CN112878884B - Drainage structure of window body - Google Patents

Abstract

The utility model belongs to the technical field of building door and window structure technique and specifically relates to a drainage structures of window form is related to, and it includes the window frame and rotates the setting and is in casement on the window frame, the window frame has the outside and inboard, still including installing drain bar on the window frame, the outside of window frame is link up and has been seted up a plurality of frame through-holes, the drain bar package rubbing board body and fixed the setting are in a plurality of drainage sleeve on the plate body, drainage sleeve's quantity with the same and the one-to-one of frame through-hole's quantity, the plate body with the connection can be dismantled to the window frame, drainage sleeve with frame through-hole sliding connection. The window body drainage capacity improving method and device have the effect of improving the problem of insufficient drainage capacity of the window body in the related art.

Description

Drainage structure of window body

Technical Field

The application relates to the field of building door and window structure technology, in particular to a drainage structure of a window body.

Background

The window body is a hole built on a wall or a roof in architecture, and is used for allowing light or air to enter a room. With the development of science and technology, windows have shown diversified trends, but the main functions of windows are still used for printing opacity and ventilation, when needs use the window, only need open or close the window just can ventilate the indoor of building.

At present, the window body generally comprises a window frame and a window sash rotatably arranged on the window frame, the window sash is generally a glass window sash, when precipitation occurs, rainwater can flow down to the window frame through the glass window sash, and after the precipitation is finished, the rainwater on the window frame can be naturally evaporated.

With respect to the related art among the above, the inventors consider that the following drawbacks occur: because when precipitation, can mix earth or other debris in the rainwater, during the rainwater evaporates naturally, earth or other debris in the rainwater can be detained on window frame and glass, influence the durable degree of window frame and glass then, and the window form drainage ability among the correlation technique is not enough promptly.

Disclosure of Invention

In order to improve the not enough problem of window form drainage ability among the correlation technique, this application provides a drainage structures of window form.

The application provides a drainage structures of window body adopts following technical scheme:

the utility model provides a drainage structures of window form, includes the window frame and rotates the setting and is in casement on the window frame, the window frame has the outside and inboard, still including installing drain bar on the window frame, a plurality of frame through-holes have been link up in the outside of window frame, the drain bar includes the plate body and fixes the setting and is in a plurality of drainage sleeves on the plate body, the telescopic quantity of drainage with the same and the one-to-one of quantity of frame through-hole, the plate body with the connection can be dismantled to the window frame, the drainage sleeve with frame through-hole sliding connection.

Through adopting above-mentioned technical scheme, through seting up the frame through-hole and installing the drain bar on the window frame, when precipitation, the rainwater can drip on the window frame, then discharges through the drainage sleeve on the drain bar, then reduces the rainfall volume of remaining on the window frame, when the rainwater evaporates, just can reduce the impurity of remaining on the window frame, consequently, the drainage structures of a window body of this application has improved the not enough problem of window body drainage ability among the correlation technique.

Optionally, still include water collecting part, water collecting part includes water tank, water collecting part and intercommunication pipeline, cross the water tank and install the below of window frame, water collecting part installs cross on the water tank, intercommunication pipeline sets up in crossing the water tank, intercommunication pipeline is used for the intercommunication cross the water tank and water collecting part, the drainage sleeve with cross the water tank intercommunication.

Through adopting above-mentioned technical scheme, set up the water tank through the below at the window frame, when precipitation, the rainwater can enter into to cross the water tank in, then enters into to catchment in the piece through the intercommunication pipeline and is collected to can utilize the rainwater of collecting to utilize, if utilize the rainwater of collecting to wash the lavatory or irrigate.

Optionally, a filter screen and a one-way valve are installed in the communication pipeline.

Through adopting above-mentioned technical scheme, through installation filter screen and check valve in the intercommunication pipeline, when the rainwater entered into to catchment the piece through the intercommunication pipeline from crossing the water tank, impurity such as the mixed partial earth of rainwater or leaf can be filtered by the filter screen to the improvement gets into the rainwater quality of water in the piece that catchments. Through install the check valve in the intercommunication pipeline for the rainwater can only unidirectionally enter into to catchment the piece from crossing the water tank, thereby reduces the rainwater backward flow to the emergence of crossing the water tank condition in the piece that catchments.

Optionally, the intercommunication pipeline internal fixation is provided with two sets of stoppers, and every group stopper all includes two stoppers, the filter screen is located two sets of between the stopper, the filter screen butt is two sets of on the stopper.

Through adopting above-mentioned technical scheme, because after using the filter screen for a long time, can remain earth or leaf on the filter screen, reduce the filter capacity of filter screen, through setting up the stopper and make the filter screen place between two sets of stoppers, after pulling down the connecting block, just can pull down the filter screen from between two sets of stoppers, wash or change the filter screen then, be favorable to maintaining the filter capacity of filter screen.

Optionally, the water passing tank is detachably provided with a connecting block, and the connecting block is used for controlling the opening and closing of the communicating pipeline.

Through adopting above-mentioned technical scheme, through from pulling down the connecting block on crossing the water tank, just can open the intercommunication pipeline to filter screen and check valve in the intercommunication pipeline are changed or are maintained, are favorable to crossing the normal use of water tank.

Optionally, a drainage pipeline is arranged at the bottom of the water passing tank and used for draining rainwater.

By adopting the technical scheme, the drainage pipeline is arranged at the bottom of the water passing box, so that rainwater can be timely discharged from the water passing box through the drainage pipeline.

Optionally, the water passing tank is internally provided with a retaining wall, the retaining wall is used for dividing the water passing tank into a water passing area and a communicating area, the drainage pipeline is located the water passing area, and the communicating pipeline is located the communicating area.

Through adopting above-mentioned technical scheme, when the beginning rainfall, the initial stage rainwater can enter into the district that crosses water in crossing the water tank through the drainage sleeve, then discharges through drainage pipe, when the rain vigor is great, because drainage pipe's drainage ability is limited, the rainwater can be in crossing the water district accumulation in the water tank, then overflow the barricade and enter into to the intercommunication district, finally enter into to catchment in the piece through the intercommunication pipeline and be stored.

Optionally, a shunt pipeline is arranged above the water tank and is located in the water passing area of the water tank, and the shunt pipeline is communicated with the water tank and outdoors.

Through adopting above-mentioned technical scheme, when lasting precipitation and rainwater when great, the rainwater can be constantly accumulated in crossing the water tank, then on overflowing to the window frame, through set up the reposition of redundant personnel pipeline in crossing the water tank for unnecessary rainwater can be followed and discharged to outdoor in the reposition of redundant personnel pipeline, reduces the rainwater and overflows the emergence of the condition on the window frame.

Optionally, still include the afforestation groove, the afforestation groove includes the cell body and fixed the setting is in installation piece on the cell body, the installation piece is installed on the window frame, the cell body has the cavity, the cavity intussuseption of cell body is filled with planting soil.

Through adopting above-mentioned technical scheme, through installing the afforestation groove on the window frame, can plant the afforestation vegetation in the cell body in the afforestation groove, be favorable to purifying indoor air on the one hand, on the other hand is favorable to increasing the sight of window form.

Optionally, the mounting block is in threaded connection with the window frame.

Through adopting above-mentioned technical scheme, afforest the groove and realized dismantling the connection with the window frame through threaded connection's mode just, because threaded connection has the advantage of the dismouting of being convenient for, be favorable to pulling down the afforestation groove from the window frame and maintain or change.

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

1. according to the drainage structure of the window body, the drainage plate is arranged on the window frame, when precipitation occurs, rainwater can be drained through the drainage sleeve on the drainage plate, so that the rainwater quantity remained on the window frame is reduced, and after precipitation, the rainwater can be evaporated, so that soil or impurities remained on the window frame are reduced, and therefore, the problem that the drainage capacity of the window body in the related technology is insufficient is solved;

2. the utility model provides a drainage structures of window form still includes water collecting component, through setting up water collecting component, and when precipitation, rainwater accessible water collecting component is collected to collect and utilize the rainwater, can utilize the rainwater to wash the lavatory or water, increase the convenient usability of drainage structures of the window form of this application.

Drawings

Fig. 1 is a schematic front view of a drainage structure of a window according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of an installation structure of the drain board of FIG. 1;

FIG. 3 is a rear view of a drainage structure of a window according to an embodiment of the present disclosure;

fig. 4 is a schematic view of an installation structure of the water collecting part of fig. 3;

FIG. 5 is an enlarged partial schematic view of portion A of FIG. 4;

FIG. 6 is a schematic cross-sectional view illustrating a drainage structure of a window according to an embodiment of the present disclosure;

FIG. 7 is an enlarged partial schematic view of portion B of FIG. 6;

fig. 8 is a schematic view of the structure of the connection block of fig. 6.

Description of reference numerals: 1. a window frame; 2. a window sash; 3. a drain plate; 31. a plate body; 32. a drainage sleeve; 4. a water collecting part; 41. passing through a water tank; 411. a water discharge pipeline; 412. retaining walls; 4121. a water passing area; 4122. a communication region; 413. connecting blocks; 4131. a fitting portion; 42. a water collection member; 421. a communicating conduit; 43. a communicating pipeline; 431. filtering with a screen; 432. a one-way valve; 433. a limiting block; 44. a diversion pipeline; 5. a greening groove; 51. a trough body; 52. and (7) installing the block.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses drainage structures of window bodies. Referring to fig. 1, the drainage structure of the window body comprises a window frame 1 and two window sashes 2 rotatably arranged on the window frame 1, wherein the window frame 1 is provided with an outer side and an inner side, after the window frame 1 is installed, the outer side of the window frame 1 is located outdoors, the inner side of the window frame 1 is located indoors, the opening and closing of the window body can be controlled by rotating the window sashes 2, the window sashes 2 can rotate towards the inner side direction of the window frame 1, and the specific structure and principle of the window sashes 2 installed on the window frame 1 are the prior art and are not described in detail.

Referring to fig. 2, in order to increase the drainage capacity of the window frame 1, a plurality of frame through holes are formed in the window frame 1, and a drainage plate 3 is installed on the window frame 1. Specifically, the window frame 1 is a cuboid, the window platform is arranged below the outer side of the window frame 1, the frame through holes are located on the window platform, the horizontal cross sections of the frame through holes are circular, the axes of the frame through holes are vertically arranged, in the embodiment, the number of the frame through holes is seven, and the seven frame through holes are arranged at intervals along the length direction of the window platform. The drain bar 3 includes plate body 31 and the fixed drainage sleeve 32 that sets up on plate body 31, and plate body 31 is the cuboid type, in order to install on window frame 1, has seted up a plurality of board through-holes on plate body 31, and is corresponding, has seted up the frame screw hole corresponding with the board through-hole on the window platform, installs the mounting screw of threaded connection in the frame screw hole in the board through-hole, and the nut of mounting screw supports to press in the one side that the window platform was kept away from to plate body 31.

Meanwhile, a plurality of through holes are formed in the plate body 31, the number of the through holes of the plate body 31 is the same as that of the frame through holes, the frame through holes correspond to the through holes of the plate body 31 one by one, a drainage sleeve 32 is fixedly connected below each through hole of the plate body 31, a barrel through hole is formed in the drainage sleeve 32, and the barrel through hole is communicated with the through holes of the plate body 31. The outer diameter of the drain sleeve 32 is smaller than the outer diameter of the frame through hole, and the drain sleeve 32 is slidably connected to the frame through hole, so that the drain sleeve 32 is located in the frame through hole when the plate 31 is mounted on the window frame 1. Through setting up drain bar 3, when precipitation, the rainwater can drip on the window platform, then discharges through drainage sleeve 32 to reduce the rainwater volume of remaining on the window platform, when the rainwater evaporates, just can reduce earth or impurity of remaining on window frame 1, increase the drainage ability of window form promptly.

Referring to fig. 2 and 3, a water collecting member 4 is attached to a lower portion of the window frame 1. The water collecting part 4 includes a water passing tank 41 installed below the window frame 1 and a water collecting member 42 installed on the water passing tank 41. Specifically, the water passing tank 41 has a rectangular parallelepiped shape, a cavity is formed in the water passing tank 41, a cylindrical through hole of the drain sleeve 32 is connected through the cavity of the water tank 41 to allow rainwater to flow into the cavity of the water tank 41, the water collecting member 42 is located at the inner side of the window frame 1, and the water collecting member 42 is used for collecting and storing rainwater from the water passing tank 41. The piece 42 that catchments is the cuboid type, and the piece 42 that catchments is installed on window frame 1 through threaded connection's mode, has the cavity in the piece 42 that catchments to be used for storing the rainwater, and the top of the piece 42 that catchments has the opening in order to make things convenient for the water intaking, and the opening part of the piece 42 that catchments rotates and is provided with the apron, rotates the apron and can control opening and close of the interior cavity of the piece 42 that catchments.

Referring to fig. 4 and 5, in order to connect the water tank 41 and the water collecting member 42, a communicating pipe 43 is opened in the water tank 41, the vertical section of the communicating pipe 43 is circular, the axis of the communicating pipe 43 is horizontally arranged, one end of the communicating pipe 43 is connected to the cavity of the water tank 41, the other end of the communicating pipe 43 is used for installing the water collecting member 42, correspondingly, the water collecting member 42 is provided with a communicating pipe 421, the vertical section of the communicating pipe 421 is circular, the outer diameter of the communicating pipe 421 is smaller than the inner diameter of the communicating pipe 43, and the communicating pipe 421 is connected with the communicating pipe 43 in a sliding manner. When the water collection member 42 is mounted on the water passing tank 41, the communication pipe 421 of the water collection member 42 is positioned in the communication duct 43.

Referring to fig. 6, since a large amount of impurities are contained in the initial rainwater at the time of starting precipitation, the initial rainwater entering the water collector 42 is reduced. A drainage pipe 411 and a retaining wall 412 are provided in the water tank 41. Specifically, the cross section of the drainage pipe 411 is circular, one end of the drainage pipe 411 is connected to the water tank 41, and the other end of the drainage pipe 411 is connected to the outside. The retaining wall 412 is in a rectangular parallelepiped shape, the retaining wall 412 is located in the middle of the water passing box 41, the retaining wall 412 can be specifically installed in the water passing box 41 by welding, and the interior of the water passing box 41 is divided into a water passing area 4121 and a communication area 4122 by the retaining wall 412. The water discharge pipe 411 is located in the water passing region 4121, and the communication pipe 43 is located in the communication region 4122. When the precipitation is continued, since the drainage amount of the drainage pipe 411 per unit time is limited, rainwater is continuously accumulated in the water passing region 4121, then flows over the retaining wall 412 into the communication region 4122, and finally flows from the communication pipe 43 to the water collection member 42, and is collected. By providing the retaining wall 412, the initial rainwater is drained from the drainage pipe 411, and the subsequent rainwater is collected by the water collecting member 42.

Referring to fig. 6 and 7, a strainer 431 and a check valve 432 are installed in the communication duct 43. Specifically, two sets of limiting blocks 433 are fixedly arranged in the communicating pipeline 43, the two sets of limiting blocks 433 are arranged at intervals along the length direction of the communicating pipeline 43, each set of limiting block 433 comprises two limiting blocks 433, and the filter screen 431 is arranged between the two sets of limiting blocks 433. The check valve 432 is located on one side of the filter screen 431 close to the water collecting member 42, and the structure and principle of the check valve 432 installed in the communicating pipe 43 are the prior art and will not be described again. Therefore, by providing the screen 431, when the rainwater in the communicating region 4122 enters the water collecting member 42 through the communicating pipe 43, impurities such as mud or leaves in the rainwater are filtered by the screen 431, thereby improving the quality of the rainwater collected in the water collecting member 42. By providing the one-way valve 432, rainwater can only flow unidirectionally from the communication section 4122 into the water collection member 42 to be collected and stored.

Referring to fig. 6 and 8, foreign materials such as leaves or dirt may be accumulated in the screen 431 after the screen 431 is used for a long time, thereby affecting the filtering ability of the screen 431. In order to timely replace the filter screen 431, a connection block 413 is detachably disposed on the water passing tank 41, and the connection block 413 is used for controlling opening and closing of the communication pipeline 43. Specifically, the connecting block 413 is substantially a cuboid, the two ends of the connecting block 413 in the length direction are both fixedly provided with the matching portions 4131, the matching portions 4131 are cuboid, through holes are formed in the matching portions 4131, correspondingly, matching grooves are formed in the water tank 41, threaded holes corresponding to the through holes of the matching portions 4131 are formed in the matching grooves, the matching portions 4131 are abutted to or separated from the matching grooves, screws in the threaded holes of the matching grooves are installed in the through holes of the matching portions 4131, and nuts of the screws are abutted to one face, away from the matching grooves, of the matching portions 4131. Since the communication pipe 43 has an upper half and a lower half, and a part of the upper half of the communication pipe 43 is located on the lower end surface of the connection block 413, when the connection block 413 is removed, the filter 431 and the check valve 432 in the communication pipe 43 can be repaired or replaced, and normal use of the filter 431 and the check valve 432 can be maintained.

Referring back to fig. 6, when the precipitation is continued, the rainwater may fill the entire overflow tank 41 and may even overflow onto the drain plate 3, in order to reduce the occurrence of rainwater overflowing onto the drain plate 3. A diversion pipeline 44 is arranged above the water passing tank 41, the cross section of the diversion pipeline 44 is rectangular, the axis of the diversion pipeline 44 is horizontally arranged, one end of the diversion pipeline 44 is connected with the cavity of the water tank 41, the other end of the diversion pipeline 44 is communicated with the outside, the diversion pipeline 44 is positioned right above the drainage pipeline 411, and the volume of the diversion pipeline 44 is larger than that of the drainage pipeline 411. Through setting up reposition of redundant personnel pipeline 44, when the rainwater is accumulated in crossing water tank 41, the rainwater can be in time discharged through reposition of redundant personnel pipeline 44 to reduce the rainwater and spill out the emergence of the condition on drain bar 3.

Referring back to fig. 4, meanwhile, a greening groove 5 is further installed on the window frame 1, and the greening groove 5 includes a groove body 51 installed on the window frame 1. Specifically, the tank body 51 has a rectangular parallelepiped shape, a cavity is provided in the tank body 51, and planting soil (not shown) is filled in the cavity of the tank body 51. In order to be installed on the window frame 1, the installation blocks 52 are fixedly arranged on both sides of the length direction of the groove body 51, each installation block 52 is in a cuboid shape, a through hole is formed in each installation block 52, correspondingly, a threaded hole corresponding to the through hole of the installation hole is formed in the inner side of the window frame 1, a screw in the threaded hole of the window frame 1 is installed in the through hole of each installation block 52, a nut of the screw abuts against one side, far away from the window frame 1, of each installation block 52, and the greening groove 5 is installed on the window frame 1 in a threaded connection mode. Through setting up afforestation groove 5 for can plant afforestation vegetation on afforestation groove 5's planting soil, be favorable to the air in the clean room on the one hand, on the other hand is favorable to increasing the sight of window form.

The implementation principle of the drainage structure of the window body in the embodiment of the application is as follows: a drain plate 3 is attached to a window frame 1, a water collecting member 4 is attached to the lower side of the window frame 1, and a greening groove 5 is attached to the inner side of the window frame 1. When the water tank 41 is continuously lowered, the initial rainwater can be accumulated in the water passing area 4121 of the water tank 41, then flows over the retaining wall 412 to enter the communicating area 4122, finally enters the water collecting piece 42 through the communicating pipe 43 to be collected, and therefore the rainwater in the water collecting piece 42 can be used.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (5)

1. The utility model provides a drainage structures of window form, includes window frame (1) and rotates casement (2) of setting on window frame (1), window frame (1) has outside and inboard, its characterized in that: the window frame is characterized by further comprising a drainage plate (3) arranged on the window frame (1), a plurality of frame through holes are formed in the outer side of the window frame (1) in a penetrating mode, the drainage plate (3) comprises a plate body (31) and a plurality of drainage sleeves (32) fixedly arranged on the plate body (31), the number of the drainage sleeves (32) is the same as that of the frame through holes, the drainage sleeves correspond to the frame through holes one by one, the plate body (31) is detachably connected with the window frame (1), and the drainage sleeves (32) are connected with the frame through holes in a sliding mode; the water collecting device is characterized by further comprising a water collecting part (4), wherein the water collecting part (4) comprises a water passing tank (41), a water collecting part (42) and a communication pipeline (43), the water passing tank (41) is installed below the window frame (1), the water collecting part (42) is installed on the water passing tank (41), the communication pipeline (43) is arranged in the water passing tank (41), the communication pipeline (43) is used for communicating the water passing tank (41) and the water collecting part (42), and the drainage sleeve (32) is communicated with the water passing tank (41); a filter screen (431) and a one-way valve (432) are arranged in the communication pipeline (43); a drainage pipeline (411) is arranged at the bottom of the water passing tank (41), and the drainage pipeline (411) is used for draining rainwater; a retaining wall (412) is installed in the water passing tank (41), the retaining wall (412) divides the water passing tank (41) into a water passing area (4121) and a communication area (4122), the water discharge pipeline (411) is located in the water passing area (4121), and the communication pipeline (43) is located in the communication area (4122); a flow dividing pipeline (44) is arranged above the water passing tank (41), the flow dividing pipeline (44) is located in a water passing area (4121) of the water passing tank (41), and the flow dividing pipeline (44) is communicated with the water passing tank (41) and the outdoor.

2. A drainage structure of a window body according to claim 1, wherein: the communicating pipe (43) internal fixation is provided with two sets of stoppers (433), and every stopper (433) of group all includes two stoppers (433), filter screen (431) are located two sets of between stopper (433), filter screen (431) butt is in two sets of on stopper (433).

3. A drainage structure of a window body according to claim 2, wherein: the water passing tank (41) is detachably provided with a connecting block (413), and the connecting block (413) is used for controlling the opening and closing of the communicating pipeline (43).

4. A drainage structure of a window body according to claim 1, wherein: still include afforestation groove (5), afforestation groove (5) include cell body (51) and fixed the setting and are in installation piece (52) on cell body (51), install installation piece (52) on window frame (1), cell body (51) have the cavity, the cavity intussuseption of cell body (51) is filled with planting soil.

5. A drainage structure of a window body according to claim 4, wherein: the mounting block (52) is in threaded connection with the window frame (1).

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