CN218934218U - Energy-saving window with double-layer glass - Google Patents

Abstract

The utility model relates to an energy-saving window with double-layer glass, which comprises a window frame body, wherein one side of the window frame body is provided with an opening, the opening on one side of the window frame body is provided with a through hole, two glass bodies are arranged in the window frame body, a containing shell is arranged in the window frame body, an adjusting component is arranged in the containing shell, arc-shaped grooves are formed in two inner side walls of the window frame body, a driving component is arranged above the containing shell, the bottom of the containing shell is fixedly connected with a rotating column, a rotating groove is formed in the position, corresponding to the rotating column, of the bottom wall in the window frame body, the rotating column is rotationally connected in the rotating groove, two clamping grooves are formed in the inner wall of the rotating groove, and springs are fixedly connected to the inner side walls of the two clamping grooves. The utility model relates to the technical field of energy-saving windows. According to the utility model, the two glass bodies can move in opposite directions between the two arc-shaped grooves, then the two glass bodies integrally rotate 180 degrees, and the outer glass moves to the inner layer, so that an operator can conveniently clean the glass, and the maintenance cost of the energy-saving window is reduced.

Description

Energy-saving window with double-layer glass

Technical Field

The utility model relates to the technical field of energy-saving windows, in particular to an energy-saving window with double glass layers.

Background

An energy-saving window is a window for increasing lighting and ventilation area or representing characteristics of modern buildings. Energy efficient windows may improve the optical, thermal and sealing properties of the material, improving the construction of the window to achieve the desired effect, such as using double glazing to improve thermal insulation and sun protection.

Because rainwater and dust can adhere to the outer glass, the aesthetic property and the light transmittance of the glass are reduced, and therefore, the glass needs to be cleaned frequently. However, when the energy-saving window is used in some high-rise buildings, professional glass cleaning personnel are required to be used for cleaning the outer glass in order to ensure safety, so that the maintenance cost of the energy-saving window is increased.

Disclosure of Invention

According to the defects existing in the prior art, the utility model aims to provide the energy-saving window with double-layer glass, which has the effect of enabling operators to safely clean the glass, thereby reducing the maintenance cost of the energy-saving window.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a double glazing's energy-conserving window, includes the window frame body that one side opening set up, and window frame body one side opening is the through-hole setting, this internal two glass bodies that are provided with of window frame, this internal accommodation shell that is provided with of window frame, be provided with adjusting part in the accommodation shell, arc wall has all been seted up to two inside walls of window frame body, accommodation shell top is provided with drive assembly, accommodation shell bottom fixedly connected with pivoted post, this internal diapire of window frame corresponds pivoted post's position has been seted up the pivoted groove, pivoted post pivoted connect in the pivoted inslot, two draw-in grooves have been seted up to pivoted groove inner wall, two equal fixedly connected with spring of draw-in groove inside wall, sliding connection has the fixed block in the draw-in groove, the fixed block corresponds the spring is connected, pivoted post lateral wall corresponds the fixed slot has been seted up to the position of fixed block, works as the spring is in when in natural state, corresponds the fixed block inserts corresponds in the fixed slot.

Through adopting above-mentioned technical scheme, through holding shell, arc wall, draw-in groove, spring, rotation post and fixed slot's cooperation for two glass bodies can move in opposite directions to between two arc wall, then two glass bodies wholly rotate 180 degrees, and outer glass moves the inlayer, makes things convenient for operating personnel to wash glass, has reduced energy-conserving window's maintenance cost.

The present utility model may be further configured in a preferred example to: the adjusting component comprises a rotating rod which is arranged in the accommodating shell in a penetrating mode, a placing cavity is formed in the top wall of the window frame body, the top end of the rotating rod is in rotating connection with the top wall in the placing cavity, a first bevel gear is fixedly sleeved on the outer peripheral surface of the rotating rod, two supporting frames are fixedly connected to the inner bottom wall of the accommodating shell, a screw rod is connected to the two opposite inner side walls of the accommodating shell in a rotating mode, the screw rod rotates to penetrate through the corresponding supporting frames, a second bevel gear is fixedly connected to one end of the screw rod, close to the rotating rod, and is meshed with the first bevel gear, and a linkage component is arranged between the accommodating shell and the glass body.

Through adopting above-mentioned technical scheme, through dwang, first bevel gear, second bevel gear, screw rod and linkage assembly's cooperation, dwang rotation can drive two screw rods and rotate to make two glass bodies motion in opposite directions or back to the motion, make the glass body have sufficient space can rotate.

The present utility model may be further configured in a preferred example to: the linkage assembly comprises two screw blocks, the two screw blocks are in threaded connection with the outer peripheral surface of the corresponding screw rod respectively, two connecting rods are hinged to the outer surface of the screw block, an avoidance hole is formed in the side wall of the accommodating shell and communicated with the accommodating shell, the connecting rods penetrate through the corresponding avoidance hole and correspond to the glass body to be hinged to the glass body, and when the screw blocks are in contact with the inner side wall of the accommodating shell, the two glass bodies are located between the two arc grooves.

Through adopting above-mentioned technical scheme, through the cooperation in connecting rod, spiral shell piece and dodge the hole for two glass bodies can move or back to the motion, make the glass body move to between two arc grooves, have sufficient space can rotate.

The present utility model may be further configured in a preferred example to: the driving assembly comprises a driven bevel gear, the driven bevel gear is fixedly sleeved on the outer peripheral surface of the rotating rod and located in the placing cavity, a driving rod is arranged on one side of the window frame body in a penetrating mode, one end of the driving rod extends to the outside of the window frame body, the other end of the driving rod is located in the placing cavity, the driving bevel gear is fixedly connected with the driving end of the driving rod, and the driving bevel gear is meshed with the driven bevel gear.

Through adopting above-mentioned technical scheme, through driven bevel gear, actuating lever and drive bevel gear's cooperation, operating personnel rotates the actuating lever and can drive two glass body positions and exchange to make operating personnel can be safe wash glass, reduced energy-conserving window's maintenance cost.

The present utility model may be further configured in a preferred example to: the inner wall of the window frame body is fixedly provided with a sealing layer, and when one side of the glass body is coplanar with the side face of the window frame body, the sealing layer is attached to the side wall of the corresponding glass body.

Through adopting above-mentioned technical scheme, through the setting of sealing layer, improved the leakproofness between two glass bodies to the thermal insulation of energy-conserving window has been improved.

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

1. through holding shell, arc wall, draw-in groove, spring, rotation post and fixed slot's cooperation for two glass bodies can move in opposite directions to between two arc wall, then two glass bodies wholly rotate 180 degrees, lie in outer glass and move the inlayer, make things convenient for operating personnel's safety to wash glass, reduced energy-conserving window's maintenance cost.

2. Through the cooperation of spring, fixed block, fixed slot, spiral shell piece and dwang, when rotating the actuating lever and making the spiral shell piece contact hold the shell inner wall, continue to rotate the actuating lever and can drive two glass bodies and rotate jointly, improved the intelligence of this device, made things convenient for operating personnel's use.

Drawings

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is an upper cross-sectional three-dimensional view of the present embodiment;

fig. 3 is a three-dimensional view of the present embodiment;

fig. 4 is an upper sectional view of the present embodiment.

In the figure, 1, a window frame body; 2. a glass body; 3. a housing case; 4. an adjustment assembly; 41. a rotating lever; 42. a placement cavity; 43. a first bevel gear; 44. a support frame; 47. a screw; 45. a second bevel gear; 46. a linkage assembly; 461. a screw block; 462. a connecting rod; 463. avoidance holes; 5. an arc-shaped groove; 6. a drive assembly; 61. a driven bevel gear; 62. a driving rod; 63. driving a bevel gear; 7. rotating the column; 8. a rotating groove; 9. a clamping groove; 10. a spring; 11. a fixed block; 12. a fixing groove; 13. and (3) a sealing layer.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

Examples:

referring to fig. 1 and 3, the energy-saving window with double glass disclosed by the utility model comprises a window frame body 1 with an opening at one side, wherein the opening at one side of the window frame body 1 is a through hole. The window frame body 1 is fixed to a building. Two glass bodies 2 are arranged in the window frame body 1, and in a natural state, one side of the glass bodies 2 is coplanar with one side of the window frame body 1. The window frame body 1 is internally provided with a containing shell 3, and an adjusting component 4 is arranged in the containing shell 3. Both inner side walls of the window frame body 1 are provided with arc grooves 5.

Referring to fig. 4, the adjusting assembly 4 includes a rotating rod 41 vertically rotating through the accommodating case 3, a placing cavity 42 is formed in the top wall of the window frame body 1, and the top end of the rotating rod 41 is rotatably connected with the top wall in the placing cavity 42. The outer peripheral surface of the rotating rod 41 is fixedly sleeved with a first bevel gear 43 at the position of the accommodating shell 3.

Referring to fig. 4, two supporting frames 44 are fixedly connected to the inner bottom wall of the accommodating case 3, and screws 47 are rotatably connected to the opposite inner side walls of the accommodating case 3, and the screws 47 are rotated through the corresponding supporting frames 44. The screw rod 47 is close to the one end fixedly connected with second bevel gear 45 of dwang 41, and two second bevel gears 45 all mesh with first bevel gear 43, and dwang 41 rotates and drives first bevel gear 43 rotation, and first bevel gear 43 drives second bevel gear 45 rotation to make two screw rods 47 rotate. A linkage assembly 46 is commonly arranged between the accommodating case 3 and the two glass bodies 2.

Referring to fig. 4, the linkage assembly 46 includes two screw blocks 461, the two screw blocks 461 are respectively screwed to the outer circumferential surfaces of the corresponding screws 47, and rotation of the two screws 47 causes the two screw blocks 461 to move in opposite directions or back directions without causing the two screw blocks 461 to move in the same direction.

Referring to fig. 4, two connecting rods 462 are hinged to the outer surface of the screw block 461, and an avoidance hole 463 is formed in the side wall of the accommodating case 3, and the avoidance hole 463 is communicated with the accommodating case 3. The connecting rod 462 passes through the corresponding avoidance hole 463 and is hinged with the corresponding glass body 2, the screw rod 47 rotates to drive the screw block 461 to move, the screw block 461 drives the connecting rod 462 to move, and the connecting rod 462 drives the glass bodies 2 to move, so that the two glass bodies 2 are mutually close.

When the screw 461 contacts with the inner side wall of the housing case 3, both glass bodies 2 are located between the two arc-shaped grooves 5. When the screw 461 is in contact with the corresponding support frame 44, the glass body 2 side is coplanar with the window frame body 1 side. The inner wall of the housing case 3 and the supporting frame 44 together limit the movement range of the screw block 461, thereby limiting the movement range of the glass body 2.

Referring to fig. 1 and 3, a driving assembly 6 is provided above the housing case 3. The driving assembly 6 comprises a driven bevel gear 61, and the driven bevel gear 61 is fixedly sleeved on the outer peripheral surface of the rotating rod 41 and is positioned in the placing cavity 42. A driving rod 62 is arranged on one side of the window frame body 1 in a penetrating way, and one end of the driving rod 62 extends to the outside of the window frame body 1. The other end of the driving rod 62 is positioned in the placing cavity 42, and the driving bevel gear 63 is fixedly connected to the end of the driving rod 62. The drive bevel gear 63 meshes with the driven bevel gear 61.

The rotation driving rod 62 drives the driving bevel gear 63 to rotate, the driving bevel gear 63 drives the driven bevel gear 61 to rotate, and the driven bevel gear 61 drives the rotation rod 41 to rotate.

Referring to fig. 1, a rotary column 7 is fixedly connected to the bottom of the accommodating case 3, a rotary groove 8 is formed in the inner bottom wall of the window frame body 1 at a position corresponding to the rotary column 7, and the rotary column 7 is rotatably connected in the rotary groove 8. Two clamping grooves 9 are formed in the inner wall of the rotating groove 8, and an included angle between the two clamping grooves 9 is 180 degrees.

Referring to fig. 1, springs 10 are fixedly connected to inner side walls of the two clamping grooves 9, a fixed block 11 is slidably connected to the clamping grooves 9, the fixed block 11 is connected with the corresponding springs 10, and one side, close to the rotating column 7, of the fixed block 11 is arc-shaped. The side wall of the rotating column 7 is provided with a fixing groove 12 corresponding to the fixing block 11. When the spring 10 is in a natural state, the corresponding fixing block 11 is inserted into the corresponding fixing groove 12, and the side wall of the fixing block 11 is attached to the inner wall of the fixing groove 12.

When the spring 10 is in a natural state, the resistance force applied to the rotation of the rotation column 7 is larger than the resistance force applied to the rotation of the screw block 461 on the screw 47, and the rotation driving rod 62 rotates to enable the screw block 461 to contact the inner wall of the accommodating case 3, so that the rotation column 7 can rotate.

Referring to fig. 2, a sealing layer 13 is fixedly provided on the inner wall of the window frame body 1, and when one side of the glass body 2 is coplanar with the side surface of the window frame body 1, the sealing layer 13 is attached to the corresponding side wall of the glass body 2. The sealing layer 13 improves sealability between the two glass bodies 2, thereby improving heat insulation of the energy saving window. An inclined surface is formed on one side of the sealing layer 13, which is close to the accommodating shell 3, so that the glass body 2 can conveniently move to the inner layer of the sealing layer 13.

The implementation principle of the embodiment is as follows:

first, the driving rod 62 is rotated to drive the driving bevel gear 63 to rotate, the driving bevel gear 63 drives the driven bevel gear 61 to rotate, the driven bevel gear 61 drives the rotating rod 41 to rotate, the rotating rod 41 rotates to drive the first bevel gear 43 to rotate, the first bevel gear 43 drives the second bevel gear 45 to rotate, so that the two screws 47 rotate, the screws 47 rotate to drive the screw blocks 461 to move, the screw blocks 461 drive the connecting rods 462 to move, and the connecting rods 462 drive the glass bodies 2 to move, so that the two glass bodies 2 are mutually close.

Until the screw blocks 461 are contacted with the inner wall of the accommodating shell 3, at this time, the two glass bodies 2 are positioned between the two arc-shaped grooves 5, and the glass bodies 2 have enough rotation space. Continuing to rotate the driving rod 62, the rotating rod 41 rotates to drive the accommodating case 3 and the rotating column 7 to rotate, the spring 10 is compressed until the fixing block 11 is inserted into the next fixing groove 12, and the accommodating case 3 rotates 180 degrees, so that the positions of the inner side and the outer side of the two glass bodies 2 are interchanged. Then the driving lever 62 is reversely rotated to move the two screw blocks 461 toward each other to contact the supporting frame 44, and the glass body 2 side is coplanar with the window frame body 1 side. At this time, operators can safely clean the glass at the outer side originally, and the maintenance cost of the energy-saving window is reduced.

The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (5)

1. The utility model provides a double glazing's energy-conserving window, includes window frame body (1) that one side opening set up, and window frame body (1) one side opening is the through-hole setting, be provided with two glass body (2), its characterized in that in window frame body (1): be provided with in window frame body (1) and hold shell (3), be provided with adjusting part (4) in holding shell (3), arc wall (5) have all been seted up to window frame body (1) both inner walls, holding shell (3) top is provided with drive assembly (6), holding shell (3) bottom fixedly connected with rotation post (7), bottom corresponds in window frame body (1) rotation groove (8) have been seted up to the position of rotation post (7), rotation post (7) rotate connect in rotation groove (8), two draw-in grooves (9) have been seted up to rotation groove (8) inner wall, two equal fixedly connected with spring (10) of draw-in groove (9) inside wall, sliding connection has fixed block (11) in draw-in groove (9), fixed block (11) with correspond spring (10) are connected, rotation post (7) lateral wall corresponds fixed block (11)'s position has seted up fixed slot (12), when spring (10) are in natural state when corresponding fixed block (11) insert in fixed slot (12).

2. A double glazed energy saving window according to claim 1, wherein: the utility model provides a glass body, including adjusting part (4), including rotating wearing to locate dwang (41) in holding shell (3), offer in window frame body (1) roof and place chamber (42), dwang (41) top with place roof rotation in chamber (42) and be connected, dwang (41) outer peripheral face is located holding shell (3) department fixed cover is equipped with first bevel gear (43), holding shell (3) inner wall fixedly connected with two support frames (44), holding shell (3) are relative two inside walls all rotate and are connected with screw rod (47), screw rod (47) rotate and pass corresponding support frame (44), screw rod (47) are close to one end fixedly connected with second bevel gear (45) of dwang (41), two second bevel gear (45) all with first bevel gear (43) mesh, holding shell (3) and two jointly be provided with link assembly (46) between glass body (2).

3. A double glazed energy saving window according to claim 2, wherein: the linkage assembly (46) comprises two screw blocks (461), the two screw blocks (461) are in threaded connection with the outer peripheral surface of the corresponding screw rod (47), the outer surface of the screw block (461) is hinged with two connecting rods (462), the side wall of the accommodating shell (3) is provided with an avoidance hole (463), the avoidance hole (463) is communicated with the accommodating shell (3), the connecting rods (462) penetrate through the corresponding avoidance hole (463) to be hinged with the corresponding glass body (2), and when the screw blocks (461) are in contact with the inner side wall of the accommodating shell (3), the two glass bodies (2) are both located between the two arc grooves (5).

4. A double glazed energy saving window according to claim 2, wherein: the driving assembly (6) comprises a driven bevel gear (61), the driven bevel gear (61) is fixedly sleeved on the outer peripheral surface of the rotating rod (41) and located in the placing cavity (42), a driving rod (62) is arranged on one side of the window frame body (1) in a penetrating mode, one end of the driving rod (62) extends to the outside of the window frame body (1), the other end of the driving rod (62) is located in the placing cavity (42), and the driving rod (62) is fixedly connected with a driving bevel gear (63) at the end, and the driving bevel gear (63) is meshed with the driven bevel gear (61).

5. A double glazed energy saving window according to claim 1, wherein: the inner wall of the window frame body (1) is fixedly provided with a sealing layer (13), and when one side of the glass body (2) is coplanar with the side face of the window frame body (1), the sealing layer (13) is attached to the side wall of the corresponding glass body (2).

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