CN210439874U

CN210439874U - Adjustable energy-saving window

Info

Publication number: CN210439874U
Application number: CN201920015984.9U
Authority: CN
Inventors: 吴育萍; 王艳红; 范小明
Original assignee: Jinhua Polytechnic
Current assignee: Jinhua Polytechnic
Priority date: 2019-01-07
Filing date: 2019-01-07
Publication date: 2020-05-01
Anticipated expiration: 2029-01-07

Abstract

The utility model relates to a building field, especially an adjustable can make up energy-conserving window. The heat-insulating window can be assembled and disassembled easily and is easy to transport. Including wall frame, slide rail pipe, frame pipe, interior glass window, four at least blocks of wall frame, including horizontal wall frame and vertical wall frame, set up the pipe socket of two at least parallel arrangement in the inner wall of wall frame, the slide rail pipe transversely inserts or the lock sets up in the pipe socket of horizontal wall frame, and the frame pipe sets up in the pipe socket of vertical wall frame, interior glass window includes glass frame and glass, and the four sides outer wall of glass frame all is provided with the glass frame draw-in groove of indent, and on the slide rail pipe on the horizontal wall frame was gone into to the card about the glass frame draw-in groove, slided in the same direction as the slide rail pipe. The required shapes can not be manufactured as the prior art, only the required length and width can be manufactured according to a plan, and the transportation is carried out in a transverse strip state, so that the elevator can be used for transportation, and the transportation can also be carried out directly along a stairway; after reaching the manufacturing place, the assembly and the splicing can be finished by directly carrying out up-down, left-right assembly and splicing.

Description

Adjustable energy-saving window

Technical Field

The utility model relates to a building field, especially an adjustable can make up energy-conserving window.

Background

Aluminum alloy window under prior art is all beaten earlier and is caused integrative then install in the installation department, because the big or small problem in installation place, it is the size that the window is greater than the door usually, can't get into, and high-rise building can't get into the elevator and only walk the corridor transport, these can cause the transportation restriction, in case the corridor also can't transport, just only hoist, the great rise of cost that has caused of this kind of mounting means, still have non-replaceability or change the degree of difficulty big, so need one kind simple, the transportation is convenient, can carry out multiple mode of assembling and interim installation, tear open and trade, the insulating window of spelling.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a heat-insulating window which can be assembled and assembled, is easy to disassemble and transport.

The utility model discloses a realize through following technical scheme: the utility model provides an adjustable can make up energy-conserving window, includes wall frame, slide rail pipe, frame pipe, interior glass window, four at least blocks of wall frame, including horizontal wall frame and vertical wall frame, each horizontal wall frame about, each vertical wall frame, four surround into squarely, parallel arrangement has two at least pipe chase in the inner wall of wall frame, and the slide rail pipe transversely inserts or the lock sets up in the pipe chase of horizontal wall frame, and the frame pipe sets up in the pipe chase of vertical wall frame, interior glass window includes glass frame and glass, sets up glass in the glass frame, and the glass frame is square, and the four sides outer wall of glass frame all is provided with the glass frame draw-in groove of indent, and the cross sectional shape of glass frame draw-in groove matches with slide rail pipe, frame pipe cross sectional shape, and the upper and lower card of glass frame draw-in groove is gone into on the slide rail pipe on the horizontal wall frame, slides along with the slide rail pipe.

The slide rail pipe and the frame pipe are preferably semi-cylinders or arc-shaped pipe pieces, and the clamping grooves of the matched glass frames are also semi-cylinders or arc-shaped pipe pieces. The curved surface energy of slide rail pipe and the top of glass frame and the bottom glass draw-in groove block back provide very swift slip, possess the effect the same with the slide rail, can provide more powerful airtight performance when the window is closed sealedly after the frame pipe of side and the cooperation of glass draw-in groove, the heat preservation function is stronger than prior art.

Preferably, the head end and the tail end of the frame pipe are both provided with inward concave arc grooves. The frame pipe can utilize the arc groove buckle of self to live the slide rail pipe of top and bottom, reinforcing fixity can, simultaneously because the slide rail pipe also is curved shape, also can buckle the frame pipe in reverse.

Preferably, every two of the pipe grooves are arranged on the wall frame in parallel, and the length of the pipe grooves is equal to the length of the wall frame to reduce the thickness of the wall frame.

Preferably, the slide rail pipe is formed by assembling two sliding rails.

Compared with the background art, the utility model, the profitable effect that has is: the required shapes can not be manufactured as the prior art, only the required length and width can be manufactured according to a plan, and the transportation is carried out in a transverse strip state, so that the elevator can be used for transportation, and the transportation can also be carried out directly along a stairway; the glass window can be directly assembled and spliced up and down, left and right and spliced after reaching the manufacturing place, because the glass window is mutually buckled, the needed hinging tools, nails, screws and the like are few, the glass window can be renovated and disassembled, the replacement of the glass is simple, the inner glass window is provided with a bayonet structure and is easy to replace, and the glass window is double-layer glass and has the functions of heat preservation and energy conservation.

Drawings

Fig. 1 is an overall view.

Fig. 2 is an installation assembly diagram.

Fig. 3 is a structural view of the wall frame.

Fig. 4 is a side cross-sectional view of the wall frame.

In the figure: the glass window frame comprises a wall frame 1, a sliding rail pipe 2, a frame pipe 3, an inner glass window 4, a transverse wall frame 5, a vertical wall frame 6, a pipe groove 7, a glass frame 8, glass 9, a glass frame clamping groove 10, an arc groove 11, a back plate 101 and a side frame plate 102.

Detailed Description

The technical scheme of the utility model is further described in detail by the following embodiments with the accompanying drawings:

the utility model discloses a realize through following technical scheme: as shown in fig. 1-3, an adjustable energy-saving window comprises a wall frame 1, a slide rail pipe 2, a frame pipe 3 and an inner glass window 4; the wall frame, the sliding rail pipe and the frame pipe are all made of aluminum alloy materials and are molded into relevant shapes as required, the wall frame can be manufactured into a back plate 101 and two side frame plates 102 protruding from two sides of the back plate as in the prior art, the whole shape is concave, however, inserting corners with oblique angles capable of being assembled and spliced are not manufactured at the bottom as in the prior art, a square structure with a direct and integrated molding structure is adopted, and the aluminum alloy molding method is that in the prior art, and is not repeated;

as shown in fig. 3 and 4, at least four wall frames are formed by molding, including a transverse wall frame 5 and a vertical wall frame 6, wherein the upper transverse wall frame and the lower transverse wall frame, the left vertical wall frame and the right vertical wall frame, the four wall frames are enclosed into a square shape and are sequentially installed on a wall with a opened window frame in an up-down, left-right manner, the wall frames are provided with screw holes as in the prior art and are fixed in the wall through expansion screws, the transverse wall frame is installed at the top and the bottom, then the vertical wall frames are installed at the left and the right, and the top and the bottom of the vertical wall frame can be placed on the transverse wall frame, which is a direct installation method;

as shown in fig. 2, because of modularization, the wall frame does not have the upper, lower, left and right parts, only has the height of specific adaptation or the transverse length, and only needs to be assembled by direct carrying after the pre-manufacturing according to the matching requirement, so that no matter the wall frame at the top or the wall frame at the bottom is directly provided with a pipe groove, the installation does not have too large installation sequence requirement, two pipe grooves 7 are arranged in the inner wall of the wall frame in a shaping way, the pipe grooves are arranged on the wall frame in parallel in pairs, and the length of the pipe grooves is equal to the length of the wall frame to reduce the thickness of the wall frame; this arrangement is for achieving the sealing property because the portion having more than the thickness is to be stacked, and if this portion is added, the stacked portion also has a tube groove, and a non-airtight portion is formed;

the slide rail pipe is transversely buckled or inserted into a pipe groove formed in a transverse wall frame, the frame pipe is vertically buckled or inserted into a pipe groove formed in a vertical wall frame, the inner glass window comprises a glass frame and glass, the glass is arranged in the glass frame, the glass frame is square, the outer walls of four sides of the glass frame are provided with inwards concave glass frame clamping grooves, the cross section of each glass frame clamping groove is matched with the cross section of each slide rail pipe and the cross section of each frame pipe, each slide rail pipe and each frame pipe are semi-cylindrical bodies or arc-shaped pipe segments, and the slide rail pipes and the frame pipes are also semi-cylindrical bodies or arc-shaped pipe segments as matched glass frame clamping grooves. The glass frame clamping grooves are clamped on the slide rail pipe on the transverse wall frame up and down and slide along the slide rail pipe.

The inner glass window comprises a glass frame 8 and glass 9, the glass frame adopts the existing aluminum alloy window technology, but four sides of the glass frame are molded in advance and provided with glass frame clamping grooves 10 with concave shapes matched with the sliding rail pipes and the side frame pipes, the glass frame clamping grooves are clamped into the sliding rail pipes on the transverse wall frame from top to bottom and slide along the sliding rail pipes, the sliding refers to the fact that the sliding rail pipes need to move on the upper sliding rail pipes and the lower sliding rail pipes, the left glass frame clamping grooves and the right glass frame clamping grooves are the same as the existing technology in that multiple concave-convex special shapes need to be manufactured when the window is completely closed and sealed, the glass frame clamping grooves are directly manufactured into arc concave-convex shapes, the technical effect same as that of one mold can be directly achieved, and the manufacturing is more convenient;

as shown in fig. 2 and 3, the slide rail pipe 2 and the frame pipe 3 are arc-shaped pipe pieces, namely semicircular pipe pieces, and are also shaped by adopting aluminum alloy, an inserting wing can be slightly manufactured at the edge of the slide rail pipe, so that the inserting wing can be conveniently buckled in a pipe groove, and the head end and the tail end of the frame pipe 3 are both provided with the inward-concave arc grooves 11. The frame pipe can be used for clamping the sliding rail pipes at the top and the bottom by utilizing the arc grooves of the frame pipe, so that the fixing performance is enhanced, meanwhile, the sliding rail pipes are also clamped in an arc shape, the frame pipe can be reversely clamped, the two sliding rail pipes are assembled, one sliding rail pipe can be disassembled in the disassembling process, and the glass window can be conveniently disassembled;

in addition, the clamping groove serving as the matched glass frame is also an arc-shaped pipe piece; the curved surface energy of slide rail pipe and the top of glass frame and the bottom glass draw-in groove block back provide very swift slip, possess the effect the same with the slide rail, can provide more powerful airtight performance when the window is closed sealedly after the frame pipe of side and the cooperation of glass draw-in groove, the heat preservation function is stronger than prior art.

The field assembly method comprises the following steps: in conclusion, compared with the prior art, all parts of the product are scattered before assembly, so that the purpose of convenient transportation is achieved, and the phenomenon that an elevator cannot be moved during transportation because an integral window frame is carried is avoided, or the whole window frame does not need to be lifted and transported to a high layer in a troublesome way is avoided; the assembly is easy, the modularized manufacturing is adopted, the integral shaping is adopted for the manufacturing, the installation is simple, the re-teaching function of the prior art cannot be deviated, namely, the assembly method is that firstly, according to the same field installation method in the prior art, one transverse wall frame 5 and two vertical wall frames are assembled, and the aluminum alloy windows in the prior art are connected by adopting a drilling gun to drive in screw nails, firstly, the concave window frame structure is formed, then, as shown in figure 2, the installed inner glass window is installed (actually, the same field installation method in the prior art is adopted), and the glass frame clamping grooves 10 on the side surface and the bottom of the inner glass window are buckled with the slide rail pipe 2; finally, the transverse wall frame at the top is covered and installed, and a glass frame clamping groove at the top of the inner glass window is buckled with a slide rail pipe of the transverse wall frame at the top; thus, the whole frame body and the glass window are assembled and manufactured on site;

after the whole window body is assembled, the existing expansion screws are also commonly used for frame fixing, the sealant is used for peripheral gluing, the glass in the glass frame adopts common double-layer glass, but the installation and the disassembly are more convenient than the prior art, the double-glass frame sliding glass window in the prior art basically needs to destroy or adopt more troublesome procedures to disassemble the slide bar, the common straight screwdriver is used for disassembling the frame pipe, the glass window is pushed to one side, then the top of the frame pipe is pried and put down in an inclined way, so that the whole glass window can be lifted and taken out in an inclined way, under the optimal condition, the slide rail pipes are assembled in two ways, one slide rail pipe is inserted to the bottom of the pipe groove during the insertion and then inserted into one pipe or inserted into the left and right respectively, one slide rail pipe can be disassembled during the disassembly, and the glass window can be separated when the glass window part moves to the disassembled part, the glass window is convenient to disassemble.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims

1. An adjustable energy-saving window is characterized in that: including wall frame, slide rail pipe, frame pipe, interior glass window, four at least blocks of wall frame, including horizontal wall frame and vertical wall frame, each horizontal wall frame about, respectively erect the wall frame, four surround into squarely, set up the pipe box of at least twice parallel arrangement in the inner wall of wall frame, the slide rail pipe transversely inserts or the lock sets up in the pipe box of horizontal wall frame, and the frame pipe sets up in the pipe box of vertical wall frame, interior glass window includes glass frame and glass, and the four sides outer wall of glass frame all is provided with the glass frame draw-in groove of indent, and on the slide rail pipe on the horizontal wall frame was gone into to the card about the glass frame draw-in groove, the slide rail pipe slides in the same direction.

2. The adjustable energy saving window as claimed in claim 1, wherein: the slide rail pipe (2) and the frame pipe (3) are semi-cylinders or arc-shaped pipe pieces, and the clamping grooves of the matched glass frames are also semi-cylinders or arc-shaped pipe pieces.

3. An adjustable energy saving window as claimed in claim 1 or 2, wherein: the head end and the tail end of the frame tube (3) are both provided with inward concave arc grooves (11).

4. The adjustable energy saving window as claimed in claim 1, wherein: the pipe grooves are arranged on the wall frame in a pairwise parallel mode, and the length of the pipe grooves is equal to the length of the wall frame to reduce the thickness of the wall frame.

5. An adjustable energy saving window as claimed in claim 1 or 2, wherein: the slide rail pipe is formed by splicing two sliding rails.