CN211573183U - Six-door heavy lifting sliding door - Google Patents

Abstract

The utility model discloses a heavy lifting sliding door with six doors, which belongs to the field of sliding doors and comprises an outer frame and a sliding door leaf, wherein the sliding door leaf comprises an inner door leaf, an outer door leaf and a screen door leaf from inside to outside, the upper outer frame and the lower outer frame of the outer frame are respectively provided with an upper track and a lower track of the inner door leaf, the outer door leaf and the screen door leaf which are in one-to-one correspondence, the inner door leaf and the outer door leaf have the same structure and respectively comprise a door leaf frame, the door leaf frame comprises a section bar I and a section bar II which are connected through an I-shaped heat insulation strip, one side of the connected section bar I and the section bar II forms a glass mounting groove for mounting glass, the other side forms a hardware component mounting groove for mounting hardware components, and the pulley hardware components and the opening lifting hardware components are respectively positioned at the middle part of the thickness direction of the corresponding frame body, the heavy lifting sliding door not only improves the stability of, and the reasonable structural design of the heat insulation strip ensures good heat insulation and energy saving effects.

Description

Six-door heavy lifting sliding door

Technical Field

The utility model relates to a push-and-pull door technical field, more specifically say, relate to a heavy promotion push-and-pull door of six opening doors.

Background

The original sliding door is only used for a sliding door of a bedroom or a wardrobe between changing clothes, but with the development of technology and diversification of decoration means, the functions and the application range of the sliding door are continuously expanded from the surface of the traditional plate material to glass, cloth, rattan woven and aluminum alloy sections, and from the sliding door, a folding door to a partition door. In this case, the use of sliding doors is beginning to become diversified and abundant. Sliding doors are widely used in bookcases, wall cabinets, living rooms, exhibition halls, sliding doors, and the like, in addition to the most common partition doors.

The current heavy push-and-pull door is because the door leaf face is big, and weight is heavy, leads to difficult push-and-pull and door leaf factor of safety low, and current heavy push-and-pull door is simultaneously because the profile design is unreasonable to cause its leakproofness, heat-proof quality poor, consequently needs a heavy promotion push-and-pull door in order to solve above-mentioned problem urgently at present.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved by the utility model

An object of the utility model is to overcome not enough among the prior art, provide a heavy promotion push-and-pull door of six opening doors, through the design and the cooperation of section bar I and section bar II in this technical scheme, not only improved the stability of heavy push-and-pull door, and its reasonable structural design arranges thermal-insulated strip, has guaranteed its good heat preservation energy-saving effect.

Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses a heavy promotion push-and-pull door of six door-types, including frame and push-and-pull door leaf, push-and-pull door leaf from interior to exterior is interior door leaf, outer door leaf and screen door leaf, be equipped with the last track, the lower track of door leaf, outer door leaf and screen door leaf in the above-mentioned one-to-one on the last frame of frame, the lower frame respectively, its characterized in that: interior door leaf, outer door leaf's the same and all include the door leaf frame of structure, the door leaf frame includes section bar I and section bar II that link to each other through the I type heat insulating strip, section bar I and section bar II link to each other back one side and form the glass mounting groove that supplies the glass installation, and the opposite side forms the hardware component mounting groove that supplies the hardware component installation, wherein, install pulley hardware component in the hardware component mounting groove of framework under the door leaf frame, install in the hardware component mounting groove of its side framework and open and promote hardware component, and pulley hardware component, open and promote hardware component and be located the ascending middle part of its framework thickness direction that corresponds respectively.

As a further improvement of the utility model, the screen door leaf comprises a screen leaf frame and a gold steel yarn, the gold steel yarn is fixed on the screen leaf frame through solid glue and a wedge-shaped line pressing structure, the glass is fixed on the door leaf frame through the solid glue and a line pressing, and the line pressing is arranged close to one indoor side; the pulley hardware component is fixed on the support through screws, and the support is fixed on the lower frame body of the door leaf frame through screws.

As a further improvement, the I-shaped heat insulation strip is arranged along the thickness direction of the glass, and the I-shaped heat insulation strip is arranged in the thickness range of the glass.

As a further improvement of the present invention, the section bar i comprises an L-shaped cavity composed of a horizontal section cavity and a vertical section cavity, the horizontal section cavity comprises an upper cavity wall i, a left cavity wall i and a lower cavity wall i, wherein, the inner side of the upper cavity wall i and the end far away from the vertical section cavity are provided with a corner piece clamping groove i, the outer side of the left cavity wall i and the end near the upper cavity wall i are provided with a first buckling groove, and the outer side of the lower cavity wall i and the end far away from the vertical section cavity are provided with a second buckling groove;

a wire pressing clamping groove is formed in the outer side of one cavity wall, opposite to the left cavity wall I, of the vertical section cavity, a wedge-shaped clamping groove is formed in the outer side, parallel to the upper cavity wall I, of the vertical section cavity, and an angle code limiting plate is arranged on the inner side of the wedge-shaped clamping groove;

the section bar II comprises a rectangular cavity, a third buckling groove is formed in the outer side of one end of the upper cavity wall II of the rectangular cavity, a wedge-shaped clamping groove corresponding to the wedge-shaped clamping groove is formed in the outer side of the other end of the rectangular cavity, a fourth buckling groove is formed in the outer side of the left cavity wall II of the rectangular cavity and one end of the left cavity wall II, the inner side of the lower cavity wall II of the rectangular cavity and one end of the left cavity wall II are far away from the rectangular cavity wall II of the rectangular cavity, a corner piece clamping groove II is formed in the inner side of the lower cavity wall.

As a further improvement of the utility model, a partition plate I vertical to the upper cavity wall I is arranged at the adjacent position of the horizontal section cavity and the vertical section cavity; the rectangular cavity is internally provided with a vertical partition plate II which divides the rectangular cavity into a left cavity and a right cavity, wherein the left cavity and the horizontal section cavity have the same structure and are symmetrically arranged along the thickness direction of the door leaf frame.

As a further improvement of the present invention, a hooked rabbet cover plate i is disposed on a side frame body of the inner door leaf frame, which is far away from the glass, and is an L-shaped section bar composed of a vertical section and a horizontal section, a card and a groove are inwardly disposed at one end of the vertical section, which is far away from the horizontal section, and the card and the groove include a tight support plate which supports against the end surface of the notch of the first catching groove and an L-shaped hook plate which is hooked in the second catching groove; the outside of horizontal segment just is equipped with sixth catching groove, decorative board draw-in groove I, seventh catching groove in proper order to the direction of keeping away from vertical section, wherein, the inboard of decorative board draw-in groove I is equipped with block muscle I of block decorative board.

As a further improvement of the present invention, a hooked rabbet cover plate ii is disposed on a side frame body of the outer door leaf frame, away from the glass, and is a section bar with a U-shaped structure, and a ninth catching groove, a decorative plate catching groove ii and an eighth catching groove are sequentially disposed on the outer sides of both side walls of the U-shaped structure in a direction away from the bottom wall thereof, wherein a fastening rib ii is disposed on the inner side of the decorative plate catching groove ii; the U-shaped structure is characterized in that two parallel limiting partition plates perpendicular to the bottom wall are arranged on the bottom wall of the U-shaped structure, and a limiting bulge is arranged at one end, far away from the bottom wall of the U-shaped structure, of each limiting partition plate.

As a further improvement of the present invention, a special-shaped heat insulating strip is arranged between the hooked rabbet cover plate i and the profile ii, one end of the special-shaped heat insulating strip hooks the third catching groove, and the other end of the special-shaped heat insulating strip abuts against the outer side wall of the seventh catching groove and is in lap joint with the special-shaped heat insulating strip arranged between the hooked rabbet cover plate ii and the profile i when the sliding door leaf is closed;

the special-shaped heat insulation strip between the hooked rabbet cover plate II and the section bar I, the special-shaped heat insulation strip between the hooked rabbet cover plate II and the section bar II and one end of the special-shaped heat insulation strip between the hooked rabbet cover plate II and the section bar II are both supported on the outer side wall of the eighth catching groove corresponding to the special-shaped heat insulation strip, the other end of the special-shaped heat insulation strip is supported on the limiting protrusion of the limiting partition plate corresponding to the special-shaped heat insulation strip, and the special-shaped heat insulation strip between the hooked rabbet cover plate II and the section bar II and the heat insulation strip arranged on.

As a further improvement of the present invention, a wool top is disposed in each of the ninth catching groove, the eighth catching groove, the seventh catching groove and the sixth catching groove.

As a further improvement of the present invention, an adhesive tape is disposed in the first fastening groove of the lower frame body of the door leaf frame, and a wool top is disposed in the second fastening groove of the lower frame body of the door leaf frame.

Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

(1) the utility model discloses a heavy promotion push-and-pull door of six opening doors, wherein, through the structure of reasonable setting section bar I and section bar II, on one hand through locating pulley hardware subassembly, open and promote hardware subassembly respectively in the middle part of its corresponding framework thickness direction, and install glass in the glass mounting groove, this kind of setting can make pulley hardware subassembly, open and promote the whole hardware subassembly that hardware subassembly constitutes to be located the middle part of corresponding door leaf frame along the thickness direction, and then make pulley hardware subassembly, door leaf frame, glass its three centroids approach to be located on the same vertical plane, the close coincidence of three makes heavy push-and-pull door leaf more difficult to take place the left and right slope when opening, closing, operate steadily, the security is higher, on the other hand the vertical section cavity of section bar I when a chamber wall forms the line ball draw-in groove, its remaining chamber wall part just in time aims at the center of glass, become glass's main bearing point, guaranteed glass's stability, wherein fix on the door leaf frame through the built-in mode of line ball in addition, simple to operate not only prevents that the rainwater from getting into indoorly, has avoided glass to empty to indoorly again simultaneously, and the security is high.

(2) The utility model discloses a heavy promotion push-and-pull door of six-door, wherein, through the hooked rabbet apron I, hooked rabbet apron II of reasonable design cooperation section bar I and section bar II, and all be equipped with the wool tops in ninth catching groove, eighth catching groove, seventh catching groove, sixth catching groove and the second catching groove of the door leaf frame lower framework, the combination of above-mentioned structure has guaranteed the leakproofness of push-and-pull door leaf when closing; in addition, be equipped with special-shaped heat insulating strip between hooked rabbet apron I and section bar II, hooked rabbet apron II and section bar I between, all be provided with special-shaped heat insulating strip between hooked rabbet apron II and the section bar II, and have the overlap joint between the adjacent special-shaped heat insulating strip, and then guaranteed the heat preservation effect of sliding door leaf when closing, arrange on glass's thickness direction along the I type heat insulating strip of connecting between section bar I and the section bar II in addition, and I type heat insulating strip sets up in glass's thickness range, through this I type heat insulating strip and glass's good arrangement relation, make the isotherm on the sliding door leaf more level and smooth, and then further effectively improved door and window's heat preservation, energy-conserving effect.

(3) The utility model discloses a heavy promotion push-and-pull door of six opening doors, structural design is reasonable, and the principle is simple, convenient to popularize and use.

Drawings

Fig. 1 is a schematic structural view of a six-door heavy lifting sliding door of the present invention;

FIG. 2 is a cross-sectional view taken along A-A of FIG. 1;

FIG. 3 is an enlarged view at C of FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 5 is an enlarged view at D of FIG. 4;

fig. 6 is a schematic structural view of the middle door frame of the present invention;

FIG. 7 is a schematic structural view of a middle hooked rabbet cover plate I of the utility model;

FIG. 8 is a schematic structural view of the middle door leaf frame and the hooked rabbet cover plate I of the utility model;

FIG. 9 is a schematic structural view of a middle hooked rabbet cover plate II of the utility model;

FIG. 10 is a schematic structural view of the middle door leaf frame of the present invention cooperating with the hooked rabbet cover plate II;

fig. 11 is a schematic structural view of the middle sliding door leaf of the present invention in a closed state;

FIG. 12 is a schematic structural diagram of a hardware assembly according to the present invention;

fig. 13 is a schematic structural view of the middle integrated door lock of the present invention.

The reference numerals in the schematic drawings illustrate:

01. an outer frame; 011. an upper outer frame; 0112. an upper rail; 012. a lower outer frame; 0121. A lower rail;

02. a door leaf frame; 021. section bar I;

0211. a horizontal section cavity; 2111. an upper cavity wall I; 2112. a corner combining piece clamping groove I; 2113. a left cavity wall I; 2114. a first catching groove; 2115. a lower cavity wall I; 2116. a second catching groove;

0212. a vertical section cavity; 2121. a wire pressing clamping groove; 2122. an angle code limiting plate; 2123. a wedge-shaped clamping groove; 2124. a partition plate I;

022. section II; 2211. an upper chamber wall II; 2212. a third catching groove; 2213. a left cavity wall II; 2214. a fourth catching groove; 2215. a lower cavity wall II; 2216. a corner combining piece clamping groove II; 2217. a partition plate II; 2218. a fifth catching groove;

023. i-type heat insulation strips; 024. a support; 025. a pulley hardware assembly;

026. a hooked rabbet cover plate I; 0261. a vertical section; 2611. a card and a slot; 611. tightly abutting against the plate; 612. an L-shaped hook plate; 0262. a horizontal segment; 2621. a sixth catching groove; 2622. a decorative plate clamping groove I; 6211. clamping a rib I; 2623. a seventh catching groove;

027. a hooked rabbet cover plate II; 0271. an eighth catching groove; 0272. a decorative plate clamping groove II; 2721. clamping a rib II; 0273. a ninth catching groove; 0274. a spacing clapboard; 2741. a limiting bulge;

028. starting a lifting hardware component; 029. special-shaped heat insulation strips;

03. a screen frame; 04. pressing the wire; 05. glass; 06. gold steel yarn;

001. an integral door lock; 002. a handle; 003. a front sheave assembly; 004. a connecting rod; 005. a rear pulley assembly; 006. a lock seat; 007. a cam; 008. a connecting rod; 009. a connecting rod A; 0010. a connecting rod B; 0011. a slide board.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

Example 1

As shown in fig. 1 to 11, the present embodiment is a six-door type heavy lift sliding door, the screen door comprises an outer frame 01 and a sliding door leaf, wherein the sliding door leaf comprises an inner door leaf, an outer door leaf and a screen door leaf from inside to outside, specifically, the screen door leaf of the embodiment comprises a screen leaf frame 03 and a gold steel yarn 06, the gold steel yarn 06 is fixed on the screen leaf frame 03 through a solid glue and a wedge-shaped line pressing structure, the upper frame 011 and the lower frame 012 of the frame 01 are respectively provided with an upper track 0112 and a lower track 0121 which are in one-to-one correspondence with the inner door leaf, the outer door leaf and the yarn door leaf, wherein, interior door leaf, outer door leaf's the same and all include door leaf frame 02, door leaf frame 02 includes I021 and II 022 section bars that link to each other through I type heat insulating strip 023, and the I type heat insulating strip 023 of this embodiment specifically arranges on the thickness direction of edge glass 05, and I type heat insulating strip 023 sets up in the thickness range of glass 05.

In this embodiment, after the first profile 021 and the second profile 022 are connected, a glass installation groove for installing glass 05 is formed on one side, and a hardware component installation groove for installing hardware components is formed on the other side, wherein a pulley hardware component 025 is installed in the hardware component installation groove of the lower frame body of the door frame 02, specifically, the pulley hardware component 025 of this embodiment is fixed on a support 024 by screws, the support 024 is fixed on the lower frame body of the door frame 02 by screws, an opening and lifting hardware component 028 is installed in the hardware component installation groove of the side frame body of the door frame 02, and the pulley hardware component 025 and the opening and lifting hardware component 028 are respectively located in the middle of the thickness direction of the corresponding frame body, as shown in fig. 12 and 13, the pulley hardware component 025 of this embodiment includes a front pulley 003, the front pulley 003 is connected with a rear pulley 005 by a connecting rod 004, in addition, the opening and lifting hardware component 028 includes an integral door lock 001 installed on the sliding sash, this integral lock 001 includes the cam 007 that links together through connecting rod 008, connecting rod first 009, connecting rod second 0010 and slide 0011, installs handle 002 in the cam hole in the middle of the cam 007, and the last riveting of slide 0011 has the lock point, and slide 0011 links together through groove structure and the protruding structure of front pulley 003.

Specifically, the section bar i 021 of this embodiment includes an L-shaped cavity composed of a horizontal cavity 0211 and a vertical cavity 0212, the horizontal cavity 0211 includes an upper cavity wall i 2111, a left cavity wall i 2113 and a lower cavity wall i 2115, wherein an angle-piece clamping groove i 2112 is provided at an end of an inner side of the upper cavity wall i 2111 and far away from the vertical cavity 0212, a first catching groove 2114 is provided at an end of an outer side of the left cavity wall i 2113 and near the upper cavity wall i 2111, and a second catching groove 2116 is provided at an end of an outer side of the lower cavity wall i 2115 and far away from the vertical cavity 0212; a wire pressing clamping groove 2121 is formed in the outer side, opposite to one cavity wall of the left cavity wall I2113, of the vertical cavity 0212, a wedge-shaped clamping groove 2123 is formed in the outer side, parallel to the one cavity wall of the upper cavity wall I2111, of the vertical cavity 0212, and an angle code limiting plate 2122 is arranged on the inner side of the vertical cavity 0212;

section bar II 022 includes the rectangle cavity, the outside of II 2211 one end of cavity wall is provided with third catching groove 2212 on the rectangle cavity, the outside of its other end is provided with the wedge draw-in groove 2123 corresponding with above-mentioned wedge draw-in groove 2123, the outside of the left cavity wall II 2213 of rectangle cavity and the one end of keeping away from last cavity wall II 2211 are provided with fourth catching groove 2214, the inboard of the lower cavity wall II 2215 of rectangle cavity and the one end of keeping away from left cavity wall II 2213 are provided with group's fillet draw-in groove II 2216, its other end stretches out and upwards forms fifth catching groove 2218 in the rectangle cavity.

A clapboard I2124 vertical to the upper cavity wall I2111 is arranged at the adjacent position of the horizontal section cavity 0211 and the vertical section cavity 0212; the rectangular cavity is internally provided with a vertical partition II 2217 which divides the rectangular cavity into a left cavity and a right cavity, wherein the left cavity and the horizontal section cavity 0211 have the same structure and are symmetrically arranged along the thickness direction of the door leaf frame 02.

Specifically, in this embodiment, the glass 05 is fixed on the door leaf frame 02 through the solid glue and the pressing line 04, and the pressing line 04 is disposed near one side of the indoor, as is well known, a heavy-duty sliding door is large and heavy, and how to ensure the stability of the sliding door leaf in the opening and closing processes is one of the key problems to be solved in this embodiment, and it is to be explained that: in this embodiment, by reasonably setting the structures of the section bar i 021 and the section bar ii 022, on one hand, the pulley hardware component 025 and the opening and lifting hardware component 028 are respectively located at the middle parts of the frame bodies corresponding to the pulley hardware component 025 and the opening and lifting hardware component 028 in the thickness direction, and the glass 05 is installed in the glass installation groove, as shown in fig. 3 and 5, the arrangement enables the whole hardware component composed of the pulley hardware component 025 and the opening and lifting hardware component 028 to be located at the middle part of the corresponding door leaf frame 02 in the thickness direction, so that the gravity centers of the pulley hardware component 025, the door leaf frame 02 and the glass 05 are approximately located on the same vertical plane, and the approximate coincidence of the three components makes the heavy push-pull door leaf less prone to tilt left and right when being opened and closed, the operation is stable, the safety is higher, on the other hand, while the vertical section cavity 021, its remaining chamber wall part just in time aims at glass 05's center, becomes glass 05's main bearing point, has guaranteed glass 05's stability, fixes on door leaf frame 02 through the built-in mode of line ball 04 in this embodiment in addition, and simple to operate has not only prevented that the rainwater from getting into indoorly, has avoided glass 05 to topple over to indoorly simultaneously again, and the security is high.

A hooked rabbet cover plate I026 is arranged on one side of the side frame body of the inner door leaf frame 02 and far away from the glass 05, the hooked rabbet cover plate I026 is an L-shaped section bar consisting of a vertical section 0261 and a horizontal section 0262, one end of the vertical section 0261 far away from the horizontal section 0262 is inwards provided with a clamping and groove 2611, and the clamping and groove 2611 comprises a pressing plate 611 pressed against the end face of the notch of the first buckling groove 2114 and an L-shaped hook plate 612 hooked in the second buckling groove 2116; the outside of horizontal section 0262 just is equipped with sixth catching groove 2621, decorative board draw-in groove I2622, seventh catching groove 2623 in proper order to the direction of keeping away from vertical section 0261, and wherein, the inboard of decorative board draw-in groove I2622 is equipped with the block muscle I6211 of block decorative board.

A hooked rabbet cover plate II 027 is arranged on one side, far away from the glass 05, of the side frame body of the outer door leaf frame 02, the hooked rabbet cover plate II 027 is a U-shaped structural section, the outer sides of the two side walls of the U-shaped structure are sequentially provided with a ninth catching groove 0273, a decorative plate catching groove II 0272 and an eighth catching groove 0271 towards the direction far away from the bottom wall of the U-shaped structure, and the inner side of the decorative plate catching groove II 0272 is provided with a clamping rib II 2721; be equipped with two parallel arrangement's and perpendicular to diapire spacing baffle 0274 on the diapire of U type structure, the one end that just keeps away from the U type structure diapire on spacing baffle 0274 is equipped with spacing arch 2741.

Specifically, a special-shaped heat insulation strip 029 is arranged between the hooked rabbet cover plate i 026 and the profile ii 022, one end of the special-shaped heat insulation strip 029 hooks the third buckling groove 2212, and the other end of the special-shaped heat insulation strip is abutted to the outer side wall of the seventh buckling groove 2623 and is in lap joint with the special-shaped heat insulation strip 029 arranged between the hooked rabbet cover plate ii 027 and the profile i 021 when the sliding door leaf is closed; the heat insulating strip 029 of dysmorphism between II 027 of hooked rabbet apron and section bar I021, the heat insulating strip 029 of dysmorphism between II 027 of hooked rabbet apron and section bar II 022 and its one end between them all support on its eight catching groove 0271's that corresponds lateral wall, its other end all supports on the spacing arch 2741 of the spacing baffle 0274 that it corresponds, in addition, the heat insulating strip who sets up on the heat insulating strip 029 of dysmorphism between II 027 of hooked rabbet apron and section bar II 022 and the sash frame 03 has the overlap joint when push-and-pull door leaf closes. Specifically, wool tops are arranged in the ninth catching groove 0273, the eighth catching groove 0271, the seventh catching groove 2623, and the sixth catching groove 2621 of the present embodiment. Specifically, in the embodiment, a rubber strip is disposed in the first fastening groove 2114 of the lower frame body of the door leaf frame 02, and a wool top is disposed in the second fastening groove 2116 of the lower frame body of the door leaf frame 02.

Besides stability, another important performance of the door and window in the using process is sealing, heat preservation and energy conservation, so how the heavy sliding door ensures the sealing, heat preservation and energy conservation in the using process is another key problem to be solved by the embodiment, and what needs to be explained is that: in the embodiment, the hooked rabbet cover plate I026 and the hooked rabbet cover plate II 027 of the section bar I021 and the section bar II 022 are reasonably designed and matched, and the wool tops are arranged in the ninth buckle groove 0273, the eighth buckle groove 0271, the seventh buckle groove 2623, the sixth buckle groove 2621 and the second buckle groove 2116 of the lower frame body of the door leaf frame 02, so that the sealing performance of the sliding door leaf when the sliding door leaf is closed is ensured by the combination of the above structures; in addition, be equipped with the thermal-insulated strip of dysmorphism 029 between hooked rabbet apron I026 and section bar II 022 in this embodiment, between hooked rabbet apron II 027 and section bar I021, all be provided with the thermal-insulated strip of dysmorphism 029 between hooked rabbet apron II 027 and the section bar II 022, and have the overlap joint between the adjacent thermal-insulated strip of dysmorphism 029, and then guaranteed the heat preservation effect of sliding door leaf when closing, arrange on the thickness direction of glass 05 in the thermal-insulated strip of I type 023 of connecting between section bar I021 and the section bar II 022 in addition, and the thermal-insulated strip of I type 023 sets up in the thickness range of glass 05, through the good arrangement relation of this thermal-insulated strip of I023 and glass 05, make the isotherm on the sliding door leaf more level and smooth, and then further effectively improved door and window's heat.

Through the design and the cooperation of section bar I021 and section bar II 022 in this embodiment, not only improved the stability of heavy push-and-pull door, and its reasonable structural design cooperation hooked rabbet apron and heat insulating strip arrange, guaranteed its sealed, heat preservation energy-conserving effect again.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a heavy promotion push-and-pull door of six opening doors, includes frame (01) and push-and-pull door leaf, push-and-pull door leaf from interior to exterior is interior door leaf, outer door leaf and yarn door leaf, be equipped with the last track (0112), lower track (0121) of above-mentioned interior door leaf, outer door leaf and yarn door leaf of one-to-one on the last frame (011) of frame (01), lower frame (012) respectively, its characterized in that: interior door leaf, outer door leaf's structure is the same and all include door leaf frame (02), door leaf frame (02) include section bar I (021) and section bar II (022) that link to each other through I type heat insulating strip (023), section bar I (021) and section bar II (022) link to each other back one side and form the glass mounting groove that supplies glass (05) installation, and the opposite side forms the hardware component mounting groove that supplies hardware component installation, wherein, install pulley hardware component (025) in the hardware component mounting groove of door leaf frame (02) lower frame body, install in the hardware component mounting groove of its side frame body and open and promote hardware component (028), and pulley hardware component (025), open and promote hardware component (028) and be located the ascending middle part of its corresponding framework thickness direction respectively.

2. A six-door heavy lift sliding door according to claim 1, wherein: the screen door leaf comprises a screen leaf frame (03) and gold steel yarns (06), the gold steel yarns (06) are fixed on the screen leaf frame (03) through solid glue and a wedge-shaped line pressing structure, the glass (05) is fixed on the door leaf frame (02) through the solid glue and lines pressing (04), and the lines pressing (04) are arranged close to one indoor side; the pulley hardware component (025) is fixed on the support (024) through a screw, and the support (024) is fixed on a lower frame body of the door leaf frame (02) through a screw.

3. A six-door heavy lift sliding door according to claim 1, wherein: the I-shaped heat insulating strip (023) is arranged along the thickness direction of the glass (05), and the I-shaped heat insulating strip (023) is arranged in the thickness range of the glass (05).

4. A six-door heavy lift sliding door according to claim 1, wherein: the section I (021) comprises an L-shaped cavity consisting of a horizontal cavity (0211) and a vertical cavity (0212), the horizontal cavity (0211) comprises an upper cavity wall I (2111), a left cavity wall I (2113) and a lower cavity wall I (2115), wherein an angle piece clamping groove I (2112) is arranged at one end, far away from the vertical cavity (0212), of the inner side of the upper cavity wall I (2111), a first buckling groove (2114) is arranged at one end, near the upper cavity wall I (2111), of the outer side of the left cavity wall I (2113), and a second buckling groove (2116) is arranged at one end, far away from the vertical cavity (0212), of the outer side of the lower cavity wall I (2115);

a wire pressing clamping groove (2121) is formed in the outer side, opposite to one cavity wall of the left cavity wall I (2113), of the vertical section cavity (0212), a wedge-shaped clamping groove (2123) is formed in the outer side, parallel to one cavity wall of the upper cavity wall I (2111), of the vertical section cavity (0212), and an angle code limiting plate (2122) is arranged on the inner side of the vertical section cavity;

section bar II (022) includes the rectangle cavity, the outside of the wall II (2211) one end is provided with third catching groove (2212) on the rectangle cavity, and the outside of its other end is provided with wedge draw-in groove (2123) corresponding with above-mentioned wedge draw-in groove (2123), the outside of the left side wall II (2213) of rectangle cavity and the one end of keeping away from the wall II (2211) of last cavity are provided with fourth catching groove (2214), the inboard of the lower chamber wall II (2215) of rectangle cavity and the one end of keeping away from the wall II (2213) of left cavity are provided with group's fillet draw-in groove II (2216), and its other end stretches out and upwards forms fifth catching groove (2218) in the rectangle cavity.

5. A six-door heavy lift sliding door according to claim 4, wherein: a clapboard I (2124) vertical to the upper cavity wall I (2111) is arranged at the adjacent position of the horizontal section cavity (0211) and the vertical section cavity (0212); the rectangular cavity is internally provided with a vertical partition plate II (2217) which divides the rectangular cavity into a left cavity and a right cavity, wherein the left cavity and the horizontal section cavity (0211) have the same structure and are symmetrically arranged along the thickness direction of the door leaf frame (02).

6. A six-door heavy lift sliding door according to claim 4, wherein: a hooked rabbet cover plate I (026) is arranged on one side of the side frame body of the inner door leaf frame (02) and far away from the glass (05), the hooked rabbet cover plate I (026) is an L-shaped section bar consisting of a vertical section (0261) and a horizontal section (0262), one end, far away from the horizontal section (0262), of the vertical section (0261) is inwards provided with a clamping and groove (2611), and the clamping and groove (2611) comprises a fastening and resisting plate (611) which is pressed against the end face of a notch of the first buckling groove (2114) and an L-shaped hook plate (612) which is hooked in the second buckling groove (2116); the outer side of the horizontal section (0262) and the direction of keeping away from the vertical section (0261) are equipped with sixth catching groove (2621), decorative board draw-in groove I (2622), seventh catching groove (2623) in proper order, wherein, the inboard of decorative board draw-in groove I (2622) is equipped with block muscle I (6211) of block decorative board.

7. A six-door heavy lift sliding door according to claim 6, wherein: a hooked rabbet cover plate II (027) is arranged on one side, far away from the glass (05), of the side frame body of the outer door leaf frame (02), the hooked rabbet cover plate II (027) is a section bar of a U-shaped structure, the outer sides of the two side walls of the U-shaped structure are sequentially provided with a ninth catching groove (0273), a decorative plate catching groove II (0272) and an eighth catching groove (0271) in the direction far away from the bottom wall of the U-shaped structure, and the inner side of the decorative plate catching groove II (0272) is provided with a catching rib II (2721); be equipped with two parallel arrangement's and perpendicular to diapire spacing baffle (0274) on the diapire of U type structure, the one end that just keeps away from U type structure diapire on spacing baffle (0274) is equipped with spacing arch (2741).

8. A six-door heavy lift sliding door according to claim 7, wherein: a special-shaped heat insulation strip (029) is arranged between the hooked rabbet cover plate I (026) and the section bar II (022), one end of the special-shaped heat insulation strip (029) is hooked with the third buckling groove (2212), the other end of the special-shaped heat insulation strip is abutted against the outer side wall of the seventh buckling groove (2623), and the special-shaped heat insulation strip (029) arranged between the hooked rabbet cover plate II (027) and the section bar I (021) is overlapped when the sliding door leaf is closed;

the heat insulating strip that dysmorphism between II (027) of hooked rabbet apron and section bar I (021) is thermal-insulated strip (029), the heat insulating strip (029) of dysmorphism between II (027) of hooked rabbet apron and section bar II (022) its one end between them all supports on the lateral wall of eighth catching groove (0271) that it corresponds, and its other end all supports on spacing arch (2741) of the spacing baffle (0274) that it corresponds, in addition, the heat insulating strip that sets up on dysmorphism heat insulating strip (029) between II (027) of hooked rabbet apron and section bar II (022) and screen window sash frame (03) has the overlap joint when the push-and-pull door leaf closes.

9. A six-door heavy lift sliding door according to claim 7, wherein: wool tops are arranged in the ninth buckle groove (0273), the eighth buckle groove (0271), the seventh buckle groove (2623) and the sixth buckle groove (2621).

10. A six-door heavy lift sliding door according to claim 7, wherein: an adhesive tape is arranged in a first buckling groove (2114) of the lower frame body of the door leaf frame (02), and a wool top is arranged in a second buckling groove (2116) of the lower frame body of the door leaf frame (02).

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