually perpendicular and fixed connection are integrative, right frame first fixed plate and right shelf are parallel to each other, right frame first fixed plate fixed mounting is in the position apart from right frame back shroud body left end certain distance, its distance apart from right frame back shroud body left end and the width phase-match of right frame second fixed plate, the distance of right frame second fixed plate to right frame back shroud body and the thickness phase-match of right frame. The right frame rear cover body is flat and made of polypropylene or stainless steel materials, the length of the first right frame fixing plate is matched with that of the right frame, and the width of the first right frame fixing plate is matched with that of the right frame. The left side of the right frame rear cover body is provided with a cuboid with an opening at the left side, the length of the cuboid is matched with that of the right frame left air chamber, and the width of the cuboid is matched with that of the hollow glass shutter.

When the right frame front cover plate is fixedly connected with the right buckle at the front end of the outer wall of the left side of the right frame right air chamber, the right frame front cover buckle at the right end of the right frame front cover plate is matched with the right buckle 34 arranged at the front end of the outer wall of the left side of the right air chamber along the length direction of the right frame, and the right frame front cover buckle and the right buckle are fixedly connected together to form a relatively closed right frame left air chamber 32.

The length of lid body suits with the length of right frame behind the right frame, and the length of the first fixed plate of left frame suits with the length of left frame, and the width suits with the thickness of left frame, promptly with the thickness phase-match of tripe cavity glass window.

Lid body behind right frame sets up lid reinforcing rib 326 behind 1 right frame at least towards one side of right frame front shroud, and with setting up 3 reinforcing ribs as the example in the concrete implementation, lid reinforcing rib behind right frame extends along the length direction of right side frame on the lid body, and the width direction of lid body can be even or inhomogeneous distribution behind right frame, like figure 6.

The cover body is fixed near the left end of one side of front shroud towards the right frame rear cover and is provided with right frame fixed boss A327, right frame fixed boss A sets up in the left side of the first fixed plate of right frame, fixed boss A and the first fixed plate of right frame distance and the second drying component width phase-match, and the width direction and the tripe cavity glass window length direction of drier subassembly are unanimous.

At least 1 right frame fixing rib 328, i.e., 2 ribs in the present embodiment, is disposed on the right side of the right frame first fixing plate, i.e., on the side facing the right frame right air chamber, as shown in fig. 6. The right frame fixing reinforcing ribs extend along the length direction of the right frame on the right frame first fixing plate, and can be uniformly or non-uniformly distributed along the thickness direction of the right frame.

The right frame second fixed plate sets up right frame fixed boss B329 towards one side of right frame back shroud, and right frame fixed boss B sets up in the left side of the first fixed plate of right frame, and fixed boss B matches with the width phase-match of second drying assembly to the distance of the first fixed plate of right frame, and the width direction of second drying assembly is unanimous with the length direction of tripe cavity glass window.

The connecting line of the right frame fixing boss B and the fixing boss A is parallel to the right partition plate, the distance from the fixing boss A, B to the right frame first fixing plate is the same, and the fixing boss is used for fixing a second drying assembly, namely the second drying assembly is embedded among the right frame first fixing plate, the second fixing plate, the fixing bosses A and B, as shown in figure 6. And the left side of the second drying shell of the second drying component fixed on the left side of the right frame, namely the side facing the hollow glass, is provided with a drying agent vent (not shown in the drawing), and the aperture of the drying agent vent is smaller than the grain size of the drying agent packaged in the drying shell. The length of second drying component and the high phase-match of right frame, the thickness phase-match of its width and right frame, its thickness and the fixed boss A, B of right frame apart from the phase-match of the first fixed plate of left frame for the embedding of second drying component is in the left side of the left air chamber of right frame, towards cavity glass, and the window frame is installed back on cavity glass, adsorbs the moisture in the cavity of cavity glass, improves cavity glass's dew point, extension glass's life, and it is pleasing to the eye to visualize.

And a turning component (usually a turning magnetic switch, not shown in the figure) for controlling the rotation direction of the blind blade or a lifting component (usually a lifting magnetic switch, not shown in the figure) for controlling the lifting of the blind is arranged in the right frame and the left air chamber, and the turning component or the lifting component is connected with a turning cord or a lifting cord of the blind blade through a cord control hole of the right frame to control the rotation direction of the blind blade or the lifting of the blind blade.

As shown in fig. 1 and 7, the lower frame 4 is a rectangular parallelepiped, has a cavity inside, has open left and right ends (when installed, it is fixed with two inserts to form a whole, and closes both ends), is made of hollow aluminum strips, is disposed at the bottom of the hollow glass louver, is horizontally placed, and has a length direction consistent with that of the hollow glass louver, and extends along the horizontal direction. The length of the lower frame is matched with the length direction of the hollow glass shutter, and the thickness of the lower frame is matched with the thickness of the hollow glass shutter.

The inner cavity of the lower frame is filled with molecular sieve desiccant, the upper part of the lower frame, namely one side facing the hollow glass, is provided with desiccant air holes (not shown in the attached drawing), and the aperture of the desiccant air holes is smaller than the particle size of the desiccant filled in the cavity of the lower frame. The height of the lower frame is consistent with the height of the upper air chamber of the upper frame, the width of the left air chamber of the left frame and the width of the right air chamber of the right frame.

Fill the drier in last frame air chamber, left frame left air chamber, the right frame right air chamber be in the utility model discloses not shown in the figure, it can be in bulk also can be pack into the container after filling into air chamber, left frame left air chamber, right frame right air chamber, the container of splendid attire drier has a plurality of gas pockets.

Referring to fig. 1, 8 and 9, the plug-in unit 5 is composed of two plug-in column plug-in columns 51, the included angle between the two plug-in column plug-in columns is 90 degrees, the two plug-in column plug-in columns are fixed into a whole, and the included angle between the two plug-in column plug-in columns is a right angle. The plug-in components are integrally connected by two rectangular plug-in column plug-in columns. The size of the splicing column is matched with the size of the upper frame upper air chamber, the left frame left air chamber, the right frame right air chamber and the lower frame. The two ends of the upper frame upper air chamber, the left frame left air chamber, the right frame right air chamber and the lower frame are plugged by the plug column to form a closed space.

Plug-in components will go up frame, lower frame, left frame, right frame fixed connection and become one wholly, and one of them plug-in columns level is placed, and another plug-in columns vertical placement, wherein: the length of the horizontally placed splicing column is the size along the length direction of the hollow louver glass window; the width is the dimension along the thickness direction of the hollow glass louver; the height is the dimension along the height direction of the louvered hollow glass window. The length of the vertically placed plug-in post is the size along the height direction of the hollow louver glass window; the width is the dimension along the thickness direction of the hollow glass louver; the thickness is the dimension along the length of the louvered hollow glazing frame.

One inserting column of the inserting pieces fixedly connected with the upper frame and the left frame in the four inserting pieces is inserted into and fixed in the left end part of the upper air chamber of the upper frame, and the other inserting column is inserted into and fixed on the upper part of the left air chamber of the left frame to fix the upper frame and the left frame together; one inserting column of the plug-in unit fixedly connected with the upper frame and the right frame is inserted into and fixed in the right side end of the upper air chamber of the upper frame, and the other inserting column is inserted into and fixed on the upper part of the right air chamber of the right frame to fix the top frame and the right frame together; one inserting column of the inserting piece fixedly connected with the lower frame and the left frame is inserted into and fixed in the left end part of the hollow aluminum strip of the lower frame, and the other inserting column is inserted into and fixed at the lower part of the left air chamber of the left frame to fix the lower frame and the left frame together; the plug-in components of the lower frame and the right frame are fixedly connected, one plug-in column is inserted into and fixed at the right end of the hollow aluminum strip of the lower frame, and the other plug-in column is inserted into and fixed at the lower part of the right air chamber of the right frame, so that the lower frame and the right frame are fixed together.

The surface of two plug-in components's plug-in columns plug-in column can also have arch and recess, forms the barb, after plug-in columns plug-in column inserts air chamber, left air chamber or right air chamber or lower frame, owing to there are arch and recess, increases plug-in columns plug-in column and last frame, control the frictional force of frame, lower frame, improves the stability of window frame for be difficult for droing between each part of interconnect.

The width of the splicing column in the utility model is respectively matched with the thickness of the upper air chamber, the thickness of the left air chamber of the left frame, the thickness of the right air chamber of the right frame and the thickness of the lower frame of the hollow glass window frame of the shutter; the height of the inserting column is respectively matched with the height of the upper frame upper air chamber, the height of the lower frame, the width of the left frame left air chamber and the width of the right frame right air chamber.

Claims (10)

1. A hollow glass window frame of a louver comprises an upper frame, a lower frame, a left frame, a right frame and 4 plug-ins, wherein the upper frame is fixedly connected with the left frame and the right frame through the two plug-ins respectively; the lower frame and the left and right frames are fixedly connected through two plug-ins respectively to form a shutter hollow glass window frame which is integrally rectangular, and the shutter hollow glass window frame is characterized by also comprising 3 drying agent components which are integrally rectangular, wherein one drying agent component is fixedly arranged at the lower part of the upper frame, and the second drying agent component is fixedly arranged at the right side of the left frame; a third desiccant assembly is fixedly mounted to the left side of the right frame.

2. The window frame of claim 1, wherein said desiccant assembly comprises a rectangular parallelepiped-shaped desiccant casing having a cavity therein for enclosing a desiccant, and a molecular sieve desiccant enclosed within the casing.

3. The window frame of claim 1 or 2, wherein said upper frame includes upper and lower air chambers having a hollow interior, a rectangular overall shape, and being parallel to each other, wherein the upper air chamber is smaller than the lower air chamber, and the upper and lower air chambers are horizontally partitioned by an upper shelf extending along a length direction of the upper frame; the lower air chamber comprises an upper frame front cover plate and an upper frame rear cover plate which are parallel to each other, wherein the upper frame front cover plate is arranged at the front end of the lower air chamber; the upper frame rear cover plate is arranged at the rear end of the lower air chamber and is integrally connected with the rear end of the upper air chamber; the front end of the outer side of the bottom of the upper air chamber is provided with an upper frame buckle along the length direction of the upper frame, and the upper frame buckle is used for fixing an upper frame front cover plate of the lower air chamber.

4. The window frame of claim 3, wherein the upper frame front cover plate comprises an upper frame front cover body and an upper frame front cover buckle, the upper frame front cover buckle is arranged at the upper end part of the front cover body and is integrally connected with the front cover body; the upper frame rear cover plate comprises an upper frame rear cover body and an upper frame rear cover fixing assembly arranged on the lower portion of the rear cover body, wherein the upper frame rear cover fixing assembly comprises an upper frame first fixing plate and an upper frame second fixing plate, the upper frame first fixing plate and the second fixing plate are perpendicular to each other and are fixedly connected into a whole, the upper frame first fixing plate and the rear cover body are perpendicular to each other and are fixedly connected into a whole, the upper frame first fixing plate is fixedly arranged at a position with a certain height from the bottom of the rear cover body, and the mounting height is consistent with the height of the upper frame second fixing plate.

5. The window frame of claim 4, wherein at least 1 upper frame rear cover reinforcing rib is arranged on one side of the upper frame rear cover body facing the upper frame front cover plate; the first fixed plate of upper frame sets up 1 at least fixed strengthening rib of upper frame towards last air chamber one side.

6. The window frame according to claim 1 or 2, wherein said left frame comprises left and right air chambers of a left frame which are hollow inside, have a rectangular shape as a whole, and are parallel to each other, and a spacer assembly fixedly installed at the right side of the right air chamber of the left frame; the right frame comprises a right frame left air chamber and a right air chamber which are hollow inside, are in a cuboid shape integrally and are parallel to each other, and a drying agent component fixedly arranged on the left side of the right frame left air chamber; the desiccant component comprises a cuboid-shaped drying shell with a cavity inside and used for packaging the desiccant, and a molecular sieve desiccant packaged inside the shell.

7. The window frame according to claim 6, wherein said left and right air chambers have a rectangular shape, are vertically disposed, and have open upper and lower ends, and comprise a left front frame cover and a left rear frame cover, which are parallel to each other, wherein said left rear frame cover comprises a left rear frame cover and a left rear frame cover fixing member disposed at the right side of said left rear frame cover, said left rear frame cover fixing member comprises a left first fixing plate and a left second fixing plate, which are perpendicular to each other and integrally connected to each other, wherein said left first fixing plate is perpendicular to and integrally fixedly connected to said left rear frame cover, and said left first fixing plate is parallel to said left shelf.

8. The window frame according to claim 6, wherein said right frame left air chamber is formed in a rectangular parallelepiped shape, is vertically disposed, and has an upper end and a lower end opened, and comprises a right frame front cover plate and a right frame rear cover plate which are parallel to each other, wherein said right frame rear cover plate comprises a right frame rear cover body and a right frame rear cover plate fixing member provided at the left side of the right frame rear cover body, said right frame rear cover plate fixing member comprises a right frame first fixing plate and a right frame second fixing plate which are perpendicular to each other and integrally connected, wherein the right frame first fixing plate and the right frame rear cover body are perpendicular to each other and fixedly connected integrally, and the right frame first fixing plate and the right shelf plate are parallel to each other.

9. The window frame of claim 7, wherein said left frame back cover body has at least 1 left frame back cover reinforcing rib provided on a side thereof facing said left frame front cover plate; the left side of the first left frame fixing plate is provided with at least 1 left frame fixing reinforcing rib; a left frame fixing boss A is fixedly arranged near the right end of one side, facing the front cover plate, of the left frame rear cover body; a left frame fixing boss B is arranged on one side, facing the left frame rear cover plate, of the left frame second fixing plate; the connecting line of the left frame fixing boss B and the fixing boss A is parallel to the left clapboard, and the distance from the fixing boss B to the first left frame fixing plate is the same as the distance from the fixing boss A to the first left frame fixing plate and is matched with the width of the desiccant assembly; the desiccant component is fixed on the right side of the left frame through the first left frame fixing plate, the second left frame fixing plate, the left frame rear cover body and the fixing bosses A and B.

10. The window frame of claim 8, wherein said right frame back cover body is provided with at least 1 right frame back cover reinforcing rib toward one side of said right frame front cover plate; at least 1 right frame fixing reinforcing rib is arranged on the right side of the right frame first fixing plate; a right frame fixing boss A is fixedly arranged near the left end of one side, facing the front cover plate, of the right frame rear cover body; a right frame fixing boss B is arranged on one side, facing the right frame rear cover plate, of the right frame second fixing plate; the connecting line of the right frame fixing boss B and the fixing boss A is parallel to the right clapboard, and the distance from the fixing boss B to the right frame first fixing plate is the same as the distance from the fixing boss A to the right frame first fixing plate and is matched with the width of the desiccant assembly; the desiccant component is fixed on the left side of the right frame through the right frame first fixing plate, the second fixing plate, the right frame rear cover body and the fixing bosses A and B.

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