CN103015862B - Electric heat insulation type lifting sliding door - Google Patents
Electric heat insulation type lifting sliding door Download PDFInfo
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- CN103015862B CN103015862B CN201110286505.5A CN201110286505A CN103015862B CN 103015862 B CN103015862 B CN 103015862B CN 201110286505 A CN201110286505 A CN 201110286505A CN 103015862 B CN103015862 B CN 103015862B
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- sliding door
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Abstract
The invention discloses an electric heat insulation type lifting sliding door which comprises a sliding door frame, wherein the door frame comprises an outer frame fixing angle iron, a sliding door outer frame, an outer frame heat insulation groove, an outer frame top fixing seat and a rail, wherein a plurality of first heat insulation strips are arranged in the sliding door outer frame, and the outer frame top fixing seat is connected with the sliding door outer frame through a first screw. The electric heat insulation type lifting sliding door also comprises two sliding sashes embedded in the sliding door frame, and a sliding system and a lifting system are arranged in each sliding sash. The electric heat insulation type lifting sliding door is controlled through an electric mode, and has the advantages of higher cost performance, better sealing and heat insulating effects, smoothness in operation, small energy consumption, attractive appearance, and convenience for installation and maintenance.
Description
Technical field
The present invention relates to a kind of sliding door product, in particular to a kind of electric heat insulation type lifting sliding door.
Background technology
Along with growth in the living standard, the individual requirement of people to door and window is more and more higher, to the performance of doors and windows and cosmetic requirements more and more higher.
Meanwhile, along with the development of domestic and international Internet of Things, door and window is as the important part of house system, and the intelligentized control method of door and window requires more and more higher, and intelligentized control method door-window kind product will be the Main way of door and window development in the future.In the face of the blank of domestic lifting sliding door product, this product, by meeting the requirement of domestic high-grade residential market, fills up the blank of this market segment.
In the face of energy problem more and more severeer both at home and abroad, developing the product greatly improving energy-efficient performance corresponding to common doors and windows has been extremely urgent thing.
China starts Building Energy-saving Work in the eighties in 20th century, the unit building energy consumption of current China is 2 ~ 3 times of the developed country that weather is close, exterior window energy consumption is 1.5 ~ 2.2 times of developed country, and door and window is 3 ~ 6 times of developed country by the energy of thermal radiation loss.This shows that the gap of China's building energy conservation level and developed countries is also larger.
How should we get hold of opportunity in the face of market urgently to be speculated and wide development space? this has been industry problem in the urgent need to address.Active development, innovation intelligence, energy-conserving and environment-protective doors and windows, eliminate and fall behind the product of inferior quality, the class of building doors and windows product is improved, and becomes the trend of China's door and window development.
Summary of the invention
The object of this invention is to provide and a kind of to be controlled by electronic mode, high performance-price ratio, sealing, effect of heat insulation are better, run smooth and easy, energy consumption is little, product is attractive in appearance, and installation, maintenance is sliding door structure extremely easily.
For realizing above-mentioned technical purpose, reach above-mentioned technique effect, the present invention is achieved through the following technical solutions:
A kind of electric heat insulation type lifting sliding door, comprise a sliding door frame, described doorframe comprises housing and fixes angle bar, sliding door housing, housing heat dam, outer arch holder, track, in described sliding door housing, some first heat insulating strips are set, described outer arch holder is connected with described sliding door housing by the first screw, also comprise the sliding sash that two embed described sliding door frame, in described sliding sash, be provided with push-pull system and Hoisting System.
Further, described sliding sash comprises one block of hollow glass, described hollow glass outer rim surrounding is respectively provided with glass block, described glass block is fixed in sliding sash fixed frame, described sliding sash fixed frame side is provided with sliding sash housing, opposite side is provided with the detachable inside casing of sliding sash, described sliding sash fixed frame and the detachable inside casing of described sliding sash are connected by the inner angle bar of sliding sash tapping screw and sliding sash, described push-pull system is provided with between described sliding sash housing and the detachable inside casing of described sliding sash, described Hoisting System and the spacing snubber block of sliding sash, described push-pull system is placed in above described hollow glass, described Hoisting System is placed in below described hollow glass, the spacing snubber block of described sliding sash is placed in described hollow glass outer rim both sides and is connected by the inner angle bar of the second screw and described sliding sash, described sliding sash housing and the detachable inside casing of described sliding sash are also connected with some sliding sash bights angle bar, connect with described outer arch holder above described sliding sash housing and the detachable inside casing of described sliding sash, connect with described sliding door housing below described sliding sash housing and the detachable inside casing of described sliding sash, also stationary rack is connected with in described outer arch holder, described stationary rack connects with described push-pull system.
Further, the detachable inside casing of described sliding sash and be provided with sliding sash top seal bar and sliding sash silication wool top between described sliding sash housing and described outer arch holder, the detachable inside casing of described sliding sash and be provided with sliding sash sealing joint strip between sliding sash housing and sliding door housing, the detachable inside casing of described sliding sash and be provided with glass capsulation adhesive tape between sliding sash housing and hollow glass, the second heat insulating strip is provided with between described sliding sash housing and described sliding sash fixed frame, the detachable inside casing of described sliding sash is also provided with screw cover, described screw cover is placed in outside described sliding sash tapping screw.
Further, cutting in the middle of sliding sash inter panel, sliding sash intermediate sealing strip, sliding sash is provided with between described two sliding sashs, described sliding door housing medial shaft straight flange is also provided with outer mullion sealing joint strip, described sliding sash inter panel upper end and described outer arch holder interface are provided with sliding sash inter panel top notch, and described sliding sash inter panel lower end and described rail joints place are provided with sliding sash inter panel bottom plate rabbet.
Further, described push-pull system comprises a push-and-pull drive motors, described push-and-pull drive motors output shaft is connected with the first belt pulley through drive system electric machine support, described drive system electric machine support is connected with described push-and-pull drive motors by motor hold-down screw, described drive system electric machine support is connected with described sliding sash fixed frame by tapping screw, described push-pull system also comprises a belt, described belt one end is connected with described first belt pulley, and described belt is also connected with the first belt output mechanism and the second belt output mechanism.
Further, described first belt output mechanism comprises gear shaft and center tooth wheel seat, on described gear shaft by upper under be connected to clutch shaft bearing, first gearset spacer, gear, second gearset spacer, first hole back-up ring, second bearing, second belt pulley, belt pulley packing ring, second bearing, first hole back-up ring, second gearset spacer, first self-locking nut, described two the second bearings are arranged on described center tooth wheel seat, it is inner that described second belt pulley is arranged at described center tooth wheel seat, described center tooth wheel seat is connected with described sliding sash fixed frame by countersunk self-tapping screw.
Further, described second belt output mechanism comprises gear shaft, end tooth wheel seat and belt pulley backstand, on described gear shaft by upper under be connected to clutch shaft bearing, first gearset spacer, gear, second gearset spacer, first hole back-up ring, second bearing, second belt pulley, belt pulley packing ring, second bearing, first hole back-up ring, second gearset spacer, first self-locking nut, described two the second bearings are arranged on described end tooth wheel seat, it is inner that described second belt pulley is arranged at described end tooth wheel seat, described belt pulley backstand is placed in described end tooth wheel seat side, described belt pulley backstand is provided with belt pulley tensioning bolt, described belt pulley tensioning bolt is connected with described belt pulley backstand by the second self-locking nut, described end tooth wheel seat is connected with described sliding sash fixed frame by countersunk self-tapping screw, described belt pulley backstand is connected with described sliding sash fixed frame by tapping screw.
Further, described Hoisting System comprises lifting drive motors, described lifting drive motors output shaft is connected with shaft coupling through motor fixing seat, the described shaft coupling other end is also connected with screw mandrel, described shaft coupling is provided with holding screw for fixing described screw mandrel and described lifting drive motors output shaft, described screw mandrel is also provided with two pulley mechanisms, described motor fixing seat is connected with described lifting drive motors by motor hold-down screw, and described motor fixing seat is connected with described sliding sash fixed frame by tapping screw.
Further, described pulley mechanism comprises pulley holder, pulley sliding seat, pulley and pulley pin shaft, described pulley pin shaft is connected with pulley axle sleeve in turn, first shaft block ring, second pulley connecting rod, first pulley connecting rod, second hole back-up ring, 3rd bearing, described pulley, 3rd bearing, second hole back-up ring, first pulley connecting rod, second pulley connecting rod, first shaft block ring, pulley axle sleeve, second shaft block ring, described pulley is connected by described first pulley connecting rod with described pulley sliding seat, described pulley holder is connected by described second pulley connecting rod with described pulley, described first pulley connecting rod and described second pulley connecting rod are respectively connected with two the first shaft block rings outward, described pulley holder is connected with described sliding sash fixed frame by tapping screw.
Further, the described vertical side of sliding door housing is also connected with mounting hole lock, and the described vertical side of sliding sash fixed frame is connected with latch hook, and described latch hook is connected with described mounting hole lock and realizes locking.
The invention has the beneficial effects as follows:
Corresponding to domestic common manual lifting sliding door, this product is promoted and is all controlled by electronic mode with push-pull system; Corresponding to external electric hoist sliding door, this product cost is higher; Corresponding to common slide door or window product, sealing, effect of heat insulation is better; By designing cleverly, the operation of this product is smooth and easy, energy consumption is little; By the structure design of novelty, the installation, maintenance of this product is convenient.
Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of manual, coordinates accompanying drawing to be described in detail as follows below with preferred embodiment of the present invention.The specific embodiment of the present invention is provided in detail by following examples and accompanying drawing thereof.
Accompanying drawing explanation
Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 overall structure schematic diagram;
Fig. 2 right view of the present invention;
Fig. 3 top view of the present invention;
Fig. 4 Hoisting System explosive view;
Fig. 5 push-pull system explosive view;
Fig. 6 latch hook mechanism schematic diagram.
Number in the figure illustrates: 1, second shaft block ring, 2, pulley axle sleeve, 3, first shaft block ring, 4, first pulley connecting rod, 401, second pulley connecting rod, 5, pulley sliding seat, 6, 3rd bearing, 7, second hole back-up ring, 8, pulley pin shaft, 9, tapping screw, 901, sliding sash tapping screw, 902, second screw, 10, pulley, 11, pulley holder, 12, promote drive motors, 13, motor fixing seat, 14, motor hold-down screw, 15, shaft coupling, 16, screw mandrel, 17, holding screw, 18, gear shaft, 19, clutch shaft bearing, 20, first gearset spacer, 21, gear, 22, second gearset spacer, 23, first hole back-up ring, 24, second bearing, 25, first belt pulley, 2501, second belt pulley, 26, center tooth wheel seat, 27, belt pulley packing ring, 28, first self-locking nut, 29, countersunk self-tapping screw, 30, end tooth wheel seat, 31, belt tension bolt, 32, second self-locking nut, 33, belt pulley backstand, 34, housing fixes angle bar, and 35, the inner angle bar of sliding sash, 36, first heat insulating strip, 37, sliding door housing, 38, housing heat dam, 39, outer arch holder, 40, sliding sash top seal bar, 41, sliding sash silication wool top, 42, sliding sash bight angle bar, 43, the detachable inside casing of sliding sash, 44, screw cover, 45, sliding sash fixed frame, 46, hollow glass, 47, glass capsulation adhesive tape, 48, glass block, 49, sliding sash sealing joint strip, 50, track, 51, sliding sash housing, 52, second heat insulating strip, 53, stationary rack, 54, first screw, 55, outer mullion sealing joint strip, 56, the spacing snubber block of sliding sash, 57, sliding sash inter panel, 58, cutting in the middle of sliding sash, 59, sliding sash intermediate sealing strip, 60, sliding sash inter panel top notch, 61, sliding sash inter panel bottom plate rabbet, 62, belt, 63, drive system electric machine support, 64, push-and-pull drive motors, 65, mounting hole lock, 66, latch hook, A, Hoisting System, B, push-pull system, A01, pulley mechanism, B01, first belt pulley output mechanism, B02, second belt pulley output mechanism, 101, sliding door frame, 102, sliding sash.
Detailed description of the invention
Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the present invention in detail.
With reference to shown in Fig. 1, Fig. 2, Fig. 3, a kind of electric heat insulation type lifting sliding door, comprise a sliding door frame 101, described doorframe comprises housing and fixes angle bar 34, sliding door housing 37, housing heat dam 38, outer arch holder 39, track 50, some first heat insulating strips 36 are set in described sliding door housing 37, described outer arch holder 39 is connected with described sliding door housing 37 by the first screw 54, it is characterized in that: also comprise the sliding sash 102 that two embed described sliding door frame, in described sliding sash 102, be provided with push-pull system B and Hoisting System A.
Further, described sliding sash 102 comprises one block of hollow glass 46, described hollow glass 46 outer rim surrounding is respectively provided with glass block 48, described glass block 48 is fixed in sliding sash fixed frame 45, described sliding sash fixed frame 45 side is provided with sliding sash housing 51, opposite side is provided with the detachable inside casing 43 of sliding sash, described sliding sash fixed frame 45 and the detachable inside casing 43 of described sliding sash are connected by the inner angle bar 35 of sliding sash tapping screw 901 and sliding sash, described push-pull system B is provided with between described sliding sash housing 51 and the detachable inside casing of described sliding sash 43, described Hoisting System A and the spacing snubber block 56 of sliding sash, described push-pull system B is placed in above described hollow glass 46, described Hoisting System A is placed in below described hollow glass 46, the spacing snubber block of described sliding sash 56 is placed in described hollow glass 46 outer rim both sides and is connected by the inner angle bar 35 of the second screw 902 and described sliding sash, described sliding sash housing 51 and the detachable inside casing of described sliding sash 43 are also connected with some sliding sash bights angle bar 42, connect with described outer arch holder 39 above described sliding sash housing 51 and the detachable inside casing of described sliding sash 43, connect with described sliding door housing 37 below described sliding sash housing 51 and the detachable inside casing of described sliding sash 43, stationary rack 53 is also connected with in described outer arch holder 39, described stationary rack 53 connects with described push-pull system B.
Further, the detachable inside casing of described sliding sash 43 and be provided with sliding sash top seal bar 40 and sliding sash silication wool top 41 between described sliding sash housing 51 and described outer arch holder 39, the detachable inside casing 43 of described sliding sash and be provided with sliding sash sealing joint strip 47 between sliding sash housing 51 and sliding door housing 37, the detachable inside casing 43 of described sliding sash and be provided with glass capsulation adhesive tape 47 between sliding sash housing 51 and hollow glass 46, the second heat insulating strip 52 is provided with between described sliding sash housing 51 and described sliding sash fixed frame 45, the detachable inside casing 43 of described sliding sash is also provided with screw cover 44, described screw cover 44 is placed in outside described sliding sash tapping screw 901.
Further, cutting 58 in the middle of sliding sash inter panel 57, sliding sash intermediate sealing strip 59, sliding sash is provided with between described two sliding sashs 102, described sliding door housing 37 medial shaft straight flange is also provided with outer mullion sealing joint strip 55, described sliding sash inter panel 57 upper end and described outer arch holder 39 interface are provided with sliding sash inter panel top notch 60, and described sliding sash inter panel 57 lower end and described track 50 interface are provided with sliding sash inter panel bottom plate rabbet 61.
With reference to shown in Fig. 5, further, described push-pull system B comprises a push-and-pull drive motors 64, described push-and-pull drive motors 64 output shaft is connected with the first belt pulley 25 through drive system electric machine support 63, described drive system electric machine support 63 is connected with described push-and-pull drive motors 64 by motor hold-down screw 14, described drive system electric machine support 63 is connected with described sliding sash fixed frame 45 by tapping screw 9, described push-pull system B also comprises a belt 62, described belt 62 one end is connected with described first belt pulley 25, described belt 62 is also connected with the first belt output mechanism B01 and the second belt output mechanism B02.
Further, described first belt output mechanism B01 comprises gear shaft 18 and center tooth wheel seat 26, on described gear shaft 18 by upper under be connected to clutch shaft bearing 19, first gearset spacer 20, gear 21, second gearset spacer 22, first hole back-up ring 23, second bearing 24, second belt pulley 2501, belt pulley packing ring 27, second bearing 24, first hole back-up ring 23, second gearset spacer 22, first self-locking nut 28, described two the second bearings are arranged on described center tooth wheel seat 26, it is inner that described second belt pulley 2501 is arranged at described center tooth wheel seat 26, described center tooth wheel seat 26 is connected with described sliding sash fixed frame 45 by countersunk self-tapping screw 29.
Further, described second belt output mechanism B02 comprises gear shaft 18, end tooth wheel seat 30 and belt pulley backstand 33, on described gear shaft 18 by upper under be connected to clutch shaft bearing 19, first gearset spacer 20, gear 21, second gearset spacer 22, first hole back-up ring 23, second bearing 24, second belt pulley 2501, belt pulley packing ring 27, second bearing 24, first hole back-up ring 23, second gearset spacer 22, first self-locking nut 18, described two the second bearings are arranged on described end tooth wheel seat 30, it is inner that described second belt pulley 2501 is arranged at described end tooth wheel seat 30, described belt pulley backstand 33 is placed in described end tooth wheel seat 30 side, described belt pulley backstand 33 is provided with belt pulley tensioning bolt 31, described belt pulley tensioning bolt 31 is connected with described belt pulley backstand 33 by the second self-locking nut 32, described end tooth wheel seat 30 is connected with described sliding sash fixed frame 45 by countersunk self-tapping screw 29, and described belt pulley backstand 33 is connected with described sliding sash fixed frame 45 by tapping screw 9.
With reference to shown in Fig. 4, further, described Hoisting System A comprises lifting drive motors 12, described lifting drive motors 12 output shaft is connected with shaft coupling 15 through motor fixing seat 13, described shaft coupling 15 other end is also connected with screw mandrel 16, described shaft coupling 15 is provided with holding screw 17 for fixing described screw mandrel 16 and described lifting drive motors 12 output shaft, described screw mandrel 16 is also provided with two pulley mechanism A01, described motor fixing seat 13 is connected with described lifting drive motors 12 by motor hold-down screw 14, described motor fixing seat 13 is connected with described sliding sash fixed frame 45 by tapping screw 9.
Further, described pulley mechanism A01 comprises pulley holder 11, pulley sliding seat 5, pulley 10 and pulley pin shaft 8, described pulley pin shaft 8 is connected with pulley axle sleeve 2 in turn, first shaft block ring 3, second pulley connecting rod 401, first pulley connecting rod 4, second hole back-up ring 7, 3rd bearing 6, described pulley 10, 3rd bearing 6, second hole back-up ring 7, first pulley connecting rod 4, second pulley connecting rod 401, first shaft block ring 3, pulley axle sleeve 2, second shaft block ring 1, described pulley 10 is connected by described first pulley connecting rod 4 with described pulley sliding seat 5, described pulley holder 11 is connected by described second pulley connecting rod 401 with described pulley 10, two the first shaft block rings 3 are respectively connected with outside described first pulley connecting rod 4 and described second pulley connecting rod 401, described pulley holder 11 is connected with described sliding sash fixed frame 45 by tapping screw 9.
With reference to shown in Fig. 6, further, described sliding door housing 37 is vertically also connected with mounting hole lock 65 in side, and described sliding sash fixed frame 45 is vertically connected with latch hook 66 in side, and described latch hook 66 is connected with described mounting hole lock 65 and realizes locking.
The operating principle of the present embodiment is as follows:
Sliding door enabling flow process: motor 12 drives Hoisting System to realize the lifting of sliding sash; The aperture end of the mounting hole from mounting hole lock 66 is run to large bore ends by the latch hook 65 of sliding sash simultaneously, thus realizes the dropout of latch hook; Motor 12 is out of service, and then motor 64 runs, and drives push-pull system to realize the door opening action of sliding sash, and the position always running to setting stops.
Sliding door is closed the door flow process: motor 64 drive push-pull system to realize position that sliding sash runs to closedown, and motor 64 is out of service; Motor 12 drives Hoisting System to realize the decline of sliding sash, and the large bore ends of the mounting hole from mounting hole lock 66 is run to aperture end by the latch hook 65 of sliding sash simultaneously, thus realizes the work of locking of sliding sash, and motor 12 is out of service.
The circular motion of screw mandrel, by the screw mandrel 16 be connected with motor 12, is converted to the horizontal rectilinear motion of pulley sliding seat 5 by Hoisting System A; Again by realizing moving up and down of pulley 10 with the pulley connecting rod 4 that pulley sliding seat 5 is connected with pulley holder 11.This system architecture is tightly knitted, stable movement, transmission efficiency are high, lifting load is large.
The rotary motion of motor 64 is converted to the horizontal rectilinear motion of belt 62 by push-and-pull drive system B by the belt wheel that is connected with motor 64; Rectilinear motion is converted to the circular motion of belt wheel 25 and gear 21 by the rectilinear motion of belt 62 again by belt wheel 25; Coordinate transmission by gear 21 with the tooth bar 53 being installed on housing again, realize push-and-pull drive system and drive and to be connected sliding sash horizontal movement with push-and-pull drive system, thus the switch realizing sliding door runs.This system architecture tightly preesed, stable movement, transmission resistance is little, transmission efficiency is high, drive load large.
When pulling down outer arch holder 39, whole sliding sash can be taken off from door body, and whole sliding sash is keeped in repair.
When pulling down sliding sash inside casing 43 with its hold-down screw lid 44, can keep in repair Hoisting System and drive system.
Locking and dropout of sliding door is realized with the mounting hole lock 66 being fixed on housing by the latch hook 65 being fixed on sliding sash.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (6)
1. an electric heat insulation type lifting sliding door, comprise a sliding door frame (101), described doorframe comprises housing and fixes angle bar (34), sliding door housing (37), housing heat dam (38), outer arch holder (39), track (50), in described sliding door housing (37), some first heat insulating strips (36) are set, described outer arch holder (39) is connected with described sliding door housing (37) by the first screw (54), it is characterized in that: also comprise the sliding sash (102) that two embed described sliding door frame, push-pull system (B) and Hoisting System (A) is provided with in described sliding sash (102), described sliding sash (102) comprises one piece of hollow glass (46), described hollow glass (46) outer rim surrounding is respectively provided with glass block (48), described glass block (48) is fixed in sliding sash fixed frame (45), described sliding sash fixed frame (45) side is provided with sliding sash housing (51), opposite side is provided with the detachable inside casing of sliding sash (43), described sliding sash fixed frame (45) and the detachable inside casing of described sliding sash (43) are connected by the inner angle bar (35) of sliding sash tapping screw (901) and sliding sash, described push-pull system (B) is provided with between described sliding sash housing (51) and the detachable inside casing of described sliding sash (43), described Hoisting System (A) and the spacing snubber block of sliding sash (56), described push-pull system (B) is placed in described hollow glass (46) top, described Hoisting System (A) is placed in described hollow glass (46) below, the spacing snubber block of described sliding sash (56) is placed in described hollow glass (46) outer rim both sides and is connected by the inner angle bar (35) of the second screw (902) and described sliding sash, described sliding sash housing (51) and the detachable inside casing of described sliding sash (43) are also connected with some sliding sash bights angle bar (42), described sliding sash housing (51) and the detachable inside casing of described sliding sash (43) top connect with described outer arch holder (39), described sliding sash housing (51) and the detachable inside casing of described sliding sash (43) below connect with described sliding door housing (37), stationary rack (53) is also connected with in described outer arch holder (39), described stationary rack (53) connects with described push-pull system (B).
2. electric heat insulation type lifting sliding door according to claim 1, it is characterized in that: the detachable inside casing of sliding sash (43) and be provided with sliding sash top seal bar (40) and sliding sash silication wool top (41) between sliding sash housing (51) and described outer arch holder (39), the detachable inside casing of described sliding sash (43) and be provided with sliding sash sealing joint strip (47) between sliding sash housing (51) and sliding door housing (37), the detachable inside casing of described sliding sash (43) and be provided with glass capsulation adhesive tape (47) between sliding sash housing (51) and hollow glass (46), the second heat insulating strip (52) is provided with between described sliding sash housing (51) and described sliding sash fixed frame (45), the detachable inside casing of described sliding sash (43) is also provided with screw cover (44), described screw cover (44) is placed in described sliding sash tapping screw (901) outside.
3. electric heat insulation type lifting sliding door according to claim 1, it is characterized in that: described first belt output mechanism (B01) comprises gear shaft (18) and center tooth wheel seat (26), on described gear shaft (18) by upper under be connected to clutch shaft bearing (19), first gearset spacer (20), gear (21), second gearset spacer (22), first hole is with back-up ring (23), second bearing (24), second belt pulley (2501), belt pulley packing ring (27), second bearing (24), first hole is with back-up ring (23), second gearset spacer (22), first self-locking nut (28), described two the second bearings are arranged on described center tooth wheel seat (26), it is inner that described second belt pulley (2501) is arranged at described center tooth wheel seat (26), described center tooth wheel seat (26) is connected with described sliding sash fixed frame (45) by countersunk self-tapping screw (29).
4. electric heat insulation type lifting sliding door according to claim 1, it is characterized in that: described second belt output mechanism (B02) comprises gear shaft (18), end tooth wheel seat (30) and belt pulley backstand (33), on described gear shaft (18) by upper under be connected to clutch shaft bearing (19), first gearset spacer (20), gear (21), second gearset spacer (22), first hole is with back-up ring (23), second bearing (24), second belt pulley (2501), belt pulley packing ring (27), second bearing (24), first hole is with back-up ring (23), second gearset spacer (22), first self-locking nut (18), described two the second bearings are arranged on described end tooth wheel seat (30), it is inner that described second belt pulley (2501) is arranged at described end tooth wheel seat (30), described belt pulley backstand (33) is placed in described end tooth wheel seat (30) side, described belt pulley backstand (33) is provided with belt pulley tensioning bolt (31), described belt pulley tensioning bolt (31) is connected with described belt pulley backstand (33) by the second self-locking nut (32), described end tooth wheel seat (30) is connected with described sliding sash fixed frame (45) by countersunk self-tapping screw (29), described belt pulley backstand (33) is connected with described sliding sash fixed frame (45) by tapping screw (9).
5. electric heat insulation type lifting sliding door according to claim 1 and 2, it is characterized in that: described Hoisting System (A) comprises lifting drive motors (12), described lifting drive motors (12) output shaft is connected with shaft coupling (15) through motor fixing seat (13), described shaft coupling (15) other end is also connected with screw mandrel (16), described shaft coupling (15) is provided with holding screw (17) for fixing described screw mandrel (16) and described lifting drive motors (12) output shaft, described screw mandrel (16) is also provided with two pulley mechanisms (A01), described motor fixing seat (13) is connected with described lifting drive motors (12) by motor hold-down screw (14), described motor fixing seat (13) is connected with sliding sash fixed frame (45) by tapping screw (9).
6. electric heat insulation type lifting sliding door according to claim 5, is characterized in that: described pulley mechanism (A01) comprises pulley holder (11), pulley sliding seat (5), pulley (10) and pulley pin shaft (8), described pulley pin shaft (8) is connected with pulley axle sleeve (2) in turn, first shaft block ring (3), second pulley connecting rod (401), first pulley connecting rod (4), second hole is with back-up ring (7), 3rd bearing (6), described pulley (10), 3rd bearing (6), second hole is with back-up ring (7), first pulley connecting rod (4), second pulley connecting rod (401), first shaft block ring (3), pulley axle sleeve (2), second shaft block ring (1), described pulley (10) is connected by described first pulley connecting rod (4) with described pulley sliding seat (5), described pulley holder (11) is connected by described second pulley connecting rod (401) with described pulley (10), described first pulley connecting rod (4) and described second pulley connecting rod (401) are respectively connected with two the first shaft block rings (3) outward, and described pulley holder (11) is connected with described sliding sash fixed frame (45) by tapping screw (9).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110286505.5A CN103015862B (en) | 2011-09-26 | 2011-09-26 | Electric heat insulation type lifting sliding door |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110286505.5A CN103015862B (en) | 2011-09-26 | 2011-09-26 | Electric heat insulation type lifting sliding door |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN103015862A CN103015862A (en) | 2013-04-03 |
| CN103015862B true CN103015862B (en) | 2015-06-10 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201110286505.5A Active CN103015862B (en) | 2011-09-26 | 2011-09-26 | Electric heat insulation type lifting sliding door |
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| CN (1) | CN103015862B (en) |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| KR101748001B1 (en) * | 2014-03-20 | 2017-06-15 | (주)엘지하우시스 | Automatic opening and shutting device for sliding window and sliding window using the same |
| CN104835539A (en) * | 2015-03-17 | 2015-08-12 | 中国科学院等离子体物理研究所 | Sealing door used for cladding maintenance equipment of nuclear fusion apparatus |
| KR101935980B1 (en) * | 2015-08-11 | 2019-01-08 | (주)엘지하우시스 | Smart window |
| CN111201360B (en) * | 2017-04-24 | 2021-07-30 | 李祯祥 | Folding door with door lock |
| CN109798053B (en) * | 2019-03-01 | 2020-07-03 | 浙江飞越汉禾坊新材料有限公司 | Sliding door for shower room |
| CN113187352A (en) * | 2021-03-31 | 2021-07-30 | 佛山市磁家有导科技有限公司 | Hardware linkage method based on rope transmission and lifting sliding door/window |
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| FR2023026A2 (en) * | 1968-11-12 | 1970-08-07 | Eltreva Ag | Sliding door or window with a roller support |
| DE8405149U1 (en) * | 1984-02-21 | 1984-05-24 | Siegenia-Frank Kg, 5900 Siegen | ADJUSTING DEVICE FOR SLIDING LEAF OF WINDOWS, DOORS OR. DGL. |
| EP1681420A1 (en) * | 2005-01-17 | 2006-07-19 | HAUTAU GmbH | Wing assembly with a sliding wing and a fixed wing |
| CN201513079U (en) * | 2009-10-15 | 2010-06-23 | 浙江瑞明节能门窗有限公司 | Aluminum alloy lifting sliding energy-saving door |
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Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| FR2023026A2 (en) * | 1968-11-12 | 1970-08-07 | Eltreva Ag | Sliding door or window with a roller support |
| DE8405149U1 (en) * | 1984-02-21 | 1984-05-24 | Siegenia-Frank Kg, 5900 Siegen | ADJUSTING DEVICE FOR SLIDING LEAF OF WINDOWS, DOORS OR. DGL. |
| EP1681420A1 (en) * | 2005-01-17 | 2006-07-19 | HAUTAU GmbH | Wing assembly with a sliding wing and a fixed wing |
| CN201513079U (en) * | 2009-10-15 | 2010-06-23 | 浙江瑞明节能门窗有限公司 | Aluminum alloy lifting sliding energy-saving door |
Also Published As
| Publication number | Publication date |
|---|---|
| CN103015862A (en) | 2013-04-03 |
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