CN109826544B - Hot-pressing ventilation type multifunctional window and using method thereof - Google Patents

Abstract

The invention discloses a hot-pressing ventilation type multifunctional window body and a using method thereof, wherein the hot-pressing ventilation type multifunctional window body comprises a window frame, a first heat insulation layer arranged inside the window frame, a support column, a second heat insulation layer wrapped on the support column, a round shaft, a rotating sleeve, a rotating shaft, a sleeve ring, a connecting rod, a supporting spring, a support, a reset spring, a circular arc-shaped transparent plate and a clamping mechanism arranged on the inner side of the window frame, wherein the rotating sleeve, the rotating shaft, the sleeve ring, the connecting rod; a plurality of pillars are arranged in the window frame; round shafts are respectively arranged between the left window frame and the right window frame and between the adjacent pillars; the round shaft is fixedly connected with the window frame; the round shafts are sleeved with rotating sleeves; a lantern ring is sleeved outside the rotary sleeve; the outer side of the lantern ring is connected with two arc-shaped transparent plates with gaps; a plurality of grooves are formed in the upper part and the lower part of the window frame; the upper end and the lower end of the arc-shaped transparent plate are respectively clamped into the grooves; the clamping mechanism fixes the arc-shaped transparent plate and the window frame; the arc end of the inner side of the arc-shaped transparent plate is connected with a support, a spring and a connecting rod; the connecting rod is fixed with the lantern ring; the invention integrates heat preservation, ventilation, theft prevention and dust prevention.

Description

Hot-pressing ventilation type multifunctional window and using method thereof

Technical Field

The invention belongs to the technical field of building doors and windows, and particularly relates to a hot-pressing ventilation type multifunctional window body and a using method thereof.

Background

Window form structure in the present market even have certain heat preservation effect, it is indoor still to make cold wind gush in a large number when windowing in winter, need add burglar mesh and screen window moreover mostly, just can realize theftproof function and dustproof function, if can be with keeping warm, ventilation, theftproof, function integration such as dustproof together, design a multi-functional window form, then but greatly reduced window form's cost with simplify the installation.

Disclosure of Invention

The invention aims to provide a hot-pressing ventilation type multifunctional window body and a using method thereof, which are used for integrating heat preservation, ventilation, burglary prevention and dust prevention.

The technical solution for realizing the purpose of the invention is as follows:

a hot-pressing ventilation type multifunctional window body comprises a window frame, a first heat-insulating layer wrapped on the window frame, a support column, a second heat-insulating layer wrapped on the support column, a round shaft, a rotating sleeve, a rotating shaft, a sleeve ring, a connecting rod, a supporting spring, a support, a reset spring, an arc-shaped transparent plate and a clamping mechanism arranged on the inner side of the window frame, wherein the rotating sleeve is sprayed with light absorbing materials on the outer surface;

a plurality of pillars are arranged in the window frame at equal intervals, and the upper end and the lower end of each pillar are fixedly connected with the upper end and the lower end of the window frame respectively; round shafts are respectively arranged between the left window frame and the right window frame and between the adjacent pillars; the upper end and the lower end of the circular shaft are fixedly connected with the upper end and the lower end of the window frame respectively; each round shaft is sleeved with a rotating sleeve which can rotate on the round shaft; a plurality of lantern rings are sleeved outside the rotating sleeve, rotating shafts are fixed on two sides of the rotating sleeve, and the rotating shafts extend into the fixing holes on two sides of the lantern rings; the outer side of the lantern ring is symmetrically connected with an arc-shaped transparent plate; a gap for air circulation is arranged between the two circular arc-shaped transparent plates; the axis of a cylindrical structure formed by the two arc-shaped transparent plates is collinear with the axis of the rotating sleeve; a plurality of circular grooves are formed in the upper frame and the lower frame of the window frame; the upper end and the lower end of the arc-shaped transparent plate are respectively clamped in the circular grooves at the upper end and the lower end; the length of the arc-shaped transparent plate is smaller than the distance between the upper circular groove and the lower circular groove on the same axis, the arc end of the inner side of the arc-shaped transparent plate is connected with a support, and the other end of the support is connected with a supporting spring; the supporting spring pushes the outer circular surface of the arc-shaped transparent plate to be attached to the inner wall surface of the circular groove; the other end of the supporting spring is connected with a connecting rod; the other end of the connecting rod is fixed with the lantern ring; one end of the reset spring is fixed with the connecting rod, and the other end of the reset spring is fixed with the rotating sleeve; the two reset springs are arranged, are inclined up and down and are parallel to each other and used for resetting the two arc-shaped transparent plates after swinging up and down; the clamping mechanism fixes the arc-shaped transparent plate at the inner side with the upper frame or the lower frame of the window frame; the first heat preservation layer comprises vertical heat preservation layers arranged on the left and right sides and transverse heat preservation layers arranged on the upper and lower sides; the middle part of the vertical heat-insulating layer and the middle parts of the left side and the right side of the second heat-insulating layer are both arc-shaped plates which are sunken inwards, so that the middle parts of the vertical heat-insulating layer and the left side and the right side of the second heat-insulating layer are attached to the outer circular surface of each arc-shaped transparent plate.

A use method of a hot-pressing ventilation type multifunctional window body enables the window body to have five use states through the following operations:

firstly, a complete heat preservation state: rotating the rotating sleeve to enable the gauze between the two arc-shaped transparent plates to be tightly attached to the second heat-insulating layer or the sealing wool tops on the vertical heat-insulating layer, and adjusting the connecting rod to a horizontal position to enable the two arc-shaped transparent plates to be clamped in the circular grooves at the upper end and the lower end of the window frame;

II, a summer ventilation state: rotating the rotating sleeve to enable the gauze between the two arc-shaped transparent plates to be tightly attached to the second heat-insulating layer or the sealing wool tops on the vertical heat-insulating layer, adjusting the connecting rod to a position where the outdoor side is inclined downwards and the indoor side is inclined upwards to enable the arc-shaped transparent plate on the outdoor side to be clamped at the bottom of the circular groove of the window frame at the bottom, and clamping the arc-shaped transparent plate on the indoor side at the top of the circular groove of the window frame at the top and fixing the arc-shaped transparent plate; a gap is exposed between the upper end of the outdoor side circular arc-shaped transparent plate and the upper end circular groove, and a gap is exposed between the lower end of the indoor side circular arc-shaped transparent plate and the lower end circular groove;

thirdly, ventilation state in winter: rotating the rotary sleeve to enable the gauze between the two arc-shaped transparent plates to be tightly attached to the second heat-insulating layer or the sealing wool tops on the vertical heat-insulating layer, adjusting the connecting rod to the position where the outdoor side inclines upwards and the indoor side inclines downwards, enabling the arc-shaped transparent plate on the outdoor side to be clamped at the top of the circular groove of the window frame at the top, and enabling the arc-shaped transparent plate on the indoor side to be clamped at the bottom of the circular groove of the window frame at the bottom and fixed by the positioning pin; a gap is exposed between the lower end of the outdoor circular arc-shaped transparent plate and the lower end circular groove, and a gap is exposed between the upper end of the indoor circular arc-shaped transparent plate and the upper end circular groove;

and fourthly, the ventilation state in spring and autumn: rotating the rotating sleeve to enable the gauze between the two arc-shaped transparent plates to be respectively positioned at the inner side and the outer side of the window, and adjusting the connecting rod to a horizontal position to enable the two arc-shaped transparent plates to be positioned between the circular grooves of the upper window frame and the lower window frame;

fifthly, optional state: for the plurality of pairs of arc-shaped transparent plates between the window frames, each pair of arc-shaped transparent plates can be selected in one of the four using modes.

Compared with the prior art, the invention has the following remarkable advantages:

(1) the hot-pressing ventilation type multifunctional window body can integrate various functions of heat preservation, ventilation, burglary prevention, dust prevention and the like into the window body structure, and a burglar mesh and a screen window do not need to be specially arranged, so that the cost of the window body is greatly reduced, and the installation process is simplified.

(2) The hot-pressing ventilation type multifunctional window body utilizes the hot-pressing ventilation principle, hot air is led out of the room in summer, and the hot air is led into the room in winter, so that the indoor thermal environment can be effectively adjusted.

(3) The hot-pressing ventilation type multifunctional window body can realize rotation of the arc-shaped transparent plate and up-and-down swing of the arc-shaped transparent plate through the round shaft, the rotary sleeve, the rotary shaft, the sleeve ring, the connecting rod, the supporting spring, the support and the reset spring, has multiple working states and is convenient to open.

(4) The hot-pressing ventilation type multifunctional window body is simple in structure, low in cost and convenient to install.

The present invention is described in further detail below with reference to the attached drawing figures.

Drawings

Fig. 1 is a cross-sectional view of the present invention (full insulation state, summer ventilation state, winter ventilation state).

Fig. 2 is a cross-sectional view (spring and autumn ventilation state) of the present invention.

Fig. 3 is a cross-sectional view (optional) of the present invention.

FIG. 4 is an enlarged partial cross-sectional view of the window frame of the present invention.

Fig. 5 is an elevation view of the indoor side of the present invention (completely insulated state).

Fig. 6 is an elevation view of an indoor side of the present invention (summer ventilation state).

Fig. 7 is an elevation view of the outdoor side of the present invention (summer ventilation state).

Fig. 8 is an elevation view of an indoor side of the present invention (winter ventilation state).

Fig. 9 is an elevation view of the outdoor side of the present invention (winter ventilation state).

Fig. 10 is an elevation view of the indoor side and the outdoor side of the present invention (spring and autumn ventilation state).

Fig. 11 is an elevation view of the indoor side of the present invention (optional state).

Fig. 12 is a schematic view of a groove of a window frame.

Fig. 13 is a schematic view of the connecting member (completely heat-insulated state, ventilated state in spring and autumn).

Fig. 14 is a schematic view of the connection member (summer ventilation state).

Fig. 15 is a schematic view of the connection member (winter ventilation state).

Fig. 16 is a schematic view of the pin and the pin hole (inserted state).

Fig. 17 is a schematic view of the pin and the pin hole (pulled-out state).

FIG. 18 is a schematic view of the present invention in longitudinal section and working condition (complete heat preservation state).

FIG. 19 is a schematic diagram of the longitudinal section and working condition of the present invention (summer ventilation state).

FIG. 20 is a schematic view of the present invention in longitudinal section and working condition (winter ventilation state).

FIG. 21 is a longitudinal section and a schematic view of the working conditions (spring and autumn ventilation state) of the present invention.

Detailed Description

For the purpose of illustrating the technical solutions and technical objects of the present invention, the present invention will be further described with reference to the accompanying drawings and specific embodiments.

The invention discloses a hot-pressing ventilation type multifunctional window body which comprises a window frame 1, a first heat-insulating layer arranged inside the window frame 1, a support column 5, a second heat-insulating layer 6 wrapped on the support column 5, a round shaft 7, a rotating sleeve 8 with the surface sprayed with light-absorbing materials, a rotating shaft 9A, a sleeve ring 9B, a connecting rod 9C, a supporting spring 9D, a support 9E, a return spring 9F, an arc-shaped transparent plate 10 and a clamping mechanism 13 arranged on the inner side of the window frame 1;

the window frame 1 is a rectangular window frame, a plurality of supporting columns 5 are arranged in the window frame 1 at equal intervals, and the upper end and the lower end of each supporting column 5 are fixedly connected with the upper end and the lower end of the window frame 1 respectively; round shafts 7 are respectively arranged between the left window frame and the right window frame and the pillars 5 and between the adjacent pillars 5; the upper end and the lower end of the round shaft 7 are fixedly connected with the upper end and the lower end of the window frame 1 respectively; each round shaft 7 is sleeved with a rotating sleeve 8, and the rotating sleeve 8 can rotate on the round shaft 7; a plurality of lantern rings 9B are sleeved on the outer side of the rotating sleeve 8, rotating shafts 9A are fixed on two sides of the rotating sleeve 8, and the rotating shafts 9A extend into fixing holes in two sides of the lantern rings 9B; the outer side of the lantern ring 9B is symmetrically connected with an arc-shaped transparent plate 10; a gap for air circulation is arranged between the two circular arc-shaped transparent plates 10; the axis of the cylindrical structure formed by the two arc-shaped transparent plates 10 is collinear with the axis of the rotating sleeve 8; a plurality of circular grooves 3 are formed in the upper frame and the lower frame of the window frame 1; the upper end and the lower end of the arc-shaped transparent plate 10 are respectively clamped in the circular grooves 3 at the upper end and the lower end; the length of the arc-shaped transparent plate 10 is less than the distance between the upper circular groove 3 and the lower circular groove 3 on the same axis; the inner arc end of the arc-shaped transparent plate 10 is connected with a support 9E, and the other end of the support 9E is connected with a support spring 9D; the supporting spring 9D pushes the outer circular surface of the arc-shaped transparent plate 10 to be attached to the inner wall surface of the circular groove 3; the other end of the supporting spring 9D is connected with a connecting rod 9C; the other end of the connecting rod 9C is fixed with the lantern ring 9B; so that the two arc-shaped transparent plates 10 can swing up and down in the circular groove 3 around the rotating shaft 9A; one end of the return spring 9F is fixed with the connecting rod 9C, and the other end of the return spring is fixed with the rotating sleeve 8; the two reset springs 9F are arranged in an inclined manner parallel to each other one above the other and used for resetting the two arc-shaped transparent plates 10 after swinging up and down; the clamping mechanism 13 fixes the arc-shaped transparent plate 10 at the inner side with the upper frame or the lower frame of the window frame; the first heat preservation layer comprises a vertical heat preservation layer 2A arranged at the left and right and a transverse heat preservation layer 2B arranged at the upper and lower parts; the middle part of the vertical heat-insulating layer 2A and the middle parts of the left side and the right side of the second heat-insulating layer 6 are both arc-shaped and inwards concave, so that the middle parts of the vertical heat-insulating layer 2A and the left side and the right side of the second heat-insulating layer 6 are attached to the outer circular surface of the arc-shaped transparent plate 10.

Furthermore, the sunken parts in the middle of the vertical heat-insulating layer 2A and in the middle of the left and right sides of the second heat-insulating layer 6 are respectively provided with a sealing wool top 12, and the sealing wool tops 12 are in contact with the outer circular surface of the circular arc-shaped transparent plate 10, so that better sealing and heat-insulating effects are achieved among the middle of the vertical heat-insulating layer 2A, the second heat-insulating layer 6 and the circular arc-shaped transparent plate 10.

Further, the outer portion of the circular groove 3 at the upper end and the lower end is provided with a third heat preservation layer 4, the inner wall of the circular groove 3 is provided with a sealing wool top 12, and the sealing wool top 12 is in end face contact with the upper outer circle and the lower outer circle of the circular arc-shaped transparent plate 10, so that better sealing and heat preservation effects are achieved between the circular groove 3 and the outer circle face of the circular arc-shaped transparent plate 10.

Furthermore, a gauze 11 is arranged in the gap between the pair of arc-shaped transparent plates 10. Because two gaps are arranged between the two arc-shaped transparent plates 10, two layers of gauze can be formed, and the dustproof mosquito-proof gauze has better dustproof and mosquito-proof effects.

Preferably, the window frame 1 and the pillar 5 are made of stainless steel.

Further, the clamping mechanism 13 comprises a positioning pin 13B and a handle 13A arranged at the tail end of the positioning pin 13B; the round grooves 3 of the upper end and the lower end are provided with pin holes close to the indoor side, the upper end and the lower end of the arc-shaped transparent plate 10 are provided with positioning holes, the indoor arc-shaped transparent plate 10 is pushed upwards or downwards, the arc-shaped transparent plate 10 of the outdoor side is driven to swing downwards or upwards through the connecting rod 9C, the two arc-shaped transparent plates 10 are staggered and separated from the round grooves 3 of the upper end or the lower end, and the positioning pins 13B are inserted into the pin holes of the round grooves 3 and the positioning holes of the arc-shaped transparent plates 10 to fix the.

Preferably, the light absorption material is a coating material with high absorptivity, such as an electroplated black chromium coating, asphalt phenolic paint and the like.

Furthermore, the diameter of the positioning pin 13B is larger than that of the pin hole at the position far away from the handle 13A, so that the positioning pin 13 can be prevented from being pulled out of the circular groove 3 during pulling.

Referring to fig. 1-11, in use, the multifunctional window of the present invention is fixed on a window sill 14 between wall surfaces 15; according to the multifunctional window body, the plurality of the pillars 5 are arranged in the window frame and are vertically and uniformly arranged in the window frame 1. The anti-theft function can be realized, and the window body structure is not required to be provided with an anti-theft net. The multifunctional window body of the invention has the following working states:

firstly, a complete heat preservation state:

referring to fig. 18, by rotating the rotating sleeve 8, the gauze 11 between the two arc-shaped transparent plates 10 is tightly attached to the sealing wool tops 12 on the second insulating layer 6 or the vertical insulating layer 2A, and the connecting rod 9C is adjusted to a horizontal position, so that the two arc-shaped transparent plates 10 are clamped in the circular grooves 3 at the upper and lower ends of the window frame 1.

At the moment, indoor air and outdoor air are separated, and because the cavity between the arc-shaped transparent plates 10 has good heat insulation performance, the cavity, together with the vertical heat insulation layer 2A, the transverse heat insulation layer 2B, the third heat insulation layer 4 and the second heat insulation layer 6, forms a complete heat insulation system of the whole window body structure, and a cold bridge effect cannot occur. Therefore, the window structure realizes a better heat preservation function.

II, a summer ventilation state:

referring to fig. 19, the rotating sleeve 8 is rotated to make the gauze 11 between the two arc-shaped transparent plates 10 tightly adhere to the sealing wool tops 12 on the second insulating layer 6 or the vertical insulating layer 2A, and the connecting rod 9C is adjusted to the position where the outdoor side is inclined downwards and the indoor side is inclined upwards, so that the arc-shaped transparent plate 10 on the outdoor side is clamped at the bottom of the circular groove 3 of the window frame 1, and the arc-shaped transparent plate 10 on the indoor side is clamped at the top of the circular groove 3 of the window frame 1 at the top and is fixed by the positioning pin 13B. The upper end of the outdoor side circular arc-shaped transparent plate 10 is exposed out of a gap with the upper end circular groove 3, and the lower end of the indoor side circular arc-shaped transparent plate 10 is exposed out of a gap with the lower end circular groove 3.

At this moment, because the light absorption material on the outer surface of the rotating sleeve 8 has a strong absorption effect on solar radiation energy, the temperature of the air in the cylindrical cavity formed between the two arc-shaped transparent plates 10 and the rotating sleeve 8 rises, and the air has a tendency of rising upwards, and under the action of hot-pressing ventilation, the hot air in the room is driven to flow to the outside, so that the temperature of the air in the room is reduced, and people feel more comfortable.

Thirdly, ventilation state in winter:

referring to fig. 20, the rotating sleeve 8 is rotated to make the gauze 11 between the two arc-shaped transparent plates 10 tightly adhere to the sealing wool tops 12 on the second insulating layer 6 or the vertical insulating layer 2A, and the connecting rod 9C is adjusted to the position where the outdoor side is inclined upwards and the indoor side is inclined downwards, so that the arc-shaped transparent plate 10 on the outdoor side is clamped at the top of the circular groove 3 of the window frame 1, and the arc-shaped transparent plate 10 on the indoor side is clamped at the bottom of the circular groove 3 of the window frame 1 at the bottom and is fixed by the positioning pin 13B. And a gap is exposed between the lower end of the arc-shaped transparent plate 10 at the outdoor side and the lower circular groove 3, and a gap is exposed between the upper end of the arc-shaped transparent plate 10 at the indoor side and the upper circular groove 3.

At this moment, because the light absorption material on the outer surface of the rotating sleeve 8 has a strong absorption effect on solar radiation energy, the temperature in the cylindrical cavity rises and tends to rise upwards, and under the effect of hot-pressing ventilation, hot air in the cylindrical cavity flows indoors, so that the temperature of the indoor air rises, and people feel more comfortable.

And fourthly, the ventilation state in spring and autumn:

referring to fig. 21, the rotating sleeve 8 is rotated to position the screen 11 between the two arc-shaped transparent plates 10 at the inner and outer sides of the window, respectively, and the connecting rod 9C is adjusted to a horizontal position to position the two arc-shaped transparent plates 10 between the circular grooves 3 of the upper and lower window frames.

At this time, the indoor and outdoor air are communicated. The window structure achieves a common ventilation function. The gauze 11 may function as a dust-proof and mosquito-proof.

Fifthly, optional state:

and for a plurality of pairs of arc-shaped transparent plates 10 between the window frames, each pair of arc-shaped transparent plates 10 can be selected from the four using modes according to the needs or the preferences of users, so that the window frame can be more flexibly adapted to different heat preservation or ventilation requirements.

Claims (8)

1. A hot-pressing ventilation type multifunctional window body is characterized by comprising a window frame (1), a first heat-insulating layer wrapped on the window frame (1), a support column (5), a second heat-insulating layer (6) wrapped on the support column (5), a round shaft (7), a rotary sleeve (8) with a light-absorbing material sprayed on the outer surface, a rotating shaft (9A), a sleeve ring (9B), a connecting rod (9C), a supporting spring (9D), a support seat (9E), a reset spring (9F), an arc-shaped transparent plate (10) and a clamping mechanism (13) arranged on the inner side of the window frame (1);

a plurality of pillars (5) are arranged in the window frame (1) at equal intervals, and the upper end and the lower end of each pillar (5) are fixedly connected with the upper end and the lower end of the window frame (1) respectively; round shafts (7) are respectively arranged between the left window frame and the right window frame and the supporting columns (5) and between the adjacent supporting columns (5); the upper end and the lower end of the round shaft (7) are fixedly connected with the upper end and the lower end of the window frame (1) respectively; each round shaft (7) is sleeved with a rotating sleeve (8), and the rotating sleeve (8) can rotate on the round shaft (7); a plurality of lantern rings (9B) are sleeved on the outer side of the rotating sleeve (8), and the lantern rings (9B) are connected with the rotating sleeve (8) through a rotating shaft (9A); a rotating shaft (9A) is fixed on two sides of the rotating sleeve (8), and the rotating shaft (9A) extends into the fixing holes on two sides of the lantern ring (9B); the outer side of the lantern ring (9B) is symmetrically connected with a circular arc transparent plate (10); a gap for air circulation is arranged between the two circular arc-shaped transparent plates (10); the axis of a cylindrical structure formed by the two arc-shaped transparent plates (10) is collinear with the axis of the rotating sleeve (8); a plurality of circular grooves (3) are formed in the upper frame and the lower frame of the window frame (1); the upper end and the lower end of the arc-shaped transparent plate (10) are respectively clamped in the circular grooves (3) at the upper end and the lower end; the length of the arc-shaped transparent plate (10) is smaller than the distance between the upper circular groove and the lower circular groove (3) on the same axis, the arc end of the inner side of the arc-shaped transparent plate (10) is connected with a support (9E), and the other end of the support (9E) is connected with a support spring (9D); the supporting spring (9D) pushes the outer circular surface of the arc-shaped transparent plate (10) to be attached to the inner wall surface of the circular groove (3); the other end of the supporting spring (9D) is connected with a connecting rod (9C); the other end of the connecting rod (9C) is fixed with the lantern ring (9B); so that the two arc-shaped transparent plates (10) can swing up and down in the circular groove (3) around the rotating shaft (9A); one end of the reset spring (9F) is fixed with the connecting rod (9C), and the other end of the reset spring is fixed with the rotating sleeve (8); the two reset springs (9F) are arranged in an inclined manner, wherein the two reset springs are parallel to each other, and are used for resetting the two arc-shaped transparent plates (10) after swinging up and down; the clamping mechanism (13) fixes the arc-shaped transparent plate (10) at the inner side with the upper frame or the lower frame of the window frame (1); the first heat preservation layer comprises a vertical heat preservation layer (2A) arranged on the left and right and a transverse heat preservation layer (2B) arranged on the upper and lower sides; the middle part of the vertical heat-insulating layer (2A) and the middle parts of the left side and the right side of the second heat-insulating layer (6) are both arc-shaped and sunken inwards, so that the middle parts of the vertical heat-insulating layer (2A) and the left side and the right side of the second heat-insulating layer (6) are attached to the outer circular surface of the arc-shaped transparent plate (10).

2. The hot-pressing ventilation type multifunctional window body as claimed in claim 1, wherein the middle part of the vertical heat-insulating layer (2A) and the middle parts of the left and right sides of the second heat-insulating layer (6) are provided with sealing wool tops (12), and the sealing wool tops (12) are in contact with the outer circular surface of the circular arc-shaped transparent plate (10).

3. The hot-pressing ventilation type multifunctional window body as claimed in claim 1, wherein the exterior of the circular grooves (3) at the upper and lower ends is provided with a third insulating layer (4), the inner walls of the circular grooves (3) are provided with sealing wool tops (12), and the sealing wool tops (12) are in contact with the end faces of the upper and lower outer circles of the arc-shaped transparent plate (10).

4. A hot-press ventilated multifunctional window according to claim 1 wherein a gauze (11) is further provided in the gap between said pair of arc-shaped transparent panels (10).

5. A thermo-compression ventilated multifunctional window according to claim 1 wherein the window frame (1) and the pillars (5) are made of stainless steel.

6. The window of claim 1, wherein the engaging mechanism (13) comprises a positioning pin (13B), a handle (13A) disposed at a distal end of the positioning pin (13B); the round grooves (3) at the upper end and the lower end are provided with pin holes close to the indoor side, and the upper end and the lower end of the arc-shaped transparent plate (10) are provided with positioning holes.

7. The window of claim 1 wherein the light absorbing material is an electroplated black chrome coating or a pitch phenolic.

8. The use method of the thermocompression ventilation type multifunctional window according to claim 2, characterized in that the window has five use states by the following operations:

firstly, a complete heat preservation state: rotating the rotating sleeve to enable the gauze between the two arc-shaped transparent plates to be tightly attached to the second heat-insulating layer or the sealing wool tops on the vertical heat-insulating layer, and adjusting the connecting rod to a horizontal position to enable the two arc-shaped transparent plates to be clamped in the circular grooves at the upper end and the lower end of the window frame;

II, a summer ventilation state: rotating the rotating sleeve to enable the gauze between the two arc-shaped transparent plates to be tightly attached to the second heat-insulating layer or the sealing wool tops on the vertical heat-insulating layer, adjusting the connecting rod to a position where the outdoor side is inclined downwards and the indoor side is inclined upwards to enable the arc-shaped transparent plate on the outdoor side to be clamped at the bottom of the circular groove of the window frame at the bottom, and clamping the arc-shaped transparent plate on the indoor side at the top of the circular groove of the window frame at the top and fixing the arc-shaped transparent plate; a gap is exposed between the upper end of the outdoor side circular arc-shaped transparent plate and the upper end circular groove, and a gap is exposed between the lower end of the indoor side circular arc-shaped transparent plate and the lower end circular groove;

thirdly, ventilation state in winter: rotating the rotary sleeve to enable the gauze between the two arc-shaped transparent plates to be tightly attached to the second heat-insulating layer or the sealing wool tops on the vertical heat-insulating layer, adjusting the connecting rod to the position where the outdoor side inclines upwards and the indoor side inclines downwards, enabling the arc-shaped transparent plate on the outdoor side to be clamped at the top of the circular groove of the window frame at the top, and enabling the arc-shaped transparent plate on the indoor side to be clamped at the bottom of the circular groove of the window frame at the bottom and fixed by the positioning pin; a gap is exposed between the lower end of the outdoor circular arc-shaped transparent plate and the lower end circular groove, and a gap is exposed between the upper end of the indoor circular arc-shaped transparent plate and the upper end circular groove;

and fourthly, the ventilation state in spring and autumn: rotating the rotating sleeve to enable the gauze between the two arc-shaped transparent plates to be respectively positioned at the inner side and the outer side of the window, and adjusting the connecting rod to a horizontal position to enable the two arc-shaped transparent plates to be positioned between the circular grooves of the upper window frame and the lower window frame;

fifthly, optional state: for the plurality of pairs of arc-shaped transparent plates between the window frames, each pair of arc-shaped transparent plates can be selected in one of the four using modes.

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