CN115059376A - Hollow glass unit frame and assembling method thereof - Google Patents

Abstract

The invention relates to a hollow glass unit frame and an assembling method thereof, belonging to the technical field of glass window profiles and comprising an outer profile frame, wherein an inner profile frame is arranged on one side of the outer profile frame; a glass pressing plate is arranged at one end of the inner profile frame, and the glass pressing plate and the inner profile frame clamp the hollow glass; a plurality of heat insulation broken bridges are connected between the outer profile frame and the inner profile frame at intervals, and a locking mechanism for locking the inner profile frame is arranged on the outer profile frame. By adopting the technical scheme, the connection strength among the section bar frames can be further improved, and the service life of the whole unit frame is prolonged.

Description

Hollow glass unit frame and assembling method thereof

Technical Field

The invention belongs to the technical field of glass window profiles, and particularly relates to a hollow glass unit frame and an assembling method thereof.

Background

The hollow glass is a product formed by separating the peripheries of two pieces of glass by using an aluminum spacing frame filled with a molecular sieve and sealing the two pieces of glass by using a sealing adhesive tape, and forming a dry gas space between the glass layers or filling inert gas into the glass layers. The energy conservation of the doors and the windows is the national policy of China, the area of the doors and the windows accounts for more than 20% of the building area, and the glass accounts for more than 70% of the area of the doors and the windows. From the energy loss ratio, 70% of the monitored energy loss of the whole building is lost from doors and windows. The hollow glass has the functions of greatly insulating heat and reducing noise, and is more and more widely applied to buildings in recent years.

The existing glass frame generally comprises an outer profile frame and an inner profile frame, wherein the outer profile frame and the inner profile frame are connected through a heat insulation broken bridge, and the heat insulation effect is achieved through the heat insulation broken bridge. After long-time use, outer section bar frame and interior section bar frame can produce certain deformation under the condition of expend with heat and contract with cold, and inboard thermal-insulated bridge cut-off works for a long time simultaneously, can produce certain influence to its life, then influences outer section bar frame and the relation of connection who forms the frame to a certain extent.

Disclosure of Invention

In view of the above problems in the prior art, an object of the present invention is to provide an insulating glass unit frame and an assembling method thereof, which can further improve the connection strength between the section frames and improve the service life of the unit frame as a whole.

In order to achieve the above object, the present invention provides a technical solution as follows:

a hollow glass unit frame comprises an outer profile frame, wherein an inner profile frame is arranged on one side of the outer profile frame; a glass pressing plate is arranged at one end of the inner profile frame, and the glass pressing plate and the inner profile frame clamp the hollow glass; a plurality of heat insulation broken bridges are connected between the outer profile frame and the inner profile frame at intervals, and a locking mechanism for locking the inner profile frame is arranged on the outer profile frame.

Preferably, the outer profile frame comprises a first outer frame and a second outer frame; the first outer frame and the second outer frame are rectangular; the first outer frame and the second outer frame are arranged side by side, and a connecting structure is arranged between the first outer frame and the second outer frame; the locking mechanism comprises a first locking component arranged between the first outer frame and the inner profile frame and a second locking component arranged between the second outer frame and the inner profile frame.

Preferably, the connecting structure comprises a first clamping plate and a second clamping plate which are fixed on the second outer frame and are positioned at one side close to the first outer frame, and the first clamping plate and the second clamping plate are parallel to each other; a third clamping plate and a fourth clamping plate are arranged on one side, close to the second outer frame, of the first outer frame, and the third clamping plate and the fourth clamping plate are parallel to each other; a first rib and a second rib are arranged on one side face, far away from the fourth clamping plate, of the third clamping plate at intervals, and a first limiting groove is formed between the first rib and the second rib; the first rib is close to the second outer frame relative to the second rib, and the height of the first rib is lower than that of the second rib; the cross section of the first clamping plate is L-shaped, and the free end of the first clamping plate is clamped in the first limiting groove; a third rib and a fourth rib are arranged on one side face, far away from the third clamping plate, of the fourth clamping plate at intervals, and a second limiting groove is formed between the third rib and the fourth rib; the third rib is close to the second outer frame relative to the second rib, and the height of the third rib is lower than that of the fourth rib; the second joint board is kept away from the one end of the second outer frame is provided with a fifth bead, the fifth bead is located the second joint board is close to a side face of the first joint board, and the fifth bead can be connected with the second limiting groove in a clamped mode.

Preferably, the first outer frame is far away from one side of the inner profile frame, and an inward-concave first step is formed at one end of the first outer frame close to the second outer frame; a sixth rib is formed on the upper side of the first step; a connecting plate is integrally formed on one side, close to the first outer frame, of the second outer frame, the free end of the connecting plate abuts against the upper side of the first step, a first limiting plate and a second limiting plate are integrally formed on one side, close to the first step, of the connecting plate, the first limiting plate is L-shaped, the second limiting plate is T-shaped, and a third limiting groove is formed between the first limiting plate and the second limiting plate; and a sealing block is arranged between the first step and the connecting plate, and the sealing block fills the third limiting groove, the first limiting plate, the second limiting plate and gaps among the first steps.

Preferably, a convex plate is arranged on the first outer frame and located on the upper side of the first step, and the convex plate shields the sealing block and is abutted against the connecting plate.

Preferably, a first mounting opening is formed in one side face, close to the inner profile frame, of the first outer frame; the first locking component comprises a first supporting column fixed on the inner profile frame, the first supporting column penetrates through the first mounting opening, and the end part of the first supporting column is positioned on the inner side of the first outer frame; and a second step is formed on one side surface of the first outer frame, which is close to the second outer frame, and the first outer frame penetrates through the second step through a screw to be connected with the first support column.

Preferably, the second locking component comprises a second supporting column fixed on the inner profile frame and located close to one side of the second outer frame, the second supporting column is L-shaped, a third supporting column is integrally formed on the second outer frame and located close to one side of the inner profile frame, the third supporting column is L-shaped, a fourth limiting groove is formed between the third supporting column and the second outer frame, the upper end of the second supporting column is embedded in the fourth limiting groove, and the third supporting column is connected with the fourth supporting column through screws.

Preferably, one side face, close to the inner profile frame, of the outer profile frame is provided with a first U-shaped clamp, one side face, close to the outer profile frame, of the inner profile frame is provided with a second U-shaped clamp, and the heat insulation bridge cut-off is located between the first U-shaped clamp and the second U-shaped clamp.

Preferably, the glass pressing plate is U-shaped, an upper clamping plate with an L-shaped section is formed at the upper end of the glass pressing plate, and a lower clamping plate with an L-shaped section is formed at the lower end of the glass pressing plate; the outer frame of second is close to a side of glass clamp plate is formed with upper mounting plate and lower mounting plate, upper mounting plate with the mounting plate cross-section is "L" shape down, and respectively with upper clamping plate with joint board elasticity joint down.

Preferably, the glass pressing plate with be provided with the joint strip between the interior section bar frame respectively, install cavity glass between the joint strip, just the joint strip with be provided with the sealing strip between the cavity glass.

The invention provides a hollow glass unit frame and an assembling method thereof, which can further enhance the connection strength between each section module through a connecting structure arranged between a first outer frame and a second outer frame, a first locking component arranged between the first outer frame and an inner section frame and a second locking component arranged between the second outer frame and the inner section frame, and further improve the overall strength and the service life of the frame after installation.

A method of assembling an insulated glazing unit frame comprising the steps of:

s100, splicing the first outer frame and the inner profile frame, and fixing the first outer frame and the inner profile frame through a first locking assembly;

s200, installing a heat insulation broken bridge between the first outer frame and the inner profile frame;

s300, splicing the first outer frame and the second outer frame, and fixing the second outer frame and the inner profile frame through a second locking assembly;

s400, clamping and fixing the glass pressing plate and the second outer frame;

and S500, installing the hollow glass.

Drawings

FIG. 1 is a schematic structural view of an insulated glazing unit frame of the present invention;

FIG. 2 is a schematic view of a protruding attachment structure in a frame of an insulated glazing unit of the invention;

FIG. 3 is a schematic view of a first external frame protruding from the frame of an insulating glazing unit of the invention;

FIG. 4 is a schematic view of a protruding second outer frame of an insulated glazing unit frame of the present invention;

FIG. 5 is a schematic view of the attachment of a protruding first outer frame to an inner profile frame in an insulated glazing unit frame of the invention.

Reference numbers in the figures:

100. an outer profile frame; 110. a first outer frame; 111. a first step; 112. a sixth rib; 113. a convex plate; 114. a first mounting port; 120. a second outer frame; 121. a connecting plate; 122. a first limit plate; 123. a second limiting plate; 124. a third limiting groove; 125. a sealing block; 130. a connecting structure; 131. a first clamping connection plate; 132. a second clamping plate; 133. a third clamping plate; 1331. a first rib; 1332. a second rib; 1333. a first limit groove; 134. a fourth clamping plate; 1341. a third rib; 1342. a fourth rib; 1343. a second limit groove; 140. a first U-shaped card;

200. an inner profile frame; 210. a second U-shaped card;

300. glass pressing plates; 310. an upper clamping and connecting plate; 320. a lower clamping plate; 330. an upper mounting plate; 340. a lower mounting plate; 350. clamping the strips; 351. a sealing strip;

400. insulating heat and breaking a bridge;

500. a locking mechanism; 510. a first locking component; 511. a first support column; 512. a second step; 520. a second locking assembly; 521. a second support column; 522. a third support column; 523. a fourth limit groove;

600. hollow glass.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

The present invention provides a hollow glass unit frame, referring to fig. 1-5, comprising an outer profile frame 100, an inner profile frame 200 disposed at one side of the outer profile frame 100; one end of the inner profile frame 200 is provided with a glass pressing plate 300, and the glass pressing plate 300 and the inner profile frame 200 clamp the hollow glass 600; a plurality of heat insulating bridges 400 are connected between the outer profile frame 100 and the inner profile frame 200 at intervals, and a locking mechanism 500 for locking the inner profile frame 200 is provided on the outer profile frame 100. The outer profile frame 100 includes a first outer frame 110 and a second outer frame 120; the first outer frame 110 and the second outer frame 120 are rectangular; the first outer frame 110 and the second outer frame 120 are arranged side by side, and a connecting structure 130 is arranged between the first outer frame 110 and the second outer frame 120; the locking mechanism 500 comprises a first locking member 510 disposed between the first outer frame 110 and the inner profile frame 200 and a second locking member 520 disposed between the second outer frame 120 and the inner profile frame 200.

The coupling structure 130 includes a first catching plate 131 and a second catching plate 132 fixed to the second outer frame 120 and located at a side close to the first outer frame 110, the first catching plate 131 and the second catching plate 132 being parallel to each other.

A third catching plate 133 and a fourth catching plate 134 are provided at one side of the first outer frame 110 adjacent to the second outer frame 120, the third catching plate 133 and the fourth catching plate 134 being parallel to each other; a first rib 1331 and a second rib 1332 are arranged at an interval on one side of the third clamping plate 133 away from the fourth clamping plate 134, and a first limit groove 1333 is formed between the first rib 1331 and the second rib 1332; the first ribs 1331 are adjacent to the second outer frame 120 with respect to the second ribs 1332, and the first ribs 1331 are lower in height than the second ribs 1332. The first engaging plate 131 has an L-shaped cross section, and a free end thereof is engaged with the first retaining groove 1333.

A third rib 1341 and a fourth rib 1342 are arranged at an interval on one side of the fourth clamping plate 134 away from the third clamping plate 133, and a second limit groove 1343 is formed between the third rib 1341 and the fourth rib 1342; the third rib 1341 is close to the second outer frame 120 relative to the second rib 1332, and the height of the third rib 1341 is lower than that of the fourth rib 1342; one end of the second clamping plate 132, which is far away from the second outer frame 120, is provided with a fifth rib, the fifth rib is located on one side of the second clamping plate 132, which is close to the first clamping plate 131, and the fifth rib can be clamped with the second limiting groove 1343.

The first outer frame 110 is far away from one side of the inner profile frame 200, and an end close to the second outer frame 120 is formed with a first step 111; the sixth rib 112 is formed on the upper side of the first step 111.

A connecting plate 121 is integrally formed on one side, close to the first outer frame 110, of the second outer frame 120, the free end of the connecting plate 121 abuts against the upper side of the first step 111, a first limiting plate 122 and a second limiting plate 123 are integrally formed on one side, close to the first step 111, of the connecting plate 121, the first limiting plate 122 is in an L shape, the second limiting plate 123 is in a T shape, and a third limiting groove 124 is formed between the first limiting plate 122 and the second limiting plate 123. A sealing block 125 is arranged between the first step 111 and the connecting plate 121, and the sealing block 125 fills gaps among the third limiting groove 124, the first limiting plate 122, the second limiting plate 123 and the first step 111. Through the sixth rib 112 arranged at the lower side and the first and second limit plates 122 and 123 arranged at the upper side, a relatively high sealing effect can be maintained between the sealing block 125 and the first step 111, and between the sealing block 125 and the connecting plate 121.

The first outer frame 110 is provided with a protruding plate 113 on the upper side of the first step 111, and the protruding plate 113 covers the sealing block 125 and abuts against the connecting plate 121. The sealing block 125 on the inner side can be shielded and protected by the protruding plate 113, and the gap between the first outer frame 110 and the second outer frame 120 can be reduced.

A first mounting opening 114 is formed in one side surface of the first outer frame 110 close to the inner profile frame 200; the first locking member 510 includes a first support column 511 fixed to the inner profile frame 200, the first support column 511 passes through the first mounting opening 114, and the end portion is located inside the first outer frame 110; a second step 512 is formed on one side surface of the first outer frame 110 adjacent to the second outer frame 120, and a screw is inserted through the second step 512 to be connected to the first support column 511.

The second locking component 520 includes a second supporting column 521 fixed on the inner profile frame 200 and located near one side of the second outer frame 120, the second supporting column 521 is L-shaped, a third supporting column 522 is integrally formed on the second outer frame 120 and located near a side of the inner profile, the third supporting column 522 is L-shaped, a fourth limiting groove 523 is formed between the third supporting column 522 and the second outer frame 120, the upper end of the second supporting column 521 is embedded in the fourth limiting groove 523, and the third supporting column 522 is connected with the fourth supporting column through a screw. Through the third support column 522 and the fourth support column that set up, after the installation, can increase the joint strength who forms frame and outer section bar frame 100 in a certain extent, simultaneously, can reduce thermal-insulated bridge cut-off 400 because of the deformation that expend with heat and contract with cold produced, prolonged the life of this frame to a certain extent.

One side of the outer profile frame 100 close to the inner profile frame 200 is provided with a first U-shaped clip 140, one side of the inner profile frame 200 close to the outer profile frame 100 is provided with a second U-shaped clip 210, and the thermal insulation bridge breaker 400 is positioned between the first U-shaped clip 140 and the second U-shaped clip 210.

The glass pressing plate 300 is U-shaped, an upper clamping plate 310 with an L-shaped section is formed at the upper end of the glass pressing plate 300, and a lower clamping plate 320 with an L-shaped section is formed at the lower end of the glass pressing plate 300; an upper mounting plate 330 and a lower mounting plate 340 are formed on one side of the second outer frame 120 close to the glass platen 300, and the upper mounting plate 330 and the lower mounting plate 340 have an "L" shaped cross section and are elastically clamped to the upper clamping plate 310 and the lower clamping plate 320, respectively.

Clamping strips 350 are respectively arranged between the glass pressing plate 300 and the inner profile frame 200, hollow glass 600 is installed between the clamping strips 350, and sealing strips 351 are arranged between the clamping strips 350 and the hollow glass 600.

The invention also provides an assembling method of the hollow glass unit frame, which comprises the following specific steps:

s100, splicing a first outer frame and an inner profile frame, and fixing the outer frame and the inner profile frame through a first locking assembly;

s200, installing a heat insulation broken bridge between the first outer frame and the inner profile frame;

s300, splicing the first outer frame and the second outer frame, and fixing the second outer frame and the inner profile frame through a second locking assembly;

s400, clamping and fixing the glass pressing plate and the second outer frame;

and S500, installing hollow glass.

The invention provides a hollow glass unit frame and an assembling method thereof, which can further enhance the connection strength between each section module through a connecting structure arranged between a first outer frame and a second outer frame, a first locking component arranged between the first outer frame and an inner section frame and a second locking component arranged between the second outer frame and the inner section frame, and further improve the overall strength and the service life of the frame after installation.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediate medium, and a communication between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A hollow glass unit frame is characterized by comprising an outer profile frame (100), wherein an inner profile frame (200) is arranged on one side of the outer profile frame (100);

a glass pressing plate (300) is arranged at one end of the inner profile frame (200), and the glass pressing plate (300) and the inner profile frame (200) clamp the hollow glass (600);

a plurality of heat insulation broken bridges (400) are connected between the outer profile frame (100) and the inner profile frame (200) at intervals, and a locking mechanism (500) for locking the inner profile frame (200) is arranged on the outer profile frame (100).

2. The insulated glazing unit frame according to claim 1, characterized in that the outer profile frame (100) comprises a first outer frame (110) and a second outer frame (120); the first outer frame (110) and the second outer frame (120) are rectangular;

the first outer frame (110) and the second outer frame (120) are arranged side by side, and a connecting structure (130) is arranged between the first outer frame (110) and the second outer frame (120);

the locking mechanism (500) comprises a first locking element (510) arranged between the first outer frame (110) and the inner profile frame (200) and a second locking element (520) arranged between the second outer frame (120) and the inner profile frame (200).

3. The insulated glazing unit frame according to claim 1, wherein the connecting structure (130) comprises a first snap plate (131) and a second snap plate (132) secured to the second outer frame (120) on a side adjacent to the first outer frame (110), the first snap plate (131) and the second snap plate (132) being parallel to each other;

a third clamping plate (133) and a fourth clamping plate (134) are arranged on one side, close to the second outer frame (120), of the first outer frame (110), and the third clamping plate (133) and the fourth clamping plate (134) are parallel to each other;

a first rib (1331) and a second rib (1332) are arranged on one side surface of the third clamping plate (133) far away from the fourth clamping plate (134) at intervals, and a first limit groove (1333) is formed between the first rib (1331) and the second rib (1332); the first rib (1331) is close to the second outer frame (120) relative to the second rib (1332), and the height of the first rib (1331) is lower than that of the second rib (1332);

the cross section of the first clamping plate (131) is L-shaped, and the free end of the first clamping plate is clamped in the first limiting groove (1333);

a third rib (1341) and a fourth rib (1342) are arranged on one side of the fourth clamping plate (134) far away from the third clamping plate (133) at intervals, and a second limit groove (1343) is formed between the third rib (1341) and the fourth rib (1342); the third rib (1341) is close to the second outer frame (120) relative to the second rib (1332), and the height of the third rib (1341) is lower than the height of the fourth rib (1342);

one end, far away from the second outer frame (120), of the second clamping plate (132) is provided with a fifth rib, the fifth rib is located on one side face, close to the first clamping plate (131), of the second clamping plate (132), and the fifth rib can be clamped with the second limiting groove (1343).

4. The insulated glazing unit frame according to claim 1, wherein the first outer frame (110) is formed with a first step (111) recessed at one end thereof remote from the inner profile frame (200) and located close to the second outer frame (120);

a sixth rib (112) is formed on the upper side of the first step (111);

a connecting plate (121) is integrally formed on one side, close to the first outer frame (110), of the second outer frame (120), the free end of the connecting plate (121) abuts against the upper side of the first step (111), a first limiting plate (122) and a second limiting plate (123) are integrally formed on one side, close to the first step (111), of the connecting plate (121), the first limiting plate (122) is L-shaped, the second limiting plate (123) is T-shaped, and a third limiting groove (124) is formed between the first limiting plate (122) and the second limiting plate (123);

a sealing block (125) is arranged between the first step (111) and the connecting plate (121), and gaps among the third limiting groove (124), the first limiting plate (122), the second limiting plate (123) and the first step (111) are filled with the sealing block (125);

the first outer frame (110) is located on the upper side of the first step (111) and is provided with a convex plate (113), and the convex plate (113) shields the sealing block (125) and is abutted to the connecting plate (121).

5. The insulated glazing unit frame of claim 1, wherein the first outer frame (110) has a first mounting opening (114) formed in a side thereof adjacent to the inner profile frame (200);

the first locking component (510) comprises a first supporting column (511) fixed on the inner profile frame (200), the first supporting column (511) passes through the first mounting opening (114), and the end part is positioned at the inner side of the first outer frame (110);

a second step (512) is formed on one side surface of the first outer frame (110) close to the second outer frame (120), and a screw penetrates through the second step (512) to be connected with the first support column (511).

6. The insulated glazing unit frame of claim 1, wherein the second locking assembly (520) comprises a second support column (521) fixed to the inner profile frame (200) and located on a side close to the second outer frame (120), the second support column (521) is L-shaped, a third support column (522) is integrally formed on the second outer frame (120) and located on a side close to the inner profile, the third support column (522) is L-shaped, a fourth limit groove (523) is formed between the third support column (522) and the second outer frame (120), the upper end of the second support column (521) is fitted into the fourth limit groove (523), and the third support column (522) and the fourth support column are connected through screws.

7. The insulated glazing unit frame according to claim 1, characterized in that the outer profile frame (100) is provided with a first U-shaped clip (140) on one side near the inner profile frame (200), the inner profile frame (200) is provided with a second U-shaped clip (210) on one side near the outer profile frame (100), and the insulating bridge cut-off (400) is located between the first U-shaped clip (140) and the second U-shaped clip (210).

8. The insulated glazing unit frame according to claim 1, wherein the glass pressing plate (300) is U-shaped, an upper engaging plate (310) having an "L" shaped section is formed at an upper end thereof, and a lower engaging plate (320) having an "L" shaped section is formed at a lower end of the glass pressing plate (300);

the second outer frame (120) is close to a side of glass clamp plate (300) is formed with upper mounting plate (330) and lower mounting plate (340), upper mounting plate (330) with lower mounting plate (340) cross-section is "L" shape, and respectively with upper clamping plate (310) with lower clamping plate (320) elasticity joint.

9. The insulating glass unit frame according to claim 1, characterized in that clamping strips (350) are respectively arranged between the glass pressing plate (300) and the inner profile frame (200), insulating glass (600) is arranged between the clamping strips (350), and sealing strips (351) are arranged between the clamping strips (350) and the insulating glass (600).

10. A method of assembling an insulated glazing unit frame as claimed in any of claims 1 to 9, comprising the steps of:

s100, splicing a first outer frame and an inner profile frame, and fixing the outer frame and the inner profile frame through a first locking assembly;

s200, installing a heat insulation broken bridge between the first outer frame and the inner profile frame;

s300, splicing the first outer frame and the second outer frame, and fixing the second outer frame and the inner profile frame through a second locking assembly;

s400, clamping and fixing the glass pressing plate and the second outer frame;

and S500, installing the hollow glass.

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