CN214943564U - Crooked muntin structure - Google Patents

Abstract

The utility model discloses a skew muntin structure, wherein the bottom of an outer section bar is connected with an inner section bar, the outer section bar and the inner section bar are connected through heat insulation strips, two ends of the heat insulation strips are symmetrically connected with connecting lugs near the outer section bar and the inner section bar, the bottom of the outer section bar is provided with an outer section bar notch for clamping connection at the position corresponding to the connecting lugs, and the top of the inner section bar is provided with an inner section bar notch for clamping connection at the position corresponding to the connecting lugs, the outer section bar and the inner section bar are connected through the two heat insulation strips, and the muntin structure can be combined and designed according to an asymmetric structure through the positions between the outer section bar, the inner section bar and the heat insulation strips after connection, so that the occupation ratio of an aluminum section bar frame in the whole window is small in vision, the appearance design of the muntin structure is more beautiful, and the visible surface of the muntin structure is reduced, improve the light transmittance of the whole window and the whole beauty and practicability, and has the advantage of low energy consumption.

Description

Crooked muntin structure

Technical Field

The utility model relates to a flat-open window technical field specifically is a crooked muntin structure.

Background

The split frame of the window is a horizontal or vertical split, the mullion is a split of a distinguishing frame and a split frame, and the window is manufactured as a whole, so that the strength meets the requirement, and the door and window mullion needs to be horizontal or vertical;

however, the mullions on the casement windows sold in the market at present are generally of a symmetrical structure, the visual area of the mullions of the symmetrical structure is large, the mullions are larger than the frame and glass of the whole door window, and the mullions are made of aluminum alloy, so that the heat conduction energy consumption of the mullions is relatively increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a club structure in askew can effectively solve among the above-mentioned background art and put forward the club generally for symmetrical structure on the flat-open window of selling on the market at present, but club visual area is big among the symmetrical structure, and the frame of relative whole door and window is bigger with glass, because well club is the aluminum alloy, and then makes the problem that its heat conduction energy consumption also increases relatively.

In order to achieve the above object, the utility model provides a following technical scheme: a skew mullion structure comprises an outer section, wherein the bottom of the outer section is connected with an inner section, the bottom of the outer section and the top of the inner section are clamped with heat insulation strips for isolating heat, the outer section and the inner section are connected through the heat insulation strips, the number of the heat insulation strips is two, and two end parts of the two heat insulation strips are respectively clamped with the outer section and the inner section;

two equal symmetric connection of heat insulating strip both ends department near outer section bar and interior section bar has the connecting convex block, outer section bar bottom corresponds position department with the connecting convex block and offers the outer section bar notch that is used for the block to connect, interior section bar top corresponds position department with the connecting convex block and offers the interior section bar notch that is used for the block to connect.

Preferably, the connecting convex blocks are arranged into a boss type, and the connecting convex blocks at the two ends of the heat insulation strip are respectively clamped in the outer profile groove opening and the inner profile groove opening.

Preferably, after the outer profile and the inner profile are connected through the heat insulation strip, the centers of the outer profile and the inner profile are not on the same vertical straight line.

Preferably, two vertical symmetric distribution between the heat insulating strip, and the limit end of two heat insulating strips all is provided with the support horizontal bar.

Preferably, the inner sides of the two heat insulation strips form a cavity structure, and a pair of heat insulation inserting strips which are arranged in parallel are transversely clamped at the bottom and the top of the inner side of the cavity.

Preferably, the one end of thermal-insulated cutting is provided with the hook piece, and the hook groove has all been seted up to the inboard limit portion of two thermal-insulated strips, closely joint between the hook piece of thermal-insulated cutting through its tip and the hook groove of the inboard limit portion of thermal-insulated strip, and the opposite direction of the hook piece of two thermal-insulated cutting.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. will connect outer section bar and interior section bar through two heat insulating strip, and make this well club structure after connecting can carry out the integrated design according to asymmetric structure between outer section bar and interior section bar and the heat insulating strip, it is little to reach the aluminium alloy frame in occupying ratio of whole window in the vision, makes the exterior design of well club structure more beautiful, reduces the visible surface of well club structure, improves the luminousness and the whole pleasing to the eye practicality of whole window, and possesses the advantage of low energy consumption.

2. The outer section bar and the inner section bar are connected through the two heat insulation strips, and the two heat insulation inserting strips are transversely clamped in the inner sides of the two heat insulation strips simultaneously, so that after the outer section bar and the inner section bar are connected, the heat conduction performance of metal is greatly reduced, and the energy consumption is reduced.

3. Make the heat insulating strip possess higher joint strength when being connected between with outer section bar and the interior section bar through connecting lug, outer section bar notch and interior section bar notch, and then can play higher isolated thermal effect after guaranteeing the connection of heat insulating strip, also conveniently carry out convenient dismantlement to the heat insulating strip simultaneously, reduced the degree of difficulty that people connect.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of the installation structure of the heat insulation slip of the present invention;

reference numbers in the figures: 1. an outer profile; 2. an inner section bar; 3. a heat insulating strip; 4. a connection bump; 5. an outer profile slot; 6. an inner profile notch; 7. and (4) insulating the inserting strips.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in figures 1-3, the utility model provides a technical proposal, a skew mullion structure, which comprises an outer section bar 1, the bottom of the outer section bar 1 is connected with an inner section bar 2, the bottom of the outer section bar 1 and the top of the inner section bar 2 are both clamped with a heat insulation strip 3 for isolating heat, after the outer section bar 1 and the inner section bar 2 are connected through the heat insulation strip 3, the centers of the outer profile 1 and the inner profile 2 are not on the same vertical straight line, so that the outer profile 1 and the inner profile 2 occupy less space in the whole window when forming the window frame, the outer section bar 1 and the inner section bar 2 are connected through the heat insulation strips 3, the two heat insulation strips 3 are vertically and symmetrically distributed, and the edge ends of the two heat insulation strips 3 are provided with the supporting transverse strips, so that the heat insulation strips 3 are more stable after being installed, meanwhile, the supporting strength of the side edges of the heat insulation strips 3 is ensured, two heat insulation strips 3 are arranged, and two end parts of the two heat insulation strips 3 are respectively clamped with the outer section 1 and the inner section 2;

two 3 both ends of thermal-insulated strip are close to outer section bar 1 and the equal symmetric connection of 2 departments of interior section bar and are connected lug 4, outer section bar notch 5 for the block is connected is offered with connecting lug 4 corresponding position department in the 1 bottom of outer section bar, interior section bar notch 6 for the block is connected is offered with connecting lug 4 corresponding position department in the 2 tops of interior section bar, connecting lug 4 sets up to the boss type, and the connecting lug 4 at 3 both ends of thermal-insulated strip joint respectively in outer section bar notch 5 and interior section bar notch 6, it possesses higher connection compactness to make between connecting lug 4 and outer section bar notch 5 and the interior section bar notch 6 after the block is connected.

The inboard vacuole formation structure of two heat insulating strip 3, and the inboard bottom of cavity and the horizontal joint of top position department have a pair of heat-insulating cutting 7 of parallel arrangement, make heat insulating strip 3 possess higher thermal-insulated effect in the practical application process, the one end of heat insulating cutting 7 is provided with the hook piece, the hook groove has all been seted up to the inboard limit portion of two heat insulating strip 3, closely joint between the hook groove of the hook piece of heat insulating cutting 7 through its tip and 3 inboard limit portions of heat insulating strip, conveniently block between heat insulating cutting 7 and two heat insulating strip 3 is connected, and then guarantee that heat insulating cutting 7 possesses higher stability behind the joint, and the opposite direction of the hook piece of two heat insulating cutting 7, simultaneously through the opposite design of the 7 hook pieces of heat insulating cutting, make heat insulating cutting 7 when improving thermal-insulated effect, the support stability of two heat insulating strips 3 has been improved.

The utility model discloses a theory of operation and use flow: in the practical application process of the skew mullion structure, firstly, connecting lugs 4 at two ends of two heat insulation strips 3 are respectively clamped and connected with an outer profile 1 and an inner profile 2, when the two heat insulation strips are clamped and connected, the connecting lugs 4 at two ends of the heat insulation strips 3 are only required to be respectively clamped into an outer profile notch 5 and an inner profile notch 6 inside the outer profile 1 and the inner profile 2, the connecting strength between the outer profile 1 and the inner profile 2 and the heat insulation strips 3 after connection is ensured through the clamping and connection between the outer profile 1 and the inner profile 2, and meanwhile, through the asymmetrical structural design between the outer profile 1 and the heat insulation strips, the occupation ratio of an aluminum profile frame in the whole window is small visually, so that the mullion structure is more beautiful in appearance design, the visible surface of the mullion structure is reduced, and the light transmittance of the whole window is improved through the staggered installation when glass is installed;

in addition, the heat insulation strips 3 are convenient and fast to disassemble through the clamping structure of the connecting lug 4, the outer section bar notch 5 and the inner section bar notch 6, and therefore the connecting and installing difficulty of people is reduced;

when using, through two heat insulating strip 3 to and the heat-insulating cutting 7 of the inboard joint of two heat insulating strip 3 for after connecting between outer section bar 1 and the interior section bar 2, the heat conductivility of the metal that has significantly reduced has reduced the consumption of energy, makes the advantage that the muntin structure possesses the low energy consumption.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A skew muntin structure, includes outer section bar (1), its characterized in that: the bottom of the outer profile (1) is connected with an inner profile (2), the bottom of the outer profile (1) and the top of the inner profile (2) are clamped with heat insulation strips (3) for isolating heat, the outer profile (1) and the inner profile (2) are connected through the heat insulation strips (3), the number of the heat insulation strips (3) is two, and two ends of the two heat insulation strips (3) are clamped with the outer profile (1) and the inner profile (2) respectively;

two equal symmetric connection in heat insulating strip (3) both ends department is close to outer section bar (1) and interior section bar (2) has connecting lug (4), outer section bar (1) bottom corresponds position department with connecting lug (4) and offers outer section bar notch (5) for the block is connected, interior section bar (2) top corresponds position department with connecting lug (4) and offers interior section bar notch (6) for the block is connected.

2. A skewed muntin structure according to claim 1, wherein: the connecting convex blocks (4) are arranged to be boss type, and the connecting convex blocks (4) at the two ends of the heat insulation strip (3) are respectively clamped in the outer section bar notch (5) and the inner section bar notch (6).

3. A skewed muntin structure according to claim 1, wherein: after the outer profile (1) and the inner profile (2) are connected through the heat insulation strips (3), the centers of the outer profile (1) and the inner profile (2) are not on the same vertical straight line.

4. A skewed muntin structure according to claim 1, wherein: two vertical symmetric distribution between heat insulating strip (3), and the limit end of two heat insulating strip (3) all is provided with the horizontal strip of support.

5. A skewed muntin structure according to claim 1, wherein: the inner sides of the two heat insulation strips (3) form a cavity structure, and a pair of heat insulation inserting strips (7) which are arranged in parallel are transversely clamped at the bottom and the top of the inner side of the cavity.

6. A skewed muntin structure according to claim 5, wherein: the one end of thermal-insulated cutting (7) is provided with the hook piece, and the hook groove has all been seted up to the inboard limit portion of two thermal-insulated cutting (3), and closely the joint between the hook piece of its tip and the hook groove of the inboard limit portion of thermal-insulated cutting (3) is passed through to thermal-insulated cutting (7), and the opposite direction of the hook piece of two thermal-insulated cutting (7).

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