CN207092831U - A kind of dual chamber water drainage window frame structure - Google Patents
A kind of dual chamber water drainage window frame structure Download PDFInfo
- Publication number
- CN207092831U CN207092831U CN201720748765.2U CN201720748765U CN207092831U CN 207092831 U CN207092831 U CN 207092831U CN 201720748765 U CN201720748765 U CN 201720748765U CN 207092831 U CN207092831 U CN 207092831U
- Authority
- CN
- China
- Prior art keywords
- window frame
- water surface
- inlet opening
- joint face
- osculum
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Specific Sealing Or Ventilating Devices For Doors And Windows (AREA)
Abstract
The utility model discloses a kind of dual chamber water drainage window frame structure,Including the first window frame and the second window frame,Connected between first window frame and the second window frame by heat-insulating bridge-cut-off,It is characterized in that,First window frame and the second window frame are rectangular cavities structure,The cavity upper surface of first window frame and the second window frame is respectively the first mounting surface and the second mounting surface,The one side that first window frame and the second window frame are connected with each other is respectively the first joint face and the second joint face,The one side relative with first joint face and the second joint face is the first row water surface and the second row water surface,First mounting surface and the second mounting surface offer the first inlet opening and the second inlet opening respectively,The first row water surface and the second row water surface have the first osculum and the second osculum being respectively communicated with the first inlet opening and the second inlet opening,Enable ponding of the window frame when raining or scrubbing to enter window frame inner chamber by inlet opening to discharge from osculum.
Description
Technical field
It the utility model is related to a kind of door window frame structure, and in particular to a kind of dual chamber water drainage window frame structure.
Background technology
Recent year door and window industry develops rapidly, and window frame material structure species are various, either stops that wind and rain still seals
The effect of insulation is also more and more good, but no matter how good window frame quality is, with the increase using the time, the effect of the rain-proof waterproof of window frame
Fruit can also reduce with the aging of the encapsulants such as the sealing strip on window frame, glass cement, cause raining or scrubbing window
When ponding stay on window frame groove and can not drain along window frame, a small amount of fine sand dust can be carried on ponding, is air-dried in ponding
After on window frame groove, fine sand and dust will stay on window frame groove the smooth opening and closing degree and sealing property for influenceing window.
In addition, in finishing, part door and window is mounted to due to for security consideration needing 180 ° of reversions of window frame to turn around
The direction inwardly opened, but the window frame of this positive and negative installation of adaptation does not possess drain function at present, and easy ponding influences window frame
Performance and service life.
Utility model content
For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of dual chamber water drainage window frame structure,
Inlet opening is provided with the mounting surface of the first window frame and the second window frame respectively, draining face face is provided with osculum, makes the dual chamber water drainage
Window frame structure all has good drainage effect no matter front installation still inverts installation.
The purpose of this utility model is realized using following technical scheme:
A kind of dual chamber water drainage window frame structure, including the first window frame and the second window frame be provided, the first window frame and the second window frame it
Between connected by heat-insulating bridge-cut-off, the first window frame and the second window frame are the chamber of rectangular cavities structure, the first window frame and the second window frame
Body upper surface is respectively the first mounting surface and the second mounting surface, and the one side that the first window frame and the second window frame are connected with each other is respectively the
One joint face and the second joint face, the one side relative with the first joint face and the second joint face are the first row water surface and the second draining
Face, the first mounting surface and the second mounting surface offer the first inlet opening and the second inlet opening, the first row water surface and second row respectively
The water surface has the first osculum and the second osculum being respectively communicated with the first inlet opening and the second inlet opening.
Preferably, the first window frame along the first window frame and the second window frame length direction with being also provided with respectively in the second window frame cavity
First unloads the water surface and second unloads the water surface, and first unloads water surface both ends connects the first joint face and the first row water surface respectively, and with first
Mounting surface, the first joint face and the first row water surface form the first drain chamber;
Second unloads water surface both ends connects the second joint face and the second row water surface respectively, and is connected with the second mounting surface, second
Face and the second row water surface form the second drain chamber.
Preferably, the first height for unloading the water surface and first row water surface connection end unloads the water surface and the first joint face company less than first
Connect the height at end;
Second height for unloading the water surface and second row water surface connection end unloads the water surface and the second joint face connection end less than second
Highly.
Preferably, the lower edge of the first osculum is connected in the first connection end for unloading the water surface and the first row water surface;
The lower edge of second osculum is connected in the second connection end for unloading the water surface and the second row water surface.
Preferably, the first osculum opening is provided with the first storm shutter, and the first storm shutter is installed on the first row water surface
Outer surface side;
Second osculum opening is provided with the second storm shutter, and the second storm shutter is installed on the outer surface one of the second row water surface
Side.
Preferably, the first inlet opening is opened in the first mounting surface and close to the side of the first row water surface;
Second inlet opening is opened in the second mounting surface and close to the side of the second row water surface.
Preferably, the first window frame is further opened with the 3rd inlet opening, and the 3rd inlet opening is located at the first mounting surface and close to first
The side of joint face.
Preferably, the first mounting surface is provided with the first window frame groove and sealing frame groove, and the first window frame groove is along the first window frame length
Direction is provided close to the side of the first row water surface, and sealing frame groove is provided close to the one of the first joint face along the first window frame length direction
Side.
Preferably, it is provided with the second window frame groove along the second window frame length direction on the second mounting surface.
Compared with prior art, the beneficial effects of the utility model are:
By the way that there is the first window frame groove and the first mounting surface of the second window frame groove and the second installation in the first window frame and second
The first inlet opening and the second inlet opening are opened up on face, the first draining is opened up in the first window frame and the respective draining face face of the second window frame
Hole and the second osculum, enable originally easily the ponding on the first window frame groove and the second window frame groove of ponding from the first inlet opening and
Second inlet opening flows into respective drain chamber, then is discharged by corresponding osculum, due to the first inlet opening and the second inlet opening point
There is not certain drop between the first osculum and the second osculum, therefore work as ponding from the first inlet opening and the second inlet opening
During inflow, the first drain chamber and the second drain chamber can't be made to form ponding, can be by ponding smoothly from the first osculum and the
Discharged in two osculums, while by the first window frame and the second window frame with respect to Opposite direction connection, make the dual chamber water drainage window frame structure can be with
Screen window can be also installed while windowpane is installed, at the same can also meet to open in window or external-open two states under also have row
The requirement of water function, the dual chamber water drainage window frame structure the first mounting surface and second mounting surface after raining or cleaning is set also to keep
It is dry and comfortable, while keeping good sealing, it also ensure that the fluency of window folding.
Brief description of the drawings
Fig. 1 is a kind of dual chamber water drainage window frame structure windowpane external-open installment state schematic diagram of the utility model;
Fig. 2 is to open installment state schematic diagram in a kind of dual chamber water drainage window frame structure windowpane of the utility model;
Fig. 3 is that a kind of dual chamber water drainage window frame structure of the utility model fixes glass mounting means schematic diagram;
Fig. 4 is that a kind of dual chamber water drainage window frame structure of the utility model fixes glass another kind mounting means schematic diagram.
In figure:1st, the first window frame;2nd, the second window frame;3rd, heat-insulating bridge-cut-off;4th, the first mounting surface;5th, the second mounting surface;6th,
One joint face;7th, the second joint face;8th, the first row water surface;9th, the second row water surface;10th, the first inlet opening;11st, the second inlet opening;
12nd, the first osculum;13rd, the second osculum;14th, first the water surface is unloaded;15th, second the water surface is unloaded;16th, the first storm shutter;17th, second
Storm shutter;18th, the 3rd inlet opening;19th, the first window frame groove;20th, the second window frame groove;21st, sealing frame groove.
Embodiment
Below, with reference to accompanying drawing and embodiment, the utility model is described further:
In order that conventional window frame has drain function, and can is adapted to different installment states, and the utility model provides a kind of double
Chamber water drainage window frame structure, inlet opening is opened up on the mounting surface of window frame, is opened up osculum in window frame lateral surface and is connected holes,
Enable ponding of the window frame when raining or scrubbing to enter window frame inner chamber by inlet opening to discharge from osculum, and two are had together
The window frame of sample discharge structure is relative to overturn connection, the window frame is not only adapted to different mounting means, and in different installation shapes
Also there can be good drainage performance under state, the rush-harvesting and rush-planting water drainage window frame structure includes the first window frame 1 and the second window frame 2, the first window
Connected between the window frame 2 of frame 1 and second by heat-insulating bridge-cut-off 3, the utility model is heat-insulated disconnected with width identical using two root long degree
Bridge 3 connects the upper and lower ends of the first window frame 1 and the second window frame 2 respectively, and the first window frame 1 is parallel to each other and located with the second window frame 2
In in same level, the first window frame 1 and the frame of the second window 2 are the chamber of rectangular cavities structure, the first window frame 1 and the second window frame 2
Body upper surface is respectively the first mounting surface 4 and the second mounting surface 5, and the one side that the first window frame 1 and the second window frame 2 are connected with each other is distinguished
For the first joint face 6 and the second joint face 7, the one side relative with the first joint face 6 and the second joint face 7 is the first row water surface 8
With the second row water surface 9, the first mounting surface 4 and the second mounting surface 5 offer the first inlet opening and 10 second inlet openings 11 respectively, the
One draining face 8 and the second row water surface 9 have the first draining being respectively communicated with the first inlet opening 10 and the second inlet opening 11
The osculum 13 of hole 12 and second.
Pass through first installation with the first window frame groove 19 and the second window frame groove 20 in the first window frame 1 and the second window frame 2
The first inlet opening 10 and the second inlet opening 11 are opened up respectively on the mounting surface 5 of face 4 and second, make originally the first installation of easily ponding
Ponding on the mounting surface 5 of face 4 and second can flow into the first window frame 1 and the second window frame from the first inlet opening 10 and the second inlet opening 11
In 2 cavity body structure, and the first row water surface 8 and the second row water surface 9 in cavity side open up the first osculum 12 and respectively
Two osculums 13, the ponding in the first drain chamber and the second drain chamber is set to arrange 13 from the first osculum 12 and the second osculum
Go out, and because the first inlet opening 10 and the second inlet opening 11 have between the first osculum 12 and the second osculum 13 respectively
Certain drop, therefore can't hoard after ponding enters the first drain chamber and the second drain chamber in cavity, can be successfully
Ponding is discharged from the first osculum 12 and the second osculum 13, avoids the same of the first mounting surface 4 and the ponding of the second mounting surface 5
When, be also not in ponding in drain chamber.
Also the is provided with first window frame 1 and the cavity of the second window frame 2 along the first window frame 1 and the length direction of the second window frame 2 respectively
One unloads the water surface 14 and second unloads the water surface 15, and first unloads the both ends of the water surface 14 connects the first joint face 6 and the first row water surface 8 respectively, and
The first drain chamber is formed with the first mounting surface 4, the first joint face 6 and the first row water surface 8;Second unloads the both ends of the water surface 15 connects respectively
Second joint face 7 and the second row water surface 9, and form the second draining with the second mounting surface 5, the second joint face 7 and the second row water surface 9
Chamber, it is provided with window frame cavity and unloads the water surface, when making ponding from inlet opening into window frame wall inside, product can be caught by unloading the water surface
Water, ponding are discharged by unloading the water surface from osculum, are avoided ponding from being penetrated into after flowing into window frame in the other structures of window frame, are finally oozed
Enter wall or interior.
First, which unloads the water surface 14, unloads the water surface 14 less than first with the height of the connection end of the first row water surface 8 and connects with the first joint face 6
Connect the height at end;Second height for unloading the water surface 15 and the connection end of the second row water surface 9 unloads the joint face 7 of the water surface 15 and second less than second
The height of connection end, unload the water surface 14 and second first and unload the water surface 15 and be arranged to respectively toward the first row water surface 8 and the second row water surface 9
Tilt, make ponding fall on first unload the water surface 14 and second unload the water surface 15 when will not trickle everywhere, can directly along gradient direction flow
Walk and excluded from osculum, it is more effective to discharge ponding inside and outside window frame.
The lower edge of first osculum 12 is connected in the first connection end for unloading the water surface 14 and the first row water surface 8;Second draining
The lower edge in hole 13 is connected in the second connection end for unloading the water surface 15 and the second row water surface 9, the first osculum 12 and the second osculum
13 lower edge unloads the water surface 14 and second respectively at first and unloads the water surface 15 and be connected, and can more effectively discharge and unload the He of the water surface 14 first
Second unloads the ponding that the water surface 15 leaves, and ponding is not hoarded in drain chamber.
The opening of first osculum 12 is provided with the first storm shutter 16, and the first storm shutter 16 is installed on the first row water surface 8
Outer surface side;The opening of second osculum 13 is provided with the second storm shutter 17, and the second storm shutter 17 is installed on the second row water surface 9
Outer surface side, by installing storm shutter, avoid outdoor wind by osculum enter drain chamber in finally from inlet opening arrange
Go out, make the drainage procedure of the discharge structure more stable, the drainage performance of window frame is not interfered with even if violent storm yet.
First inlet opening 10 is opened in the first mounting surface 4 and close to the side of the first row water surface 8;Second inlet opening 11 opens up
In the second mounting surface 5 and close to the side of the second row water surface 9, inlet opening is set to obtain the closer draining for offering osculum
Face, the ponding for enabling to enter drain chamber from inlet opening are discharged rapidly from osculum, increase drainage efficiency, the window frame is born
The drainage speed of more mass-flow.
First window frame 1 is further opened with the 3rd inlet opening 18, and the 3rd inlet opening 18 is located at the first mounting surface 4 and connected close to first
The side of junction 6, because the window frame can install windowpane and screen window simultaneously, generally also installed between windowpane and screen window
Sealing frame with sealing function, therefore in order to expand the scope that ponding enters drain chamber, add in the wider rear side of the first window frame 1
If the 3rd inlet opening 18, the scope for making the window frame be flowed into for ponding is bigger, the comprehensive presence for avoiding ponding.
First mounting surface 4 is provided with the first window frame groove 19 and sealing frame groove 21, and the first window frame groove 19 is along the length of the first window frame 1
Direction is provided close to the side of the first row water surface 8, and sealing frame groove 21 is provided close to the first joint face along the length direction of the first window frame 1
6 side;On second mounting surface 5 the second window frame groove 20, the groove of the first window frame 1 and the second window are provided with along the length direction of the second window frame 2
Frame groove 20 is used to install windowpane or screen window respectively, and sealing frame groove 21 is used to install sealing frame between windowpane and screen window, increases
The strong window frame sealing performance.
During the utility model use, there are following several mounting means, be the first window frame 1 respectively positioned at interior, second
Window frame 2 is located outside, and the first window frame 1 is provided with screen window, and the second window frame 2 is provided with windowpane, and windowpane is opened to be unidirectional toward outdoor
State, second, the first window frame 1 is located outside, the second window frame 2 is provided with screen window, the second window frame 2 positioned at interior, the first window frame 1
Windowpane is installed, windowpane is the unidirectional state opened toward interior, is secondly separately installed with fixed frame for both the above state
The mounting means of the fixed glass of folder patch;
As shown in figure 1, being located outside for the first window frame 1 positioned at interior, the second window frame 2, the first window frame 1 is provided with screen window,
Second window frame 2 is provided with windowpane, and windowpane is the unidirectional state opened toward outdoor, and now window opens or closes shape no matter being in
State, when running into violent storm, more or less can rain penetrate into forms, the second mounting surface that ponding can be flowed under windowpane
5, now, 5 ponding on the second mounting surface will flow to second after the second drain chamber of the second inlet opening 11 entrance and unload the water surface 15
Surface, then unload the water surface 15 along second and flow to the second osculum 13 and discharged from the second osculum 13.
As shown in figure 3, being all that the second window frame 2 is located outside, the first window frame 1 is now provided with solid positioned at interior on window frame
Determine glass, the first window frame 1 and the second window frame 2 are separately installed with fixed frame and clamp laminated glass, fixed frame and laminated glass
Between can be provided with sealing strip, sealing joint strip surface typically has water guide surface, but as sealing joint strip aging, sealing decline,
Rainwater will flow into the second mounting surface 5 along water guide face from fixed frame, and now, the ponding on the second mounting surface 5 will be from second
Second is flowed to after second drain chamber of the entrance of inlet opening 11 and unloads the surface of the water surface 15, then unloads the surface current of water 15 to the second osculum along second
13 discharge from the second osculum 13.
As shown in Fig. 2 being located outside for the first window frame 1, the second window frame 2 is provided with screen window positioned at interior, the first window frame 1,
Second window frame 2 is provided with windowpane, and windowpane is the unidirectional state opened toward interior, and rainwater falls into close between windowpane and screen window
Seal on frame, flowed into along sealing frame on the first mounting surface 4 under screen window, now ponding flows into the first draining from the first inlet opening 10
Chamber, unload the water surface 14 by first and discharge ponding from the first osculum 12, such as second between ponding inflow windowpane and sealing frame
On mounting surface 5, because sealing frame is located at the side of heat-insulating bridge-cut-off 3, baffle would generally be installed on heat-insulating bridge-cut-off 3, now current
The first mounting surface 4 will be guided to through baffle, is flowed into by the 3rd inlet opening 18 after drain chamber and discharges product from the first osculum 12
Water.
As shown in figure 4, being located outside for the first window frame 1, the second window frame 2 is provided with fixed glass on interior, window frame,
First window frame 1 and the second window frame 2 are mounted with fixed frame and clamp laminated glass respectively, and ponding can be along glass and fixed frame
Between sealing strip be guided to the first mounting surface 4 under fixed frame, ponding is respectively from the first inlet opening 10 and the second inlet opening
11 flow into the first drain chamber, unload the water surface 14 along first and discharge ponding from the first osculum 12.
It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various
Corresponding change and deformation, and all these changes and deformation should all belong to the protection of the utility model claims
Within the scope of.
Claims (9)
1. a kind of dual chamber water drainage window frame structure, including the first window frame and the second window frame, between first window frame and the second window frame
Connected by heat-insulating bridge-cut-off, it is characterised in that first window frame and the second window frame are rectangular cavities structure, first window
The cavity upper surface of frame and the second window frame is respectively the first mounting surface and the second mounting surface, and the first window frame and the second window frame mutually interconnect
The one side connect is respectively the first joint face and the second joint face, and the one side relative with first joint face and the second joint face is
The first row water surface and the second row water surface, first mounting surface and the second mounting surface offer the first inlet opening and second and entered respectively
Water hole, the first row water surface and the second row water surface have first be respectively communicated with the first inlet opening and the second inlet opening
Osculum and the second osculum.
2. a kind of dual chamber water drainage window frame structure as claimed in claim 1, it is characterised in that first window frame and the second window frame
Also the water surface and second is unloaded in cavity provided with first along the first window frame and the second window frame length direction respectively and unloads the water surface, and described first unloads
Water surface both ends connect the first joint face and the first row water surface respectively, and with the first mounting surface, the first joint face and the first row water surface
Form the first drain chamber;
Described second unloads water surface both ends connects the second joint face and the second row water surface respectively, and is connected with the second mounting surface, second
Face and the second row water surface form the second drain chamber.
3. a kind of dual chamber water drainage window frame structure as claimed in claim 2, it is characterised in that described first unloads the water surface and first row
The height of water surface connection end unloads the height of the water surface and the first joint face connection end less than first;
Described second height for unloading the water surface and second row water surface connection end unloads the water surface and the second joint face connection end less than second
Highly.
A kind of 4. dual chamber water drainage window frame structure as claimed in claim 3, it is characterised in that the lower edge of first osculum
It is connected in the first connection end for unloading the water surface and the first row water surface;
The lower edge of second osculum is connected in the second connection end for unloading the water surface and the second row water surface.
A kind of 5. dual chamber water drainage window frame structure as claimed in claim 4, it is characterised in that the first osculum opening peace
Equipped with the first storm shutter, first storm shutter is installed on the outer surface side of the first row water surface;
The second osculum opening is provided with the second storm shutter, and second storm shutter is installed on the appearance of the second row water surface
Face side.
6. a kind of dual chamber water drainage window frame structure as described in any one in Claims 1 to 5, it is characterised in that described first
Inlet opening is opened in the first mounting surface and close to the side of the first row water surface;
Second inlet opening is opened in the second mounting surface and close to the side of the second row water surface.
7. a kind of dual chamber water drainage window frame structure as described in any one in Claims 1 to 5, it is characterised in that described first
Window frame is further opened with the 3rd inlet opening, and the 3rd inlet opening is located at the first mounting surface and close to the side of the first joint face.
8. a kind of dual chamber water drainage window frame structure as claimed in claim 1, it is characterised in that first mounting surface is provided with the
One window frame groove and sealing frame groove, the first window frame groove are provided close to the side of the first row water surface along the first window frame length direction,
The sealing frame groove is provided close to the side of the first joint face along the first window frame length direction.
9. a kind of dual chamber water drainage window frame structure as claimed in claim 1, it is characterised in that along second on second mounting surface
Window frame length direction is provided with the second window frame groove.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720748765.2U CN207092831U (en) | 2017-06-26 | 2017-06-26 | A kind of dual chamber water drainage window frame structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720748765.2U CN207092831U (en) | 2017-06-26 | 2017-06-26 | A kind of dual chamber water drainage window frame structure |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207092831U true CN207092831U (en) | 2018-03-13 |
Family
ID=61552516
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720748765.2U Expired - Fee Related CN207092831U (en) | 2017-06-26 | 2017-06-26 | A kind of dual chamber water drainage window frame structure |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207092831U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109403824A (en) * | 2018-12-10 | 2019-03-01 | 阜阳市和谐门窗有限公司 | A kind of independent discharge structure of aluminum alloy doors and windows |
-
2017
- 2017-06-26 CN CN201720748765.2U patent/CN207092831U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109403824A (en) * | 2018-12-10 | 2019-03-01 | 阜阳市和谐门窗有限公司 | A kind of independent discharge structure of aluminum alloy doors and windows |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109138789A (en) | A kind of casement window drainage system and casement window | |
CN207092831U (en) | A kind of dual chamber water drainage window frame structure | |
CN104594767A (en) | Sliding device | |
CN205895020U (en) | Out -opening window structure | |
CN211058169U (en) | Nail-free and glue-free skylight | |
CN109611001A (en) | The concealed drainage system of casement window | |
CN206592043U (en) | A kind of good curtain wall window of drainage effect | |
CN207017906U (en) | A kind of water drainage window frame structure | |
CN206801347U (en) | A kind of Quick drainage aluminium profile structure | |
CN212479009U (en) | Energy-saving door and window with smooth drainage | |
CN211473824U (en) | Window conversion piece | |
CN109339631A (en) | A kind of concealed discharge structure of ladder and forms | |
CN114135190A (en) | Window screening combination double-inward-opening casement window structure | |
CN209603811U (en) | A kind of casement window drainage system and casement window | |
CN209494413U (en) | Waterproof inner-opening window | |
CN208619010U (en) | Framework outer discharge structure, the window including discharge structure outside this framework | |
CN207212109U (en) | A kind of lower frame aluminium section bar and the door and window with drainage system | |
CN207714642U (en) | Femerell | |
CN221220203U (en) | Side frame structure of casement window | |
CN215632615U (en) | Drainage structure of door and window frame section bar | |
CN216641850U (en) | Window screening combination double-inward-opening casement window structure | |
CN215761365U (en) | Hidden drainage type casement window profile | |
CN219691372U (en) | Combined aluminium alloy door and window | |
CN204677064U (en) | Push-pull device at fixed | |
CN206592014U (en) | A kind of good casement window of drainage effect |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20180410 Address after: 528247 Guangdong Province, Foshan City Nanhai District Dali Town Yanbu South Lake Road about Lian Lian GUI soil "Gou Xi self No. 2 Patentee after: Guangdong Faghini doors and windows Co.,Ltd. Address before: 510000 Guangdong Guangzhou Haizhuqu District Xingang East Road 1000 Pazhou Jisheng Wei bang on the first floor, B1057 Patentee before: Feng Chao |
|
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180313 |