CN115263164B - Detachable aluminum-wood composite energy-saving window and installation method thereof - Google Patents

Abstract

The application discloses a detachable aluminum-wood composite energy-saving window relates to the technical field of doors and windows, and comprises a window frame and a window sash, wherein the window sash is in sliding connection with the window frame, the window frame comprises a bottom frame, a water baffle is arranged at one side, close to the indoor side, of the top of the bottom frame, a containing groove is formed in the bottom frame, a water storage box is arranged in the bottom frame, the water storage box is provided with the water storage groove, a plurality of water inlets are formed in the top of the bottom frame, a transition groove is formed in the bottom frame, a plurality of connecting holes which are connected with the transition groove and the containing groove are formed in the bottom frame, and a water outlet is formed in the bottom frame; the mounting groove has been seted up in the underframe, has articulated the spray tube in the mounting groove, is provided with the extrusion ball in the underframe, and extrusion ball periphery side is provided with the hose, and the underframe slides and is provided with the stripper plate, and the underframe is provided with control assembly, and the control assembly control stripper plate is kept away from the extrusion ball when the water storage box is close to the extrusion ball, and the water storage box is provided with power component. The utility model can reduce the possibility that rainwater overflows into the room.

Description

Detachable aluminum-wood composite energy-saving window and installation method thereof

Technical Field

The application relates to the technical field of doors and windows, in particular to a detachable aluminum-wood composite energy-saving window and an installation method thereof.

Background

The aluminum-wood composite window adopts an external aluminum-internal wood structure mode, and most of glass adopts multi-layer hollow toughened glass.

At present, chinese patent publication No. CN213742933U discloses a detachable aluminum-wood composite energy-saving window, which comprises a window frame and a window sash in sliding fit with the window frame, wherein the window sash comprises a sash frame and hollow glass, and the window frame comprises an aluminum outer frame, a wood inner frame and a plurality of groups of connecting assemblies for connecting the aluminum outer frame and the wood inner frame. The fan frame slides in wooden inside casing, has certain clearance between two fan frames, and convenient slip has certain interval between fan frame and the wooden inside casing simultaneously, reduces the frictional force that produces when the fan frame slides.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: the rain amount is large when heavy rain is caused, and the rain water easily overflows into the room.

Disclosure of Invention

In order to reduce the possibility of rainwater overflowing into a room, the application provides a detachable aluminum-wood composite energy-saving window and an installation method thereof.

In a first aspect, the present application provides a detachable aluminum-wood composite energy-saving window, which adopts the following technical scheme:

the utility model provides a but split formula aluminum wood composite energy-saving window, includes window frame and casement, casement sliding connection is in the window frame, the window frame includes the underframe, the underframe top is close to indoor one side and is provided with the breakwater, set up the holding tank in the underframe, the underframe is provided with the water storage box that slides in the holding tank from top to bottom, the water storage box has been seted up the aqua storage tank, a plurality of water inlets just facing the aqua storage tank are seted up at the underframe top, the underframe is provided with the elastic driving piece that drives the water storage box and is close to the water inlet, set up the transition groove that is located under the aqua storage tank in the underframe, the underframe has been seted up a plurality of connecting holes that link through the transition groove and holding tank, the water storage box bottom intercommunication is provided with the delivery port that corresponds one by one and slides in the connecting hole from top to bottom, the underframe is seted up with the delivery port that communicates with the transition groove towards outdoor one side;

the bottom frame is internally provided with a mounting groove which is in one-to-one correspondence with the connecting holes and is communicated with the connecting holes, the mounting groove is internally hinged with a spray pipe, the bottom frame is internally provided with extrusion balls which can elastically deform, the periphery side of the extrusion balls is provided with hoses which are in one-to-one correspondence with the spray pipes and are communicated with the spray pipe, the bottom frame is slidably provided with an extrusion plate used for extruding the extrusion balls, the bottom frame is provided with a control component, the control component controls the extrusion plate to extrude the extrusion balls when the water storage box is far away from the water inlet, the control assembly controls the extrusion plate to relax the extrusion ball when the water storage box is far away from the extrusion ball, the water storage box is provided with a power assembly for driving the spray pipe to swing up and down, the power assembly drives the spray pipe to the pipe opening to face the connecting hole to be far away from one side of the water inlet when the extrusion plate extrudes the extrusion ball, and the power assembly drives the spray pipe to the pipe opening to face the connecting hole to be close to one side of the water inlet when the extrusion plate is far away from the extrusion ball.

Through adopting above-mentioned technical scheme, when the rainwater falls to the underframe top, in entering the water storage box through the water inlet, the weight of water storage box increases this moment, begins to move towards keeping away from the water inlet direction. Then the power component controls the spray pipe to turn over to the pipe orifice and keep away from one side of the water inlet towards the connecting hole, and meanwhile, the control component controls the extrusion plate to extrude the extrusion ball, so that the flow rate of the water flowing through the connecting hole is increased by the spray pipe sprayed out of the air flow or the water flow, the flow rate of the water in the water storage box is improved, the water discharge speed of the water in the water storage box is improved, negative pressure is formed in the water storage box at the moment, rainwater at the top of the bottom frame is accelerated to enter the water storage box, and the possibility that the water overflows into a room is reduced. And when the water flow in the water storage box is reduced, the power assembly controls the spray pipe to turn over to the side, close to the water inlet, of the pipe orifice towards the connecting hole, and then the extrusion assembly drives the extrusion plate to be far away from the extrusion ball, so that the spray pipe attracts the water flow, the speed of the water flow flowing through the connecting hole is improved, and the water flow in the water storage box is further accelerated to be discharged.

Optionally, control assembly includes extrusion post and extrusion spring, the extrusion post includes interior post and outer post, the outer post sets up in water storage box bottom, the gliding extrusion groove from top to bottom in the confession is seted up to the outer post, the interior post is connected in the stripper plate top, extrusion spring sets up in the extrusion inslot, extrusion spring one end butt is in interior post top, the other end butt in the outer post, stripper plate opposite sides lateral wall is provided with the sliding tooth respectively, the underframe is provided with the connecting tooth with sliding tooth one-to-one, sliding tooth slides in the connecting tooth when the stripper plate extrudes or keeps away from the extrusion ball, the outer post is provided with the restriction piece that is used for restricting interior post and breaks away from the extrusion groove.

Through adopting above-mentioned technical scheme, when the water storage box slides downwards, the interior post extrudees extrusion spring, when extrusion spring elasticity was accumulated to certain degree, and the slip tooth slides in the connection tooth for the interior post drives stripper plate extrusion ball in the twinkling of an eye under extrusion spring's promotion, makes spray tube spun rivers or air promote the speed of connecting Kong Naliu through the rivers, forms the negative pressure in the water storage box at this moment and makes the speed of underframe top rivers entering the water storage box promote.

Optionally, the limiting piece is a limiting block, the limiting block is arranged on the wall of the extrusion groove, and the outer wall of the inner column is provided with a limiting groove for the limiting block to slide up and down.

By adopting the technical scheme, the limiting block slides in the limiting groove during use, so that the possibility that the inner column is separated from the outer column is reduced.

Optionally, the extrusion plate is fixedly connected with the extrusion ball, and one side, away from the extrusion plate, of the extrusion ball is fixedly connected with the bottom frame.

By adopting the technical scheme, the extrusion plate drives the extrusion ball to recover the state before deformation during use, and the air or water flow sucking capacity of the spray pipe is improved.

Optionally, the power assembly includes power post and power cover, power cover slip cap locates the spray tube periphery side, power post one end articulates in power cover, and the other end is connected in water storage box bottom.

By adopting the technical scheme, when the water storage box slides downwards, the driving column drives the spray pipe to turn downwards, so that the side, close to the water outlet, of the pipe orifice of the spray pipe faces the connecting hole; when the water storage box slides upwards, the driving column drives the spray pipe to turn upwards, so that the side, close to the water inlet, of the orifice of the spray pipe faces the connecting hole.

Optionally, the elastic driving piece is driving spring, driving spring has a plurality ofly and sets up in the holding tank, driving spring's one end butt in water storage box bottom, the other end butt in holding tank bottom cell wall.

Through adopting above-mentioned technical scheme, upwards drive water storage box when the drive spring elasticity release makes the water storage box be close to the water inlet when supporting the water storage box.

Optionally, the underframe articulates there is the closure plate that is used for sealing the water inlet, the underframe is provided with the torsional spring that drives the closure plate and seal the water inlet when the water storage box is close to the water inlet, the water storage box bottom is provided with the drive post that slides from top to bottom in the underframe, the closure plate lateral wall is provided with the drive piece that corresponds with the drive post, the drive face that supplies the drive post gliding is seted up to the drive piece slope, the water inlet is opened to the closure plate when the drive post slides in the drive face.

By adopting the technical scheme, the driving column pushes the sealing plate to open the water outlet when sliding on the driving surface, so that rainwater is conveniently discharged.

In a second aspect, the present application provides a method for installing a detachable aluminum-wood composite energy-saving window, which adopts the following technical scheme:

the method for installing the detachable aluminum-wood composite energy-saving window comprises the following steps of: firstly, the bottom frame is fixedly connected with the window frame, then the window frame is fixed on a wall body, the water outlet faces to one side of the outdoor, and finally, the window sashes are slidably installed on the window frame.

By adopting the technical scheme, rainwater falls on the top of the bottom frame during raining, and then the rainwater is discharged from the water outlet after passing through the bottom frame, so that the possibility that the rainwater overflows into a room is reduced.

In summary, the present application includes at least one of the following beneficial effects:

1. rainwater enters the water storage box through the water inlet, meanwhile, the squeezing ball is squeezed or loosened during drainage, so that the speed of water flow flowing through the connecting hole is increased, and the drainage speed of water flow in the water storage box is improved;

2. when the water storage box is close to the water inlet, the water outlet is closed through the closing plate, so that the possibility that mosquitoes enter the water inlet when not in use is reduced.

Drawings

FIG. 1 is a schematic view of the external structure of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of an embodiment of the present application showing a spout in a pre-movement state toward a cartridge;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a schematic cross-sectional view of an embodiment of the present application showing the spout after movement toward the cartridge;

fig. 5 is an enlarged schematic view of a portion B of fig. 4.

Reference numerals: 1. a window frame; 2. a bottom frame; 21. a receiving groove; 22. a water inlet; 23. a transition groove; 24. a transition section; 25. a connection hole; 251. a mounting groove; 26. a closing plate; 261. a water outlet; 262. a torsion spring; 263. a drive column; 264. a driving block; 265. a driving surface; 27. a spray pipe; 271. extruding the ball; 272. a hose; 273. an extrusion plate; 274. sliding teeth; 28. a placement groove; 281. a connecting tooth; 29. a drive spring; 3. window sashes; 4. a water storage box; 41. a water storage tank; 42. a transmission tube; 5. an extrusion column; 51. extruding a spring; 52. an outer column; 521. an extrusion groove; 522. a limiting groove; 53. an inner column; 531. a limiting block; 6. a power assembly; 61. a power column; 62. a power sleeve.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a detachable aluminum-wood composite energy-saving window. Referring to fig. 1, the detachable aluminum-wood composite energy-saving window comprises a window frame 1 and a window sash 3, wherein the window frame 1 is installed and fixed on a wall body, the window frame 1 comprises a bottom frame 2, and the bottom frame 2 is fixedly connected with the window frame 1. The window sashes 3 are fixedly connected with glass, the window sashes 3 are multiple and are arranged in the window frame 1, and the window sashes 3 are in sliding connection with the bottom frame 2, so that the indoor and the outdoor can be communicated with each other.

Referring to fig. 2 and 3, a water baffle is fixedly connected to one side, close to the room, of the top of the bottom frame 2, and is used for blocking rainwater and reducing the possibility that rainwater directly flows into the room. The window frame 1 is provided with a receiving groove 21 therein, and the receiving groove 21 extends along the longitudinal direction of the bottom frame 2. The underframe 2 is provided with a plurality of water storage boxes 4, the water storage boxes 4 slide up and down in the accommodating groove 21, the adjacent water storage boxes 4 are in sliding contact, and the top of the water storage box 4 is provided with a water storage groove 41 extending downwards. A plurality of water inlets 22 are formed in the top of the bottom frame 2, the water inlets 22 are aligned with the water storage tank 41, rainwater on the bottom frame 2 flows into the water storage tank 41 through the water inlets 22, the rainwater at the top of the bottom frame 2 is not timely discharged when the rain is large, and at the moment, the rainwater can flow into the water storage tank 41, so that the possibility that the rainwater overflows into a room is reduced. The bottom frame 2 is of a two-half structure, so that the water storage box 4 and other parts can be conveniently installed, and the two-half bottom frame 2 is fixedly connected after the installation is completed.

Referring to fig. 2 and 3, the bottom frame 2 is provided with an elastic driving member for supporting the water storage cartridge 4 such that the water storage cartridge 4 is adjacent to the water inlet 22. The elastic driving piece is a plurality of driving springs 29, the driving springs 29 are uniformly arranged in the accommodating groove 21, one end of each driving spring 29 is abutted against the bottom of the water storage box 4, and the other end is abutted against the groove wall at the bottom of the accommodating groove 21. In use, the drive spring 29 is resiliently released to urge the water storage cartridge 4 to slide upwardly against the top channel wall of the receiving channel 21.

Referring to fig. 2 and 3, a transition groove 23 is formed in the bottom frame 2, the transition groove 23 extends along the length direction of the bottom frame 2, the transition groove 23 is located right below the accommodating groove 21, and a portion between the transition groove 23 and the accommodating groove 21 is a transition portion 24. The transition portion 24 is provided with a plurality of connection holes 25 at uniform intervals, and the connection holes 25 communicate with the receiving groove 21 and the transition groove 23. The bottom of the water storage box 4 is fixedly connected with a transmission pipe 42 which corresponds to the connecting holes 25 one by one and slides up and down in the connecting holes 25, and the transmission pipe 42 is communicated with the water storage tank 41. In use, rainwater in the water storage box 4 flows into the transition groove 23 through the transmission pipe 42. The water storage box 4 is provided with a guide block which is in a triangular prism structure and is fixed on the groove wall at the bottom of the water storage groove 41 and used for guiding rainwater to the transmission pipe 42 so as to reduce the quantity of rainwater residues in the water storage groove 41.

Referring to fig. 3, a side wall of the bottom frame 2, which faces the outside, is provided with a water outlet 261, the water outlet 261 is communicated with a transition groove 23, and rainwater in the transition groove 23 is discharged through the water outlet 261. The bottom frame 2 is hinged with the closing plate 26 through a hinge, and the hinge point is positioned at the top of the closing plate 26 and used for closing the water outlet 261, so that the transition groove 23 is concealed on one hand, and the possibility that mosquitoes enter the transition groove 23 when the water outlet 261 is not used is reduced on the other hand.

Referring to fig. 2 and 3, two supporting blocks are symmetrically fixed on one side of the bottom frame 2, which faces the outside, the supporting blocks are located right above the closing plate 26, a hinge shaft is rotatably connected between the two supporting blocks, a torsion spring 262 is sleeved on the outer periphery of the hinge shaft, one end of the torsion spring 262 is abutted to the wall of the connecting groove, and the other end of the torsion spring 262 is abutted to one side, away from the transition groove 23, of the closing plate 26. In use, the torsion spring 262 is elastically released to push the closing plate 26 to turn towards the transition groove 23, so that the closing plate 26 closes the transition groove 23. The bottom of the water storage box 4 is fixedly connected with a driving column 263, the driving column 263 vertically slides through the transition part 24, and the driving column 263 is positioned close to the sealing plate 26. The side of the closing plate 26 facing away from the outside is fixedly connected with a driving block 264, the top of the driving block 264 is obliquely provided with a driving surface 265, and in an initial state, the driving surface 265 faces the driving column 263. When the amount of rainwater in the water storage box 4 increases, the water storage box 4 slides downwards under the action of gravity, and at the moment, the driving post 263 slides on the driving surface 265 to push the closing plate 26 to turn over outdoors, so that the water inlet 22 is opened, and at the moment, the torsion spring 262 enters an elastic shrinkage state.

Referring to fig. 3, the wall of the peripheral hole of the connection hole 25 is provided with a mounting groove 251, the transition portion 24 is provided with a spray pipe 27, two rotating shafts are symmetrically fixed on the peripheral side of the spray pipe 27, and the rotating shafts are rotatably connected to the groove walls on two opposite sides of the mounting groove 251, so that the spray pipe 27 can turn up and down, and in an initial state, the mouth of the spray pipe 27 faces the connection hole 25.

Referring to fig. 4 and 5, a placement groove 28 is formed in the transition portion 24, a hollow squeeze ball 271 is disposed at the bottom, the squeeze ball 271 is made of a material capable of being elastically deformed, such as a rubber material or a silica gel material, the squeeze ball 271 is mounted in the placement groove 28, and the outer peripheral side of the squeeze ball 271 is fixed to the bottom groove wall of the placement groove 28. The transition portion 24 is slidably provided with a plurality of hoses 272, the hoses 272 and the spray pipes 27 are in one-to-one correspondence, one end of each hose 272 is connected to a pipe orifice on one side of the spray pipe 27 away from the spray pipe, and the other end is connected to a position, close to the bottom, of the squeeze bulb 271. When the squeeze bulb 271 is squeezed, air in the squeeze bulb 271 flows through the hose 272 to the spout 27, and finally is ejected from the spout 27.

Referring to fig. 4 and 5, the transition portion 24 is provided with a squeeze plate 273, and the squeeze plate 273 is slidably installed in the placement groove 28 up and down, and the bottom of the squeeze plate 273 is fixedly connected to the top peripheral side of the squeeze bulb 271 for squeezing the squeeze bulb 271. The base frame 2 is provided with a control unit for controlling the pressing plate 273 to slide up and down to press or release the pressing ball 271.

Referring to fig. 3 and 5, the control assembly includes a pressing column 5 and a pressing spring 51, the pressing column 5 includes an inner column 53 and an outer column 52, the outer column 52 is fixed at the bottom of the water storage box 4, a communicating hole communicating with the accommodating groove 21 is formed in the top wall of the accommodating groove 28, and the outer column 52 slides up and down in the communicating hole. The bottom of the outer column 52 is provided with a pressing groove 521 extending in a vertical direction, the inner column 53 is slidably connected to the pressing groove 521 up and down, and one end of the inner column 53, which is far from the water storage case 4, is fixed to the top of the pressing plate 273. The pressing spring 51 is installed in the pressing groove 521, one end of the pressing spring 51 is abutted against the top of the inner column 53, and the other end is abutted against the top groove wall of the pressing groove 521. In use, the compression spring 51 is elastically released to push the inner post 53 downward, so that the inner post 53 drives the compression plate 273 to compress the compression ball 271. The outer post 52 is provided with a restriction for restricting the position of the inner post 53. The limiting piece is a limiting block 531, the limiting block 531 is fixed on the wall of the extrusion groove 521, the limiting groove 522 is formed in the communication of the outer peripheral side wall of the inner column 53, the limiting block 531 slides up and down in the limiting groove 522, and the possibility that the inner column 53 is separated from the extrusion groove 521 is reduced. The restricting block 531 is made of an elastic material, and the restricting block 531 is pressed into the restricting groove 522 when mounted.

Referring to fig. 3 and 5, opposite sides of the placement groove 28 are vertically and fixedly sealed and connected with opposite connection teeth 281, the connection teeth 281 are of an equilateral triangular prism structure, and one side end face of the equilateral triangle of the connection teeth 281 is vertically arranged. The two side walls of the squeeze plate 273 facing the connecting teeth 281 are respectively and fixedly connected with sliding teeth 274, the structure of the sliding teeth 274 is the same as that of the connecting teeth 281, and the connecting teeth 281 are in one-to-one correspondence with the sliding teeth 274. In the initial state, the sliding tooth 274 is located above the connecting tooth 281 and abuts against the connecting tooth 281, and the bottom groove wall of the limiting groove 522 abuts against the bottom side wall of the limiting block 531. The connecting teeth 281 and the sliding teeth 274 are made of metal materials with certain elastic deformation capability, when the amount of rainwater in the water storage box 4 is continuously increased, the weight of the water storage box 4 starts to gradually slide downwards, the inner column 53 slides downwards at the moment, the extrusion spring 51 enters an elastic shrinkage state, when the extrusion spring 51 elastically shrinks to a certain strength, the extrusion spring 51 pushes the inner column 53 to enable the sliding teeth 274 to slide downwards on the connecting teeth 281 until the sliding teeth 274 slide below the connecting teeth 281, and at the moment, the extrusion spring 51 pushes the extrusion plate 273 to extrude the extrusion ball 271 through the inner column 53 until the limiting block 531 abuts against the bottom groove wall of the limiting groove 522. When the water flow in the water storage box 4 continuously flows out and the weight of the water storage box 4 is reduced, the driving spring 29 pushes the water storage box 4 to move upwards, at this time, the groove wall at the bottom of the limiting groove 522 is abutted against the limiting block 531, and the outer column 52 moves upwards to drive the inner column 53 to move upwards, so that the squeeze plate 273 releases the squeeze ball 271 until the sliding tooth 274 slides upwards on the connecting tooth 281 to the position where the sliding tooth 274 is located above the connecting tooth 281.

Referring to fig. 3 and 5, the water storage box 4 is provided with a power component 6, and when the water storage box 4 slides up and down, the power component 6 controls the spray pipe 27 to turn over, and the direction of the nozzle of the spray pipe 27 is adjusted. The power assembly 6 comprises power columns 61 and power sleeves 62, the power columns 61 are in one-to-one correspondence with the spray pipes 27, the power columns 61 vertically slide through the transition portions 24, the power sleeves 62 are sleeved on the outer peripheral sides of the spray pipes 27, and the power sleeves 62 are positioned on one side of the rotating shafts close to the connecting holes 25. One end of the power column 61 is fixed to the bottom of the water storage box 4, and the other end is hinged to the outer peripheral side of the power sleeve 62.

Referring to fig. 3 and 5, when the water storage box 4 slides downwards, the driving post 263 drives the spray pipe 27 to turn downwards, so that the pipe orifice of the spray pipe 27 faces one side of the connecting hole 25 close to the transition groove 23, when the extrusion plate 273 extrudes the extrusion ball 271 at this time, air or water in the extrusion ball 271 is ejected through the spray pipe 27 and flows into the water flowing through the connecting hole 25, so that the flow velocity of the water increases, the drainage speed of rainwater in the water storage box 4 is improved, and the speed of the rainwater at the top of the bottom frame 2 entering the water storage box 4 is improved by forming negative pressure in the water storage box 4. When the water storage box 4 moves upwards, the driving column 263 drives the spray pipe 27 to turn upwards, so that the pipe mouth of the spray pipe 27 faces one side of the connecting hole 25, which is close to the water inlet 22, and at the moment, the squeeze plate 273 loosens the squeeze ball 271, so that the elastic deformation of the squeeze ball 271 is recovered, at the moment, the spray pipe 27 absorbs water flowing through the connecting hole 25, the flow rate of rainwater flowing through the connecting hole 25 is improved, negative pressure is formed in the water storage box 4, and the speed of rainwater at the top of the bottom frame 2 entering the water storage box 4 is accelerated.

The implementation principle of the detachable aluminum-wood composite energy-saving window provided by the embodiment of the application is as follows:

rainwater at the top of the lower rainwater underframe 2 enters the water storage box 4 through the water inlet 22, the drainage speed of the rainwater at the top of the underframe 2 is improved, then the rainwater in the water storage box 4 flows into the transition groove 23 through the connecting hole 25 and is discharged through the water outlet 261, meanwhile, in the drainage process, the squeeze ball 271 is squeezed or relaxed, so that the water flow is sprayed or sucked by the spray pipe 27, the flow speed of the water flowing through the air lifting connecting hole 25 is further improved, the drainage speed of the rainwater at the top of the underframe 2 is further improved, and the possibility that the rainwater at the top of the underframe 2 overflows into a room is reduced.

On the other hand, the application discloses an installation method of a detachable aluminum-wood composite energy-saving window, which comprises the following steps:

the bottom frame 2 is first fixedly connected with the window frame 1, then the window frame 1 is fixed to the wall body such that the water outlet 261 faces to the outdoor side, and finally the window sash 3 is slidably mounted to the window frame 1.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a but split formula aluminum-wood composite energy-saving window which characterized in that: the novel water storage device comprises a window frame (1) and a window sash (3), wherein the window sash (3) is in sliding connection with the window frame (1), the window frame (1) comprises a bottom frame (2), a water baffle is arranged on one side, close to the room, of the top of the bottom frame (2), a containing groove (21) is formed in the bottom frame (2), the bottom frame (2) is provided with a water storage box (4) which slides up and down in the containing groove (21), the water storage box (4) is provided with a water storage groove (41), the top of the bottom frame (2) is provided with a plurality of water inlets (22) which are opposite to the water storage groove (41), the bottom frame (2) is provided with elastic driving parts which drive the water storage box (4) to be close to the water inlets (22), a plurality of connecting holes (25) which are connected with the water storage groove (23) and the containing groove (21) are formed in the bottom frame (2), and the bottom of the bottom frame (2) is communicated with one another through a plurality of connecting holes (25) which are opposite to one another, and the water storage groove (23) is formed in the bottom frame (2), and the water storage box (2) is communicated with one side of the water outlet (261);

the utility model discloses a water storage box, which is characterized in that a mounting groove (251) which is connected with a connecting hole (25) in a one-to-one manner is formed in a bottom frame (2), a spray pipe (27) is hinged in the mounting groove (251), a squeeze ball (271) which can elastically deform is arranged in the bottom frame (2), hoses (272) which are in one-to-one correspondence with the spray pipe (27) and are communicated with the spray pipe (27) are arranged on the periphery side of the squeeze ball (271), a squeeze plate (273) for squeezing the squeeze ball (271) is arranged on the bottom frame (2) in a sliding manner, a control component is arranged on the bottom frame (2), the control component is used for controlling the squeeze plate (273) to squeeze the squeeze ball (271), the control component is used for controlling the squeeze ball (271) to be released by the water storage box (4) away from a water inlet (22), a power component (6) which is used for driving the spray pipe (27) to swing up and down is arranged on the squeeze plate (273) when the squeeze ball (271), the power component (6) is used for driving the spray pipe (27) to be connected to one side of the water inlet (25) away from the water inlet (22), when the extrusion plate (273) is far away from the extrusion ball (271), the power assembly (6) drives the spray pipe (27) to the side, close to the water inlet (22), of the pipe orifice towards the connecting hole (25).

2. The detachable aluminum-wood composite energy-saving window according to claim 1, wherein: the control assembly comprises an extrusion column (5) and an extrusion spring (51), the extrusion column (5) comprises an inner column (53) and an outer column (52), the outer column (52) is arranged at the bottom of the water storage box (4), an extrusion groove (521) for the inner column (53) to slide up and down is formed in the outer column (52), the inner column (53) is connected to the top of the extrusion plate (273), the extrusion spring (51) is arranged in the extrusion groove (521), one end of the extrusion spring (51) is abutted to the top of the inner column (53), the other end of the extrusion spring is abutted to the outer column (52), sliding teeth (274) are respectively arranged on the side walls of two opposite sides of the extrusion plate (273), connecting teeth (281) corresponding to the sliding teeth (274) one by one are arranged on the bottom frame (2), the sliding teeth (274) slide on the connecting teeth (281) when the extrusion plate (273) extrudes or is far away from the extrusion ball (271), and the outer column (52) is provided with a limiting piece for limiting the separation of the inner column (53) from the extrusion groove (521).

3. The detachable aluminum-wood composite energy-saving window according to claim 2, wherein: the limiting piece is a limiting block (531), the limiting block (531) is arranged on the wall of the extrusion groove (521), and a limiting groove (522) for the limiting block (531) to slide up and down is formed in the outer wall of the inner column (53).

4. The detachable aluminum-wood composite energy-saving window according to claim 2, wherein: the extrusion plate (273) is fixedly connected with the extrusion ball (271), and one side, far away from the extrusion plate (273), of the extrusion ball (271) is fixedly connected with the bottom frame (2).

5. The detachable aluminum-wood composite energy-saving window according to claim 4, wherein: the power assembly (6) comprises a power column (61) and a power sleeve (62), the power sleeve (62) is slidably sleeved on the outer peripheral side of the spray pipe (27), one end of the power column (61) is hinged to the power sleeve (62), and the other end of the power column is connected to the bottom of the water storage box (4).

6. The detachable aluminum-wood composite energy-saving window according to claim 1, wherein: the elastic driving piece is a driving spring (29), a plurality of driving springs (29) are arranged in the accommodating groove (21), one end of each driving spring (29) is abutted to the bottom of the water storage box (4), and the other end of each driving spring is abutted to the groove wall at the bottom of the accommodating groove (21).

7. The detachable aluminum-wood composite energy-saving window according to claim 1, wherein: the water inlet sealing device is characterized in that the bottom frame (2) is hinged with a sealing plate (26) used for sealing the water inlet (22), the bottom frame (2) is provided with a torsion spring (262) used for driving the sealing plate (26) to seal the water inlet (22) when the water storage box (4) is close to the water inlet (22), the bottom of the water storage box (4) is provided with a driving column (263) which slides up and down in the bottom frame (2), the side wall of the sealing plate (26) is provided with a driving block (264) corresponding to the driving column (263), the driving block (264) is obliquely provided with a driving surface (265) used for driving the driving column (263) to slide, and the sealing plate (26) is used for opening the water inlet (22) when the driving column (263) slides on the driving surface (265).

8. A method for installing a detachable aluminum-wood composite energy-saving window, which is characterized by comprising the following steps of: firstly, the bottom frame (2) is fixedly connected with the window frame (1), then the window frame (1) is fixed on a wall body, the water outlet (261) faces to one side of the outdoor, and finally the window sash (3) is slidably mounted on the window frame (1).

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