CN117365250B - Door and window water storage device, control method of door and window water storage device and door and window - Google Patents

Abstract

The application provides a door and window water storage device, door and window water storage device's control method and door and window relates to door and window technical field, through being connected this door and window water storage device with the window frame, this door and window water storage device includes the water storage chamber and sets up the drainage spring device in the water storage chamber, and the water storage chamber is including separating first cavity and the second cavity that set up, and first cavity has the first water guide hole with the delivery port intercommunication of window frame and the second water guide hole with the second cavity intercommunication. The drainage spring device penetrates through the first cavity and the second cavity through the second water guide hole, and the drainage spring device is triggered to drain rainwater in the first cavity. Therefore, the door and window water storage device has the advantages of simple structure, convenient drainage, capability of storing rainwater for users, and capability of preventing seepage and mosquito breeding.

Description

Door and window water storage device, control method of door and window water storage device and door and window

Technical Field

The application relates to the technical field of doors and windows, and particularly provides a door and window water storage device, a control method of the door and window water storage device and a door and window.

Background

Doors and windows are important components in building envelope systems, and common types of doors and windows include flat-open doors, flat-open windows, sliding doors, sliding windows, sunlight rooms and curtain walls. The most basic design requirement of the door and window is that the water seepage prevention performance is good, so the door and window designed in the prior art is in order to prevent seepage, a water covering plate is usually arranged on the upper part of a door and window movable fan, and a drain hole is arranged on the lower part of the door and window movable fan, so that outdoor rainwater can be timely discharged when contacting the door and window.

In order to prevent rainwater leakage, the door and window structure in the prior art generally does not design a water storage device on the door and window, so that the door and window needs to be washed from a far place when being washed, and the washing of the door and window is quite inconvenient. To this problem, it is thought easily to set up water storage device on door and window structure and be used for storing the rainwater, but the rainwater is in contact with door and window for a long time and is very easy seepage door and window and breeds the mosquito, simultaneously, uses the rainwater of water storage device storage also hardly with the discharge, and the structure that realizes rainwater drainage that thinks more easily has for example: (1) A drain hole communicated with the inside of the water storage device is arranged at the bottom of the water storage device, the drain hole is blocked by a plug body matched with the drain hole, rainwater can be discharged by pulling out the plug body, or a drain switch such as a tap is arranged on the drain hole; (2) The top of the water storage device is provided with an openable cover body, and the tool capable of containing water is used for containing rainwater in the water storage device. The structure for draining water is inconvenient to use, for example, when a user pulls out the plug body, rainwater splashes to wet the user; the water faucet needs to be additionally provided with a drain pipe to communicate the interior of the water storage device with the water faucet, the structure is quite complex, and the water faucet protrudes out of the water storage device, so that the water storage device occupies a large space on a door or window, and the miniaturization design of the water storage device is not facilitated; if the water containing tool is used for draining rainwater from the openable cover body of the water storage device, the operation is very complicated.

Therefore, the door and window water storage device which is simple in structure, can store rainwater for use, has the functions of preventing seepage and mosquito breeding, and is quite convenient for water drainage is lacking in the prior art.

Disclosure of Invention

The utility model aims at providing a door and window water storage device, door and window water storage device's control method and door and window, this door and window water storage device simple structure, drainage are convenient, have can store the rainwater to for the user uses, can compromise antiseep, the advantage that the mosquito breeds the function again.

In a first aspect, the present application provides a door and window water storage device, the technical scheme is as follows:

the door and window water storage device is connected with the window frame and comprises a water storage cavity and a drainage spring device arranged in the water storage cavity;

the water storage cavity comprises a first cavity and a second cavity which are arranged in a blocking way, the first cavity is provided with a first water guide hole communicated with a water outlet of the window frame and a second water guide hole communicated with the second cavity, and a water outlet is arranged in the second cavity;

the drainage spring device penetrates through the first cavity and the second cavity through the second water guide hole and comprises a button, an upper seat, a spring and a connecting rod, wherein the button is connected with the connecting rod and penetrates through the top of the first cavity to be communicated with the outside, the connecting rod penetrates through the first cavity and extends to the second cavity through the second water guide hole, the extending tail end of the connecting rod is connected with the upper seat, the upper seat covers the second water guide hole, and the lower end of the connecting rod is connected with the spring.

The application provides a door and window water storage device through being connected this door and window water storage device with the window frame, can set up water storage device and door and window interval, avoids the inside rainwater of storing of door and window water storage device to get into in the door and window, plays good antiseep effect. The door and window water storage device comprises a water storage cavity and a water draining spring device arranged in the water storage cavity, wherein the water storage cavity comprises a first cavity and a second cavity which are arranged in a blocking mode, the first cavity is provided with a first water guide hole communicated with a water outlet of a window frame and a second water guide hole communicated with the second cavity, and the first cavity is used for storing rainwater. In order to prevent rivers seepage in the door and window, can set up the delivery port in time discharge rainwater generally on the window frame, this application is connected the delivery port of first guiding hole and window frame with first cavity, can realize the storage of rainwater, and at the in-process of rainwater flow to first cavity, down flows from the eminence to the low department, has avoided the problem of rainwater through first guiding hole backward flow seepage door and window. The second cavity is used for draining rainwater, a water outlet is arranged in the second cavity and communicated with the outside, the rainwater can flow out of the door and window water storage device along the first water guide hole, the second water guide hole and the water outlet, and the water draining structure is simple. The drainage spring device penetrates through the first cavity and the second cavity through the second water guide hole to play a role of covering or opening the second water guide hole, the drainage spring device comprises a button, an upper seat and a connecting rod, the button is connected with the connecting rod and penetrates through the top of the first cavity to be communicated with the outside, when a user needs to open the second water guide hole to drain water, the button is conveniently pressed down, the drainage operation is quite simple, the connecting rod penetrates through the first cavity and extends to the second cavity through the second water guide hole, the upper seat is connected with the upper seat at the tail end of the connecting rod and is used for covering the second water guide hole, the lower end of the upper seat is connected with a spring, when the user presses the button, the connecting rod presses the upper seat to open the second water guide hole, water in the first cavity can flow along the conducted second water guide hole to the second cavity and flow out from a water outlet in the second cavity, and when the user releases the button, the upper seat is pushed up to cover the second water guide hole through reset, and rainwater can be stored in the first cavity. Therefore, the door and window water storage device has the advantages of simple structure, convenient drainage, capability of storing rainwater for users, and capability of preventing seepage and mosquito breeding.

Further, a first overflow hole is formed in the first side wall, close to the outside of the chamber, of the first cavity, and the dimension of the first overflow hole in the height direction is smaller than or equal to the dimension of the first water guide hole in the height direction.

The utility model provides a door and window water storage device is provided with first overflow aperture on the first lateral wall that first cavity is close to outdoor for when the rainwater in first cavity is accumulated to a certain extent, unnecessary rainwater can be along first overflow aperture discharge, avoid rainwater refluence seepage door and window, specifically, first overflow aperture is less than or equal to first water guide hole in the size of direction of height at the size of direction of height, can guarantee from the delivery port of window frame exhaust rainwater can down downstream accumulate in first cavity, outwards discharge when the high of rainwater accumulation reaches first overflow aperture, the high door and window that has avoided the rainwater to accumulate has exceeded first water guide hole highly leads to the rainwater to flow backwards and permeate.

Further, a third cavity with an opening at the top is arranged at the position, close to the top, of the first side wall, a wind-proof seat is arranged in the third cavity, a rotating shaft extending in the horizontal direction is arranged on the wind-proof seat, a wind-proof sheet extending in the vertical direction is connected to the rotating shaft, and the wind-proof sheet covers the first overflow hole.

The utility model provides a door and window water storage device, the position that first side wall is close to the top is provided with open-top third cavity, is provided with in the third cavity and prevents wind the fender seat, and third cavity open-top is convenient for install, maintain and prevent the windscreen seat. The wind-proof seat is provided with a rotating shaft extending along the horizontal direction, and the rotating shaft is connected with a wind-proof sheet which can deflect under the action of the rotating shaft so as to facilitate drainage; the wind-proof sheet covers the first overflow hole to prevent the noise generated by the outside air flow passing through the first overflow hole.

Further, a wind shielding part extends downwards from the second side wall of the third cavity, which is close to the outside, and the wind shielding part covers the first overflow hole.

The application provides a door and window water storage device, it has the portion of keeping out the wind to be close to outdoor second lateral wall downwardly extending at the third cavity, and the portion of keeping out the wind covers first overflow aperture, makes external air current unable direct blow to first overflow aperture, avoids setting up the wind-proof piece outside first overflow aperture and takes place to make a round trip under the circumstances that external air current directly blows.

Further, a second overflow hole communicated with the first overflow hole is arranged between the extending tail end of the wind shielding part and the first side wall, and the second overflow hole is provided with a vertically downward opening.

Further, the top of the first cavity and the third cavity are detachably provided with a water storage device repairing cover.

Further, the water storage device repair cover is provided with a protruding portion at one end close to the indoor space, the outer surface of the protruding portion is an arc surface, the top end of the first cavity close to the indoor space is provided with an arc groove, and the arc surface is rotationally connected with the arc groove.

Further, one end of the water storage device repair cover, which is close to the outside, is provided with a clamping key, a clamping groove is arranged in the third cavity, and the clamping key is detachably connected with the clamping groove.

In a second aspect, the present application proposes a control method for controlling a door and window water storage device according to any one of the above, the door and window water storage device further comprising a temperature sensor, a controller and a power device, wherein the temperature sensor and the power device are connected with the controller, and the power device is further connected with a drainage spring device in the door and window water storage device, and is used for driving the drainage spring device to start or close, the method comprises the following steps:

acquiring real-time temperature information detected by the temperature sensor when the retention time of rainwater in the first cavity exceeds a first preset time;

and controlling the starting time and the continuous triggering time of the drainage spring device according to the real-time temperature information.

In a third aspect, the present application provides a door and window, where the door and window includes any one of the above-mentioned door and window water storage devices, and the door and window water storage device uses a control method of the above-mentioned door and window water storage device to control the door and window water storage device.

The beneficial effects are that: the application provides a door and window water storage device, door and window water storage device's control method and door and window through being connected this door and window water storage device with the window frame, can set up door and window water storage device and door and window interval, avoids the inside rainwater of storing of door and window water storage device to get into in the door and window, plays good antiseep effect. The door and window water storage device comprises a water storage cavity and a water draining spring device arranged in the water storage cavity, wherein the water storage cavity comprises a first cavity and a second cavity which are arranged in a blocking mode, the first cavity is provided with a first water guide hole communicated with a water outlet of a window frame and a second water guide hole communicated with the second cavity, and the first cavity is used for storing rainwater. In order to prevent rivers seepage in the door and window, can set up the delivery port in time discharge rainwater generally on the window frame, this application is connected the delivery port of first guiding hole and window frame with first cavity, can realize the storage of rainwater, and at the in-process of rainwater flow to first cavity, down flows from the eminence to the low department, has avoided the problem of rainwater through first guiding hole backward flow seepage door and window. The second cavity is used for draining rainwater, a water outlet is arranged in the second cavity and communicated with the outside, the rainwater can flow out of the door and window water storage device along the first water guide hole, the second water guide hole and the water outlet, and the water draining structure is simple. The drainage spring device penetrates through the first cavity and the second cavity through the second water guide hole to play a role of covering or opening the second water guide hole, the drainage spring device comprises a button, an upper seat and a connecting rod, the button is connected with the connecting rod and penetrates through the top of the first cavity to be communicated with the outside, when a user needs to open the second water guide hole to drain water, the button is conveniently pressed down, the drainage operation is quite simple, the connecting rod penetrates through the first cavity and extends to the second cavity through the second water guide hole, the upper seat is connected with the upper seat at the tail end of the connecting rod and is used for covering the second water guide hole, the lower end of the upper seat is connected with a spring, when the user presses the button, the connecting rod presses the upper seat to open the second water guide hole, water in the first cavity can flow along the conducted second water guide hole to the second cavity and flow out from a water outlet in the second cavity, and when the user releases the button, the upper seat is pushed up to cover the second water guide hole through reset, and rainwater can be stored in the first cavity. Therefore, the door and window water storage device has the advantages of simple structure, convenient drainage, capability of storing rainwater for users, and capability of preventing seepage and mosquito breeding.

Drawings

Fig. 1 is a schematic structural view of a door and window according to the present application.

Fig. 2 is a cross-sectional view of a door and window according to the present application.

Fig. 3 is a cross-sectional view of a water storage device for doors and windows according to the present application.

Fig. 4 is a sectional view of the start of the drainage spring device in the water storage device for doors and windows according to the present application.

Fig. 5 is a perspective view of a water storage device for doors and windows according to the present application.

Fig. 6 is a perspective view of the drainage spring device provided in the present application in the water storage device of the door and window.

Fig. 7 is an exploded view of the windshield holder, the shaft and the windshield.

Fig. 8 is an exploded view of the drainage spring device proposed in the present application.

Fig. 9 is a flowchart of a control method of a door and window water storage device provided by the application.

In the figure: 1. door and window; 2. a window frame; 3. a glazing; 4. a door and window water storage device; 41. a water storage chamber; 42. a drainage spring device; 21. a water outlet; 411. a first cavity; 412. a second cavity; 413. a first water guide hole; 414. a second water guide hole; 415. a water outlet; 416. A limit column; 421. a button; 422. an upper seat; 423. a spring; 424. a connecting rod; 425. a base; 43. a first sidewall; 431. a first overflow aperture; 44. a third cavity; 441. a second sidewall; 442. a windshield preventing seat; 443. a rotating shaft; 444. a wind-proof sheet; 445. a wind shielding part; 446. a second overflow aperture; 45. repairing the cover of the water storage device; 451. a boss; 452. an arc groove; 453. a clamping key; 454. and a clamping groove.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. The components of the present application, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

In order to prevent rainwater leakage, the door and window structure in the prior art generally does not design a door and window water storage device on the door and window, so that the door and window needs to be watered from a far place when being cleaned, and the cleaning of the door and the window is quite inconvenient. To this problem, it is easy to think that the door and window water storage device is provided on the door and window structure for storing rainwater, but the rainwater is in contact with the door and window for a long time so as to easily leak the door and window and breed mosquitoes, and at the same time, the rainwater stored by using the door and window water storage device is difficult to drain. In order to solve the problems, the application provides a door and window water storage device, a control method of the door and window water storage device and a door and window, and the specific scheme is as follows:

referring to fig. 1 to 8, a water storage device for doors and windows provided in the present application, wherein a water storage device 4 for doors and windows is connected with a window frame 2, and comprises a water storage cavity 41 and a drainage spring device 42 disposed in the water storage cavity 41;

the water storage cavity 41 comprises a first cavity 411 and a second cavity 412 which are arranged in a blocking way, the first cavity 411 is provided with a first water guide hole 413 communicated with the water outlet 21 of the window frame 2 and a second water guide hole 414 communicated with the second cavity 412, and a water outlet 415 is arranged in the second cavity 412;

the drainage spring device 42 penetrates through the first cavity 411 and the second cavity 412 through the second water guide hole 414, and comprises a button 421, an upper seat 422, a spring 423 and a connecting rod 424, wherein the button 421 is connected with the connecting rod 424 and penetrates through the top of the first cavity 411 to be communicated with the outside, the connecting rod 424 penetrates through the first cavity 411 and extends to the second cavity 412 through the second water guide hole 414, the extending end of the connecting rod 424 is connected with the upper seat 422, the upper seat 422 covers the second water guide hole 414, and the lower end of the connecting rod 422 is connected with the spring 423.

Wherein, in practical application, door and window water storage device 4 is connected with window frame 2 of door and window 1, and sets up in window frame 2 one side near outdoor, in prior art, door and window 1 design in order to prevent the seepage, usually can be provided with on window frame 2 with the delivery port 21 of external intercommunication, the rainwater flows down along glass window 3 and window frame 2's clearance, then in time discharges through delivery port 21, avoids the rainwater seepage to get into the room. In this application, in order to store the rainwater for use when needing, can set up the door and window water storage device 4 of accepting the rainwater that delivery port 21 flows, specifically, the holistic inside of door and window water storage device 4 is provided with the box structure of cavity, can fix the middle part of door and window water storage device 4 side on window frame 2, makes there is the great junction surface of scope between door and window water storage device 4 and the window frame 2, and the upper and lower both ends that door and window water storage device 4 did not directly link to each other with window frame 2 occupy the volume and equal to guarantee that door and window water storage device 4 can stably connect on window frame 2. The door and window water storage device 4 is provided with the first cavity 411 and the second cavity 412, the first cavity 411 is connected with the window frame 2, and the door and window water storage device is provided with the first water guide hole 413 communicated with the water outlet 21, so that water can be conveniently stored, the first water guide hole 413 can be arranged at the position of the upper middle part of the side wall of the first cavity 411 connected with the window frame 2, and water can be conveniently stored at the bottom of the first cavity 411. The second cavity 412 is disposed below the first cavity 411 so that water flows down along gravity when draining.

Wherein, in practical application, second water guide hole 414 is offered in first cavity 411 bottom and second cavity 412 intercommunication, makes things convenient for rivers to discharge, and outlet 415 sets up in the one end that second cavity 412 bottom is close to outdoor, avoids outlet 415 to be too near to door and window 1 and leads to splashing when rivers are discharged to get into door and window 1, causes door and window 1 seepage.

Referring to fig. 3 and 4, in practical application, the door and window water storage device 4 further includes a drainage spring device 42 disposed in the water storage cavity 41, and the drainage spring device 42 penetrates through the first cavity 411 and the second cavity 412 through the second water guiding hole 414, so as to cover or open the second water guiding hole 414, thereby facilitating storage or drainage of rainwater. The drainage spring device 42 has a simple structure, and comprises a button 421, an upper seat 422, a spring 423 and a connecting rod 424, wherein the button 421 is connected with the connecting rod 424 and is communicated with the outside through the top of the first cavity 411, so that a user can conveniently press the button 421, the connecting rod 424 penetrates the first cavity 411 and extends to the second cavity 412 through the second water guide hole 414, and in some preferred embodiments, the connecting rod 424 vertically penetrates the first cavity 411, so that the button 421 can better drive the connecting rod 424 to displace downwards when being pressed down. The end of the connecting rod 424 extending is connected with an upper seat 422, the cross section of the upper seat 422 is circular, and the cross section area of the upper seat 422 is larger than the area of the second water guiding hole 414, so that the upper seat 422 can cover and block the second water guiding hole 414 when the button 421 is not triggered, and water flow can be accumulated in the first cavity 411. Wherein, in order to better make the upper seat 422 block the second water guiding hole 414, the upper end face of the upper seat 422 covering the second water guiding hole 414 is provided with a plurality of vertical upward inserting keys, the plurality of vertical upward inserting keys are arranged at intervals and surround to form a circle, and the diameter of the circle formed by the surrounding of the inserting keys is slightly smaller than that of the second water guiding hole 414, so that the inserting keys can be just embedded into the second water guiding hole 414 and clamped with the second water guiding hole 414, the upper seat 422 is convenient to cover and block the second water guiding hole 414, wherein, in some preferred modes, in order to better make the inserting keys capable of being inserted into the second water guiding hole 414, the end of the upward extending of the inserting key is provided with a guiding part inclined towards the center of a circle, a tip inserting structure can be formed, and the inserting keys are conveniently inserted into the second water guiding hole 414 through the guiding part and then clamped with the second water guiding hole 414.

In practical application, the spring 423 is connected to the lower end surface of the upper seat 422, the spring 423 can be directly connected to the bottom of the second cavity 412, when the user presses the button 421, the connecting rod 424 will displace downward under the pressure of the button 421 to push the upper seat 422 out of the second water guiding hole 414, so that the upper seat 422 is separated from the second water guiding hole 414, and rainwater can be smoothly discharged through the second water guiding hole 414, at this time, the upper seat 422 will be compressed by the downward pressure to compress the spring 423 below, and when the user releases the button 421, the spring 423 will resume to deform and push the upper seat 422 to be clamped in the second water guiding hole 414 again to block the second water guiding hole 414.

In some preferred embodiments, if the spring 423 is directly connected to the bottom of the second cavity 412, it may cause the drainage spring device 42 to be difficult to install and detach, and in order to solve this problem, a base 425 may be provided in the drainage spring device 42, the lower end of the spring 423 is fixed on the base 425, and the base 425 includes a mounting plate detachably connected to the bottom of the second cavity 412 and a cylindrical structure provided on the mounting plate for fixing the spring 423. In order to prevent the base 425 from being displaced when connected to the bottom of the second cavity 412, at least two protruding limiting posts 416 may be disposed at the bottom of the second cavity 412, where the distance between the two limiting posts 416 is slightly greater than the length of the mounting plate, so that the mounting plate can be just embedded between the two limiting posts 416 and cannot be displaced. Through setting up drainage spring device 42 in water storage cavity 41, this drainage spring device 42 simple structure, the drainage is convenient, and most structures all set up in water storage cavity 41 inside, help door and window water storage device 4's miniaturized design.

Further, in some preferred embodiments, the first side wall 43 of the first cavity 411, which is close to the outside, is provided with a first overflow hole 431, and the dimension of the first overflow hole 431 in the height direction is less than or equal to the dimension of the first water guiding hole 413 in the height direction.

In practical application, the first overflow hole 431 is formed in the first side wall 43 of the first cavity 411, which is close to the outside, so that when rainwater in the first cavity 411 is accumulated to a certain extent, excess rainwater can be discharged along the first overflow hole 431, so that the rainwater is prevented from flowing back and leaking into the door and window 1, specifically, the dimension of the first overflow hole 431 in the height direction is smaller than or equal to the dimension of the first water guide hole 413 in the height direction, it can be ensured that rainwater discharged from the water outlet 21 of the window frame 2 can be accumulated in the first cavity 411 in a downward and forward direction, and when the accumulated height of the rainwater reaches the first overflow hole 431, the rainwater is prevented from being discharged outwards, so that the accumulated height of the rainwater exceeds the height of the first water guide hole 413, and the rainwater is prevented from flowing back and leaking into the door and window 1.

Further, in some preferred embodiments, a third cavity 44 with an open top is disposed at a position of the first side wall 43 near the top, a windshield seat 442 is disposed in the third cavity 44, the windshield seat 442 is provided with a rotating shaft 443 extending in a horizontal direction, a windshield 444 extending in a vertical direction is connected to the rotating shaft 443, and the windshield 444 covers the first overflow hole 431.

Referring to fig. 7, in an actual application, a third cavity 44 with an open top is disposed at a position of the first side wall 43 near the top, a windshield seat 442 is disposed in the third cavity 44, the open top of the third cavity 44 is convenient for disassembling and assembling the windshield seat 442, wherein, for stability of installation of the windshield seat 442, a bottom of the third cavity 44 may be configured as a planar structure. Specifically, the wind-proof seat 442 is provided with an arc-shaped mounting portion, and the rotating shaft 443 is horizontally disposed in the arc-shaped mounting portion, so as to facilitate the rotation movement in the arc-shaped mounting portion. The rotating shaft 443 is connected with a windproof piece 444, the windproof piece 444 vertically extends downwards and can cover the first overflow hole 431, in order to avoid interference of the bottom of the third cavity 44 to the windproof piece 444, a horizontal extending strip-shaped through groove is formed in the bottom of the third cavity 44 corresponding to the extending position of the windproof piece 444, the windproof piece 444 extends out of the strip-shaped through groove and covers the first overflow hole 431, and noise is prevented from being generated when external airflow passes through the first overflow hole 431. When the height of the rainwater accumulated in the first cavity 411 reaches the height of the first overflow hole 431, the wind-proof sheet 444 is pushed to rotate outwards by the water flow to facilitate the rainwater to be discharged, wherein in order to enable the water flow to push the wind-proof sheet 444 to enable the wind-proof sheet 444 to turn outwards, the wind-proof sheet 444 can be made of a corrosion-proof material with lighter mass, such as a plastic material, and can be set into a sheet-shaped structure, so that the wind-proof sheet 444 is pushed by the water flow, a gap is formed between the wind-proof sheet 444 and the first overflow hole 431 after the wind-proof sheet 444 turns, the water flow can be smoothly discharged from the gap, and the phenomenon that the rainwater in the first cavity 411 cannot be discharged in time due to the wind-proof sheet 444 blocking the first overflow hole 431 and flows back to the door window 1 is avoided.

Further, in some preferred embodiments, the third cavity 44 has a wind shielding portion 445 extending downward near the second side wall 441 outside the chamber, and the wind shielding portion 445 covers the first overflow hole 431.

In practical application, the second side wall 441 of the third cavity 44, which is close to the outside, extends downwards to form a wind shielding portion 445, and the wind shielding portion 445 covers the first overflow hole 431, so that the external air flow cannot directly blow to the first overflow hole 431, and the wind shielding piece 444 disposed outside the first overflow hole 431 is prevented from deflecting back and forth under the action of the external air flow direct blowing and the water flow pushing, which affects the water flow to be discharged in time.

Further, in some preferred embodiments, a second overflow hole 446 communicating with the first overflow hole 431 is provided between the extended end of the wind shielding portion 445 and the first sidewall 43, the second overflow hole 446 having a vertically downward opening.

In practical application, a second overflow hole 446 communicating with the first overflow hole 431 is provided between the extending end of the wind shielding portion 445 and the first side wall 43, and the second overflow hole 446 has a vertically downward opening, and water flow can be discharged from the second overflow hole 446. Specifically, the extending end of the wind shielding portion 445 is bent toward the first side wall 43 to form a small bent portion, and the first side wall 43 corresponding to the bent portion has a small extending portion extending toward the wind shielding portion 445, and a gap between the extending portion and the bent portion is the second overflow hole 446. The opening of the second overflow hole 446 faces downwards, when the external air flow blows to the wind-proof piece 444, the air flow can only act on the wind-proof piece 444 after being turned, buffered and scattered through the second overflow hole 446, and at the moment, the acting force of the air flow is small, the wind-proof piece 444 cannot be blown, and the air flow cannot enter the first cavity 411 to generate noise. The second overflow hole 446 can realize a wind-slowing function in addition to the water discharge function.

Further, in some preferred embodiments, the top of the first cavity 411 and the third cavity 44 are detachably provided with a water storage device repair cover 45.

Referring to fig. 3 to 5, in practical application, the top of the first cavity 411 and the top of the third cavity 44 are detachably provided with a water storage device repairing cover 45, and when the water storage device repairing cover 45 is opened, the internal structure of the door and window water storage device 4, especially the drainage spring device 42, can be overhauled, which is helpful for maintaining the service life of the door and window water storage device 4.

Further, in some preferred embodiments, a protruding portion 451 is disposed at an end of the water storage device repairing cover 45 near the room, the outer surface of the protruding portion 451 is an arc surface, an arc groove 452 is disposed at a top end of the first cavity 411 near the third side wall of the room, and the arc surface is rotatably connected with the arc groove 452.

In practical application, in order to facilitate the disassembly and assembly of the water storage device repairing cover 45, the water storage device repairing cover 45 can be directly fixed on the top of the first cavity 411 and the third cavity 44 by using a screw or other structures, the water storage device repairing cover 45 can be completely disassembled from the top of the first cavity 411 and the third cavity 44 by unscrewing the screw by using a tool such as a screwdriver, but the disassembled structure for completely separating the water storage device repairing cover 45 from the first cavity 411 and the third cavity 44 causes the problem that the disassembled water storage device repairing cover 45 is troublesome to place, if the disassembled water storage device repairing cover 45 is directly placed on the ground, the water storage device repairing cover 45 is stained with stains, and after the water storage device repairing cover 45 is subsequently installed, the stains erode rainwater in the first cavity 411, bacteria or mosquitoes are easy to breed; if not placed on the ground, the water storage device repair cover 45 needs to be placed at a clean position such as a table top or a chair, which is very troublesome. In order to solve the problem, a protruding portion 451 may be disposed at one end of the water storage device repairing cover 45, which is close to the room, the outer surface of the protruding portion 451 is an arc surface, an arc groove 452 is disposed at the top end of the first cavity 411, which is close to the third side wall of the room, the arc surface is rotationally connected with the arc groove 452, and through the rotational fit of the protruding portion 451 and the arc groove 452, a connection point is still formed between the water storage device repairing cover 45 and the first cavity 411 when the water storage device repairing cover 45 is opened, the turned water storage device repairing cover 45 can lean on the door and window 1, the operation is very convenient, and the cleaning of the water storage device repairing cover 45 can be ensured.

Further, in some preferred embodiments, a clamping key 453 is disposed at an end of the water storage device repair cover 45 near the outside, and a clamping groove 454 is disposed in the third cavity 44, where the clamping key 453 is detachably connected to the clamping groove 454.

In practical application, the end of the water storage device repair cover 45 near the room is rotatably connected with the first cavity 411, so that the water storage device repair cover 45 cannot be opened from the end. The water storage device repair cover 45 can be provided with the clamping keys 453 at one end close to the outside, two clamping keys 453 can be arranged in a vertically downward extending mode, the distance between the two clamping keys 453 is smaller than the size of the top opening of the third cavity 44, and the clamping keys are conveniently clamped into the top opening of the third cavity 44 and detachably connected with the third cavity 44. In order to make the clamping structure between the two more stable, be provided with the joint groove 454 in the third cavity 44, specific, the structure of joint groove 454 is the C font, set up on the inside two opposite lateral walls of third cavity 44, the middle part of joint key 453 is provided with outside convex V-arrangement key, when joint key 453 inserts in the opening at third cavity 44 top, outside convex V-arrangement key joint gets into the detachable fixed in the joint groove 454 of C font, when dismantling, lift up water storage device and repair lid 45, the smooth inclined plane in V-arrangement key both sides breaks away from very easily in the joint groove 454 of C font, thereby can open water storage device repair lid 45, overhaul door and window water storage device 4 inside.

Referring to fig. 9, in a second aspect, the present application proposes a control method of a door and window water storage device, for controlling the door and window water storage device according to any one of the above, the door and window water storage device 4 further includes a temperature sensor, a controller and a power device, wherein the temperature sensor and the power device are connected to the controller, the power device is further connected to a drainage spring device 42 in the door and window water storage device 4, and is used for driving the drainage spring device 42 to start or close, the method includes the following steps:

s1: acquiring real-time temperature information detected by a temperature sensor when the rainwater residence time in the first cavity 411 exceeds a first preset time;

s2: the activation time and duration of the drain spring assembly 42 is controlled based on the real-time temperature information.

In practical application, if the rainwater stored in the door and window water storage device 4 is not used for a long time, mosquito and bacteria are easy to spread, in order to solve the problem, a temperature sensor, a controller and a power device can be arranged on the door and window water storage device 4, the temperature sensor is used for detecting the environmental temperature, the power device is connected with the drainage spring device 42, in particular, is connected with a button 421 in the drainage spring device 42, and is used for triggering the button 421. The temperature sensor and the power device are both connected with the controller, the temperature sensor transmits real-time temperature information to the controller, and the controller can control the starting time and the continuous triggering time of the drainage spring device 42 according to the real-time temperature information so as to facilitate water flow drainage.

Specifically, in step S1, a water level gauge may be disposed in the first cavity 411 to determine whether rainwater is stored in the first cavity 411; setting a timer to obtain the rainwater retention time, wherein the timer is connected with a controller; the first preset time is set in advance for the user, can set to a week, and the time period that a week was bred for the mosquito after the rain, and the user has not discharged the rainwater that stores yet in a week, and the time-recorder will send alarm information and give the controller, reminds the controller to trigger drainage spring device 42 and carry out the drainage, but only control drainage spring device 42 according to rainwater dwell time and carry out the drainage and be inaccurate, if in the colder condition of winter, the mosquito is difficult for breeding, and the rainwater can keep longer time in first cavity 411, in order to avoid discharging the rainwater mistake, and the controller can acquire the real-time temperature information of temperature sensor transmission. Further, the user can adjust the first preset time according to the temperature, for example, in winter, the outdoor temperature is maintained below 20 ℃ for a long time, and the user can adjust the first preset time to 15 days or 30 days.

In step S2, if the real-time temperature information is within the range of 20 to 30 degrees celsius, it is indicated that the external temperature is high at this time, and the controller will start the drainage spring device 42 to drain the rainwater stored in the first cavity 411 in order to stop this situation. If the real-time temperature is lower than 20 ℃ or higher than 30 ℃, the mosquito is not easy to reproduce at the temperature, and the rainwater can be continuously stored for later use. Wherein, after the rainwater stay time exceeds one week, the temperature sensor needs to continuously transmit real-time temperature information to the controller, and once the temperature reaches the drainage standard, the drainage spring device 42 is triggered immediately to drain water, so as to stop mosquitoes from propagating in the first cavity 411.

The continuous triggering time corresponds to the water discharge amount, and when the temperature is high, the water discharge spring device 42 can be controlled to continuously trigger for a longer time, for example, when the temperature real-time temperature information is between 27 ℃ and 30 ℃, even if the water discharge flow is more, the water discharge spring device is easy to evaporate, if the temperature is between 20 ℃ and 26 ℃, the water discharge is less easy to evaporate, and if the water discharge is too much at one time, long-time water accumulation on the ground or a balcony outside the door and window can be caused, so that the influence is poor.

In a third aspect, the present application proposes a door and window, the door and window 1 comprising any one of the above door and window water storage devices, the door and window water storage device being controlled by the above control method of the door and window water storage device.

In practical application, the door window 1 comprises a glass window 3 and a window frame 2 for covering the glass window 3, wherein a water outlet 21 is arranged on the window frame 2, and the water outlet 21 can timely discharge rainwater permeated between the glass window 3 and the window frame 2, so that the rainwater is prevented from permeating into a room. The door and window 1 is further provided with a door and window water storage device 4, the door and window water storage device 4 comprises a water storage cavity 41 and a water draining spring device 42 arranged in the water storage cavity 41, the water storage cavity 41 comprises a first cavity 411 and a second cavity 412 which are arranged in a blocking mode, the first cavity 411 is provided with a first water guiding hole 413 communicated with a water outlet 21 of the window frame 2 and a second water guiding hole 414 communicated with the second cavity 412, the first cavity 411 is used for storing rainwater, and the second cavity 412 is used for draining rainwater. The drainage spring device 42 penetrates through the first cavity 411 and the second cavity 412 through the second water guide hole 414 to cover or open the second water guide hole 414, and comprises a button 421, an upper seat 422 and a connecting rod 424, wherein the button 421 is connected with the connecting rod 424 and penetrates through the top of the first cavity 411 to be communicated with the outside, a user conveniently presses the button 421 when the second water guide hole 414 needs to be opened for drainage, the drainage operation is quite simple, the connecting rod 424 penetrates through the first cavity 411 and extends to the second cavity 412 through the second water guide hole 414, the tail end of the connecting rod 424 is connected with the upper seat 422, the upper seat 422 is used for covering the second water guide hole 414, the lower end of the upper seat 422 is connected with a spring 423, when the user presses the button 421, the connecting rod 424 presses the upper seat 422 to open the second water guide hole 414, water flow in the first cavity 411 can flow to the second cavity 412 along the conducted second water guide hole 414 and flow out of the second cavity 412, when the user releases the button 421, the spring 423 connected with the upper seat 422 resets to jack the upper seat 422 to cover the second water guide hole 414, and rainwater can be stored in the second cavity 411.

In order to solve the problem that rainwater accumulates in the door and window water storage device 4 of the door and window 1 and is easy to breed mosquitoes, a temperature sensor, a controller and a power device can be arranged on the door and window water storage device 4, the temperature sensor is used for detecting the ambient temperature, the power device is connected with the drainage spring device 42, in particular to a button 421 in the drainage spring device 42, and the button 421 is triggered. The temperature sensor and the power device are both connected with the controller, the temperature sensor transmits real-time temperature information to the controller, the controller can control the starting time and the continuous triggering time of the drainage spring device 42 according to the real-time temperature information so as to facilitate water flow discharge, when the retention time of rainwater exceeds one week and the external temperature reaches 20-30 ℃, the controller immediately controls the drainage spring device 42 to discharge accumulated rainwater, and the automatic control mode enables a user to not breed mosquitoes even if the accumulated rainwater cannot be timely used when the door and window 1 is used, so that the use experience of the user is improved.

The foregoing is merely exemplary embodiments of the present application and is not intended to limit the scope of the present application, and various modifications and variations may be suggested to one skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (5)

1. The door and window water storage device is characterized in that the door and window water storage device (4) is connected with a window frame (2) and comprises a water storage cavity (41) and a drainage spring device (42) arranged in the water storage cavity (41);

the water storage cavity (41) comprises a first cavity (411) and a second cavity (412) which are arranged in a blocking way, the first cavity (411) is provided with a first water guide hole (413) communicated with the water outlet (21) of the window frame (2) and a second water guide hole (414) communicated with the second cavity (412), and a water outlet (415) is arranged in the second cavity (412);

the drainage spring device (42) penetrates through the first cavity (411) and the second cavity (412) through the second water guide hole (414), and comprises a button (421), an upper seat (422), a spring (423) and a connecting rod (424), wherein the button (421) is connected with the connecting rod (424) and penetrates through the top of the first cavity (411) to be communicated with the outside, the connecting rod (424) penetrates through the first cavity (411) and extends to the second cavity (412) through the second water guide hole (414), the extending end of the connecting rod (424) is connected with the upper seat (422), the upper seat (422) covers the second water guide hole (414), and the lower end of the connecting rod is connected with the spring (423);

a first overflow hole (431) is formed in a first side wall (43) of the first cavity (411) close to the outside, and the dimension of the first overflow hole (431) in the height direction is smaller than or equal to the dimension of the first water guide hole (413) in the height direction; a third cavity (44) with an opening at the top is arranged at the position, close to the top, of the first side wall (43), a windshield seat (442) is arranged in the third cavity (44), a rotating shaft (443) extending in the horizontal direction is arranged on the windshield seat (442), a windshield piece (444) extending in the vertical direction is connected to the rotating shaft (443), and the windshield piece (444) covers the first overflow hole (431);

the novel water storage device comprises a first cavity (411) and a third cavity (44), wherein a water storage device repairing cover (45) is detachably arranged at the top of the first cavity (411) and the top of the third cavity (44), a protruding portion (451) is arranged at one end, close to an indoor space, of the water storage device repairing cover (45), the outer surface of the protruding portion (451) is an arc surface, an arc groove (452) is formed in the top, close to an indoor space, of the first cavity (411), the arc surface is rotatably connected with the arc groove (452), a clamping key (453) is arranged at one end, close to an outdoor space, of the water storage device repairing cover (45), a clamping groove (454) is formed in the third cavity (44), and the clamping key (453) is detachably connected with the clamping groove (454).

2. A door and window water storage device according to claim 1, characterized in that the third cavity (44) extends downwards near the outdoor second side wall (441) with a wind shielding part (445), the wind shielding part (445) covering the first overflow hole (431).

3. A door and window water storage device according to claim 2, characterized in that a second overflow hole (446) communicating with the first overflow hole (431) is provided between the extending end of the wind shielding part (445) and the first side wall (43), the second overflow hole (446) having a vertically downward opening.

4. A control method of a door and window water storage device for controlling the door and window water storage device according to any one of claims 1-3, characterized in that the door and window water storage device (4) further comprises a temperature sensor, a controller and a power device, wherein the temperature sensor and the power device are connected with the controller, and the power device is further connected with a drainage spring device (42) in the door and window water storage device (4) for driving the drainage spring device (42) to start or close, and the method comprises the following steps:

acquiring real-time temperature information detected by the temperature sensor when the rainwater residence time in the first cavity (411) exceeds a first preset time;

and controlling the starting time and the continuous triggering time of the drainage spring device (42) according to the real-time temperature information.

5. A door and window, characterized in that the door and window (1) comprises the door and window water storage device according to any one of claims 1-3, which is controlled by the control method of the door and window water storage device according to claim 4.