CN216588302U - Aluminum profile bridge-cut-off heat-insulation two-rail sliding window - Google Patents

Abstract

An aluminum profile bridge cut-off heat insulation two-rail sliding window comprises a window body and a window frame; the bottom frame is arranged at the bottom of the window body; a glass panel is arranged on the bottom frame; the window frame is fixedly arranged on the wall; the interior of the window frame is hollow; a plurality of groups of reinforcements are arranged in the hollow part of the window frame; the reinforcing piece is arranged in an L shape; the middle position of the top of the window frame is downwards sunken; a positioning groove is arranged in the middle of the concave part; the bottom of the positioning groove is arranged in a semicircular arc shape; symmetrical guide rails are arranged on the concave part; the guide rails are respectively arranged at two sides of the positioning groove; a bottom frame of the window body is provided with a convex pulley assembly; the pulley assembly slides along the positioning groove; a groove is arranged on the bottom frame and corresponds to the position of the guide rail on the concave part; the side wall of the bottom frame is in contact with the raised parts on the two sides of the window frame and keeps sliding connection, so that the heat-insulation window frame ensures good heat-insulation function, can reduce dust particles from blocking the positioning groove, and can break the particles by the matched pulley assembly without influencing the normal use of the window body.

Description

Aluminum profile bridge-cut-off heat-insulation two-rail sliding window

Technical Field

The utility model relates to the technical field of aluminum profiles, in particular to an aluminum profile bridge cut-off heat insulation two-rail sliding window.

Background

The density of the aluminum profile is only 2.7g/cm3, which is about 1/3 for the densities of steel, copper or brass (7.83 g/cm3, 8.93g/cm3, respectively). Aluminum can exhibit excellent corrosion resistance under most environmental conditions, including in air, water (or brine), petrochemistry, and many chemical systems. The sliding window in the prior art keeps sliding through the guide rail, and dust or other particles are easily accumulated in the guide rail in the long-term use process, so that the pulling effect of the sliding window is influenced. The common sliding window is poor in sealing and has no heat insulation function; the ventilation is easy in winter, so that indoor heat is dissipated, and the indoor temperature is low; is not favorable for keeping warm.

In order to solve the problems, the application provides an aluminum profile bridge cut-off heat insulation two-rail sliding window.

SUMMERY OF THE UTILITY MODEL

Objects of the utility model

In order to solve the technical problems in the background art, the utility model provides an aluminum profile bridge cut-off heat insulation two-rail sliding window which ensures a good heat insulation function, can reduce dust particles from blocking a positioning groove, can break the particles by a matched pulley assembly, and does not influence the normal use of a window body.

(II) technical scheme

In order to solve the problems, the utility model provides an aluminum profile bridge cut-off heat insulation two-rail sliding window which comprises a window body and a window frame;

the bottom frame is arranged at the bottom of the window body; a glass panel is arranged on the bottom frame;

the window frame is fixedly arranged on the wall; the interior of the window frame is hollow; a plurality of groups of reinforcing pieces are arranged in the hollow part of the window frame; the reinforcing piece is arranged in an L shape; the middle position of the top of the window frame is downwards sunken; a positioning groove is arranged in the middle of the concave part; the bottom of the positioning groove is arranged in a semicircular arc shape; symmetrical guide rails are arranged on the concave part; the guide rails are respectively arranged at two sides of the positioning groove;

a bottom frame of the window body is provided with a convex pulley assembly; the pulley assembly slides along the positioning groove; a groove is arranged on the bottom frame and corresponds to the position of the guide rail on the concave part; the side wall of the bottom frame contacts with the convex parts at the two sides of the window frame and keeps sliding connection.

Preferably, the glass panels are double-layer laminated glass, and an adhesive layer is filled between the two parallel glass panels.

Preferably, the middle part of the window frame is provided with an interlayer; the interlayer divides the hollow part of the window frame into a left chamber and a right chamber which are separated.

Preferably, the interlayer is a hard insulating board.

Preferably, the top of the guide rail is provided with a semi-cylindrical contact member.

Preferably, the pulley assembly comprises a pulley body, a connecting shaft and a barrier breaking block; the wheel body rotates around the connecting shaft; the connecting shaft is matched and fixedly installed with the bottom frame; the barrier breaking block is fixedly arranged on the connecting shaft; the barrier breaking block is arranged in a semi-circular arc shape; the bottom of the wheel body extends out of the barrier breaking block.

Preferably, the hollow portion of the window frame is filled with foam.

Preferably, a strip-shaped sealing element is adhered to the joint of the glass panel and the adhesive layer.

The technical scheme of the utility model has the following beneficial technical effects:

1. the glass panels are double-layer laminated glass, and an adhesive layer is filled between the two parallel glass panels; compared with common glass, the double-layer glass has better heat preservation and heat insulation performance; and the glue clamping layer is filled between the two glass panels which are arranged in parallel, so that the whole glass panel has stronger strength and stronger impact resistance.

2. The top of the guide rail is provided with a semi-cylindrical contact element, when the window body moves on the guide rail, the contact element on the guide rail is extruded to generate elastic deformation, and the extruded contact element is tightly attached to the groove on the bottom frame so as to achieve the sealing effect; the sliding window has the advantages that heat cannot be easily dissipated, and particles such as external dust or mud can be prevented from falling to the position near the guide rail, so that normal use of the sliding window is prevented from being influenced.

3. The pulley component comprises a pulley body, a connecting shaft and an obstacle breaking block; the wheel body rotates around the connecting shaft; the connecting shaft is matched and fixedly installed with the bottom frame; the barrier breaking block is fixedly arranged on the connecting shaft; the barrier breaking block is arranged in a semi-circular arc shape; the bottom of the wheel body extends out of the barrier breaking block, and the wheel body rotates in the positioning groove, so that the sliding window can conveniently slide in the window frame; the window is convenient to open and close; meanwhile, a semicircular arc-shaped barrier breaking block is arranged on the connecting shaft; in the motion process of the window body, the barrier breaking block is firstly contacted with particles such as dust, soil and the like, and the particles can be extruded or crushed into smaller particles by the arc-shaped structure; the movement of the wheel body in the positioning groove is not influenced.

Drawings

Fig. 1 is a schematic view of the overall structure of the aluminum profile bridge cut-off heat insulation two-rail sliding window provided by the utility model.

Fig. 2 is a schematic view of an installation structure of a window body and a window frame in the aluminum profile bridge-cut-off heat-insulation two-rail sliding window provided by the utility model.

Fig. 3 is a schematic cross-sectional structure view of the aluminum profile bridge cut-off heat insulation two-rail sliding window provided by the utility model.

Fig. 4 is a schematic structural diagram of a pulley assembly in the aluminum profile bridge cut-off heat insulation two-rail sliding window provided by the utility model.

Reference numerals: 1. a window frame; 2. a window body; 21. a glue clamping layer; 3. a bottom frame; 4. a reinforcement; 5. a seal member; 6. a guide rail; 7. an interlayer; 8. a groove; 9. positioning a groove; 10. a sheave assembly; 101. breaking the barrier block; 102. a connecting shaft; 103. a wheel body.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-4, the utility model provides an aluminum profile bridge cut-off heat insulation two-rail sliding window, which comprises a window body 2 and a window frame 1;

the bottom frame 3 is arranged at the bottom of the window body 2; a glass panel is arranged on the bottom frame 3;

the window frame 1 is fixedly arranged on a wall; the window frame 1 is hollow; a plurality of groups of reinforcements 4 are arranged in the hollow part of the window frame 1; the reinforcing piece 4 is arranged in an L shape; the middle position of the top of the window frame 1 is downwards concave; a positioning groove 9 is arranged in the middle of the concave part; the bottom of the positioning groove 9 is arranged in a semi-arc shape; symmetrical guide rails 6 are arranged on the concave part; the guide rails 6 are respectively arranged at two sides of the positioning groove 9;

a bottom frame 3 of the window body 2 is provided with a convex pulley assembly 10; the pulley assembly 10 slides along the positioning groove 9; a groove 8 is formed in the bottom frame 3, and the position of the groove 8 corresponds to that of the guide rail 6 on the concave part; the side wall of the bottom frame 3 contacts with the convex parts at the two sides of the window frame 1 and keeps sliding connection.

In an alternative embodiment, the glass panels are double-layer laminated glass, and an adhesive layer 21 is filled between two parallel glass panels.

The double-layer glass has better heat insulation performance compared with common glass; and the adhesive layer 21 is filled between the two glass panels which are arranged in parallel, so that the whole glass panel has stronger strength and stronger impact resistance.

In an alternative embodiment, the middle part of the window frame 1 is provided with an interlayer 7; the interlayer 7 divides the hollow portion of the window frame 1 into two chambers separated into left and right chambers. The interlayer 7 is a hard heat insulation plate.

The interlayer 7 is matched with the window frame 1 to form a bridge cut-off structure; the window frames 1 on the two sides are separated by the interlayer 7, so that heat cannot be directly transferred; the heat loss at the position of the window frame is greatly reduced, so that the whole window frame 1 and the whole window body 2 have good heat preservation and heat insulation performance; in addition, the interlayer 7 is a hard heat insulation plate, is hard in texture and does not influence the overall strength of the window frame 1.

In an alternative embodiment, the top of the guide rail 6 is provided with semi-cylindrical contacts.

It should be noted that, when the window body 2 moves on the guide rail 6, the contact element on the guide rail 6 is extruded to generate elastic deformation, and the extruded contact element is tightly attached to the groove 8 on the bottom frame 3, so that a sealing effect is achieved; the sliding window has the advantages that heat cannot be easily dissipated, and particles such as external dust or soil can be prevented from falling near the guide rail 6, so that normal use of the sliding window is prevented from being influenced.

In an alternative embodiment, the pulley assembly 10 includes a pulley body 103, a connecting shaft 102, and a barrier breaking block 101; the wheel body 103 rotates around the connecting shaft 102; the connecting shaft 102 is fixedly installed with the bottom frame 3 in a matching way; the barrier breaking block 101 is fixedly arranged on the connecting shaft 102; the barrier breaking block 101 is arranged in a semi-circular arc shape; the bottom of wheel 103 protrudes from obstacle-breaking block 101.

It should be noted that the wheel body 103 rotates in the positioning groove 9, so that the sliding window can slide in the window frame 1 conveniently; the window is convenient to open and close; meanwhile, a semicircular arc-shaped obstacle breaking block 101 is arranged on the connecting shaft 102; in the movement process of the window body 2, the obstacle breaking block 101 is firstly contacted with particles such as dust, soil and the like, and the particles can be extruded or broken into smaller particles by the arc-shaped structure; the movement of the wheel body 103 in the positioning slot 9 is not affected.

In an alternative embodiment, the hollow of the window frame 1 is filled with foam.

The foam cotton can play a role in heat preservation and insulation.

In an alternative embodiment, a strip-shaped sealing member 5 is adhered to the joint of the glass panel and the adhesive layer 21.

It should be noted that the sealing member 5 can improve the sealing effect at the joint of the adhesive layer 21 and the glass panel, and can protect the edge of the glass panel; the service life is prolonged.

In the utility model, the window frame 1 is provided with two independent positioning grooves 9; guide rails 6 are arranged on two sides of the positioning groove 9; the two windows 2 slide along the positioning grooves 9 and the guide rails 6; two sides of the window frame 1 are in contact with the bottom frame 3 of the window body 2 and keep sliding, so that the window body 2 is limited; in the utility model, the top of the guide rail 6 is provided with a semi-cylindrical contact element, when the window body 2 moves on the guide rail 6, the contact element on the guide rail 6 is extruded to generate elastic deformation, and the extruded contact element is tightly attached to the groove 8 on the bottom frame 3, thereby achieving the sealing effect; not only ensures that the heat cannot be easily dissipated, but also can prevent external particles such as dust or mud from falling to the vicinity of the guide rail 6 so as to avoid influencing the normal use of the sliding window; the bottom of the window frame 1 is provided with a pulley assembly 10, and the pulley assembly 10 comprises a pulley body 103, a connecting shaft 102 and a barrier breaking block 101; the wheel body 103 rotates in the positioning groove 9, so that the sliding window can conveniently slide in the window frame 1; the window is convenient to open and close; meanwhile, a semicircular arc-shaped obstacle breaking block 101 is arranged on the connecting shaft 102; in the movement process of the window body 2, the obstacle breaking block 101 is firstly contacted with particles such as dust, soil and the like, and the particles can be extruded or broken into smaller particles by the arc-shaped structure; the movement of the wheel body 103 in the positioning slot 9 is not affected. The middle part of the window frame 1 is provided with an interlayer 7; the interlayer 7 divides the hollow portion of the window frame 1 into two chambers separated into left and right chambers. The interlayer 7 is a hard heat insulation plate. The interlayer 7 is matched with the window frame 1 to form a bridge cut-off structure; the window frames 1 on the two sides are separated by the interlayer 7, so that heat cannot be directly transferred; the heat loss at the position of the window frame is greatly reduced, so that the whole window frame 1 and the whole window body 2 have good heat preservation and heat insulation performance; in addition, the interlayer 7 is a hard thermal insulation board, is hard in texture and does not influence the overall strength of the window frame 1; in addition, the window body 2 is a double-layer laminated glass panel, and a strip-shaped sealing member 5 is stuck at the joint of the glass panel and the laminated layer 21. The sealing element 5 can improve the sealing effect of the joint of the adhesive layer 21 and the glass panel and can protect the edge of the glass panel; the service life is prolonged; the utility model ensures good heat preservation and insulation functions, can reduce the blockage of dust particles on the positioning groove, and the matched pulley assembly 10 can break the particles without influencing the normal use of the window body 2.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundary of the appended claims, or the equivalents of such scope and boundary.

Claims (8)

1. An aluminum profile bridge cut-off heat insulation two-rail sliding window is characterized by comprising a window body (2) and a window frame (1);

the bottom of the window body (2) is provided with a bottom frame (3); a glass panel is arranged on the bottom frame (3);

the window frame (1) is fixedly arranged on a wall; the window frame (1) is hollow; a plurality of groups of reinforcements (4) are arranged in the hollow part of the window frame (1); the reinforcing piece (4) is arranged in an L shape; the middle position of the top of the window frame (1) is downwards sunken; a positioning groove (9) is arranged in the middle of the concave part; the bottom of the positioning groove (9) is arranged in a semicircular arc shape; symmetrical guide rails (6) are arranged on the concave part; the guide rails (6) are respectively arranged at two sides of the positioning groove (9);

a bottom frame (3) of the window body (2) is provided with a convex pulley assembly (10); the pulley component (10) slides along the positioning groove (9); a groove (8) is formed in the bottom frame (3), and the groove (8) corresponds to the guide rail (6) on the concave part in position; the side wall of the bottom frame (3) is in contact with the convex parts at the two sides of the window frame (1) and keeps sliding connection.

2. The aluminum profile bridge cut-off heat insulation two-rail sliding window according to claim 1, wherein the glass panels are double-layer laminated glass, and an adhesive layer (21) is filled between the two parallel glass panels.

3. The aluminum profile bridge cut-off heat insulation two-rail sliding window according to claim 1, characterized in that an interlayer (7) is arranged in the middle of the window frame (1); the interlayer (7) divides the hollow part of the window frame (1) into two chambers which are separated from the left and the right.

4. The aluminum profile bridge cut-off heat insulation two-rail sliding window according to claim 3, characterized in that the interlayer (7) is a hard heat insulation plate.

5. The aluminium profile bridge cut-off heat insulation two-rail sliding window according to claim 1, characterized in that the top of the guide rail (6) is provided with a semi-cylindrical contact piece.

6. The aluminum profile bridge cut-off heat insulation two-rail sliding window according to claim 1, wherein the pulley assembly (10) comprises a pulley body (103), a connecting shaft (102) and a barrier breaking block (101); the wheel body (103) rotates around the connecting shaft (102); the connecting shaft (102) is matched and fixedly installed with the bottom frame (3); the obstacle breaking block (101) is fixedly arranged on the connecting shaft (102); the barrier breaking block (101) is arranged in a semi-circular arc shape; the bottom of the wheel body (103) extends out of the obstacle breaking block (101).

7. The aluminum profile bridge cut-off heat insulation two-rail sliding window according to claim 1, characterized in that the hollow part of the window frame (1) is filled with foam cotton.

8. The aluminum profile bridge cut-off heat insulation two-rail sliding window according to claim 2, characterized in that a strip-shaped sealing element (5) is pasted at the joint of the glass panel and the adhesive layer (21).

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