CN204199989U - Waterproof and heat-insulating lifting sliding door - Google Patents

Abstract

The utility model belongs to building doors and windows technical field, mainly propose a kind of waterproof and heat-insulating lifting sliding door, described waterproof and heat-insulating lifting sliding door comprises sliding frame, fixed frame and glass, described fixed frame and sliding frame are flexibly connected, arrange water-swellable bar between the outside of described glass and described sliding frame to seal, be provided with long-tail insulated rubber strip between the inner side of described glass and described sliding frame to seal, described sliding frame also comprises soft or hard composite rubber strip and the first heat insulating strip, described fixed frame comprises " work " type structure, the flexible glue bar part of described soft or hard composite rubber strip and described " work " type form touch also realize sealing, sliding frame realizes mobile along the slide rail on fixed frame, described waterproof and heat-insulating lifting sliding door also comprises dash adhesive tape and clamping close device, described dash adhesive tape to be arranged between described sliding frame and described fixed frame and to be fixed on described fixed frame, described clamping close device is arranged at described sliding frame.

Description

Waterproof and heat-insulating lifting sliding door

Technical field

The utility model belongs to building doors and windows technical field, is specifically related to a kind of door and window structure with waterproof and heat-insulating effect.

Background technology

Modern architecture requires that building doors and windows must have daylighting, sealing, insulation, heat insulation, sound insulation, fire prevention, the multiple using function such as dust-proof, antitheft, energy-conservation, could provide the indoor living environment of safety and comfort like this for people.Therefore, building doors and windows is the extremely important functional parts embodying the physical properties such as modern architecture sound, light, heat and environment, and has facade and indoor environment double decorative effect, is directly connected to the use safety of building, comfortable and energy-conservation.

In addition, building doors and windows is as a part for external wall and interior decoration, and the appearance effect such as its form of structure, material texture and surface color and polish play very important function and decoration function to the coordination attractive in appearance inside and outside building.Door and window is the ingredient of architecture enclosing structure, and be the most responsive position of building interchange of heat, its unit area energy consumption is 5 ~ 6 times of body of wall, and the heat-energy losses of door and window accounts for more than 40% of whole building.

The door and window used in current building, more and more using insulation, waterproof and the energy-conservation important performance assessment criteria as door and window performance.In prior art, for the utility model application that the problems referred to above have insider to propose a kind of name to be called two heat-insulation aluminum section inward-opening door/window structure (application number is 200820051643.9).

As shown in Figure 1, in this application, include outter frame profile 1, inner frame section 2, between outter frame profile 1 and inner frame section 2, wear bar 3, outter frame profile forms injecting glue groove 4, in injecting glue groove 4, be marked with adiabatic gum 5.

Although this technology is by arranging double-deck section bar, and the mode wearing bar and filling adiabatic gum between double-deck section bar reaches effect of heat insulation to a certain degree, but owing to not arranging the parts being used for enhanced leaktightness effect between the outside and inside of window, the sealing effectiveness of described this pair of heat-insulation aluminum section inward-opening door/window structure is not very strong, meanwhile, this technology does not reach the effect of waterproof.

Utility model content

Main purpose of the present utility model is to provide a kind of waterproof and heat-insulating lifting sliding door, to solve the problem mentioned in above-mentioned prior art.

For reaching above-mentioned purpose, major technique solution of the present utility model is to provide a kind of waterproof and heat-insulating lifting sliding door, described waterproof and heat-insulating lifting sliding door comprises sliding frame, fixed frame and glass, described fixed frame and sliding frame are flexibly connected, glass guide channel is provided with in described sliding frame, described glass is arranged in described glass guide channel, arrange water-swellable bar between the outside of described glass and described sliding frame to seal, be provided with long-tail insulated rubber strip between the inner side of described glass and described sliding frame to seal, cushion block and long-tail bearing plate is also provided with in described sliding frame, the long-tail end of described long-tail bearing plate is connected with the medial surface of described sliding frame and is placed in the below of described water-swellable bar, described glass is arranged on described cushion block, described cushion block is arranged on described long-tail bearing plate, described sliding frame also comprises soft or hard composite rubber strip, described soft or hard composite rubber strip to be arranged between described sliding frame and described fixed frame and the ebonite bar partial fixing of described soft or hard composite rubber strip in the lower end draw-in groove of described sliding frame, described sliding frame also comprises the first heat insulating strip, described first heat insulating strip connects the inwall both sides of described sliding frame, described water-swellable bar, long-tail insulated rubber strip, the inner space of described sliding frame cuts off by the first heat insulating strip and glass completely, each bight place of described sliding frame is provided with reinforcement, described reinforcement connects the adjacent edge of described sliding frame, described fixed frame comprises 2 " work " type structures, the soft section of described soft or hard composite rubber strip and described " work " type form touch, slide rail is provided with in described fixed frame, described sliding frame can move in described fixed frame along slide rail, described fixed frame also comprises the second heat insulating strip, described second heat insulating strip connects described two " work " type structures, wherein, described waterproof and heat-insulating lifting sliding door also comprises dash adhesive tape and clamping close device, described dash adhesive tape to be arranged between described sliding frame and described fixed frame and to be fixed on described fixed frame, described clamping close device is arranged at described sliding frame.

Preferably, be provided with corresponding at least two blocks of glass in described glass guide channel, fixed by the mode of hollow glass glue bond between described glass and glass.

Preferably, described glass is hollow glass, is also provided with desiccant between described at least two blocks of glass.

Preferably, described long-tail bearing plate is plastic plate.

Preferably, described sliding frame is 2, and the thickness of described glass is 53mm.

Preferably, described first heat insulating strip and the second heat insulating strip are polyamide 66 or nylon66 fiber heat insulating strip.

Preferably, described reinforcement is fixed by the adjacent edge of bi-component glue and described sliding frame.

Preferably, described waterproof and heat-insulating lifting sliding door also comprises electronic opening/closing system.

The utility model compared with the existing technology, has the following advantages and beneficial effect:

1, the structure of waterproof and heat-insulating lifting sliding door described in the utility model can meet the combining form of 2 or 4 sliding doors.

2, in waterproof and heat-insulating lifting sliding door described in the utility model, glass is many quality glass that maximum gauge reaches 53mm.

3, in waterproof and heat-insulating lifting sliding door structure described in the utility model, the sliding frame of ultra-wide superelevation has opens characteristic flexibly.

4, in waterproof and heat-insulating lifting sliding door structure described in the utility model, the maximum capacity of single sliding frame is 400kg.

5, in waterproof and heat-insulating lifting sliding door structure described in the utility model, maximum daylighting effect can be ensured.

6, in waterproof and heat-insulating lifting sliding door structure described in the utility model, fixed frame is low sill formula structure, rational in infrastructure, convenient turnover.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of of the prior art pair of heat-insulation aluminum section inward-opening door/window structure.

Fig. 2 is the bottom section structural representation of the first embodiment of waterproof and heat-insulating lifting sliding door described in the utility model.

Fig. 3 is the left side generalized section of waterproof and heat-insulating lifting sliding door described in the utility model.

Fig. 4 is the structural representation of waterproof and heat-insulating lifting sliding door described in the utility model when closure state.

Fig. 5 is the top cross section structure schematic diagram of the first embodiment of waterproof and heat-insulating lifting sliding door described in the utility model.

Critical element symbol description:

1 outter frame profile 2 inner frame section

3 wear bar 4 injecting glue groove

5 heat insulating strip 6 sliding frames

7 fixed frame 8 water-swellable bars

9 long-tail insulated rubber strip 10 glue

11 glass 12 desiccant

13 cushion block 14 long-tail bearing plates

15 dash adhesive tape 16 first heat insulating strips

17 second heat insulating strip 18 soft or hard composite rubber strips

19 draw-in groove 20 clamping close devices

21 slide rails.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Fig. 2 is the cross section structure schematic diagram of the first embodiment of waterproof and heat-insulating lifting sliding door described in the utility model.

Fig. 3 is the left side generalized section of waterproof and heat-insulating lifting sliding door described in the utility model.

As shown in Figures 2 and 3, the utility model provides a kind of waterproof and heat-insulating lifting sliding door, described waterproof and heat-insulating lifting sliding door comprises sliding frame 6, fixed frame 7 and glass 11, described fixed frame 7 and sliding frame 6 are flexibly connected, glass guide channel is provided with in described sliding frame 6, described glass 11 is arranged in described glass guide channel, arrange water-swellable bar 8 between the outside of described glass 11 and described sliding frame 6 to seal, be provided with long-tail insulated rubber strip 9 between the inner side of described glass 11 and described sliding frame 6 to seal, cushion block 16 and long-tail bearing plate 14 is also provided with in described sliding frame 6, the long-tail end of described long-tail bearing plate 14 is connected with the medial surface of described sliding frame 6 and is placed in the below of described water-swellable bar 8, described glass 11 is arranged on described cushion block 13, described cushion block 13 is arranged on described long-tail bearing plate 14, described sliding frame 6 also comprises soft or hard composite rubber strip 18, described soft or hard composite rubber strip 18 to be arranged between described sliding frame 6 and described fixed frame 7 and the ebonite bar partial fixing of described soft or hard composite rubber strip 18 in the lower end draw-in groove 19 of described sliding frame 6, described sliding frame 6 also comprises the first heat insulating strip 16, described first heat insulating strip 16 connects the inwall both sides of described sliding frame 6, described water-swellable bar 8, long-tail insulated rubber strip 9, the inner space of described sliding frame 6 cuts off by the first heat insulating strip 16 and glass 11 completely, each bight place of described sliding frame 6 is provided with reinforcement, described reinforcement connects the adjacent edge of described sliding frame 6, described fixed frame 7 comprises 2 " work " type structures, the flexible glue bar part of described soft or hard composite rubber strip 48 and described " work " type form touch, slide rail 21 is provided with in described fixed frame 7, described sliding frame 6 can be mobile in described fixed frame 7 along slide rail 21, described fixed frame 7 also comprises the second heat insulating strip 17, described second heat insulating strip 17 connects described two " work " type structures, wherein, described waterproof and heat-insulating lifting sliding door also comprises dash adhesive tape 15 and clamping close device 20, described dash adhesive tape 15 to be arranged between described sliding frame 6 and described fixed frame 7 and to be fixed on described fixed frame 7, described clamping close device 20 is arranged at described sliding frame 6.

As shown in Figure 2, the inner space of described sliding frame 6 can isolate by the long-tail part of described long-tail insulated rubber strip 9 to a greater degree.

In the first embodiment of the present utility model, described first heat insulating strip 16 and the second heat insulating strip 17 are for having added polyamide nylon 66 material of 25% glass fiber, described dash adhesive tape 15 is elastomeric material, and described soft or hard composite rubber strip 18 is Ethylene Propylene Terpolymer soft or hard compound composite synthesis.

As one distortion of the present utility model, described dash adhesive tape 15 and described soft or hard composite rubber strip 18 also can select other materials, and specific embodiment of the utility model is not as limit.

Further, described long-tail bearing plate 14 selects the plastic plate of light-high-strength.

In the first embodiment of the present utility model, be provided with corresponding at least two blocks of glass 11 in described glass guide channel, the mode mutually bonded by glue 10 between described glass and glass is fixed.

As one distortion of the present utility model, described glass guide channel size according to the demand of client or actual needs to adopt the line ball of different size to adjust, so that the glass 11 of adaptation different-thickness, can reach better waterproof and heat-insulating effect.

In the first embodiment of the present utility model, described glass 11 is hollow glass, also be provided with desiccant 12 between described at least two blocks of glass 11, described desiccant 12 can absorb the aqueous vapor of infiltrating from the external world, improves waterproof effect described in the utility model further.

As one distortion of the present utility model, described glass 11 also can select the glass of other types, and specific embodiment of the utility model is not as limit.

In the first embodiment of the present utility model, the quantity of described first heat insulating strip 16 is more than 2.

In the first embodiment of the present utility model, described long-tail insulated rubber strip 9 is Ethylene Propylene Terpolymer glass long-tail rubber strip.

Preferably, the first heat insulating strip 16 and the second heat insulating strip 19 are for having added the polyamide nylon 66 of 25% glass fiber.

In the first embodiment of the present utility model, described reinforcement is fixed by the adjacent edge of bi-component glue and described sliding frame 6.

In the first embodiment of the present utility model, described sliding frame is 2, and the maximum gauge of described glass is 53mm, and the maximum capacity of single sliding frame is 400kg.

In addition, waterproof and heat-insulating lifting sliding door structure described in the utility model also can meet the combining form of 4 sliding frames, and specific embodiment of the utility model is not limited successively.

Preferably, described waterproof and heat-insulating lifting sliding door can also install electronic opening/closing system etc. additional according to customer requirement or actual demand, and specific embodiment of the utility model is not as limit.

Of the present utility model, described fixed frame is low sill structure.

Fig. 4 is the structural representation of waterproof and heat-insulating lifting sliding door described in the utility model when closure state.

When waterproof and heat-insulating lifting sliding door described in the utility model is when closed, realize the mutual engaging between described sliding frame 6 by clamping close device 20.

Fig. 5 is the top cross section structure schematic diagram of the first embodiment of waterproof and heat-insulating lifting sliding door described in the utility model.

As shown in Figure 5, in the superstructure of waterproof and heat-insulating lifting sliding door described in the utility model, also use the structure similar with polycrystalline substance, its structure function and operating principle all similar, belong to the content that those skilled in the art can be known on the basis of the above, therefore just no longer go to live in the household of one's in-laws on getting married and chat.

The following operating principle that is waterproof and heat-insulating lifting sliding door described in the utility model according to Fig. 2 and Fig. 4 does the explanation of a nearlyer step.

As shown in Figure 2, when sliding frame 6 and fixed frame 7 close, completely the inner space of waterproof and heat-insulating lifting sliding door sliding frame framework described in the utility model and fixed frame framework is separated into two parts by water-swellable bar 8, glass 11, long-tail insulated rubber strip 9, first heat insulating strip 16 and the second heat insulating strip 17.

When extraneous blast and rainfall increase to the sealing of breakthrough first, water-swellable bar 8 starts to expand, and pressure between itself and glass is increased, and is greater than extraneous blast, add the effect of second sealing.The use of long-tail insulated rubber strip 9, blocks the flowing of described waterproof and heat-insulating lifting sliding door internal heat, adds heat-proof quality simultaneously simultaneously.

The soft or hard composite rubber strip 18 used due to the utility model uses the technology of advanced foaming compound, strengthen heat insulation, airtight of water tightness performance, simultaneously flexible glue bar part again reduces impact force when closing sash and hoisting capacity, makes push-and-pull and close window more convenient comfortable.

To sum up, glass 11, water-swellable bar 8, long-tail insulated rubber strip 9 and dash adhesive tape 15 can produce the effect of waterproof water proof, and the first heat insulating strip 16 and the second heat insulating strip 17 have heat insulation effect.

Therefore, when outside rain or the high temperature of glass 11, the stop that can realize outside rainwater or high temperature by waterproof and heat-insulating lifting sliding door described in the utility model, thus separated completely in the inner space of waterproof and heat-insulating lifting sliding door described in the utility model and space outerpace, thus realize the effect of waterproof and heat-insulating.Again by the engaging function of clamping close device 20, the firm further effect of waterproof and heat-insulating.

The utility model compared with the existing technology, has the following advantages and beneficial effect:

1, the structure of waterproof and heat-insulating lifting sliding door described in the utility model can meet the combining form of 2 or 4 sliding doors.

2, in waterproof and heat-insulating lifting sliding door described in the utility model, glass is many quality glass that maximum gauge reaches 53mm.

3, in waterproof and heat-insulating lifting sliding door structure described in the utility model, the sliding frame of ultra-wide superelevation has opens characteristic flexibly.

4, in waterproof and heat-insulating lifting sliding door structure described in the utility model, the maximum capacity of single sliding frame is 400kg.

5, in waterproof and heat-insulating lifting sliding door structure described in the utility model, maximum daylighting effect can be ensured.

6, in waterproof and heat-insulating lifting sliding door structure described in the utility model, fixed frame is low sill formula structure, rational in infrastructure, convenient turnover.

Claims (8)

1. a waterproof and heat-insulating lifting sliding door, is characterized in that, described waterproof and heat-insulating lifting sliding door comprises sliding frame, fixed frame and glass, and described fixed frame and sliding frame are flexibly connected,

Glass guide channel is provided with in described sliding frame, described glass is arranged in described glass guide channel, arrange water-swellable bar between the outside of described glass and described sliding frame to seal, be provided with long-tail insulated rubber strip between the inner side of described glass and described sliding frame to seal, cushion block and long-tail bearing plate is also provided with in described sliding frame, the long-tail end of described long-tail bearing plate is connected with the medial surface of described sliding frame and is placed in the below of described water-swellable bar, described glass is arranged on described cushion block, described cushion block is arranged on described long-tail bearing plate, described sliding frame also comprises soft or hard composite rubber strip, described soft or hard composite rubber strip to be arranged between described sliding frame and described fixed frame and the ebonite bar partial fixing of described soft or hard composite rubber strip in the lower end draw-in groove of described sliding frame, described sliding frame also comprises the first heat insulating strip, described first heat insulating strip connects the inwall both sides of described sliding frame, described water-swellable bar, long-tail insulated rubber strip, the inner space of described sliding frame cuts off by the first heat insulating strip and glass completely, each bight place of described sliding frame is provided with reinforcement, described reinforcement connects the adjacent edge of described sliding frame,

Described fixed frame comprises 2 " work " type structures, the flexible glue bar part of described soft or hard composite rubber strip and described " work " type form touch, slide rail is provided with in described fixed frame, described sliding frame can move in described fixed frame along slide rail, and described fixed frame also comprises the second heat insulating strip, and described second heat insulating strip connects described two " work " type structures, each bight place of described fixed frame is provided with, the adjacent edge of the described fixed frame of described connection, wherein

Described waterproof and heat-insulating lifting sliding door also comprises dash adhesive tape and clamping close device, and described dash adhesive tape to be arranged between described sliding frame and described fixed frame and to be fixed on described fixed frame, and described clamping close device is arranged at described sliding frame.

2. waterproof and heat-insulating lifting sliding door according to claim 1, is characterized in that, is provided with corresponding at least two blocks of glass, is fixed between described glass and glass by the mode of hollow glass glue bond in described glass guide channel.

3. waterproof and heat-insulating lifting sliding door according to claim 2, is characterized in that, described glass is hollow glass, is also provided with desiccant between described at least two blocks of glass.

4. waterproof and heat-insulating lifting sliding door according to claim 3, is characterized in that, described long-tail bearing plate is plastic plate.

5. waterproof and heat-insulating lifting sliding door according to claim 4, is characterized in that, described sliding frame is 2, and the thickness of described glass is 53mm.

6. waterproof and heat-insulating lifting sliding door according to claim 1, is characterized in that, described first heat insulating strip and the second heat insulating strip are polyamide nylon 66.

7. waterproof and heat-insulating lifting sliding door according to claim 1, is characterized in that, described reinforcement is fixed by the adjacent edge of bi-component glue and described sliding frame.

8. waterproof and heat-insulating lifting sliding door according to claim 1, is characterized in that, described waterproof and heat-insulating lifting sliding door also comprises electronic opening/closing system.