CN215830330U - Novel energy-saving heat-preservation heat-insulation door and window - Google Patents

Abstract

The utility model relates to a novel energy-conserving heat preservation heat-insulating door and window belongs to heat preservation heat-insulating door and window's technical field, and it includes the frame, establish the inside casing on the frame, establish the sealing mechanism on the frame and establish the glass on the inside casing, be equipped with the rotation axis on the inside casing, the one end of rotation axis sets firmly on the inside casing, the other end rotates with the frame to be connected, sealing mechanism is used for sealing up the gap between frame and the inside casing, glass sets firmly on the inside casing. When needs are located outdoor one side to glass and are cleaned, the staff is through rotating the inside casing, and the rotation axis realizes that the rotation between inside casing and the frame is connected for glass takes place rotatoryly, and glass is located outdoor one side and rotates to indoorly through rotatory back, and the staff of being convenient for cleans.

Description

Novel energy-saving heat-preservation heat-insulation door and window

Technical Field

The application relates to the technical field of heat-preservation and heat-insulation doors and windows, in particular to a novel energy-saving heat-preservation and heat-insulation door and window.

Background

Heat preservation heat-insulating door and window on the existing market has functions such as heat preservation, thermal-insulated, sound insulation, waterproof, fire prevention and daylighting, but when its installation back, under long-time use, dust can be attached to glass's surface, and glass lies in the not good clearance of outdoor one side, and dust can't get rid of, can influence glass's daylighting effect.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the staff to clean the glass on the heat preservation and insulation door and window, the application provides a novel energy-saving heat preservation and insulation door and window.

The application provides a pair of novel energy-conserving heat preservation door and window adopts following technical scheme:

the utility model provides a novel energy-conserving heat preservation heat-insulating door and window, includes the frame, establishes the inside casing on the frame, establishes the glass on the inside casing and establishes the sealing mechanism between frame and inside casing, be equipped with the rotation axis on the inside casing, the one end of rotation axis sets firmly on the inside casing, the other end rotates with the frame to be connected, sealing mechanism is used for sealing up the gap between frame and the inside casing, glass sets firmly on the inside casing.

Through adopting above-mentioned technical scheme, when needs are located outdoor one side to glass and clean, the staff rotates the inside casing for glass is located outdoor one end and rotates to indoorly, makes things convenient for the staff to clean it, and sealing mechanism fills up the gap between frame and the inside casing, makes indoor environment and outdoor environment separate, strengthens door and window's heat insulating properties and heat-proof quality.

Optionally, the sealing mechanism includes a rubber strip and a power assembly for driving the rubber strip to move close to or away from the inner frame, a groove is formed in the inner circumferential surface of the outer frame, the sealing mechanism is located in the groove, and the rubber strip abuts against the inner frame.

Through adopting above-mentioned technical scheme, the inside casing rotates the back that finishes, needs to seal the gap between inside casing and the frame, and the staff passes through power component and moves the rubber strip to the direction that is close to the inside casing this moment for rubber strip and inside casing butt, and then make sealing mechanism realize filling up the effect in the gap between frame and the inside casing.

Optionally, the power assembly comprises a driving rack arranged on the outer frame, a gear arranged on the outer frame, a driven rack arranged on the outer frame and a connecting rod, the driving rack is connected with the outer frame in a sliding manner, the gear is respectively meshed with the driving rack and the driven rack, the connecting rod is arranged between the driven rack and the rubber strip, and the connecting rod is respectively fixedly arranged with the driven rack and the rubber strip.

Through adopting above-mentioned technical scheme, the staff promotes the initiative rack, initiative rack driving gear rotates, the gear drives the motion that the driven rack is close to the inside casing, and then make the driven rack drive the connecting rod and do the motion that is close to the inside casing, the connecting rod promotes the rubber strip, realize that power component drive rubber strip is the motion that is close to the inside casing, the connecting rod has increased the area of contact of driven rack with the rubber strip, the pressure between driven rack and the rubber strip has been reduced, make the rubber strip atress even, the whole butt of the rubber strip of being convenient for is on the inside casing, strengthen the sealed effect of rubber strip.

Optionally, the power assembly further includes a screw rod, a threaded hole is formed in the outer frame, the screw rod is in threaded connection with the outer frame, one end of the screw rod is rotatably connected with the driving rack, and the other end of the screw rod extends outwards away from the driving rack.

Through adopting above-mentioned technical scheme, when needs promote the motion of initiative rack, the staff rotates the screw rod, and the screw rod drives initiative rack and is being close to the motion of driven rack, and has the auto-lock between screw rod and the frame for the initiative rack can't be by oneself and keep away from the motion of driven rack, and then makes the connecting rod continuously provide thrust to the rubber strip, is difficult for removing when receiving reverse acting force, strengthens the sealed effect of rubber strip.

Optionally, the power assembly further comprises a guide rod, the guide rod is fixedly arranged on the connecting rod, and the guide rod is connected with the outer frame in a sliding manner.

Through adopting above-mentioned technical scheme, the staff rotates the screw rod for driven rack drives the connecting rod and follows the motion of guide bar direction, and the guide bar has avoided the connecting rod to take place the skew when the motion, plays the effect of leading to the connecting rod.

Optionally, the outer frame is provided with a mounting groove, the mounting groove is formed in the surface of the groove, the mounting groove is formed by recessing the outer frame to one side close to the inner frame, and the power assembly is located in the mounting groove.

Through adopting above-mentioned technical scheme, the mounting groove provides the mounted position for power component, makes things convenient for power component to drive the rubber strip.

Optionally, a positioning block is fixedly arranged on the rotating shaft, a positioning groove is formed in the outer frame, and the positioning block rotates around the axis of the rotating shaft in the positioning groove.

Through adopting above-mentioned technical scheme, when the staff rotated the inside casing, the locating piece rotated along with the rotation axis to with the frame butt, locating piece stop motion after the butt, the rotation axis also stopped rotating simultaneously, and then made inside casing stall, glass was located outdoor one side and just in time rotated to indoorly along with the inside casing this moment, realized the effect of locating the inside casing of locating piece.

Optionally, a buffer pad is fixedly arranged on the positioning block, and the buffer pad is positioned on the plane where the positioning block abuts against the outer frame.

Through adopting above-mentioned technical scheme, when locating piece and frame butt, the blotter avoids the direct and frame contact of locating piece, plays the effect of protection locating piece.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the outdoor side of the glass needs to be cleaned, a worker rotates the inner frame, the rotating shaft rotates along with the inner frame, the rotating shaft stops rotating after the positioning block is abutted against the outer frame, at the moment, the outdoor end of the glass is rotated indoors, the rubber strip fills gaps between the outer frame and the inner frame under the action of the power assembly, wind blowing from the outside to the inside is reduced, the heat insulation performance and the heat insulation performance of the door and window are further enhanced, and meanwhile, the worker can conveniently clean the outdoor side of the glass;

2. the positioning block rotates around the rotating shaft, when the positioning block rotates to abut against the outer frame, the cushion pad is firstly contacted with the outer frame, the positioning block is prevented from being directly contacted with the outer frame, the buffering effect is achieved, and the positioning block is protected;

3. when the connecting rod is doing the motion that is close to the inside casing, the connecting rod has avoided the connecting rod to take place the skew when the motion along the direction motion that the guide bar set up, plays the guide effect of guide bar.

Drawings

Fig. 1 is a schematic structural view showing a heat preservation and insulation door window in the embodiment of the application.

Fig. 2 is a partial sectional view showing the outer frame.

Fig. 3 is a sectional view showing a positional relationship between the power module and the rotary shaft.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is a schematic view showing the inner frame rotated by a certain angle.

Fig. 6 is a partial sectional view showing the structure of the power module.

Description of reference numerals: 1. an outer frame; 11. positioning a groove; 12. a groove; 13. mounting grooves; 2. an inner frame; 3. glass; 4. a rotating shaft; 41. positioning blocks; 42. a cushion pad; 5. a sealing mechanism; 51. a rubber strip; 52. a power assembly; 521. a driving rack; 522. a gear; 523. a driven rack; 524. a connecting rod; 525. a screw; 526. a hand wheel; 527. a guide rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a novel energy-saving heat-preservation heat-insulation door window. Referring to fig. 1 and 2, the novel energy-saving heat-insulating door window comprises an outer frame 1 and an inner frame 2 arranged on the outer frame 1, wherein the inner frame 2 is provided with glass 3 and two rotating shafts 4, the glass 3 is fixedly arranged on the inner circumferential surface of the inner frame 2, and the glass is vacuum glass. Frame 1 and inside casing 2 are rectangular frame construction, frame 1 and inside casing 2 are made by the bridge cut-off aluminum alloy, and frame 1 and the equal vertical placing of inside casing 2, the inboard at frame 1 is established to inside casing 2 cover, two rotation axis 4 are located the ascending both sides of 2 vertical side of inside casing respectively, 4 vertical placing of rotation axis and the coincidence of the axis of two rotation axis 4 each other, rotation axis 4 is located inside casing 2 along the middle part of horizontal direction, the one end and the inside casing 2 of rotation axis 4 set firmly, the other end rotates with frame 1 to be connected, rotation axis 4 makes and is connected for rotating between frame 1 and the inside casing 2. Four sealing mechanisms 5 are arranged on the outer frame 1, and the sealing mechanisms 5 are used for sealing gaps between the outer frame 1 and the inner frame 2. Four recesses 12 have been seted up on frame 1, recess 12 is by the inside sunken formation of inner peripheral surface of frame 1, sealing mechanism 5 is arranged in recess 12, when needs are located outdoor one side to glass 3 and clean, the staff rotates inside casing 2, make glass 3 be located outdoor one side and rotate indoor, make things convenient for the staff to clean glass 3, bridge cut-off aluminum alloy is thermal-insulated effectual with vacuum glass's heat preservation, make outdoor wind be difficult for passing from the gap, the holistic heat preservation heat-proof of door and window has been guaranteed.

Referring to fig. 2 and 3, a positioning block 41 is fixedly arranged on the rotating shaft 4, the positioning block 41 is rectangular, the positioning block 41 is positioned at one end of the rotating shaft 4 far away from the inner frame 2, and the positioning block 41 is arranged along the axial direction of the rotating shaft 4.

Referring to fig. 2 and 4, a positioning groove 11 is formed in the outer frame 1, the positioning block 41 can rotate around the axis of the rotating shaft 4 in the positioning groove 11, the positioning groove 11 is semicircular along the circumferential direction of the rotating shaft 4, the positioning block 41 is disposed in the positioning groove 11, the positioning block 41 can rotate around the axis of the rotating shaft 4, the positioning block 41 abuts against one of the side walls of the positioning groove 11 along the circumferential direction, the positioning block 41 abuts against the other side wall of the positioning groove 11 after rotating 180 degrees along with the rotating shaft 4, a cushion 42 is fixedly disposed on the positioning block 41, the cushion 42 is disposed on the plane where the positioning block 41 abuts against the positioning groove 11, the cushion 42 is made of rubber, and the cushion 42 has elasticity.

Referring to fig. 2 and 5, when the worker rotates the inner frame 2, the rotating shaft 4 rotates along with the inner frame 2, the positioning block 41 rotates along with the rotating shaft 4, and after the positioning block 41 rotates 180 °, the positioning block 41 abuts against the outer frame 1, and at this time, the glass 3 also rotates 180 °. When locating piece 41 and frame 1 butt, frame 1 can produce the impact to locating piece 41, and blotter 42 has avoided locating piece 41 direct and frame 1 contact, plays the cushioning effect, and then reduces the impact that locating piece 41 received.

Referring to fig. 5 and 6, the sealing mechanism 5 includes a rubber strip 51 and a power assembly 52 for driving the rubber strip 51 to move close to or away from the inner frame 2, the rubber strip 51 is located in a gap between the inner frame 2 and the outer frame 1, the rubber strip 51 is away from the groove 12 under the action of the power assembly 52 and is abutted against the inner frame 2, four mounting grooves 13 are formed in the outer frame 1, the mounting grooves 13 are located on the inner circumferential surface of the outer frame 1, the mounting grooves 13 are formed in the inner walls of the grooves 12, the mounting grooves 13 are formed by inward recessing of one side of the outer frame 1 close to the inner frame 2, the power assembly 52 includes a driving rack 521, a gear 522, a driven rack 523, a connecting rod 524 and a screw 525 which are arranged on the outer frame 1, wherein the driving rack 521, the gear 522 and the driven rack 523 are all located in the mounting grooves 12, the driving rack 521 is perpendicular to the outer frame 1, the driving rack 521 and the driven rack 523 are perpendicular to each other, the gear 522 is arranged on the outer frame 1, the gear 522 is rotatably connected to the outer frame 1, and the gear 522 is engaged with the driving rack 521 and the driven rack 523 respectively.

Referring to fig. 5 and 6, the connecting rod 524 is located between the driven rack 523 and the rubber strip 51, the connecting rod 524 is further located in the groove 12, the connecting rod 524 is slidably connected to the outer frame 1, two sides of the connecting rod 524 are fixedly connected to the driven rack 523 and the rubber strip 51, and the connecting rod 524 is driven by the driven rack 523 to move close to or away from the groove 12.

Referring to fig. 5 and 6, a threaded hole is formed in the outer frame 1, the direction of the threaded hole is the same as the moving direction of the driving rack 521, the screw rod 525 is in threaded connection with the outer frame 1, one end of the screw rod 525 is rotatably connected with the driving rack 521, the other end of the screw rod 525 is far away from the driving rack 521 and extends outwards, and a hand wheel 526 is fixedly arranged at one end of the screw rod 525 far away from the driving rack 521.

After door and window rotates 180, the staff rotates hand wheel 526, hand wheel 526 drives screw 525 to rotate, screw 525 moves to the direction that is close to driven rack 523, screw 525 drives active rack 521 and moves to the direction that is close to driven rack 523 simultaneously, active rack 521 drives gear 522 to rotate, gear 522 makes driven rack 523 move to the direction that is close to inside casing 2, driven rack 523 promotes connecting rod 524 and moves to the direction that is close to inside casing 2, connecting rod 524 promotes rubber strip 51, make rubber strip 51 and inside casing 2 butt, make rubber strip 51 and connecting rod 524 jointly seal the space between inside casing 2 and the frame 1 simultaneously. Connecting rod 524 makes the area of contact increase of driven rack 523 and rubber strip 51, and then makes the pressure between driven rack 523 and the rubber strip 51 reduce, and the thrust that driven rack 523 produced rubber strip 51 passes through connecting rod 524 homodisperse to rubber strip 51 on, makes rubber strip 51 play better leakproofness. The screw 525 and the outer frame 1 are self-locked, and the driven rack 523 cannot move away from the inner frame 2, so that the driven rack 523 continuously provides thrust to the connecting rod 524, and the sealing effect of the rubber strip 51 is enhanced.

Referring to fig. 2, all set firmly a plurality of guide bar 527 on each connecting rod 524, guide bar 527 wears to establish on frame 1 and is connected rather than sliding, the guide bar 527 quantity that corresponds on connecting rod 524 suits rather than length, in this embodiment, two edges of the vertical direction of frame 1 are longer, be equipped with two guide bar 527 respectively, two edges of the horizontal direction of frame 1 are shorter, be equipped with a guide bar 527 respectively, guide bar 527 is the cuboid form, guide bar 527 sets firmly and with frame 1 sliding connection with connecting rod 524. When the driven rack 523 drives the connecting rod 524 to move, the driven rack 523 moves along the direction of the guide rod 527, so that the connecting rod 524 is prevented from shifting during movement, and the guide rod 527 plays a role in guiding the connecting rod 524.

The implementation principle of the novel energy-saving heat-preservation heat-insulation door and window in the embodiment of the application is as follows: when the staff need be located outdoor one side and clean to glass 3, the staff rotates inside casing 2 180 under the location of locating piece 41, and glass 3 is located outdoor one end and rotates indoor this moment, and the staff of being convenient for cleans, rotates hand wheel 526 for rubber strip 51 and inside casing 2 butt under power component 52's effect, and then has reduced and has blown indoor wind from outdoor, has strengthened door and window's heat insulating properties and heat-proof quality.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a novel energy-conserving heat preservation heat-insulating door and window which characterized in that: including frame (1), establish inside casing (2) on frame (1), establish glass (3) on inside casing (2) and establish sealing mechanism (5) between frame (1) and inside casing (2), be equipped with rotation axis (4) on inside casing (2), the one end of rotation axis (4) sets firmly on inside casing (2), the other end rotates with frame (1) to be connected, sealing mechanism (5) are used for sealing up the gap between frame (1) and inside casing (2), glass (3) set firmly on inside casing (2).

2. The novel energy-saving heat-insulating door and window as claimed in claim 1, characterized in that: the sealing mechanism (5) comprises a rubber strip (51) and a power assembly (52) for driving the rubber strip (51) to move close to or far away from the inner frame (2), a groove (12) is formed in the inner circumferential surface of the outer frame (1), the sealing mechanism (5) is located in the groove (12), and the rubber strip (51) abuts against the inner frame (2).

3. The novel energy-saving heat-insulating door and window as claimed in claim 2, characterized in that: the power assembly (52) comprises a driving rack (521) arranged on the outer frame (1), a gear (522) arranged on the outer frame (1), and a driven rack (523) and a connecting rod (524) arranged on the outer frame (1), wherein the driving rack (521) is connected with the outer frame (1) in a sliding mode, the gear (522) is meshed with the driving rack (521) and the driven rack (523) respectively, the connecting rod (524) is located between the driven rack (523) and the rubber strip (51), and the connecting rod (524) is fixedly arranged with the driven rack (523) and the rubber strip (51) respectively.

4. The novel energy-saving heat-insulating door and window as claimed in claim 3, characterized in that: the power assembly (52) further comprises a screw rod (525), a threaded hole is formed in the outer frame (1), the screw rod (525) is in threaded connection with the outer frame (1), one end of the screw rod (525) is rotatably connected with the driving rack (521), and the other end of the screw rod (525) is far away from the driving rack (521) and extends outwards.

5. The novel energy-saving heat-insulating door and window as claimed in claim 4, wherein: the power assembly (52) further comprises a guide rod (527), the guide rod (527) is fixedly arranged on the connecting rod (524), and the guide rod (527) is in sliding connection with the outer frame (1).

6. The novel energy-saving heat-insulating door and window as claimed in claim 3, characterized in that: the outer frame (1) is provided with an installation groove (13), the installation groove (13) is formed in the surface of the groove (12), the installation groove (13) is formed by the fact that the outer frame (1) is sunken towards one side close to the inner frame (2), and the power assembly (52) is located in the installation groove (13).

7. The novel energy-saving heat-insulating door and window as claimed in claim 1, characterized in that: the rotating shaft (4) is fixedly provided with a positioning block (41), the outer frame (1) is provided with a positioning groove (11), and the positioning block (41) rotates around the axis of the rotating shaft (4) in the positioning groove (11).

8. The novel energy-saving heat-insulating door and window as claimed in claim 7, wherein: the positioning block (41) is fixedly provided with a buffer pad (42), and the buffer pad (42) is positioned on the plane where the positioning block (41) is abutted to the outer frame (1).

Images