CN214463602U - Translational door and window - Google Patents

Abstract

The utility model relates to the technical field of sliding windows, in particular to a translation door and window, which comprises a bottom beam, a top beam, a side beam and a glass door and window, wherein the bottom beam comprises a left section, a middle section and a right section, the tops of the left section, the middle section and the right section of the bottom beam are positioned on the same horizontal plane, heat insulating strips are arranged between the middle section, the left section and the right section of the bottom beam, and the heat insulating strips and hollow glass in the glass door and window are positioned on the same vertical plane; the middle section of the bottom beam is provided with an upper cavity, the top of the upper cavity is provided with a hidden drain hole, and a baffle plate at the bottom of the upper cavity is an inclined plane; the right section of the bottom beam is provided with an upper cavity, one side of the bottom beam is communicated with the upper cavity of the middle section of the bottom beam through a drain hole, the other side of the bottom beam is communicated with the outside through the drain hole, the top height of the bottom beam and the indoor and outdoor form the same horizontal plane, the barrier-free passing function is achieved, and the wheelchair passing is facilitated for the old, children and other people who are inconvenient to move and the wheelchair passing; sealing rubber strips are arranged between the inner sash profile and the bottom beam, between the top beam and the glass door and window, and the sealing rubber strips can play a role in preventing wind and water leakage of high wind pressure and high wind and water.

Description

Translational door and window

Technical Field

The utility model relates to a austral window, sliding sash technical field is a translation door and window particularly.

Background

The original sliding door and window is only used for sliding doors and windows of bedrooms or wardrobes of changing rooms, but with the development of technology and diversification of decoration means, the functions and the application range of the sliding doors and windows are continuously expanded from the surfaces of traditional plates, glass, cloth, rattan weaves, aluminum alloy and plastic steel profiles, sliding doors and windows, folding doors and windows and partition doors and windows. In this case, the use of sliding doors and windows is beginning to become diversified and abundant. Except for the most common partition doors and windows, the sliding doors and windows are widely applied to bookcases, wall cabinets, living rooms, exhibition halls, sliding doors and windows, external doors and windows of buildings, internal doors and windows of buildings and the like, no matter in square toilets or irregular storage rooms, as long as the sliding doors and windows are replaced, narrow and small space cannot be wasted, and the folding sliding doors and windows can be opened even by 100% without occupying one-minute space. From the use, the sliding door and window undoubtedly greatly facilitates the space division and utilization of the room, and the reasonable push-pull design meets the exquisite and compact order and rhythm of modern life institute. Interestingly, the sliding glass door and window can make the living room light, and the division, the covering and the like are simple and unchangeable.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the not perfect place among the prior art, if thermal-insulated effect is not good enough, waterproof prevent wind the performance good inadequately, provide a translation door and window.

In order to achieve the purpose, the translational door and window comprises a bottom beam, a top beam, side beams and a glass door and window, and is characterized in that the bottom beam comprises a left section, a middle section and a right section, the tops of the left section, the middle section and the right section of the bottom beam are positioned on the same horizontal plane, heat insulation strips are arranged among the middle section, the left section and the right section of the bottom beam, and the heat insulation strips and hollow glass in the glass door and window are positioned on the same vertical plane; the middle section of the bottom beam is provided with an upper cavity, the top of the upper cavity is provided with a hidden drain hole, and a baffle plate at the bottom of the upper cavity is an inclined plane; the bottom beam right section is provided with an upper cavity, one side of the bottom beam right section is communicated with the upper cavity of the bottom beam middle section through a drain hole, and the other side of the bottom beam right section is communicated with the outside through the drain hole.

Preferably, glass door and window includes interior fan section bar, and interior fan section bar top is equipped with the notch for connect cavity glass, the middle part of interior fan section bar is equipped with the cavity of compriseing the heat insulating strip, and interior fan section bar bottom both sides all are equipped with the recess, are equipped with the barb in the recess and are connected with joint strip, and the relevant position is equipped with the dog on the floorbar, and the dog supports and leans on the joint strip bottom.

Preferably, the bottom beam is provided with a guide rail connected with the pulley, and the guide rail is half embedded into the bottom beam profile.

Preferably, the back timber includes left section, middle section and right section, all is equipped with the heat insulating strip between back timber middle section and left section, the right section, and the heat insulating strip is in same vertical plane with cavity glass among the glass door and window, and the back timber bottom is equipped with the notch and is connected with glass door and window inner leaf section bar, and back timber bottom notch department is equipped with level and smooth heat insulating strip.

Preferably, a screw hole is formed in the middle cavity of the inner sash profile and used for connecting the hooked rabbet vertical sash.

Compared with the prior art, the utility model, its advantage lies in:

1. the top height of the bottom beam and the indoor and outdoor parts form the same horizontal plane, so that the barrier-free passing function is achieved, and the wheelchair can conveniently pass by people who are inconvenient to move, such as old people and children;

2. sealing rubber strips are arranged between the inner sash profile and the bottom beam as well as between the top beam and the glass door and window, the sealing rubber strips not only can play a role in preventing wind and water leakage and preventing high wind pressure and high wind and water, but also can play a role in preventing burglary;

3. the bottom beam adopts double heat insulation strips, so that a better heat insulation effect can be achieved;

4. the invisible drain holes are formed in the bottom beam, so that the drainage problem can be effectively solved, and the door and window are more attractive;

5. a screw hole is designed in the middle cavity of the inner fan, so that the width of the visible surface can be changed only under the condition that the hooked rabbet vertical fan is replaced.

Drawings

FIG. 1 is a first double-sliding door and window structure of the present invention, which is formed by combining inner sash profile structures;

FIG. 2 is a single sliding door and window structure formed by combining the first inner sash profile structure of the present invention;

FIG. 3 is a single fixed door and window structure of a single sliding door and window formed by combining the first inner sash profile structure of the present invention;

FIG. 4 is a schematic view of a first embodiment of the first inner sash profile of the present invention;

FIG. 5 is a top view of an embodiment of the first inner sash profile configuration of the present invention;

FIG. 6 is a schematic view of another embodiment of the first inner sash profile of the present invention;

FIG. 7 is a top view of another embodiment of the first inner sash profile configuration of the present invention;

FIG. 8 is a single sliding door and window structure formed by combining the second inner sash profile structure of the present invention;

FIG. 9 is a top view of the fixed door and window of the present invention;

FIG. 10 is a view of a second structure of the inner sash profile of the present invention, which is a two-sliding door/window structure;

FIG. 11 is a schematic view of a second embodiment of the second inner sash profile of the present invention;

FIG. 12 is a top view of a second embodiment of the inner sash profile of the present invention;

in the figure: 1. the bottom beam 2, the top beam 3, the side beam 4, the glass door and window 5, the heat insulation strip 6, the drain hole 7, the inner sash section bar 8, the hollow glass 9, the sealing rubber strip 10, the pulley 11 and the screw hole.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, and the structure and principle of the present invention will be clear to those skilled in the art. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the double-translation door and window provided by the present invention comprises a bottom beam, a top beam, a side beam and a glass door and window, wherein the bottom beam comprises a left section, a middle section and a right section, the tops of the left section, the middle section and the right section of the bottom beam are positioned on the same horizontal plane, heat insulation strips are arranged between the middle section, the left section and the right section of the bottom beam, and the heat insulation strips and hollow glass in the glass door and window are positioned on the same vertical plane; the middle section of the bottom beam is provided with an upper cavity, the top of the upper cavity is provided with a hidden drain hole, and a baffle plate at the bottom of the upper cavity is an inclined plane; the right section of the bottom beam is provided with an upper cavity, one side of the upper cavity is communicated with the upper cavity of the middle section of the bottom beam through a drain hole, and the other side of the upper cavity is communicated with the outside through the drain hole; the glass door and window comprises an inner sash profile, wherein the top of the inner sash profile is provided with a notch for connecting hollow glass, the middle part of the inner sash profile is provided with a cavity consisting of heat insulation strips, two sides of the bottom of the inner sash profile are respectively provided with a groove, a barb is arranged in each groove and is connected with a sealing rubber strip, a stop block is arranged at a corresponding position on a bottom beam and abuts against the bottom of the sealing rubber strip; the bottom beam is provided with a guide rail which is connected with the pulley, and the guide rail is half embedded into the bottom beam section; the back timber includes left side section, middle section and right side section, all is equipped with the heat insulating strip between back timber middle section and left side section, the right side section, and the heat insulating strip is in same vertical plane with cavity glass among the glass door and window, and the back timber bottom is equipped with the notch and is connected with glass door and window inner leaf section bar, and back timber bottom notch department is equipped with and levels the heat insulating strip.

Referring to fig. 2, for the utility model provides a single translation door and window, with the two translation door and window difference that above-mentioned fig. 1 is shown lie in floorbar and back timber right-hand member top and connect interior fan section bar, and floorbar and back timber left end top do not connect interior fan section bar, and it makes back timber and floorbar top level and smooth to buckle into the piece through connecting.

Referring to fig. 3, for the utility model provides a single fixed door and window of single translation door and window, with the two translation doors and windows shown in above-mentioned fig. 1 difference lie in that floorbar and back timber right-hand member top are connected interior fan section bar, and lug connection cavity glass between floorbar and the back timber left end top, back timber and floorbar right-hand member are translation door and window promptly, and back timber and floorbar left end are fixed door and window.

First embodiment, referring to fig. 4 and 5, this embodiment provides a four-sliding door and window structure formed by combining the three structures shown in fig. 1 to 3, where four glass doors and windows all move on a bottom beam through bottom pulleys, and when two sliding doors and windows are in front and back positions, the state shown in fig. 1 is obtained.

In the second embodiment, referring to fig. 6 and 7, the second embodiment provides a double-translation door and window double-fixed door and window structure formed by combining the three structures of fig. 1-3, wherein the left end and the right end are directly connected with the top beam, the bottom beam and the measurement beam through hollow glass, two glass doors and windows are arranged in the middle, the two glass doors and windows move on the bottom beam through pulleys at the bottoms of the glass doors and windows, when the four doors and windows are not in the front and back positions, the side view of one of the glass doors and windows is the state shown in fig. 2, when one of the translation doors and windows and one of the fixed doors and windows are in the front and back positions, the side view is the state shown in fig. 3, and when the two translation doors and windows are in the front and back positions, the side view is the state shown in fig. 1.

Embodiment three, for the utility model provides a two fixed doors and windows of two translation doors and windows, the back timber is connected by cavity glass directly at left and right both ends, floorbar and measurement, there are two glass doors and windows at the middle part, the pulley through glass door and window bottom moves on the floorbar, when four door and windows all are not in the fore-and-aft position, one of them glass door and window looks sideways at this moment is the state of figure 8 promptly, one of them fixed door and window side is regarded as the state of figure 9, when two translation doors and windows wherein are in the fore-and-aft position, the side is regarded as the state that figure 10 shows this moment.

In a fourth embodiment, referring to fig. 10, the first inner sash section structure and the second inner sash section structure of the present invention are different as follows: the middle cavity of the inner fan section is provided with a screw hole for connecting the hooked rabbet vertical fan.

In a preferred embodiment, the width of the visible surface can be changed only by changing the hooked rabbet vertical fan through a screw hole formed in the middle cavity of the inner fan section.

Translation door and window concrete optimization structure as follows:

1. two glass doors and windows are arranged on the same bottom beam, two seals and two wool top seals are arranged between the inner sash and the outer sash, and the effects of multiple heat isolation and rainwater air leakage are achieved;

2. the translation window and the fixed glass are on the same plane, and the messy part is hidden from the invisible part, so that a good visual effect is achieved;

3. the adhesive tapes arranged in the inner fan and the outer fan structure can effectively prevent the energy from being transmitted from the outdoor to the indoor, and the problem that the traditional plastic plate is not good in transportation is solved;

4. the visible surface is reduced, the maximum permeability is realized, and the propagation of indoor and outdoor energy is isolated;

5. the two sliding door and window profiles can be fixed without screws by matching with rubber strips and inserting the rubber strips, so that the fixing effect like the screws is achieved, the problem that the surfaces of the profiles are damaged by screwing is solved, and meanwhile, the mounting efficiency is improved;

6. a sealing rubber strip is arranged between the inner sash profile and the bottom beam, and the surface of the profile damaged after the cavity corner code is assembled can be covered under the sealing rubber strip, so that a good integral appearance is achieved; meanwhile, the part utilizes the characteristic of lifting and descending of the inner fan, and the sealing effect of tightly locking the rubber strip is pressed, so that the functions of preventing rainwater from entering water and leaking air under high wind pressure are achieved;

7. the top height of the bottom beam and the indoor and outdoor positions can be made into the same plane, so that the barrier-free passing function is achieved, the walking difficulty of the old, children and other people and the wheelchair can be facilitated, the barrier-free function is realized, and the long-life smooth push-pull can be guaranteed by matching with the replaceable guide rail;

8. the barrier-free passing function is matched with the invisible drainage channel, so that the problem that rainwater is drained and the appearance of a drainage hole is unsightly is solved;

9. a sealing rubber strip is designed between the hollow glass and the inner sash profile, so that the hollow glass is prevented from being detached and entering the room from the outside;

10. the double-channel heat insulation strips are adopted on the bottom beam, so that a better heat insulation effect can be achieved.

Claims (5)

1. A sliding door and window comprises a bottom beam, a top beam, a side beam and a glass door and window, and is characterized in that

The bottom beam comprises a left section, a middle section and a right section, the tops of the left section, the middle section and the right section of the bottom beam are positioned on the same horizontal plane, heat insulation strips are arranged among the middle section, the left section and the right section of the bottom beam, and the heat insulation strips and hollow glass in the glass door and window are positioned on the same vertical plane;

the middle section of the bottom beam is provided with an upper cavity, the top of the upper cavity is provided with a hidden drain hole, and a baffle plate at the bottom of the upper cavity is an inclined plane;

the bottom beam right section is provided with an upper cavity, one side of the bottom beam right section is communicated with the upper cavity of the bottom beam middle section through a drain hole, and the other side of the bottom beam right section is communicated with the outside through the drain hole.

2. The sliding door or window of claim 1, wherein the glass door or window comprises an inner sash profile, the top of the inner sash profile is provided with a notch for connecting the hollow glass, the middle of the inner sash profile is provided with a cavity consisting of heat insulation strips, two sides of the bottom of the inner sash profile are provided with grooves, barbs are arranged in the grooves and connected with the sealing rubber strips, and the bottom beams are provided with stop blocks at corresponding positions, and the stop blocks abut against the bottoms of the sealing rubber strips.

3. The sliding door or window of claim 1 wherein the sill has rails attached to the pulleys, the rails being embedded in the sill profile.

4. The sliding door or window of claim 1 wherein the top beam comprises a left section, a middle section and a right section, and heat insulating strips are arranged between the middle section and the left and right sections of the top beam, and are positioned on the same vertical plane with the hollow glass in the glass door or window, and the bottom of the top beam is provided with a notch for connecting with the inner sash section of the glass door or window, and the notch at the bottom of the top beam is provided with a flat heat insulating strip.

5. The sliding door or window of claim 1 wherein the cavity in the middle of the inner sash profile is provided with a screw hole for connecting the hooked rabbet vertical sash.

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