阅读说明：本技术 一种隔热铝型材 (Heat-insulating aluminum profile ) 是由 王小龙 万强 于 2021-08-31 设计创作，主要内容包括：本发明属于隔热铝型材技术领域,具体的说是一种隔热铝型材,包括壳体、加强管、第一支柱和第二支柱；所述壳体分为外层和内层；所述加强管上开设有多个安装孔；所述第二支柱处于水平方向上；所述外层和内层均贯穿开设有沿铝型材长度方向分布的第一滑槽；所述第一滑槽内滑动连接有滑块；所述滑块内部开设有第二滑槽；所述第二滑槽的开口朝向加强管；所述第二滑槽内滑动连接有滑杆；所述第二支柱远离加强管的一端的端面上开设有第三滑槽；所述滑杆于靠近加强管一端伸进第三滑槽内部；本发明结构简单可现有技术中存在隔热铝型材在安装过程中,容易造成隔热铝型材壳体变形,同时安装强度不够,施工不便的问题。(The utility model belongs to the technical field of heat-insulating aluminum profiles, and particularly relates to a heat-insulating aluminum profile which comprises a shell, a reinforcing pipe, a first support column and a second support column; the shell is divided into an outer layer and an inner layer; the reinforcing pipe is provided with a plurality of mounting holes; the second strut is in a horizontal direction; the outer layer and the inner layer are both provided with first sliding chutes distributed along the length direction of the aluminum profile in a penetrating manner; a sliding block is connected in the first sliding groove in a sliding manner; a second sliding groove is formed in the sliding block; the opening of the second chute faces the reinforcing pipe; a sliding rod is connected in the second sliding groove in a sliding manner; a third sliding groove is formed in the end face of one end, far away from the reinforcing pipe, of the second support; one end of the sliding rod, which is close to the reinforcing pipe, extends into the third sliding chute; the utility model has simple structure, and can solve the problems that the shell of the heat-insulating aluminum profile is easy to deform in the installation process of the heat-insulating aluminum profile in the prior art, and meanwhile, the installation strength is not enough and the construction is inconvenient.)

1. The utility model provides a thermal-insulated aluminium alloy which characterized in that: comprises a shell (1), a reinforced pipe (2), a first support column (3) and a second support column (4); the shell (1) is divided into an outer layer (11) and an inner layer (12); the opposite side surfaces of the outer layer (11) and the inner layer (12) are both provided with a groove (5) in a penetrating way; a heat insulation strip (6) is arranged in the groove (5); a plurality of mounting holes (7) are formed in the reinforcing pipe (2); a heat insulation layer is fixedly connected in the mounting hole (7); the first support column (3) and the second support column (4) are fixedly connected to a heat insulation layer in the mounting hole (7) on the reinforced pipe through threads, and the first support column (3) and the second support column (4) are perpendicular to each other; the second strut (4) is in a horizontal direction; the outer layer (11) and the inner layer (12) are both provided with first sliding chutes (8) distributed along the length direction of the aluminum profile in a penetrating manner; the opening of the first chute (8) faces the reinforcement pipe (2); a sliding block (9) is connected in the first sliding chute (8) in a sliding manner; a second sliding chute (13) is formed in the sliding block (9); the opening of the second chute (13) faces the reinforcement pipe (2); a sliding rod (14) is connected in the second sliding groove (13) in a sliding manner; a third sliding groove (15) is formed in the end face of one end, away from the reinforcing pipe (2), of the second support column (4); one end of the sliding rod (14) close to the reinforcing pipe (2) extends into the third sliding groove (15); a clamping groove (16) is formed in one side, close to the reinforcing pipe (2), of the sliding rod (14) positioned at the two ends of the shell (1); the surfaces of the second supporting columns (4) at the two ends of the shell (1) close to one side of the end part of the shell (1) are provided with threaded holes; a screw (17) is connected with the inner thread of the threaded hole; one end of the screw (17) close to the central axis of the second strut (4) is in a semi-elliptical design; and one end of the sliding rod (14) positioned between the two ends of the shell (1) and close to the reinforcing pipe (2) is connected with the inner wall of the third sliding groove (15) through a spring.

2. The heat-insulating aluminum profile according to claim 1, characterized in that: the inner walls of the outer layer (11) and the inner layer (12) are thickened on two sides close to the first sliding groove (8).

3. The heat-insulating aluminum profile according to claim 2, characterized in that: the surface of one side of the sliding block (9) far away from the reinforcing pipe (2) is fixedly connected with an air bag (18); a plurality of rubber strips (19) are uniformly fixedly connected to the surface of one side of the air bag (18) far away from the reinforcing pipe (2); every two rubber strips (19) are close to each other at one end far away from the reinforced pipe (2).

4. The heat-insulating aluminum profile according to claim 1, characterized in that: a plurality of first magnets (21) are fixedly connected in the heat insulation strip (6) in the length direction of the heat insulation strip (6); a second magnet (22) is fixedly connected to the inner part of one side of the first support column (3) far away from the central axis direction of the reinforced pipe (2); the first magnets (21) and the second magnets (22) are designed in a one-to-one correspondence mode.

5. The heat-insulating aluminum profile according to claim 3, characterized in that: and the inner wall surface of the inner layer (12) is fixedly connected with aerogel felt.

6. The heat-insulating aluminum profile according to claim 1, characterized in that: the interior of the reinforced pipe (2) is filled with phase-change paraffin.

Technical Field

The utility model belongs to the technical field of heat-insulating aluminum profiles, and particularly relates to a heat-insulating aluminum profile.

Background

The heat insulation aluminum profile is also called heat insulation broken bridge aluminum profile, broken bridge aluminum alloy and broken cold and hot bridge profile; when the temperature difference between the indoor and the outdoor is large, the aluminum alloy is taken as a 'bridge' for transferring heat at the moment, the heat transferring speed of the aluminum alloy is high, so that the heat insulation performance is poor, the bridge-cut aluminum cuts off the aluminum alloy from the middle, the cut aluminum alloys are connected into a whole by adopting hard plastic, the heat is not easy to transfer due to the obvious difference of the heat conduction of the plastic compared with the metal, and the aluminum alloy has good heat insulation performance; the problem that the heat-insulating aluminum profile shell is easy to deform, the installation strength is not enough and the construction is inconvenient in the installation process of the heat-insulating aluminum profile in the prior art is solved.

Some technical solutions of heat insulation aluminum profiles have been proposed in the prior art, for example, a chinese patent with application number CN201721795324.4 discloses a heat insulation aluminum profile, which includes an aluminum frame, a sliding groove and a mounting groove. The five groups of cavities are arranged in the aluminum frame and are divided into a noise reduction cavity in the middle, a filling cavity at the leftmost side and the rightmost side and a pouring cavity between the noise reduction cavity and the filling cavity; although the utility model discloses a possess and insulate against heat, fall the function of making an uproar, the device is in the installation, exists because of the installer improper operation leads to the device shell to warp, if touch the aluminum product frame of the device both sides, then can influence the device's the thermal-insulated problem of falling the performance of making an uproar.

Disclosure of Invention

In order to make up for the defects of the prior art and solve the problems that the shell of the heat-insulating aluminum profile is easy to deform, the installation strength is not enough and the construction is inconvenient in the installation process of the heat-insulating aluminum profile in the prior art, the utility model provides the heat-insulating aluminum profile.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model relates to a heat insulation aluminum profile which comprises a shell, a reinforcing pipe, a first support column and a second support column; the shell is divided into an outer layer and an inner layer; grooves are formed in the surfaces of the opposite sides of the outer layer and the inner layer in a penetrating mode; a heat insulation strip is arranged in the groove; the reinforcing pipe is provided with a plurality of mounting holes; a heat insulation layer is fixedly connected in the mounting hole; the first support column and the second support column are fixedly connected to the heat insulation layer inside the mounting hole on the reinforcing pipe through threads, and the first support column and the second support column are perpendicular to each other; the second strut is in a horizontal direction; the outer layer and the inner layer are both provided with first sliding chutes distributed along the length direction of the aluminum profile in a penetrating manner; the opening of the first sliding chute faces the reinforcing pipe; a sliding block is connected in the first sliding groove in a sliding manner; a second sliding groove is formed in the sliding block; the opening of the second chute faces the reinforcing pipe; a sliding rod is connected in the second sliding groove in a sliding manner; a third sliding groove is formed in the end face of one end, far away from the reinforcing pipe, of the second support; one end of the sliding rod, which is close to the reinforcing pipe, extends into the third sliding chute; the slide bars positioned at the two ends of the shell are provided with clamping grooves at one side close to the reinforcing pipe; the surfaces of the second support columns at the two ends of the shell, which are close to one side of the end part of the shell, are provided with threaded holes; a screw is connected with the inner thread of the threaded hole; one end of the screw close to the central axis of the second strut is in a semi-elliptical design; one end of the sliding rod, which is positioned between the two ends of the shell and is close to the reinforcing pipe, is connected with the inner wall of the third sliding chute through a spring;

the during operation, before with thermal-insulated aluminium alloy integral erection on the wall body, reserve the installing port size through the survey wall body, later cut this application's thermal-insulated aluminium alloy with cutting device, make thermal-insulated aluminium alloy after the cutting can reserve installing port looks adaptation with the wall body, later install this application's thermal-insulated aluminium alloy, after the installation is accomplished splice a plurality of this application devices, splice, later run through heat insulating strip through a plurality of reservation, the hole on the reinforcing pipe uses the thermal-insulated aluminium alloy fixed mounting of inflation screw with this application on the wall body, above-mentioned thermal-insulated aluminium alloy installation as follows: four mounting holes are formed in the same vertical plane, a plurality of mounting holes are uniformly formed in the length direction of the shell, a plurality of first supports are respectively connected to the heat insulation layers inside the mounting holes in the vertical direction of the reinforced pipe through threads, a plurality of second supports are respectively connected to the heat insulation layers inside the mounting holes in the horizontal direction of the reinforced pipe through threads, and the heat insulation layers are made of hard plastic materials, so that the heat conduction rate of the inner layer through the second supports (the inner layer is the side facing the indoor during mounting) can be effectively reduced compared with the reinforced pipe, the first supports and the second supports which are made of hard aluminum alloy materials, the heat insulation efficiency of the heat insulation device is improved, the sliding block is mounted inside the first sliding groove, after the sliding block completely enters the first sliding groove, the cross-shaped heat insulation strip is inserted into the groove, and glue is coated between the groove and the heat insulation strip, the outer layer and the inner layer are fixedly connected through glue by the heat insulation strips, the heat insulation strips are made of hard plastic materials, the connection strength of the heat insulation aluminum profile is effectively improved, and the upper ends of the first support columns are in contact with the lower surfaces of the heat insulation strips; then screwing the screws on the second struts at two ends of the shell by a screwdriver, wherein one end of the screw close to the central axis of the second strut is in a semi-elliptical design, and one end of the screw close to the central axis of the second strut corresponds to the position of the clamping groove which is formed by penetrating the slide rod from top to bottom on one side close to the reinforcing tube, so that when the screw moves towards the direction of the slide rod, one end of the screw close to the central axis of the second strut is inserted into the clamping groove, and the elliptical end of the screw extrudes the part of the slide rod close to one side of the reinforcing tube, under the action of the screw, the slide rod moves towards one side of the reinforcing tube in the third chute, because the cross sections of the second chute and the slide rod are in a T shape, when the slide rod moves towards one side of the reinforcing tube, the slide rod moves towards the direction close to the reinforcing tube in the second chute, the slide rod extrudes the inner wall of the second chute close to one side of the reinforcing tube, namely, the slide rod drives the slide block to move towards one side close to the reinforcing tube, the cross sections of the first sliding chute and the sliding block are both T-shaped, so that the sliding block extrudes the first sliding chute to be close to the inner wall of one side of the reinforced pipe, the inner layer and the outer layer are tightly fixed under the action of the reinforced pipe, the sliding rod positioned between the two ends of the shell is connected with the inner wall of the third sliding chute through a spring (not shown in the attached drawing) at one end close to the reinforced pipe, so that the sliding block is tightly attached to the inner wall of one side of the reinforced pipe under the combined action of a plurality of springs and screws, meanwhile, the vertical direction part and the horizontal direction part of the outer layer and the inner layer are fixedly connected through reinforcing ribs, a plurality of reinforcing ribs are arranged in the length direction of the outer layer, under the combined action of the springs and the screws, the mounting strength of the device is improved, the damage caused in the mounting process of the device is effectively reduced, the attractiveness of the device after the mounting is improved, the problem that doors and windows cause the connection parts to be not firmly leaned in the pulling process is effectively reduced, thereby improve the heat-proof quality and the sealing performance of this application, improve the practicality of this application.

Preferably, both sides of the inner walls of the outer layer and the inner layer close to the first sliding chute are thickened;

the during operation, when screwing the screw, the slide bar drives the slider to the motion of enhancement pipe direction, first spout is hugged closely in being close to a enhancement pipe side surface to the slider, this moment because of outer and inlayer inner wall between them in being close to the equal thickening processing in first spout department both sides, thereby effectively avoid causing outer and inlayer inner wall between them to be close to the condition that first spout department appears warping because of the slider to the motion of enhancement pipe direction, effectively improve the stability of being connected between inlayer and the skin, improve the joint strength of this application and the intensity between the total device, strengthen the protection to this device in the installation.

Preferably, the surface of one side of the sliding block, which is far away from the reinforcing pipe, is fixedly connected with an air bag; a plurality of rubber strips are uniformly and fixedly connected to the surface of one side of the air bag, which is far away from the reinforcing pipe; every two rubber strips are close to each other at one end far away from the reinforcing pipe;

the during operation, when outer temperature is higher, the inside carbon dioxide gas of filling of gasbag this moment is heated the inflation, make a plurality of rubber strip extrusion first spout on rubber strip surface in keeping away from a reinforcing pipe side surface, per two rubber strips are close to each other in keeping away from reinforcing pipe one end simultaneously, thereby effectual increase slider and the frictional force between the first spout inner wall, the aversion of slider is caused in the vibration that effectively reduces the production when removing door and window, thereby effectively improve the whole connection stability between the thermal-insulated aluminium alloy of this application, thereby improve the life of this application.

Preferably, a plurality of first magnets are fixedly connected in the heat insulation strip in the length direction of the heat insulation strip; a second magnet is fixedly connected to the inner part of one side of the first support, which is far away from the central axis of the reinforced pipe; the first magnets and the second magnets are designed in a one-to-one correspondence manner;

when the heat insulation strip is installed with glue injection, the heat insulation strip can be prevented from shifting through the acting force between the first magnet and the second magnet, and therefore material waste is avoided; after the device is used for a long time, in order to avoid the situation that the heat insulation strips are not connected with the grooves any more by glue, and the heat insulation strips are displaced to cause low heat insulation and sound insulation strength of the device, the problem is avoided by setting the first magnet and the second magnet to attract each other, so that the practicability of the device is effectively improved; simultaneously under the effect of first magnet and second magnet, also can be more firm with inlayer and skin fixed with the combined action of reinforcement pipe, second pillar, slider, improve the structural strength of aluminium alloy, increase life.

Preferably, the surface of the inner wall of the inner layer is fixedly connected with aerogel felt;

the during operation, through link firmly the aerogel felt on inner wall surface including, and the aerogel felt has good heat-proof quality, can effectual heat-conduction that reduces the inlayer, thereby effectively avoid when the high outdoor temperature of indoor temperature is low, because of aluminium alloy ex-trusions heat-conduction ability is stronger, make indoor heat through inlayer conduction casing inner space, at last by outer absorption, give off to outdoor, with this can cause the indoor condition of not heat retaining, thereby improve the heat-proof quality of this application thermal-insulated aluminium alloy, resources are saved, improve the practicality of this application.

Preferably, the interior of the reinforcing pipe is filled with phase-change paraffin;

the during operation, when ambient temperature is higher, become liquid by the solid by phase transition paraffin, phase transition paraffin needs the absorbed energy this moment, phase transition paraffin has high heat-retaining ability simultaneously, make constantly absorb the outer heat on second pillar conduction to the reinforcing pipe, thereby reduce outer temperature, avoid being heated because of the paint that outer high temperature leads to outer spraying and drop and cause the lower problem of life of this device, and the phase transition is becoming the speed of solid in-process release energy comparatively slowly by liquid, can be to the effectual protection of thermal-insulated aluminium alloy, phase transition paraffin has long service life's characteristics simultaneously, can satisfy the requirement that daily family used door and window, and the device has certain practicality.

The utility model has the following beneficial effects:

1. according to the heat-insulating aluminum profile, the inner layer and the outer layer can be tightly fixed by arranging the reinforcing pipe, the second pillar, the sliding rod and the sliding block, so that the mounting strength of the aluminum profile is improved, the damage caused by the aluminum profile in the mounting process is effectively reduced, the attractiveness of the aluminum profile after mounting is improved, the problem that doors and windows are not firmly connected between connecting parts in the pulling process is effectively reduced, the heat-insulating property and the sealing property of the aluminum profile are improved, and the practicability of the aluminum profile is improved.

2. According to the heat-insulating aluminum profile, the aerogel felt is fixedly connected to the inner wall surface of the inner layer, and has good heat-insulating performance, so that the heat conduction of the inner layer can be effectively reduced, the inner wall surface of the inner layer is prevented from being directly contacted with the space of the inner wall of the shell, the heat loss of the inner layer is reduced, the heat-insulating performance of the heat-insulating aluminum profile is improved, resources are saved, and the practicability of the heat-insulating aluminum profile is improved.

3. According to the heat-insulating aluminum profile, when the temperature of the outer layer is higher, the carbon dioxide gas filled in the air bag is heated to expand, the plurality of rubber strips on the surfaces of the rubber strips extrude the first sliding groove to be away from the surface of one side of the reinforcing pipe, and meanwhile, one end of each two rubber strips away from the reinforcing pipe are close to each other, so that the friction force between the sliding block and the inner wall of the first sliding groove is effectively increased, the displacement of the sliding block caused by vibration generated when a door or window is moved is effectively reduced, the connection stability of the whole heat-insulating aluminum profile is effectively improved, and the service life of the heat-insulating aluminum profile is prolonged.

Drawings

The utility model will be further explained with reference to the drawings.

FIG. 1 is a front view of the present invention, cut away;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

in the figure: the structure comprises a shell 1, a reinforcing pipe 2, a first support 3, a second support 4, an outer layer 11, an inner layer 12, a groove 5, a heat insulation strip 6, a mounting hole 7, a first sliding groove 8, a sliding block 9, a second sliding groove 13, a sliding rod 14, a third sliding groove 15, a clamping groove 16, a screw 17, an air bag 18, a rubber strip 19, a first magnet 21 and a second magnet 22.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1 to 3, the heat insulation aluminum profile of the present invention comprises a shell 1, a reinforcing pipe 2, a first pillar 3 and a second pillar 4; the shell 1 is divided into an outer layer 11 and an inner layer 12; the opposite side surfaces of the outer layer 11 and the inner layer 12 are both provided with a groove 5 in a penetrating way; a heat insulation strip 6 is arranged in the groove 5; a plurality of mounting holes 7 are formed in the reinforcing pipe 2; a heat insulation layer is fixedly connected in the mounting hole 7; the first strut 3 and the second strut 4 are fixedly connected to a heat insulation layer inside the mounting hole 7 on the reinforcing pipe through threads, and the first strut 3 and the second strut 4 are perpendicular to each other; the second support 4 is in a horizontal direction; the outer layer 11 and the inner layer 12 are both provided with first sliding chutes 8 distributed along the length direction of the aluminum profile in a penetrating manner; the opening of the first chute 8 faces the reinforcement pipe 2; a sliding block 9 is connected in the first sliding chute 8 in a sliding manner; a second sliding chute 13 is formed in the sliding block 9; the opening of the second chute 13 is directed towards the reinforcement pipe 2; a sliding rod 14 is connected in the second sliding chute 13 in a sliding manner; a third sliding groove 15 is formed in the end face of one end, away from the reinforcing pipe 2, of the second support column 4; the sliding rod 14 extends into the third sliding chute 15 at one end close to the reinforcing pipe 2; the slide bars 14 positioned at the two ends of the shell 1 are provided with clamping grooves 16 at one side close to the reinforcing pipe 2; the surfaces of the second support columns 4 at the two ends of the shell 1, which are close to one side of the end part of the shell 1, are provided with threaded holes; a screw 17 is connected with the inner thread of the threaded hole; one end of the screw 17 close to the central axis of the second strut 4 is in a semi-elliptical design; the sliding rod 14 positioned between the two ends of the shell 1 is connected with the inner wall of a third sliding chute 15 at one end close to the reinforcing pipe 2 through a spring;

the during operation, before with thermal-insulated aluminium alloy integral erection on the wall body, reserve the installing port size through the survey wall body, later cut this application's thermal-insulated aluminium alloy with cutting device, make thermal-insulated aluminium alloy after the cutting can reserve installing port looks adaptation with the wall body, later install this application's thermal-insulated aluminium alloy, after the installation is accomplished splice a plurality of this application devices, splice, later run through heat insulating strip 6 through a plurality of reservations, the hole on the reinforcing pipe 2 uses the inflation screw with this application's thermal-insulated aluminium alloy fixed mounting on the wall body, above-mentioned thermal-insulated aluminium alloy installation as follows: four mounting holes 7 are arranged on the same vertical plane, a plurality of mounting holes 7 are uniformly arranged in the length direction of the shell 1, a plurality of first supports 3 are respectively connected with the heat-insulating layer in the mounting holes 7 in the vertical direction of the reinforced pipe 2 through threads, a plurality of second supports 4 are respectively connected with the heat-insulating layer in the mounting holes 7 in the horizontal direction of the reinforced pipe 2 through threads, because the heat-insulating layers are made of hard plastic materials, compared with the reinforced pipe 2, the first supports 3 and the second supports 4 which are made of hard aluminum alloy materials, the heat conduction rate of the inner layer 12 through the second supports 4 can be effectively reduced (the inner layer 12 is the side facing the indoor installation), thereby improving the heat-insulating efficiency of the application, then the sliding block 9 is installed in the first sliding groove 8, after the sliding block 9 completely enters the first sliding groove 8, the cross-shaped heat-insulating strip 6 is filled in the groove 5, glue is smeared between the groove 5 and the heat insulation strip 6, so that the outer layer 11 and the inner layer 12 are fixedly connected by the heat insulation strip 6 through the glue, the heat insulation strip 6 is made of hard plastic materials, the connection strength of the heat insulation aluminum profile is effectively improved, and the upper end of the first support 3 is in contact with the lower surface of the heat insulation strip 6; then, the screws 17 on the second struts 4 at the two ends of the shell 1 are screwed by a screwdriver, at this time, because one end of the screw 17 close to the central axis of the second strut 4 is in a semi-elliptical design, and one end of the screw 17 close to the central axis of the second strut 4 corresponds to the position of the slot 16 formed by penetrating the slide bar 14 on one side close to the reinforcing tube 2 from top to bottom, when the screw 17 moves towards the slide bar 14, one end of the screw 17 close to the central axis of the second strut 4 is inserted into the slot 16, and the elliptical end of the screw 17 extrudes the slide bar 14 on one side close to the reinforcing tube 2, under the action of the screw 17, the slide bar 14 moves towards one side of the reinforcing tube 2 inside the third slide slot 15, because the cross sections of the second slide slot 13 and the slide bar 14 are both T-shaped, when the slide bar 14 moves towards one side of the reinforcing tube 2, the slide bar 14 moves towards the direction close to the reinforcing tube 2 inside the second slide slot 13, the slide bar 14 extrudes the second chute 13 to the inner wall of one side close to the reinforced pipe 2, namely the slide bar 14 drives the slide block 9 to move towards one side close to the reinforced pipe 2, the cross sections of the first chute 8 and the slide block 9 are both T-shaped, so that the slide block 9 extrudes the first chute 8 to the inner wall of one side close to the reinforced pipe 2, thereby the inner layer 12 and the outer layer 11 are tightly fixed under the action of the reinforced pipe 2, the slide bar 14 and the slide block 9, which are positioned between the two ends of the shell 1, one end of the slide bar 14, which is close to the reinforced pipe 2, is connected with the inner wall of the third chute 15 through a spring (not shown in the attached drawing), so that under the combined action of a plurality of springs and a screw 17, the slide block 9 is clung to the inner wall of the first chute 8, which is close to one side of the reinforced pipe 2, meanwhile, the vertical direction part and the horizontal direction part of the outer layer 11 and the inner layer 12 are fixedly connected through reinforcing ribs, a plurality of reinforcing ribs are arranged in the length direction of the outer layer 11, under combined action between them, improved the installation intensity of this application, effectively reduced the damage that this device caused in the installation, improve the aesthetic measure after this application installation is accomplished, effectively reduce door and window and cause this application to connect the problem of not bearing in mind at the pulling in-process between the position to improve the heat-proof quality and the sealing performance of this application, improve the practicality of this application.

As an embodiment of the present invention, both sides of the inner walls of the outer layer 11 and the inner layer 12 near the first sliding chute 8 are thickened;

the during operation, when the screw 17 of screwing, slide bar 14 drives slider 9 and moves to 2 directions of reinforced pipe, slider 9 hugs closely first spout 8 in being close to 2 side surfaces of reinforced pipe, this moment because of outer 11 and inlayer 12 inner wall in being close to first spout 8 both sides equal thickening processing, thereby effectively avoid causing outer 11 and inlayer 12 inner wall in being close to the condition that first spout 8 appears warping because of slider 9 moves to reinforced pipe 2 directions, effectively improve the stability of being connected between inlayer 12 and the outer 11, improve the joint strength of this application and the intensity between the total device, strengthen the protection to this device in the installation.

As an embodiment of the utility model, the surface of the slider 9 on the side far away from the reinforcing tube 2 is fixedly connected with an air bag 18; a plurality of rubber strips 19 are uniformly and fixedly connected to the surface of one side of the air bag 18, which is far away from the reinforcing pipe 2; every two rubber strips 19 are close to each other at the end far away from the reinforced pipe 2;

the during operation, when outer 11 temperatures are higher, the carbon dioxide gas of 18 inside packings of gasbag this moment is heated the inflation, make 19 surperficial a plurality of rubber strips 19 extrusion first spout 8 of rubber strip in keeping away from 2 side surfaces of reinforcing tube, every two rubber strips 19 are close to each other in keeping away from 2 one end of reinforcing tube simultaneously, thereby effectual increase slider 9 and the frictional force between the 8 inner walls of first spout, the vibration that effectively reduces to produce when removing door and window causes the aversion of slider 9, thereby effectively improve the whole connection stability between the thermal-insulated aluminium alloy of this application, thereby improve the life of this application.

In one embodiment of the present invention, a plurality of first magnets 21 are fixedly connected to the inside of the heat insulating strip 6 in the longitudinal direction of the heat insulating strip 6; a second magnet 22 is fixedly connected to the inner part of one side of the first support 3 far away from the central axis direction of the reinforced pipe 2; the first magnets 21 and the second magnets 22 are designed in a one-to-one correspondence manner;

when the heat insulation strip 6 is installed with glue injection, the heat insulation strip 6 can be prevented from shifting through acting force between the first magnet 21 and the second magnet 22, and material waste is avoided; after the device is used for a long time, in order to avoid the situation that the heat insulation strip 6 is not connected with the groove 5 any more by glue, so that the heat insulation strip 6 is displaced to cause low heat insulation and sound insulation strength of the device, the problem is avoided by arranging the first magnet 21 and the second magnet 22 to attract each other, and the practicability of the device is effectively improved; simultaneously under the effect of first magnet 21 and second magnet 22, also can be more firm with inlayer 12 and skin 11 fixed with the combined action of reinforced pipe 2, second pillar 4, slider 9, improve the structural strength of aluminium alloy, increase life.

As an embodiment of the present invention, an aerogel felt is fixedly connected to the inner wall surface of the inner layer 12;

the during operation, through linking firmly the aerogel felt on the 12 inner wall surfaces of inlayer, and the aerogel felt has good heat-proof quality, can effectual reduction inlayer 12 heat-conduction, thereby effectively avoid when the high outdoor temperature of indoor temperature is low, because of aluminium alloy ex-trusions heat-conduction ability is stronger, make indoor heat through 1 inner space of inlayer 12 conduction casing, absorb by outer 11 at last, give off to outdoor, with this can cause the indoor condition of not heat retaining, thereby improve the heat-proof quality of this application thermal-insulated aluminium alloy, resources are saved, improve the practicality of this application.

As an embodiment of the present invention, the reinforcing tube 2 is filled with phase-change paraffin;

the during operation, when ambient temperature is higher, become liquid by the solid by phase transition paraffin, phase transition paraffin needs the absorbed energy this moment, phase transition paraffin has high heat-retaining ability simultaneously, make continuously absorb outer 11 heat on second pillar 4 conduction to reinforcing pipe 2, thereby reduce outer 11 temperature, avoid being heated because of the outer 11 high temperature and lead to the lacquer of outer 11 spraying to drop and cause the lower problem of life of this device, and the phase transition is becoming the speed of solid in-process release energy comparatively slowly by liquid, can be to the effectual protection of thermal-insulated aluminium alloy, phase transition paraffin has long service life's characteristics simultaneously, can satisfy the requirement that daily family used door and window, and certain practicality is possessed.

The specific working process is as follows:

the installation process of the heat insulation aluminum profile comprises the following steps: connecting a plurality of first struts 3 to a heat insulation layer inside a mounting hole 7 in the vertical direction of a reinforced pipe 2 through threads respectively, connecting a plurality of second struts 4 to the heat insulation layer inside the mounting hole 7 in the horizontal direction of the reinforced pipe 2 through threads respectively, then installing a sliding block 9 inside a first sliding groove 8, after the sliding block 9 completely enters the first sliding groove 8, plugging a cross-shaped heat insulation strip 6 into a groove 5, and then coating glue between the groove 5 and the heat insulation strip 6 to ensure that the outer layer 11 and the inner layer 12 are fixedly connected through the glue by the heat insulation strip 6, wherein the upper ends of the first struts 3 contact the lower surface of the heat insulation strip 6; then, the screws 17 on the second struts 4 at the two ends of the shell 1 are screwed by a screwdriver, at this time, because one end of the screw 17 close to the central axis of the second strut 4 is in a semi-elliptical design, and one end of the screw 17 close to the central axis of the second strut 4 corresponds to the position of the slot 16 formed by penetrating the slide bar 14 on one side close to the reinforcing tube 2 from top to bottom, when the screw 17 moves towards the slide bar 14, one end of the screw 17 close to the central axis of the second strut 4 is inserted into the slot 16, and the elliptical end of the screw 17 extrudes the slide bar 14 on one side close to the reinforcing tube 2, under the action of the screw 17, the slide bar 14 moves towards one side of the reinforcing tube 2 inside the third slide slot 15, because the cross sections of the second slide slot 13 and the slide bar 14 are both T-shaped, when the slide bar 14 moves towards one side of the reinforcing tube 2, the slide bar 14 moves towards the direction close to the reinforcing tube 2 inside the second slide slot 13, the slide bar 14 extrudes the second chute 13 to be close to the inner wall of one side of the reinforced pipe 2, namely the slide bar 14 drives the slide block 9 to move towards the direction close to one side of the reinforced pipe 2, the cross sections of the first chute 8 and the slide block 9 are both T-shaped, so that the slide block 9 extrudes the first chute 8 to be close to the inner wall of one side of the reinforced pipe 2, thereby the inner layer 12 and the outer layer 11 are tightly fixed under the action of the reinforced pipe 2, the slide bar 14 positioned between the two ends of the shell 1 is connected with the inner wall of the third chute 15 through a spring (not shown in the attached drawing) at one end close to the reinforced pipe 2, under the combined action of a plurality of springs and a screw 17, the slide block 9 is enabled to be tightly attached to the inner wall of the first chute 8 at one side close to the reinforced pipe 2, the installation strength of the application is improved, and simultaneously, both sides of the inner walls of the outer layer 11 and the inner layer 12 are thickened at the position close to the first chute 8, thereby effectively avoiding the situation that the inner walls of the outer layer 11 and the inner layer 12 are deformed at the position close to the first chute 8 due to the movement of the slide block 9 towards the direction of the reinforced pipe 2;

when the device of this application is in daily use, and outer 11 temperatures when higher, the carbon dioxide gas of 18 inside packings of gasbag this moment is heated the inflation, make 19 surperficial a plurality of rubber strips 19 extrusion first spouts 8 of rubber strip in keeping away from 2 side surfaces of reinforcing pipe, every two rubber strips 19 are close to each other in keeping away from 2 one ends of reinforcing pipe simultaneously, thereby effectual frictional force between slider 9 and the 8 inner walls of first spout that increases, effectively reduce the aversion that the vibration that produces when removing door and window caused slider 9, thereby effectively improve the whole connection stability between the thermal-insulated aluminium alloy of this application, improve the life of this application.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.