CN215108437U - Aluminum alloy multi-cavity energy-saving heat-insulating window - Google Patents

Abstract

The utility model discloses an energy-conserving heat preservation window in aluminum alloy multi-chamber, include window frame and install the window form in window frame inboard, open between two parties the side of window frame has the ladder groove to the buffering that is provided with the frame type in the bottom outside in ladder groove is sealed, the window form passes through the hinge and articulates in the ladder groove to closely paste with the buffering is sealed when kissing with the ladder groove, and inside one side of window form is equipped with the glass of placing cavity glass and lays the chamber, and the opposite side is equipped with the control chamber to install the tight mounting in top of spacing window form in the control intracavity, the handle that the tight mounting in drive top removed is still installed to department in the middle of the lateral surface of window form, cavity glass still is equipped with the sealing strip in the outside that the intracavity was laid to glass. This energy-conserving heat preservation window of aluminum alloy multi-chamber can improve the sealed effect between window body and the window frame, makes whole heat preservation window have higher heat preservation sound insulation function, can also realize the buffering to the window body simultaneously, improves the stress intensity of window body.

Description

Aluminum alloy multi-cavity energy-saving heat-insulating window

Technical Field

The utility model belongs to the technical field of energy-conserving heat preservation window, concretely relates to energy-conserving heat preservation window of aluminum alloy multi-chamber.

Background

In order to increase the lighting and ventilation area or represent the character of modern buildings, the door and window area of the building is larger and larger, and the building is provided with a full-glass curtain wall building, so that the heat loss of the door and window accounts for more than 40% of the total heat loss of the building, the energy saving of the door and window is the key of the energy saving of the building, and the door and window is not only a sensitive part for losing energy, but also is related to lighting, ventilation, sound insulation and vertical surface modeling. The energy-saving treatment mainly aims at improving the heat-insulating property of the material and improving the sealing property of the door and window.

Present energy-conserving heat preservation window, when using, form the gap easily between its window body and the window frame, lead to holistic sealed effect not good, heat preservation window is when using simultaneously, when meeting with strong wind weather, is blown by the strong wind, and is poor by the window body shock attenuation effect of heat preservation window, suffers wearing and tearing easily to make glass receive the collision, take place the damaged problem of glass when serious.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy multi-chamber energy-conserving heat preservation window to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an energy-conserving heat preservation window of aluminum alloy multi-chamber, includes window frame and installs the window form in window frame inboard, open between two parties the side of window frame has the ladder groove to the buffering that is provided with the frame type in the bottom outside in ladder groove is sealed, the window form passes through the hinge and articulates in the ladder inslot, and closely paste with the buffering sealed pad when kissing with the ladder groove, and inside one side of window form is equipped with the glass of placing cavity glass and lays the chamber, and the opposite side is equipped with the control chamber, and installs the tight mounting in top of spacing window form in the control chamber, the handle that the tight mounting in drive top removed is still installed to the department in the middle of the lateral surface of window form, cavity glass lays the outside of intracavity at glass and still is equipped with the sealing strip, and wherein the level corresponds two the inner wall that the chamber was laid to sealing strip and glass still is equipped with buffer gear.

Further, the ladder face outside in ladder groove is opened has frame type groove to it is the rectangle array and is provided with a plurality of groups second spring to be in frame type inslot, the one end of buffer seal pad coincide in frame type inslot, and with the tip fixed connection of second spring.

Furthermore, a bottom groove is formed in the position, close to the side edge of the window frame, of the bottom end of the stepped surface of the stepped groove, and a side groove communicated with the bottom of the bottom groove is formed in the bottom end of the side face of the window frame.

Furthermore, the jacking fixing part comprises a transmission rod vertically arranged in the control cavity, jacking pillars arranged at two ends of the transmission rod, and a first bevel gear and a second bevel gear which are arranged in the middle of the transmission rod, wherein the first bevel gear is meshed with the second bevel gear, the middle part of the first bevel gear is fixed with a shaft extending out of the end part of the handle, the second bevel gear is fixedly sleeved in the middle of the outer side of the transmission rod, and the upper end and the lower end of the transmission rod are sleeved with limit blocks fixed in the control cavity.

Furthermore, the bottom of fore-set is opened threaded sleeve and is had the screw thread hole at the drive rod tip, and the lateral surface symmetry of fore-set is opened has the guide way, the spacing hole that has with the fore-set adaptation is bored to both ends face about the ladder groove of window frame.

Furthermore, buffer gear includes that both ends hug closely respectively and lay the backing plate of chamber lateral wall and sealing strip lateral wall and connect the first spring of two backing plates.

Furthermore, the outer side face of one end, far away from the handle, of the window body is in threaded connection with screwing columns at positions close to the two buffer mechanisms, one end of each screwing column is rotatably connected with the backing plate, and counter bores are formed in the outer side faces of the screwing columns.

The utility model discloses a technological effect and advantage: compared with the existing energy-saving heat-insulating window, the aluminum alloy multi-cavity energy-saving heat-insulating window has the advantages that the buffering sealing gasket is arranged in the stepped groove of the window frame, the buffering sealing gasket is compressed when the window body is pulled to be matched in the window frame, and the spring is extruded by the buffering sealing gasket, so that the sealing effect between the window body and the window frame can be improved, the whole heat-insulating window has a high heat-insulating and sound-insulating function, the buffering of the window body can be realized, the stress strength of the window body is improved, meanwhile, the upper end and the lower end of the window body are matched and fixed in the window frame through the jacking fixing piece and the handles, the matching between the window body and the window frame is facilitated, and the opening and closing of the window body are facilitated; meanwhile, a bottom groove is formed in the stepped groove, and a side groove is formed in the side face of the window frame, so that water accumulation on the window frame can be avoided; in addition, the cavity glass arranged in the window body is placed in the glass, the four sides of the cavity glass are matched with the sealing strips to form sealing and pressing on the cavity glass, the buffer mechanisms arranged on the two sides of the cavity glass are matched simultaneously, when the cavity glass is pressed, the stability in the window body can be improved, the damping effect of the cavity glass is improved, and when the cavity glass is required to be disassembled, the sealing strips and the cavity glass are convenient to loosen.

Drawings

FIG. 1 is a schematic view of the window frame structure of the present invention;

fig. 2 is a schematic view of the window structure of the present invention;

fig. 3 is a cross-sectional view of the window frame of the present invention;

fig. 4 is a cross-sectional view of the window of the present invention;

fig. 5 is an enlarged schematic view of a structure at a position in the cross-sectional view of the window body 3 of the present invention.

In the figure: 1. a window frame; 2. a stepped groove; 3. a cushion gasket; 4. a bottom groove; 5. a side groove; 6. a window body; 7. hollow glass; 8. a top pillar; 9. a handle; 10. screwing the column; 11. a control chamber; 12. a glass placing cavity; 13. a transmission rod; 14. a first bevel gear; 15. a second bevel gear; 16. a limiting block; 17. a sealing strip; 18. a first spring; 19. a frame-shaped groove; 20. a second spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, an aluminum alloy multi-cavity energy-saving heat-insulating window comprises a window frame 1 and a window body 6 arranged on the inner side of the window frame 1, wherein a step groove 2 is arranged in the middle of the side surface of the window frame 1, the step groove 2 penetrates through the window frame 1, a frame-shaped buffer sealing gasket 3 is arranged on the outer side of the bottom of the step groove 2, the window body 6 is hinged in the step groove 2 through a hinge and is tightly attached to the buffer sealing gasket 3 when being matched with the step groove 2 for improving the connection tightness between the window body 6 and the window frame 1, a glass placing cavity 12 for placing hollow glass 7 is arranged on one side inside the window body 6, a control cavity 11 is arranged on the other side, a jacking fixing piece for limiting the window body 6 is arranged in the control cavity 11, a handle 9 for driving the jacking fixing piece to move is further arranged in the middle of the outer side surface of the window body 6, a sealing strip 17 is further arranged on the outer side of the hollow glass 7 in the glass placing cavity 12, and when in actual use, the whole chamber is filled with soundproof cotton, wherein two sealing strips 17 which horizontally correspond to each other and the inner wall of the glass placing cavity 12 are also provided with a buffer mechanism.

Referring to fig. 1, 3 and 5, in order to enable the bed body to extrude the buffer gasket 3, the connection between the buffer gasket 3 and the window body 6 is improved, a frame-shaped groove 19 is formed outside the stepped surface of the stepped groove 2, a plurality of groups of second springs 20 are arranged in the frame-shaped groove 19 in a rectangular array, one end of the buffer gasket 3 is inosculated in the frame-shaped groove 19 and is fixedly connected with the end part of each second spring 20, when the buffer gasket 3 is extruded, the second springs 20 rebound to enable the connection to be tighter, and when the buffer gasket is actually used, accumulated water is accumulated in the stepped groove 2 when raining is placed, a bottom groove 4 is formed at the bottom end of the stepped surface of the stepped groove 2, which is close to the side edge of the window frame 1, and a side groove 5 communicated with the bottom of the bottom groove 4 is formed at the bottom end of the side surface of the window frame 1, so that the accumulated water and part of impurities enter from the bottom groove 4 and are exposed from the side groove 5.

Referring to fig. 2 and 4, the tightening fixing member is used for fixing the window body 6 on the window frame 1 through the handle and facilitating opening and closing of the window body 6, and specifically includes a transmission rod 13 vertically installed in the control cavity 11, two studs 8 installed at two ends of the transmission rod 13, and a first bevel gear 14 and a second bevel gear 15 installed in the middle of the transmission rod 13, the first bevel gear 14 is engaged with the second bevel gear 15, the middle of the first bevel gear 14 is fixed with a shaft extending from the end of the handle 9, the second bevel gear 15 is fixedly sleeved in the middle of the outer side of the transmission rod 13, meanwhile, limit blocks 16 fixed in the control cavity 11 are sleeved at the upper end and the lower end of the transmission rod 13, and the transmission rod 13 rotates in the limit blocks to ensure the stability of rotation of the transmission rod 13.

Referring to fig. 1, 2 and 4, the bottom of the top pillar 8 is provided with a threaded inner hole which is sleeved on the end part of the transmission rod 13 through threads, the outer side surface of the top pillar 8 is symmetrically provided with a guide groove, and the upper end surface and the lower end surface of the stepped groove 2 of the window frame 1 are provided with limiting holes matched with the top pillar 8, so that when the top pillar 8 is in the limiting holes, the window body 6 is ensured to be fixed stably.

Referring to fig. 4, buffer gear is used for improving shock attenuation effect to cavity glass, and improve cavity glass's stability, it is concrete, including both ends hug closely respectively and lay the backing plate of chamber 12 lateral wall and sealing strip 17 lateral wall and connect the first spring 18 of two backing plates, and when buffer gear's use, can also be according to cavity glass's user demand, strengthen buffer gear and cavity glass's being connected, if the equal screw thread grafting of lateral surface that keeps away from handle 9 one end at window form 6 is close to two buffer gear position departments has screwed up post 10, the one end of screwing up post 10 is connected with the backing plate rotation, and the lateral surface of screwing up post 10 is opened there is the counter bore, accessible spanner inserts rotatory screwing up post 10 in the counter bore.

The working principle of the aluminum alloy multi-cavity energy-saving heat-insulating window is as follows: when the heat preservation window is used, when the heat preservation window needs to be closed, the handle 9 is pulled at the moment, the window body 6 is pulled to be matched with the stepped groove 2 of the window frame 1, after the matching is finished, the handle 9 is rotated, the handle 9 rotates at the moment, the first bevel gear 14 is driven to rotate, the transmission rod 13 is driven to rotate through the matching with the second bevel gear 15, when the transmission rod 13 rotates, the top columns 8 of which the two ends are in threaded connection start to extend and retract towards the outside of the window body 6 until the top columns are inserted into the limiting holes of the window frame 1, the fixing in the window frame 1 is finished, meanwhile, the window body 6 extrudes towards the buffer density pad, one part of the buffer sealing gasket 3 moves towards the frame-shaped groove 19, the second spring 20 is compressed, the rebound of the second spring 20 enables the connection between the buffer sealing gasket 3 and the window body 6 as well as the window frame 1 to be tighter, the sealing and heat preservation effects are better, and when the hollow glass 7 is used in the window body 6, the sealing strips 17 on the four sides are clung to the side of the hollow glass 7, and the tightening column 10 can be rotated by rotating the tightening column 10, so that the tightening column 10 rotates at the side of the window body 6, moves towards the glass placing cavity 12, and compresses the sealing strip 17 through the first spring 18, so that the connection between the sealing strip 17 and the window body 6 is tighter.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (7)

1. The utility model provides an energy-conserving heat preservation window of aluminum alloy multi-chamber, includes window frame (1) and installs window body (6) at window frame (1) inboard, its characterized in that: a stepped groove (2) is formed in the middle of the side surface of the window frame (1), a frame-shaped buffer sealing gasket (3) is arranged on the outer side of the bottom of the stepped groove (2), the window body (6) is hinged in the stepped groove (2) through a hinge, and is tightly attached with the buffer sealing gasket (3) when being inosculated with the stepped groove (2), one side of the interior of the window body (6) is provided with a glass placing cavity (12) for placing the hollow glass (7), the other side is provided with a control cavity (11), and a propping and fixing piece of a limiting window body (6) is arranged in the control cavity (11), a handle (9) for driving the propping fixing piece to move is also arranged in the middle of the outer side surface of the window body (6), the outer side of the hollow glass (7) in the glass placing cavity (12) is also provided with a sealing strip (17), wherein, the two sealing strips (17) which horizontally correspond to each other and the inner wall of the glass placing cavity (12) are also provided with a buffer mechanism.

2. The aluminum alloy multi-cavity energy-saving heat-insulating window according to claim 1, characterized in that: frame type groove (19) have been opened in the ladder face outside of ladder groove (2) to it is the rectangle array and is provided with a plurality of groups second spring (20) in frame type groove (19), the one end of buffer seal pad (3) is coincide in frame type groove (19) to with the tip fixed connection of second spring (20).

3. The aluminum alloy multi-cavity energy-saving heat-insulating window according to claim 2, characterized in that: the bottom end of the stepped surface of the stepped groove (2) is close to the side edge of the window frame (1) and is provided with a bottom groove (4), and the bottom end of the side surface of the window frame (1) is provided with a side groove (5) communicated with the bottom of the bottom groove (4).

4. The aluminum alloy multi-cavity energy-saving heat-insulating window according to claim 1, characterized in that: the jacking fixing piece comprises a transmission rod (13) vertically installed in a control cavity (11), jacking columns (8) installed at two ends of the transmission rod (13), a first bevel gear (14) and a second bevel gear (15) installed in the middle of the transmission rod (13), the first bevel gear (14) is meshed with the second bevel gear (15), the middle of the first bevel gear (14) is fixed with a shaft extending out of the end of a handle (9), the second bevel gear (15) is fixedly sleeved in the middle of the outer side of the transmission rod (13), and limiting blocks (16) fixed in the control cavity (11) are sleeved at the upper end and the lower end of the transmission rod (13).

5. The aluminum alloy multi-cavity energy-saving heat-insulating window according to claim 4, wherein: the bottom of fore-set (8) is opened there is the screw thread hole of screw thread cover at transfer line (13) tip, and the lateral surface symmetry of fore-set (8) is opened and is had the guide way, the spacing hole that has with fore-set (8) adaptation is bored to both ends face about the ladder groove (2) of window frame (1).

6. The aluminum alloy multi-cavity energy-saving heat-insulating window according to claim 1, characterized in that: the buffer mechanism comprises a base plate and a first spring (18), wherein two ends of the base plate are tightly attached to the side wall of the glass placing cavity (12) and the side wall of the sealing strip (17) respectively, and the first spring is connected with the two base plates.

7. The aluminum alloy multi-cavity energy-saving heat-insulating window according to claim 6, characterized in that: the outer side face, far away from one end of the handle (9), of the window body (6) is in threaded connection with screwing columns (10) at positions close to the two buffering mechanisms, one end of each screwing column (10) is rotatably connected with the backing plate, and counter bores are formed in the outer side faces of the screwing columns (10).

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