CN210685748U - Aluminum alloy sliding door with block formula economizer - Google Patents

Abstract

The utility model relates to an aluminum alloy sliding door with block formula economizer, including window frame and casement, the window frame includes inside casing and frame, and the casement has dust collector including setting up the interior window in the inside casing and setting up fixed mounting on the outer window casement of frame, and dust collector fixed mounting keeps away from indoor one side at the casement, dust collector include axis of rotation, dust removal scraper blade, guided way and water tank, the axis of rotation level sets up in the upper end of casement, and is located the downside on the side of the frame that goes up, and dust removal scraper blade is parallel with the axis of rotation, connects through first stay cord between dust removal scraper blade and the axis of rotation, and the guided way respectively installs one on the side that the frame left and right sides side is close to each other, and dust removal scraper blade's both ends all are provided with the guide block, and the. Need not external other equipment that provide power, it is more energy-conserving and convenient to use.

Description

Aluminum alloy sliding door with block formula economizer

Technical Field

The utility model relates to an aluminum alloy door and window's technical field especially relates to an aluminum alloy sliding door and window with block formula economizer.

Background

The aluminum alloy door and window is a door and window made of aluminum alloy extruded sections as main materials, and is called aluminum door and window for short. The aluminum alloy doors and windows comprise doors and windows which are compounded with wood and plastic by taking aluminum alloy as a base material of a stress rod piece, and are called aluminum-wood composite doors and windows and aluminum-plastic composite doors and windows for short. However, the barrier effect of the aluminum alloy door and window is not very good, and phenomena such as air leakage and the like are easy to occur, and the cleaning work of the outer part of the window surface is not very convenient.

Chinese patent with grant publication No. CN207749996U discloses an aluminum alloy sliding door with block formula economizer, including frame and main part, the main part is located inside the frame, and the inside recess that is equipped with of frame, the inside electric putter that is equipped with of recess, electric putter one end fixed connection main part, main part external surface are equipped with the rubber pad, and the outside one side fixed connection fibre surface course of rubber pad is equipped with the spout at the inside upside of frame. The device leads to and sets up electronic die-pin, rubber pad and the cotton layer of fibre, has improved the separation heat of aluminum alloy door and window and the ability of wind-force to through cylinder, water pump and atomising head, clean the window surface.

Adopt cylinder, water pump lamp device to clean in such structure, but in actual house, generally do not use the cylinder, and energy consumption is big, is unfavorable for using widely.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an aluminum alloy sliding door with block formula economizer, it has the equipment that need not external other powers that provides, uses more energy-conserving and convenient effect.

The above object of the present invention can be achieved by the following technical solutions: an aluminum alloy sliding door with a blocking type energy-saving device comprises a window frame and a window sash, wherein the window frame comprises an inner frame and an outer frame, the window sash comprises an inner window arranged in the inner frame and an outer window arranged in the outer frame, the window sash comprises a frame and a glass plate arranged in the frame, a dust removal device is fixedly arranged on the window sash and is fixedly arranged on one side of the window sash far away from the interior, the dust removal device comprises a rotating shaft, a dust removal scraper blade, a guide rail and a water tank, the rotating shaft is horizontally arranged at the upper end of the window sash and is positioned at the lower side of the upper side edge of the frame, the dust removal scraper blade is parallel to the rotating shaft, the dust removal scraper blade and the rotating shaft are connected through a first pull rope, the guide rail is respectively arranged on the side surfaces, close to each other, of the left side edge and the right side edge of the, the lateral wall of the sprinkling pipe is provided with sprinkling holes, the water tank is arranged on the upper side of the window sash and is connected with a hose, the other end of the hose is connected with a valve, and the valve is connected with the sprinkling pipe on the dust removal scraper.

Through adopting above-mentioned technical scheme, when needs are cleaned the outside of this sliding door, through the first stay cord of pulling, drive the dust removal scraper blade and move down to under the effect of guide block and guided way, all the time with the glass board butt, and then clean with the lateral surface of this sliding door. When the glass plate needs to be watered and moistened, the sprinkler pipe sprinkles water on the side surface of the glass plate by opening the valve connected to the hose. Can be convenient for clean, the clear effect is better. The water tank can be connected with the rainwater collecting pipe of room or the condenser tube of air conditioner, fine utilizes the water resource. And need not the external equipment that provides power of other, it is more energy-conserving and convenient to use.

The utility model discloses further set up to: the rotating shaft is connected with a second pull rope, the direction of the second pull rope wound on the rotating shaft is opposite to the direction of the first pull rope wound on the rotating shaft, and the lengths of the first pull rope and the second pull rope are both greater than the height of the glass plate.

Through adopting above-mentioned technical scheme, when the first stay cord of pulling drives the dust removal scraper blade and moves down, the second stay cord also can be curled up on the axis of rotation thereupon, later through pulling the second stay cord, drives the dust removal scraper blade and rises and normal position when resumeing, and it is more convenient to use.

The utility model discloses further set up to: the two guide blocks are connected with a rotating shaft, the dust removal scraper blade is rotatably installed on the rotating shaft, the two ends of the dust removal scraper blade are connected with torsional springs, and the other ends of the torsional springs are connected with the guide blocks.

By adopting the technical scheme, the dust removal scraper blade is rotatably arranged on the rotating shaft, and is abutted against the glass plate under the driving of the torsion spring. Compared with a structure directly arranged to abut against the glass plate, the dust removal scraper is not easy to abut against the glass plate well after long service time. The service life is longer, and the dirt on the glass plate can be well removed.

The utility model discloses further set up to: the glass plate is characterized in that a shielding plate is fixedly mounted at the upper end of the frame, is located at the same height as the rotating shaft and is located on one side, away from the glass plate, of the rotating shaft, and is embedded inside the frame.

Through adopting above-mentioned technical scheme, when not using at ordinary times, rise the dust removal scraper blade to between shielding plate and the glass board, when observing from the outside, whole window body is more neat and artistic. And the dust removal scraper blade is well protected, so that the dust removal scraper blade is not easy to damage. When the window sash is pushed, the side face of the shielding plate far away from the glass plate is positioned in the whole frame, so that the pushing process of the window sash is not hindered.

The utility model discloses further set up to: the casement when closing, the fixed first bed course that is provided with on the side of laminating each other of interior window and exterior window, the embedded groove has been seted up on the one side that interior window and exterior window kept away from each other, the fixed embedding strip that is provided with on the side that two vertical sides of window frame are close to each other, the embedding strip inlays in the embedded groove, the fixed second bed course that is provided with on the medial surface of embedded groove, install on the side that inside casing and frame are kept away from each other and compress tightly the card strip, compress tightly the card strip setting at the horizontal limit that inside casing and interior window are adjacent and the horizontal limit that the frame is adjacent with the exterior window, it is provided with the third bed course to compress tightly on the card strip, and the third bed course is located this and compresses tightly the card strip and between the casement that should compress tightly the card strip adjacent, be provided with the extruded article on.

Through adopting above-mentioned technical scheme, when the casement was closed, the gap between the side that interior window and exterior window laminated each other was filled by first bed course, and the gap between casement and the window frame is filled by the second bed course. The horizontal side edge of the window sash is tightly attached to the third cushion layer by pushing the compressing clamping strip. Because the sliding grooves are formed in the side face, attached to the window frame, of the horizontal side edge of the window sash, the sliding strips matched with the sliding grooves are also arranged on the window frame, and the sliding strips and the sliding grooves are tightly attached under the pushing of the pressing clamping strips, so that gaps between the horizontal side edge of the window sash and the horizontal side edge of the window frame are reduced. The heat and wind resistance of the aluminum alloy sliding door and window is well improved.

The utility model discloses further set up to: the window frame on seted up the extrusion hole, the extruded article is worn to establish in the extrusion hole, and the extruded article with compress tightly card strip butt, the fixed spacing draw-in groove that is provided with on the inside wall in extrusion hole, the fixed spacing pothook that is provided with the spacing draw-in groove of cooperation on the extruded article, when spacing pothook and spacing draw-in groove joint, the extruded article promotes to compress tightly card strip and makes its and casement butt.

By adopting the technical scheme, the limiting clamping hook is clamped in the limiting clamping groove, so that the third cushion layer is simply and conveniently attached to the horizontal side edge of the window sash, and the use is simple and convenient.

The utility model discloses further set up to: the position department that the extruded article be provided with spacing pothook seted up and press the groove, press the inslot and install the elastic component, the one end and the spacing pothook butt of elastic component, the bottom surface butt in the other end and the groove of pressing.

Through adopting above-mentioned technical scheme, when the casement is opened to needs, through extrusion elastic component, make spacing pothook deviate from in the spacing draw-in groove, later outwards stimulate the extruded article can. And the elastic piece can be convenient for clamping the limiting clamping hook in the limiting clamping groove, and the limiting clamping hook can not be simply separated from the limiting clamping groove, so that the use is simple and convenient.

The utility model discloses further set up to: the length of the pressing clamping strip is equal to the width of the window sash, positioning rods are fixedly arranged at two ends of the side face, far away from the window sash, of the pressing clamping strip, and the positioning rods are perpendicular to the pressing clamping strip and penetrate through the window frame.

Through adopting above-mentioned technical scheme, compress tightly the card strip can be more complete with the third bed course butt on the horizontal side of casement, make this aluminum alloy sliding door's the ability of separation heat and wind-force stronger. The locating lever can be fine the restriction live the position that compresses tightly the card strip, makes the difficult skew that appears in the position that compresses tightly the card strip.

To sum up, the utility model discloses a beneficial technological effect does:

1. the external connection of other equipment for providing power is not needed, so that the use is more energy-saving and convenient;

2. effectively improving the heat and wind resistance of the aluminum alloy sliding door and window.

Drawings

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

FIG. 2 is a schematic structural view of the present invention after the upper part is hidden;

FIG. 3 is a schematic view of the installation of the compression clip strip;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is a schematic view of the mounting of the rotating shaft;

fig. 6 is a schematic view of the structure of the dust removing blade.

Reference numerals: 1. a window frame; 11. an inner frame; 12. an outer frame; 2. a window sash; 21. an inner window; 22. an outer window; 23. an embedding strip; 24. a groove is embedded; 25. a first cushion layer; 26. a second cushion layer; 3. extruding the hole; 31. an extrusion; 32. pressing the clamping strip; 33. a third pad layer; 34. positioning a rod; 35. pressing the groove; 36. a limit hook; 361. pressing the sheet; 362. a clamping block; 37. a pressing spring; 4. a dust removal device; 41. a rotating shaft; 42. a first pull cord; 43. a second pull cord; 44. a dust removal scraper; 45. a guide rail; 46. a guide block; 47. a torsion spring; 48. a shielding plate; 49. a rotating shaft; 5. a sprinkler pipe; 51. a water sprinkling hole; 52. a water tank; 53. and (4) a valve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the aluminum alloy sliding door and window with the blocking type energy-saving device comprises a window frame 1 and a window sash 2, wherein the window frame 1 comprises an inner frame 11 and an outer frame 12, the window sash 2 comprises an inner window 21 and an outer window 22, the inner window 21 is arranged in the inner frame 11, and the outer window 22 is arranged in the outer frame 12. When the window sash 2 is closed, the side surfaces of the inner window 21 and the outer window 22 which are far away from each other are provided with vertical embedded grooves 24, the side surfaces of the two vertical side edges of the window frame 1 which are close to each other are integrally formed with two vertical embedded strips 23, and the cross section of each embedded strip 23 is slightly smaller than that of each embedded groove 24. A first cushion layer 25 is adhered to the bottom surface of the insertion groove 24, the first cushion layer 25 is an elastic rubber strip, and the thickness of the elastic rubber layer is larger than the distance between the insertion strip 23 and the bottom surface of the insertion groove 24. The widths of the inner frame 11 and the outer frame 12 are both equal to one half of the sum of the width of the window frame 1 and the width of the vertical side edge of the window sash 2, namely when the window sash 2 is closed, the vertical edges of the inner window 21 and the outer window 22, which are close to each other, are attached together, the side surface of the inner window 21, which is attached to the outer window 22, and the side surface of the outer window 22, which is attached to the inner window 21, are both attached with a second cushion layer 26, and the second cushion layer 26 and the first cushion layer 25 are made of the. When the window sash 2 is closed, the gap between the sides of the inner window 21 and the outer window 22, which are attached to each other, is filled with the first cushion layer 25, and the gap between the window sash 2 and the window frame 1 is filled with the second cushion layer 26. The gap between the sides of the inner window 21 and the outer window 22, which are close to each other, and the gap between the vertical side of the window sash 2 and the vertical side of the window frame 1 are effectively reduced. The heat and wind resistance of the aluminum alloy sliding door and window is effectively improved.

As shown in fig. 3 and 4, when the window sash 2 is closed, the inner frame 11 (shown in fig. 1) and the horizontal edges of the outer frame 12 far from the inner frame 11 are both provided with the extrusion holes 3, and the extrusion holes 3 are located at positions adjacent to the horizontal edges of the window sash 2. Wear to be equipped with extruded piece 31 in extrusion hole 3, extruded piece 31 is close to one of interior window 21 and is served integrated into one piece and have the card strip 32 that compresses tightly, compresses tightly card strip 32 level setting, and the length that compresses tightly card strip 32 equals with the width of casement 2. An elastic rubber strip serving as a third cushion layer 33 is pasted on the side surface, close to the window sash 2, of the pressing and clamping strip 32, and the length of the third cushion layer 33 is equal to that of the pressing and clamping strip 32. And positioning rods 34 are fixedly arranged at the two ends of one side of the pressing and clamping strip 32, which is far away from the third cushion layer 33, and the positioning rods 34 are perpendicular to the pressing and clamping strip 32 and penetrate through the window frame 1. Because for the convenience of the sliding of the window sash 2, the sliding grooves are formed in the side faces of the window frame 1, which is attached to the horizontal edges of the window sash 2, the sliding strips matched with the sliding grooves are also arranged on the window frame 1, and the sliding strips and the sliding grooves are tightly attached under the pushing of the pressing clamping strips 32, so that the gap between the horizontal side edges of the window sash 2 and the horizontal edges of the window frame 1 is reduced. The heat and wind resistance of the aluminum alloy sliding door and window is well improved.

As shown in fig. 3 and 4, a pressing groove 35 is formed on a side surface of the pressing member 31, a limit hook 36 is integrally formed on one side of the pressing groove 35 close to the limit strip, and the limit hook 36 includes a pressing piece 361 and a latch 362. The length of the pressing piece 361 is equal to the length of the pressing groove 35, and the projection shape of the pressing piece 361 on the pressing member 31 is equal to the cross-sectional shape of the pressing groove 35. The latch 362 is integrally formed in the middle of the pressing piece 361 far from the pressing groove 35, and a limiting latch groove matching with the latch 362 is formed in the extrusion hole 3. A pressing spring 37 is installed in the pressing groove 35, one end of the pressing spring 37 is connected to one end of the pressing piece 361 away from the pressing strip 32, and the other end of the pressing spring 37 abuts against the bottom surface of the pressing groove 35. The third cushion layer 33 can be simply and conveniently attached to the horizontal side edge of the window sash 2 through the pressing piece, and the use is simple and convenient.

As shown in fig. 5 and 6, the window sash 2 (shown in fig. 1) includes a frame and a glass plate, and a dust removing device 4 is fixedly mounted on a side of the window sash 2 away from the indoor. The dust removing device 4 includes a horizontal rotation shaft 41, a dust removing blade 44, and a guide rail 45. The rotation shaft 41 is installed at the upper end of the window sash 2 at the lower side of the upper side of the frame. The first pulling ropes 42 are wound on both ends of the rotating shaft 41, the winding directions of the two first pulling ropes 42 are the same, one end of the first pulling rope 42 far away from the rotating shaft 41 is connected with a rotating shaft 49, and the rotating shaft 49 is parallel to the rotating shaft 41. The second cord 43 is connected to the rotating shaft 49, the winding direction of the second cord 43 is opposite to the winding direction of the first cord 42, and the lengths of the first cord 42 and the second cord 43 are both longer than the height of the glass plate. The length of the dust removal blade 44 is smaller than the length of the rotary shaft, and the rotary shaft is inserted into the dust removal blade 44. The guide rails 45 are vertical rods, the length of which is equal to the height of the glass plate. The guide rails 45 are provided in two numbers, and one guide rail is mounted on each of the side surfaces of the frame, which are close to each other on the left and right side edges thereof. Guide blocks 46 are integrally formed at both ends of the rotation shaft, the guide rail 45 passes through the guide blocks 46, and the guide blocks 46 slide along the guide rail 45. A torsion spring 47 is connected between the dust removing blade 44 and the guide block 46, and one end of the torsion spring 47 is connected to one end of the dust removing blade 44 and the other end is connected to the guide block 46. When the outer side of the sliding door is required to be cleaned, the first pull rope 42 is pulled to drive the dust removal scraper 44 to move downwards, and the dust removal scraper is always abutted against the glass plate under the action of the guide block 46 and the guide rail 45, so that the outer side face of the sliding door is cleaned. When it is necessary to raise the dust removal blade 44, the dust removal blade 44 can be raised by pulling the second pulling rope 43. A shielding plate 48 is fixedly arranged at the upper end of the frame, is positioned at the same height as the rotating shaft, is positioned at one side of the rotating shaft 41 far away from the glass plate, and is embedded inside the frame by the shielding plate 48. When the window is not used in normal times, the dust removal scraper 44 is lifted between the shielding plate 48 and the glass plate, and the whole window is neat and attractive when viewed from the outside. And the dust removal scraper 44 is well protected, so that the dust removal scraper 44 is not easily damaged. When the sash 2 is pushed, the pushing of the sash 2 is not hindered because the side of the shielding plate 48 remote from the glass plate is located in the entire frame.

As shown in fig. 5 and 6, the horizontal water spray pipe 5 is bonded to the dust removal blade 44, and the length of the water spray pipe 5 is equal to the length of the dust removal blade 44 and is located on the side of the dust removal blade 44 close to the glass sheet. The side wall of the sprinkling pipe 5 near the glass plate is provided with sprinkling holes 51, and the sprinkling holes 51 are arranged along the sprinkling pipe 5 in an array. Referring to fig. 1, a water tank 52 is fixedly installed on the upper side of the window sash 2, a hose is connected to the bottom surface of the water tank 52, a valve 53 is installed on the hose, and the valve 53 is fixedly connected to one end of the sprinkler pipe 5. When the sprinkling is needed, the sprinkling pipe 5 is sprinkled on the side of the glass plate by opening the valve 53 connected to the hose. Can be convenient for clean, the clear effect is better. The water tank 52 can be connected with a rainwater collecting pipe of a room or a cooling water pipe of an air conditioner, so that water resources can be well utilized. And such structure relies on the manual work completely and can be simple wash, need not other external equipment that provide power, uses more energy-conservation and convenience.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an aluminum alloy sliding door with block formula economizer, includes window frame (1) and casement (2), and window frame (1) includes inside casing (11) and frame (12), and casement (2) are including setting up interior window (21) in inside casing (11) and setting up exterior window (22) in frame (12), and casement (2) are including the frame and install the glass board in the frame, casement (2) on fixed mounting have dust collector (4), indoor one side is kept away from in dust collector (4) fixed mounting in casement (2), its characterized in that: the dust removal device (4) comprises a rotating shaft (41), a dust removal scraper (44), a guide rail (45) and a water tank (52), wherein the rotating shaft (41) is horizontally arranged at the upper end of the window sash (2) and is positioned at the lower side of the upper side edge of the frame, the dust removal scraper (44) is parallel to the rotating shaft (41), the dust removal scraper (44) and the rotating shaft (41) are connected through a first pull rope (42), the guide rail (45) is respectively installed on the side surfaces, close to each other, of the left side edge and the right side edge of the frame, two ends of the dust removal scraper (44) are respectively provided with a guide block (46), the guide blocks (46) move along the guide rail (45), the dust removal scraper (44) is provided with a sprinkling pipe (5), sprinkling holes (51) are formed in the side wall of the sprinkling pipe (5), the water tank (52) is arranged on the upper side edge of the window, the valve (53) is connected with the sprinkler pipe (5) on the dust removal scraper (44).

2. The aluminum alloy sliding door and window with the block type energy saving device according to claim 1, wherein: the rotating shaft (41) is connected with a second pull rope (43), the direction of the second pull rope (43) wound on the rotating shaft (41) is opposite to the direction of the first pull rope (42) wound on the rotating shaft (41), and the lengths of the first pull rope (42) and the second pull rope (43) are both larger than the height of the glass plate.

3. The aluminum alloy sliding door and window with the block type energy saving device according to claim 2, wherein: the dust removal scraper blade is characterized in that a rotating shaft (49) is connected between the two guide blocks (46), the dust removal scraper blade (44) is rotatably installed on the rotating shaft (49), torsion springs (47) are connected to two ends of the dust removal scraper blade (44), and the other ends of the torsion springs (47) are connected with the guide blocks (46).

4. The aluminum alloy sliding door and window with the block type energy saving device according to claim 3, wherein: the glass plate frame is characterized in that a shielding plate (48) is fixedly mounted at the upper end of the frame, the shielding plate (48) and the rotating shaft (41) are located at the same height and located on one side, away from the glass plate, of the rotating shaft (41), and the shielding plate (48) is embedded inside the frame.

5. The aluminum alloy sliding door and window with the block type energy saving device according to claim 1, wherein: when the window sash (2) is closed, a first cushion layer (25) is fixedly arranged on the side face where the inner window (21) and the outer window (22) are mutually attached, an embedded groove (24) is formed in the side face where the inner window (21) and the outer window (22) are mutually far away, an embedded strip (23) is fixedly arranged on the side face where two vertical side edges of the window frame (1) are mutually close, the embedded strip (23) is embedded in the embedded groove (24), a second cushion layer (26) is fixedly arranged on the inner side face of the embedded groove (24), a pressing clamping strip (32) is arranged on the side face where the inner frame (11) and the outer frame (12) are mutually far away, the pressing clamping strip (32) is arranged on the horizontal edge where the inner frame (11) and the inner window (21) are adjacent and the horizontal edge where the outer frame (12) and the outer window (22) are adjacent, a third cushion layer (33) is fixedly arranged on the pressing clamping strip (32), and the third cushion layer (33) is positioned between the pressing clamping strip (32) and the window sash (2), an extrusion part (31) is arranged on the window frame (1), and the extrusion part (31) pushes the pressing clamping strip (32) to enable the pressing clamping strip to be abutted against the window sash (2).

6. The aluminum alloy sliding door and window with the block type energy saving device according to claim 5, wherein: window frame (1) on seted up extrusion hole (3), extrusion spare (31) are worn to establish in extrusion hole (3), and extrusion spare (31) with compress tightly card strip (32) butt, the fixed spacing draw-in groove that is provided with on the inside wall in extrusion hole (3), fixed spacing pothook (36) that are provided with the spacing draw-in groove of cooperation on extrusion spare (31), when spacing pothook (36) and spacing draw-in groove joint, extrusion spare (31) promote to compress tightly card strip (32) and make it and casement (2) butt.

7. The aluminum alloy sliding door and window with the block type energy saving device according to claim 6, wherein: the position department that extruded article (31) were provided with spacing pothook (36) seted up and press groove (35), press and install the elastic component in groove (35), the one end and the butt of spacing pothook (36) of elastic component, the other end and the bottom surface butt of pressing groove (35).

8. The aluminum alloy sliding door and window with block type energy saving device according to claim 7, wherein: the length of the pressing clamping strip (32) is equal to the width of the window sash (2), positioning rods (34) are fixedly arranged at two ends of the side face, far away from the window sash (2), of the pressing clamping strip (32), and the positioning rods (34) are perpendicular to the pressing clamping strip (32) and penetrate through the window frame (1).

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