CN111395934B

CN111395934B - Window structure of shutter

Info

Publication number: CN111395934B
Application number: CN202010417303.9A
Authority: CN
Inventors: 袁东琴
Original assignee: Jiangsu Keruiaite Building Materials Technology Group Co ltd
Current assignee: Jiangsu Keruiaite Building Materials Technology Group Co ltd
Priority date: 2020-05-18
Filing date: 2020-05-18
Publication date: 2023-10-24
Anticipated expiration: 2040-05-18
Also published as: CN111395934A

Abstract

A shutter window structure belongs to the technical field of sun-shading hollow glass products. Comprises a basic frame body which is of a hollow rectangular frame-shaped structure; the curtain piece overturning executing mechanism is arranged at the upper part of the basic frame body; the shutter curtain is arranged in the basic frame body, and the upper part of the shutter curtain is connected with the curtain piece overturning executing mechanism; the shutter sheet overturning inner control mechanism is arranged on the right side of the basic frame body and connected with the shutter sheet overturning executing mechanism, the shutter lifting inner control mechanism is arranged on the left side of the basic frame body, and the shutter is connected with the shutter lifting inner control mechanism; the shutter piece overturning outer control mechanism, the shutter lifting outer control mechanism and the base glass; the characteristics are as follows: the shutter curtain comprises a shutter curtain body, a shutter curtain lifting outer control mechanism and a shutter curtain frame body. The reconstruction cost of old windows is saved; the mounting efficiency is high; avoiding resource waste.

Description

Window structure of shutter

Technical Field

The invention belongs to the technical field of sun-shading hollow glass products, and particularly relates to a shutter window structure.

Background

The shutter window structure described above is mainly, but not exclusively, used for the attachment of existing buildings such as an outward opening window, an inward opening upward opening window, an outward opening upward opening window, a fixed window, and an inward tilting window (also referred to as an "inward tilting window"), and when the window is a single-layer glass, a single-cavity hollow built-in shutter can be formed by the attachment of the shutter window structure, and when the window is a double-layer glass having a cavity, a three-glass two-cavity hollow built-in shutter can be formed by the attachment of the shutter window structure.

The hollow built-in blind mentioned above is a double-layer hollow glass built-in blind (hereinafter referred to as "hollow glass built-in blind"). The hollow glass built-in shutter has the following advantages, which are self-evident: the heat insulation performance is good, so that the energy conservation of the building can be reflected; the sound insulation performance is excellent, so as to avoid the disturbance of external noise; condensation and frost are prevented, so that sufficient indoor light is ensured, and the expected bright effect is reflected; the required indoor lighting requirement is obtained and the privacy is protected through the deflection angle adjustment of the curtain sheets of the shutter; the excellent cleaning-free effect is reflected by preventing dust from contaminating the shutter curtain sheets (the shutter sheets are commonly and simply called as 'curtain sheets'); the method has ideal embellishment to the building so as to improve the grade of the building; high impact resistance, good safety and long service life, and can meet the installation requirement of high-rise buildings and the extremely long-term use maintenance-free requirement, etc.

Technical information about hollow glass built-in blinds such as CN2564720Y (hollow glass with built-in blind), CN 4635Y (hollow glass with built-in blind), CN2767625Y (hollow glass with built-in blind), CN2756796Y (hollow glass with built-in blind), CN2232968Y (integral door sash with transverse blind in double glass), CN2297952Y (magnetic driven type double-layer retractable curtain), CN2326718Y (fully closed type blind), CN100535378C (hollow glass with built-in blind), CN102444372A (hollow blind with built-in sunshade), CN105064896B (hollow glass built-in blind with single manipulation), CN105041168B (energy saving type double-layer hollow glass blind with simplified structure), CN105041170B (hollow glass built-in blind with non-magnet driven type double-layer), CN105041172B (hollow glass built-in blind with double-in blind cavity balanced with external pressure), CN109538097a (blind with built-in blind cavity), CN109441323a single-layer window blind with built-in device for hollow glass, CN109441323a, hollow glass with built-in window blind with reduced structure, and the like can be prevented from slipping down, for example, in patent no need of inner side of patent no slip is shown in patent no more than US patent 2A, and no more than US patent is given.

Because of the relatively short history of use of hollow glass built-in blinds, previous buildings have commonly used conventional single or double glass windows, which have not fully provided the many advantages mentioned above by applicant. Yet another situation is: hollow glass built-in shutters are omitted during the original architectural design and/or home decoration, but are desirable at a later time. Thus, in any of the foregoing cases, if the original window is removed and a hollow glass built-in blind similar to, but not limited to, any of the above-exemplified patent structures is installed, the following drawbacks will certainly occur: firstly, the old updating cost is high, which is not beneficial to saving the cost of modifying the window; secondly, the construction period is relatively longer, the wall bodies at the periphery of the window are required to be recombined, and the influence on the original resident owner is relatively larger; thirdly, discarding the original window is unfavorable for saving resources. The problem of how to find a reasonable balance point between avoiding the aforementioned disadvantages and the improvement of conventional windows into well-known hollow glass built-in blinds has always plagued the industry in recent years, and the technical solutions to be described below are created in this context.

Disclosure of Invention

The invention aims to provide a shutter window structure which is beneficial to improving the original window in an additional mode so as to save the improvement cost, is beneficial to improving the installation efficiency so as to avoid excessive influence on households, and is beneficial to utilizing the original window so as to avoid resource waste.

The invention is completed by the method, and the shutter window structure comprises a basic frame body which is of a hollow rectangular frame-shaped structure; the curtain piece overturning executing mechanism is arranged at the upper part of the basic frame body; a blind which is arranged in the basic frame body and the upper part of which is connected with the shutter piece overturning actuating mechanism; the shutter lifting inner control mechanism is arranged at the left side of the base frame body, and the shutter is connected with the shutter lifting inner control mechanism; a curtain piece overturning outer control mechanism, a blind lifting outer control mechanism and a base glass; the shutter curtain lifting outer control mechanism is matched with the left side of the additional frame body in an up-down sliding mode and is magnetically attracted with the shutter curtain lifting inner control mechanism through the base glass.

In a specific embodiment of the present invention, an additional frame cavity construction wing plate extends around the periphery of the additional frame body on the rear side of the additional frame body, and a space defined by the additional frame cavity construction wing plates is formed as a base frame body cavity, and the base frame body is fitted together with the base glass and the base frame body cavity in a state of being in contact with the rear side surface of the base glass.

In another specific embodiment of the present invention, the base frame body is composed of an upper horizontal frame strip, a lower horizontal frame strip, a left vertical frame strip and a right vertical frame strip, wherein the left end of the upper horizontal frame strip is connected with the upper end of the left vertical frame strip, the right end of the upper horizontal frame strip is connected with the upper end of the right vertical frame strip, the left end of the lower horizontal frame strip is connected with the lower end of the left vertical frame strip, and the right end of the lower horizontal frame strip is connected with the lower end of the right vertical frame strip by an L-shaped corner connecting piece, and a hollow rectangular space enclosed by the upper horizontal frame strip, the lower horizontal frame strip, the left vertical frame strip and the right vertical frame strip together is formed into a blind cavity; the curtain piece overturning actuating mechanism is arranged in the upper transverse frame strip; the blind is arranged in the blind cavity; the curtain piece overturning inner control mechanism is arranged in the right longitudinal frame strip; the shutter curtain lifting inner control mechanism is arranged in the left longitudinal frame strip; the shutter lifting external control mechanism is in up-down sliding fit with the baffle frame groove on the right side of the baffle frame at a position corresponding to the left side of the additional frame.

In a further specific embodiment of the present invention, an upper horizontal frame bar cavity extending from the left end to the right end of the upper horizontal frame bar is formed at the side of the upper horizontal frame bar facing the base glass, a left vertical frame bar cavity extending from the upper end to the lower end of the left vertical frame bar is formed at the side of the left vertical frame bar facing the base glass, and a right vertical frame bar cavity extending from the upper end to the lower end of the right vertical frame bar is formed at the side of the right vertical frame bar facing the base glass; the shutter overturning actuating mechanism is arranged in the upper transverse frame strip cavity, and the upper part of the shutter arranged in the shutter cavity is connected with the shutter overturning actuating mechanism in the upper transverse frame strip cavity; the curtain piece overturning internal control mechanism is arranged in the right longitudinal frame strip cavity; the shutter lifting inner control mechanism is arranged in the left longitudinal frame strip cavity; the structure of the curtain sheet overturning outer control mechanism which is magnetically attracted with the curtain sheet overturning inner control mechanism through the base glass is the same as that of the blind lifting outer control mechanism.

In a further specific embodiment of the invention, a turnover drum supporting seat caulking groove is formed in the bottom wall of the upper transverse frame strip cavity, the curtain sheet turnover executing mechanism comprises a turnover shaft, a turnover drum and a turnover drum supporting seat, the turnover shaft is fixedly inserted with the turnover drum, the turnover drum is rotatably supported on the turnover drum supporting seat, the turnover drum supporting seat is positioned in the upper transverse frame strip cavity, and the bottom of the turnover drum supporting seat is fixedly inserted with the turnover drum supporting seat caulking groove; the blind is provided with a blind piece overturning ladder rope and a blind lifting traction rope, wherein the upper end of the blind piece overturning ladder rope is upwards led to the overturning drum through the lower part of the overturning drum supporting seat and is wound on an overturning drum rope winding tongue piece of the overturning drum for one to two circles; the lower end of the blind lifting traction rope is fixed with the bottom strip of the blind, and the upper end of the blind lifting traction rope is connected with the blind lifting traction rope inner control mechanism arranged in the left longitudinal frame strip cavity of the left longitudinal frame strip after sequentially passing through a blind sheet traction rope hole arranged on a blind sheet of the blind and a lifting traction rope guide roller on the overturning drum supporting seat; the curtain sheet overturning inner control mechanism arranged in the right longitudinal frame strip cavity of the right longitudinal frame strip is connected with the right end of the overturning shaft.

In a further specific embodiment of the present invention, the curtain turning internal control mechanism includes a curtain turning traction rope traction slider, a curtain turning traction rope pivoting support seat, a curtain turning traction rope pulley, a curtain turning traction rope tensioning wheel and a curtain turning traction rope, the curtain turning traction rope traction slider is arranged in the right longitudinal frame strip cavity in a sliding manner up and down, the curtain turning traction rope pivoting support seat is fixedly embedded between the right end of the upper transverse frame strip cavity and the upper end of the right longitudinal frame strip cavity, the curtain turning traction rope pulley pivoting support seat is supported on the curtain turning traction rope pivoting support seat and is fixedly inserted with the right end of the turning shaft, the curtain turning traction rope tensioning wheel is rotatably arranged on the tensioning wheel seat, the tensioning wheel seat is fixed at the lower part of the right longitudinal frame strip cavity through a tensioning wheel seat fixing screw, one end of the curtain turning traction rope and the left upper part or the right upper part of the curtain turning traction rope traction slider are sequentially sleeved on the curtain turning traction rope pulley, and the left traction rope tensioning wheel is fixedly wound around the left traction rope pulley and the right traction rope pulley; the curtain piece overturning external control mechanism is magnetically attracted with the curtain piece overturning traction rope traction sliding block through the base glass.

In a further specific embodiment of the present invention, the blind lifting internal control mechanism includes a blind lifting traction rope traction slider, a blind lifting traction rope pivoting support seat, a blind lifting traction rope guide rope and a blind lifting traction rope pull rope, the blind lifting traction rope traction slider is slidably disposed up and down in the left longitudinal frame strip cavity, the blind lifting traction rope pivoting support seat is fixedly disposed between the left end of the upper transverse frame strip cavity and the upper end of the left longitudinal frame strip cavity, the blind lifting traction rope guide rope is rotatably disposed on the blind lifting traction rope pivoting support seat, the blind lifting traction rope pull rope is rotatably disposed on the upper portion of the blind lifting traction rope traction slider, and the upper end of the blind lifting traction rope is sequentially passed through the blind lifting traction rope guide rope and the blind lifting traction rope pull rope after passing through the traction rope guide roller and is then returned and fixed on the blind lifting traction pivot support seat; the shutter curtain lifting external control mechanism is magnetically attracted with the shutter curtain lifting traction rope traction sliding block through the base glass.

In a further specific embodiment of the invention, a balancing weight is connected to the lower part of the traction slide of the lifting traction rope of the blind.

In a still more specific embodiment of the present invention, a cavity opening sealing sheet is respectively disposed at a side of the base frame facing the base glass and at positions corresponding to the cavity opening of the upper horizontal frame strip cavity, the cavity opening of the left vertical frame strip cavity and the cavity opening of the right vertical frame strip cavity; the cross section of the turnover shaft is D-shaped.

In still another specific embodiment of the present invention, the cavity opening sealing and protecting piece is respectively inserted and configured with the cavity opening of the upper horizontal frame strip cavity, the cavity opening of the left vertical frame strip cavity, and the cavity opening of the right vertical frame strip cavity.

According to one of the technical effects of the technical scheme provided by the invention, the additional frame body is additionally arranged, and the base frame body is embedded with the additional frame body together with the base glass at the position corresponding to the rear side of the base glass, so that when the additional frame strip is additionally arranged on an original window, the window body and the glass of the original window are utilized, and the reconstruction cost of the old window is saved; secondly, the additional installation is carried out during use, so that the additional installation efficiency is relatively high, and the living of a resident cannot be influenced; thirdly, the original window can be utilized, so that the resource waste is avoided.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

FIG. 3 is a schematic view of the curtain sheet roll-over actuator of FIG. 1 assembled within an upper cross bar cavity of an upper cross bar.

Fig. 4 is a schematic view of the present invention when it is installed in a window of an original building.

Detailed Description

Referring to fig. 1 and 2, there is shown a base frame 1, the base frame 1 having a hollow rectangular frame-like configuration, the specific size of the base frame 1 being determined according to the size of a window 20 of an original building as shown in fig. 4, specifically, the size of the base frame 1 is determined after the window is sized; a curtain sheet overturning actuator 2 is shown, and the curtain sheet overturning actuator 2 is arranged at the upper part of the base frame body 1; a blind 3 is shown, the blind 3 being arranged in the base frame 1 and the upper part of the blind 3 being connected to the aforesaid shutter-turning actuator 2; a shutter-turning internal control mechanism 4 and a shutter-lifting internal control mechanism 5 are shown, the shutter-turning internal control mechanism 4 is arranged on the right side of the base frame body 1 and is connected with the shutter-turning executing mechanism 2, the shutter-lifting internal control mechanism 5 is arranged on the left side of the base frame body 1, and the shutter 3 is connected with the shutter-lifting internal control mechanism 5; a blind turning outer operating mechanism 6, a blind lifting outer operating mechanism 7 and a base glass 8 are shown.

After the size of the base frame 1 is determined according to the size of the window 20 (shown in fig. 4) of the original building, the sizes of the shutter turning actuator 2, the blind 3 and the base glass 8 are determined accordingly according to the common general knowledge.

The technical key points of the technical scheme provided by the invention are as follows: in the above-mentioned shutter window structure system, it also includes a additional frame 9, the above-mentioned basic frame 1 is fitted with the above-mentioned additional frame 9 together with the basic glass 8 at the position corresponding to the rear side of the above-mentioned basic glass 8, the above-mentioned curtain sheet turning outer operating mechanism 6 is matched with the right side of the additional frame 9 in a sliding manner up and down and is magnetically attracted with the above-mentioned curtain sheet turning inner operating mechanism 4 through the basic glass 8, the above-mentioned shutter raising and lowering outer operating mechanism 7 is matched with the left side of the additional frame 9 in a sliding manner up and down and is magnetically attracted with the above-mentioned shutter raising and lowering inner operating mechanism 5 through the basic glass 8. Also, according to the common general knowledge, since the size of the base frame 1 is changed depending on the window 20, the size of the additional frame 9 should be changed to be compatible with the size of the base frame 1.

As shown in fig. 1, an additional frame body construction flange 91 extends around the periphery of the additional frame body 9 on the rear side of the additional frame body 9, and a space defined by the additional frame body construction flange 91 is defined as a base frame body insertion space 911, and the base frame body 1 is inserted into the base frame body insertion space 911 together with the base glass 8 in a state of being in contact with the rear side surface of the base glass 8.

With continued reference to fig. 1, the base frame 1 is composed of an upper transverse frame 11, a lower transverse frame 12, a left longitudinal frame 13 and a right longitudinal frame 14, wherein a hollow rectangular space surrounded by the upper transverse frame 11, the lower transverse frame 12, the left longitudinal frame 13 and the right longitudinal frame 14 is formed into a blind cavity 16; the curtain sheet overturning actuating mechanism 2 is arranged in the upper transverse frame strip 11; the shutter 3 is arranged in the shutter cavity 16; the curtain sheet overturning inner control mechanism 4 is arranged in the right longitudinal frame strip 14; the shutter lifting inner control mechanism 5 is arranged in the left longitudinal frame strip 13; a blocking frame 92 is formed around the periphery of the additional frame 9 and at the periphery corresponding to the base glass 8, a bottom wall of the base frame insertion cavity 911 is formed by the blocking frame 92, a blocking frame groove 921 is formed around the periphery of the blocking frame 92 inside the blocking frame 92, the shutter piece turning-out operation mechanism 6 is vertically slidably engaged with the blocking frame groove 921 on the right side of the blocking frame 92 at a position corresponding to the right side of the additional frame 9, and the shutter piece lifting-out operation mechanism 7 is vertically slidably engaged with the blocking frame groove 921 on the left side of the blocking frame 92 at a position corresponding to the left side of the additional frame 9.

Referring to fig. 3 and referring to fig. 1, an upper horizontal frame bar cavity 111 extending from the left end to the right end of the upper horizontal frame bar 11 is formed at the side of the upper horizontal frame bar 11 facing the base glass 8, a left vertical frame bar cavity 131 extending from the upper end to the lower end of the left vertical frame bar 13 is formed at the side of the left vertical frame bar 13 facing the base glass 8, and a right vertical frame bar cavity 141 extending from the upper end to the lower end of the right vertical frame bar 14 is formed at the side of the right vertical frame bar 14 facing the base glass 8; the shutter overturning actuating mechanism 2 is arranged in the upper transverse frame strip cavity 111, and the upper part of the shutter 3 arranged in the shutter cavity 16 is connected with the shutter overturning actuating mechanism 2 in the upper transverse frame strip cavity 111; the curtain sheet overturning inner control mechanism 4 is arranged in the right longitudinal frame strip cavity 141; the shutter lifting internal control mechanism 5 is arranged in the left longitudinal frame strip cavity 131; the structure of the shutter-turning outer operating mechanism 6 magnetically attracted to the shutter-turning inner operating mechanism 4 via the base glass 8 is the same as that of the shutter-lifting outer operating mechanism 7. Since the specific construction of the shutter piece tilting outer operating mechanism 6 and the shutter raising and lowering outer operating mechanism 7 is a known art, for example, see patent literature mentioned in the background section above by the applicant, it will not be described in detail below.

A turnover drum support seat caulking groove 1111 (shown in fig. 3) is formed in the bottom wall of the upper horizontal frame strip cavity 111, the curtain sheet turnover executing mechanism 2 comprises a turnover shaft 21, a turnover drum 22 and a turnover drum support seat 23, the turnover shaft 21 is fixedly inserted with the turnover drum 22, two ends of the turnover drum 22 are rotatably supported on the turnover drum support seat 23, the turnover drum support seat 23 is positioned in the upper horizontal frame strip cavity 111, and the bottom of the turnover drum support seat 23 is fixedly inserted into the turnover drum support seat caulking groove 1111.

As shown in fig. 1, the blind 3 has a blind turning rope 31 and a blind lifting/lowering rope 32, and the upper end of the blind turning rope 31 is led upward to the turning drum 22 via the lower portion of the turning drum support 23 and is wound one to two or more turns on a turning drum rope winding tongue 221 of the turning drum 22; the lower end of the blind lifting traction rope 32 is fixed with the bottom strip 33 of the blind 3, while the upper end of the blind lifting traction rope 32 is connected with the blind lifting traction rope inner control mechanism 5 arranged in the left longitudinal frame strip cavity 131 of the left longitudinal frame strip 13 after sequentially passing through the blind sheet traction rope hole 341 arranged on the blind sheet 34 of the blind 3 and the lifting traction rope guide roller 231 arranged on the turning drum supporting seat 23; the curtain sheet turning inner control mechanism 4 provided in the right vertical frame bar chamber 141 of the right vertical frame bar 14 is connected to the right end of the turning shaft 21.

Continuing to see fig. 1, the aforementioned in-sheet-turning control mechanism 4 includes a sheet-turning traction rope traction slider 41, a sheet-turning traction sheave pivot support 42, a sheet-turning traction sheave 43, a sheet-turning traction rope tension wheel 44, and a sheet-turning traction rope 45, the sheet-turning traction rope traction slider 41 embedded with a plurality of magnetic pieces being slidably disposed up and down in the aforementioned right longitudinal frame strip chamber 141, the sheet-turning traction sheave pivot support 42 being embedded between the right end of the aforementioned upper horizontal frame strip chamber 111 and the upper end of the right longitudinal frame strip chamber 141, the sheet-turning traction sheave 43 being pivotally supported on the sheet-turning traction sheave pivot support 42 and being interposed with the right end of the aforementioned turning shaft 21, the sheet-turning traction rope tension wheel 44 being rotatably disposed on the tension 441 wheel seat, the sheet-turning traction sheave seat 441 being fixed to the lower portion of the right longitudinal frame strip chamber 141 at a position corresponding to the lower side of the sheet-turning traction sheave 41 through tension wheel seat fixing screws 4411, one end of the sheet-turning traction rope 45 being fixed to the upper side of the sheet-turning sheave and the left or the lower traction sheave 4 being wound around the upper and lower side of the sheet-turning traction sheave 43 in turn; the curtain sheet turning external control mechanism 6 with a plurality of magnetic blocks is magnetically attracted with the curtain sheet turning traction rope traction sliding block 41 through the base glass 8.

The blind lifting inner control mechanism 5 comprises a blind lifting traction rope traction slide 51, a blind lifting traction rope pivoting support 52, a blind lifting traction rope guide rope 53 and a blind lifting traction rope pull rope 54, wherein the blind lifting traction rope traction slide 51 with a plurality of magnetic blocks is arranged in the left longitudinal frame strip cavity 131 in a sliding manner up and down, the blind lifting traction rope pivoting support 52 is embedded between the left end of the upper transverse frame strip cavity 111 and the upper end of the left longitudinal frame strip cavity 131, the blind lifting traction rope guide rope 53 is rotationally arranged on the blind lifting traction rope pivoting support 52, the blind lifting traction rope pull rope 54 is rotationally arranged on the upper part of the blind lifting traction rope traction slide 51, and the upper end of the blind lifting traction rope 32 is sequentially returned through the blind lifting traction rope guide rope 53 and the blind lifting traction rope pull rope 54 after passing through the blind guide rope guide roller 231 and is fixed on the blind lifting traction rope pivoting support 52; the shutter lift external control mechanism 7 having a plurality of magnetic blocks is magnetically attracted to the shutter lift traction rope traction slider 51 via the base glass 8.

Preferably, as shown in fig. 1, a weight 10 is connected to the lower portion of the blind lift cord traction slider 51.

As shown in fig. 1 and 3, a cavity opening sealing sheet 17 is disposed at each position of the base frame 1 facing the base glass 8 and corresponding to the cavity opening of the upper horizontal frame bar cavity 111, the cavity opening of the left vertical frame bar cavity 131, and the cavity opening of the right vertical frame bar cavity 141; in the present embodiment, the cross-sectional shape of the turnover shaft 21 has a D-shape. The cavity sealing sheet 17 is respectively inserted into the cavity of the upper horizontal frame bar cavity 111, the cavity of the left vertical frame bar cavity 131, and the cavity of the right vertical frame bar cavity 141.

Since the turning of the shutter 34 and the lifting operation of the blind 3 are known in the art, for example, see also the patent documents mentioned in the background section above by the applicant, the applicant is also not reiterated.

Referring now to fig. 4, there is shown in fig. 4a window 20 which is inherent in a building and has been mentioned above, the window 20 being composed of a window glass frame 201 and a piece of window glass 202, the structure of fig. 1 being attached to the window 20, in particular by means of blind rivets or screws or other similar type of fasteners, at positions corresponding to the additional frame fixing holes 93 at the periphery of the additional frame 9 being fixed to window fastener holes 2011 in the window glass frame 201, with the aforementioned base frame 1 being positioned between the additional frame 9 and the window glass 202, with the invention evolving by means of the window 20 into a hollow glass built-in blind in the form of two glass single cavities, with the aforementioned blind 3 being positioned between the base glass 8 and the window glass 202. The additional window fixing hole 93 and the window fastener hole 2011 are preferably drilled at the installation site. The opening and closing of the window 20 by the window handle 203 is not affected by the present invention.

If the window 20 is a double glazing, a triple glazing, double cavity construction is provided in accordance with the present invention. Besides the unsuitable sliding window and side-pushing window, the invention can not be additionally arranged, and the invention can be additionally arranged for an outward opening window, an inward opening window, an outward opening upper suspension window, a fixed window, an inward reversing window and the like.

In summary, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the task of the invention, and faithfully honors the technical effects carried by the applicant in the technical effect column above.

Claims

1. The shutter window structure comprises a basic frame body (1), wherein the basic frame body (1) is of a hollow rectangular frame-shaped structure; a curtain piece overturning executing mechanism (2), wherein the curtain piece overturning executing mechanism (2) is arranged at the upper part of the basic frame body (1); a blind (3), wherein the blind (3) is arranged in the basic frame body (1) and the upper part of the blind (3) is connected with the blind piece overturning actuating mechanism (2); the device comprises a shutter sheet overturning inner control mechanism (4) and a shutter lifting inner control mechanism (5), wherein the shutter sheet overturning inner control mechanism (4) is arranged on the right side of a base frame body (1) and is connected with a shutter sheet overturning executing mechanism (2), the shutter lifting inner control mechanism (5) is arranged on the left side of the base frame body (1), and the shutter (3) is connected with the shutter lifting inner control mechanism (5); a curtain piece overturning outer control mechanism (6), a blind lifting outer control mechanism (7) and a base glass (8); the shutter curtain lifting external control mechanism is characterized by further comprising a further frame body (9), wherein the base frame body (1) is embedded with the further frame body (9) at a position corresponding to the rear side of the base glass (8), the curtain sheet overturning external control mechanism (6) is in up-and-down sliding fit with the right side of the further frame body (9) and is magnetically attracted with the curtain sheet overturning internal control mechanism (4) through the base glass (8), and the shutter curtain lifting external control mechanism (7) is in up-and-down sliding fit with the left side of the further frame body (9) and is magnetically attracted with the shutter curtain lifting internal control mechanism (5) through the base glass (8); an additional frame cavity construction wing plate (91) extends around the periphery of the additional frame body (9) on the rear side of the additional frame body (9), a space formed by the enclosing of the additional frame cavity construction wing plate (91) forms a base frame body embedding cavity (911), and the base frame body (1) is embedded with the base frame body embedding cavity (911) together with the base glass (8) in a state of being contacted with the rear side surface of the base glass (8).

2. The shutter window structure according to claim 1, wherein the base frame (1) is composed of an upper horizontal frame strip (11), a lower horizontal frame strip (12), a left vertical frame strip (13) and a right vertical frame strip (14), and a hollow rectangular space formed by the upper end of the upper horizontal frame strip (11) and the upper end of the left vertical frame strip (13), the right end of the upper horizontal frame strip (11) and the upper end of the right vertical frame strip (14), the left end of the lower horizontal frame strip (12) and the lower end of the left vertical frame strip (13) and the right end of the lower horizontal frame strip (12) and the lower end of the right vertical frame strip (14) by enclosing together by the upper horizontal frame strip (11), the lower horizontal frame strip (12), the left vertical frame strip (13) and the right vertical frame strip (14) is a shutter curtain cavity (16); the curtain piece overturning actuating mechanism (2) is arranged in the upper transverse frame strip (11); the blind (3) is arranged in the blind cavity (16); the curtain sheet overturning inner control mechanism (4) is arranged in the right longitudinal frame strip (14); the blind lifting inner control mechanism (5) is arranged in the left longitudinal frame strip (13); a baffle frame (92) is formed around the additional frame body (9) and at the periphery edge corresponding to the basic glass (8), the baffle frame (92) is formed into a cavity bottom wall of the base frame body embedded cavity (911), a baffle frame groove (921) is formed around the periphery of the baffle frame (92) on the inner side of the baffle frame (92), the curtain sheet overturning external control mechanism (6) is in up-and-down sliding fit with the baffle frame groove (921) on the right side of the baffle frame (92) at a position corresponding to the right side of the additional frame body (9), and the shutter lifting external control mechanism (7) is in up-and-down sliding fit with the baffle frame groove (921) on the left side of the baffle frame (92) at a position corresponding to the left side of the additional frame body (9).

3. A shutter window structure according to claim 2, characterized in that an upper horizontal frame bar cavity (111) extending from the left end to the right end of the upper horizontal frame bar (11) is formed at the side of the upper horizontal frame bar (11) facing the base glass (8), a left vertical frame bar cavity (131) extending from the upper end to the lower end of the left vertical frame bar (13) is formed at the side of the left vertical frame bar (13) facing the base glass (8), and a right vertical frame bar cavity (141) extending from the upper end to the lower end of the right vertical frame bar (14) is formed at the side of the right vertical frame bar (14) facing the base glass (8); the curtain sheet overturning actuating mechanism (2) is arranged in the upper transverse frame strip cavity (111), and the upper part of the blind (3) arranged in the blind cavity (16) is connected with the curtain sheet overturning actuating mechanism (2) in the upper transverse frame strip cavity (111); the curtain sheet overturning inner control mechanism (4) is arranged in the right longitudinal frame strip cavity (141); the shutter lifting inner control mechanism (5) is arranged in the left longitudinal frame strip cavity (131); the structure of the curtain sheet overturning outer control mechanism (6) magnetically attracted with the curtain sheet overturning inner control mechanism (4) through the base glass (8) is the same as that of the blind lifting outer control mechanism (7).

4. A shutter window structure according to claim 3, characterized in that a turning drum supporting seat caulking groove (1111) is formed in the bottom wall of the upper horizontal frame strip cavity (111), the shutter turning executing mechanism (2) comprises a turning shaft (21), a turning drum (22) and a turning drum supporting seat (23), the turning shaft (21) is fixedly inserted with the turning drum (22), the turning drum (22) is rotatably supported on the turning drum supporting seat (23), the turning drum supporting seat (23) is positioned in the upper horizontal frame strip cavity (111), and the bottom of the turning drum supporting seat (23) is fixedly inserted with the turning drum supporting seat caulking groove (1111); the blind (3) is provided with a blind piece overturning ladder rope (31) and a blind lifting traction rope (32), the upper end of the blind piece overturning ladder rope (31) is upwards led to the overturning drum (22) through the lower part of the overturning drum supporting seat (23) and is wound one to two circles on an overturning drum rope winding tongue piece (221) of the overturning drum (22); the lower end of the blind lifting traction rope (32) is fixed with a bottom strip (33) of the blind (3), and the upper end of the blind lifting traction rope (32) is connected with a blind lifting traction rope inner control mechanism (5) arranged in a left longitudinal frame strip cavity (131) of the left longitudinal frame strip (13) after sequentially passing through a blind sheet traction rope hole (341) formed on a blind sheet (34) of the blind (3) and a lifting traction rope guide roller (231) on a turnover drum supporting seat (23); the curtain sheet overturning inner control mechanism (4) arranged in the right longitudinal frame strip cavity (141) of the right longitudinal frame strip (14) is connected with the right end of the overturning shaft (21).

5. The blind window structure according to claim 4, wherein the blind window structure comprises a blind turning traction rope traction slider (41), a blind turning traction rope pivoting support seat (42), a blind turning traction rope (43), a blind turning traction rope tensioning wheel (44) and a blind turning traction rope (45), the blind turning traction rope traction slider (41) is arranged in the right longitudinal frame strip cavity (141) in a sliding manner up and down, the blind turning traction rope pivoting support seat (42) is fixedly embedded between the right end of the upper transverse frame strip cavity (111) and the upper end of the right longitudinal frame strip cavity (141), the blind turning traction rope (43) is pivotally supported on the blind turning traction rope pivoting support seat (42) and is fixedly inserted with the right end of the turning shaft (21), the blind turning traction rope tensioning wheel (44) is rotatably arranged on the blind tensioning wheel seat (441), the blind turning traction rope tensioning wheel seat (441) is fixedly arranged at the position corresponding to the lower part of the blind turning traction rope tensioning slider (41) and passes through the tensioning wheel seat (45) to the blind turning traction rope (43) and is fixedly arranged at the middle part of the blind turning traction rope (43) and turns around the blind pulley (43) in turn around the middle part of the blind turning traction rope (43) in turn, the other end is fixed with the left side lower part or the right side lower part of the curtain piece overturning traction rope traction sliding block (41); the curtain sheet overturning external control mechanism (6) is magnetically attracted with the curtain sheet overturning traction rope traction sliding block (41) through the base glass (8).

6. The blind window structure according to claim 4, characterized in that the blind lifting inner control mechanism (5) comprises a blind lifting traction rope traction slider (51), a blind lifting traction rope pivoting support seat (52), a blind lifting traction rope guide sheave (53) and a blind lifting traction rope pull sheave (54), the blind lifting traction rope traction slider (51) is arranged in the left longitudinal frame strip cavity (131) in a sliding manner up and down, the blind lifting traction rope pivoting support seat (52) is embedded and fixed between the left end of the upper transverse frame strip cavity (111) and the upper end of the left longitudinal frame strip cavity (131), the blind lifting traction rope guide sheave (53) is rotatably arranged on the blind lifting traction rope pivoting support seat (52), the blind lifting traction rope pull sheave (54) is rotatably arranged at the upper part of the blind lifting traction rope traction slider (51), and the upper end of the blind lifting traction rope (32) is sequentially passed through the blind lifting traction rope guide sheave (231) and then passed through the blind lifting traction rope guide sheave pivoting support seat (52) to be fixed on the blind lifting traction rope (52); the shutter lifting external control mechanism (7) is magnetically attracted with the shutter lifting traction rope traction sliding block (51) through the base glass (8).

7. A shutter window structure according to claim 6, characterized in that a counterweight (10) is connected to the lower part of the shutter lift hauling rope hauling slider (51).

8. The shutter window structure according to claim 4, characterized in that a cavity port sealing sheet (17) is respectively arranged at the position of the base frame (1) facing the side of the base glass (8) and corresponding to the cavity port of the upper transverse frame strip cavity (111), the cavity port of the left longitudinal frame strip cavity (131) and the cavity port of the right longitudinal frame strip cavity (141); the cross section of the turnover shaft (21) is D-shaped.

9. The shutter window structure according to claim 8, wherein the cavity opening sealing sheet (17) is respectively inserted and arranged with the cavity opening of the upper horizontal frame strip cavity (111), the cavity opening of the left vertical frame strip cavity (131) and the cavity opening of the right vertical frame strip cavity (141).