CN213205490U - Energy-saving window for building - Google Patents

Abstract

The utility model relates to an energy-conserving window for building relates to energy-conserving building's technical field, it includes the bed frame and sets up in the window form of bed frame, be provided with collection device and water consuming device on the bed frame, collection device is including setting up the header tank in bed frame below, the opening of header tank is upwards, the water consuming device includes atomizer and water pump, atomizer installs in the top of window form, the water pump is installed in bed frame or header tank, the play water end and the atomizer intercommunication of water pump, the end of intaking and the inside intercommunication of header tank of water pump. During rainwater weather, beat the water that falls on the window body and fall into the header tank along window body and bed frame, then when fine hot weather, the water pump extraction header tank water and via the atomizer blowout to play the effect to the temperature cooling around the window body, from this, make this application can collect the water of beating on the window and utilize, thereby reduce the loss waste of rainwater on the building outer wall.

Description

Energy-saving window for building

Technical Field

The application relates to the technical field of energy-saving buildings, in particular to a window for the energy-saving buildings.

Background

The energy-saving building refers to a low-energy-consumption building designed by researching building planning subareas, groups, monomers, building orientation, space, solar radiation, wind direction and external space environment according to a basic method for climate design and energy saving. When the energy-saving building is built, a corresponding rainwater collection system is designed frequently, and water resources are saved and utilized by recycling rainwater.

In view of the above-mentioned related art, the utility model has considered that the following drawbacks exist: the window of the existing energy-saving building only has the function of blocking rainwater from entering the building, and rainwater on the outer wall of the building mostly flows away along the window, so that the rainwater on the part is wasted.

SUMMERY OF THE UTILITY MODEL

In order to reduce the loss waste to the rainwater on the building outer wall, the application aims at providing an energy-conserving rainwater collecting system for building.

The application provides a rainwater collection system for energy-conserving building adopts following technical scheme:

the utility model provides an energy-conserving window for building, include the bed frame with set up in the window form of bed frame, be provided with collection device and water use device on the bed frame, collection device including set up in the header tank of bed frame below, the opening of header tank is upwards, the water use device includes atomizer and water pump, atomizer install in the top of window form, the water pump install in the bed frame or the header tank, the play water end of water pump with atomizer intercommunication, the end of intaking of water pump with the inside intercommunication of header tank.

Through adopting above-mentioned technical scheme, during rainwater weather, beat the water that falls on the window form and fall into the header tank along window form and bed frame, then when fine hot weather, the water pump extraction header tank water and via the atomizer blowout to play the effect to the temperature cooling around the window form, from this, make this window can collect and beat the water that falls on the window and utilize, thereby reduce the loss waste of rainwater on the building outer wall.

Preferably, the base frame includes the frame and can dismantle set up in support body in the frame, the cavity has been seted up to the upper end of frame, the opening orientation of cavity the support body, the up end of support body shelters from the opening of cavity, run through on the inner wall of cavity and seted up the mounting hole, the atomizer is located in the mounting hole.

Through adopting above-mentioned technical scheme, the support body can be dismantled so that the opening and close of cavity to be convenient for to the cleanness and the maintenance of atomizer in the cavity.

Preferably, the water pump is located at the lower end of the outer frame, a water guide pipe communicated with the atomizing nozzle is installed at the water outlet end of the water pump, a pipe installing groove is formed in one surface, away from the atomizing nozzle, of the frame body, the upper end of the pipe installing groove is communicated with the cavity, a water inlet pipe is installed at the water outlet end of the water pump, and the lower end of the water inlet pipe penetrates out of the outer frame to extend into the water collecting tank.

Through adopting above-mentioned technical scheme, the aqueduct is installed in the tubulation groove so that the extension of aqueduct can obtain the support, and the tubulation groove has the opening so that the dismouting of aqueduct to the clean maintenance of aqueduct is convenient for.

Preferably, the frame body is detachably provided with a cover plate on one surface where the pipe loading groove is located, and the cover plate seals the pipe loading groove.

Through adopting above-mentioned technical scheme, the apron shelters from the dress tube seat in order to avoid the aqueduct to expose outside to protect the aqueduct, and the apron can be dismantled so that the dress tube seat is opened and is overhauld the aqueduct.

Preferably, a pump loading groove is formed in the inner wall of the lower end of the outer frame in a penetrating mode, the lower end face of the frame body covers the opening of the pump loading groove, the water pump is located in the pump loading groove, the upper end of the pump loading groove is communicated with the pipe loading groove, and the lower end of the pump loading groove is communicated with the water collecting tank.

Through adopting above-mentioned technical scheme, the opening in order to shelter from or open the dress pump groove of support body dismouting to the dismouting of the water pump of being convenient for, from this, the maintenance and the maintenance of the water pump of being convenient for.

Preferably, a shock pad is arranged in the pump loading groove, and the water pump is attached to the shock pad.

Through adopting above-mentioned technical scheme, the shock pad can cushion the vibrations that the water pump during operation produced to reduce the collision damage because of vibrations lead to between water pump and the frame.

Preferably, an overflow hole is formed in the inner wall of the water collecting tank on the side far away from the base frame in a penetrating mode, and an overflow pipe is communicated with the overflow hole.

Through adopting above-mentioned technical scheme, the water level height in the header tank is convenient for in the setting of spillway hole to the water pump that wets that probably leads to is overflowed the external world from the header tank up end to the water in the header tank is avoided.

Preferably, the number of the window bodies is at least two, all the window bodies are installed in the outer frame, a frame body is arranged between every two adjacent window bodies, and the number of the water utilization devices is the same as that of the frame body and corresponds to that of the frame body one to one.

Through adopting above-mentioned technical scheme, support body and atomizer all correspond the setting with the window form so that increase the effective coverage area of spraying to improve the utilization ratio of water in the header tank.

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

1. in rainy days, water falling on the window body falls into the water collecting tank along the window body and the base frame, and then in sunny days, the water pump extracts the water in the water collecting tank and sprays the water through the atomizing spray head, so that the effect of reducing the temperature around the window body is achieved, the window can collect and utilize the water falling on the window, and the loss and waste of rainwater on the outer wall of a building are reduced;

2. the frame body can be disassembled so as to facilitate the opening and closing of the cavity, thereby facilitating the cleaning and the maintenance of the atomizing nozzle in the cavity;

3. the aqueduct is installed in the tubulation groove so that the extension of aqueduct can obtain the support, and the tubulation groove has the opening so that the dismouting of aqueduct to be convenient for the clean maintenance of aqueduct, the apron shelters from the tubulation groove and exposes outside in order to avoid the aqueduct, thereby protects the aqueduct, and the apron can be dismantled so that the tubulation groove is opened and is overhauld the aqueduct.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional structural view of an embodiment of the present application;

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

FIG. 4 is a schematic view of an installation structure of a frame body according to an embodiment of the present application;

fig. 5 is a schematic sectional structure view of a frame body according to an embodiment of the present application.

In the figure, 1, a window; 11. a base frame; 111. an outer frame; 1111. a cavity; 1112. mounting holes; 1113. a pump groove is arranged; 1114. a shock pad; 112. a frame body; 1121. a cover plate; 1122. a receiving groove; 1123. a pipe loading groove; 1124. opening and closing the door; 12. a window body; 2. a collection device; 21. a water collection tank; 211. an overflow pipe; 22. a winding disc; 23. water guide cloth; 24. a lifting member; 241. a fixing clip; 2411. a clamping space; 2412. connecting sheets; 2413. a clamping piece; 2414. a force application rod; 2415. disassembling and assembling holes; 242. winding the roller; 243. fixing a sleeve; 25. a drive member; 251. pulling a rope; 2511. a rope loop; 252. winding the rod; 253. a fixed pulley; 26. rolling a reset piece; 3. a water-consuming device; 31. an atomizing spray head; 32. a water pump; 33. a water conduit; 34. and (4) a water inlet pipe.

Detailed Description

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

The embodiment of the application discloses rainwater collecting system for energy-saving building.

Referring to fig. 1, a rainwater collecting system for an energy saving building includes a window 1, a collecting device 2, and a water using device 3. The window 1 includes a base frame 11 and a window 12 disposed on the base frame 11, and the base frame 11 includes an outer frame 111 and a frame body 112 detachably disposed in the outer frame 111. Pedestal 11 is the setting of class rectangle frame in order to have length, width and thick three direction, and pedestal 11's length direction sets up along the horizontal direction, and pedestal 11's width direction sets up along vertical direction, and pedestal 11's thickness direction sets up and is perpendicular with pedestal 11's length direction along the horizontal direction. Both sides in the thickness direction of the base frame 11 are an inner side and an outer side. The number of the windows 12 is at least two, and all the windows 12 are installed in the outer frame 111 and are distributed at intervals along the length direction of the outer frame 111. A frame body 112 is arranged between two adjacent window bodies 12, and the number of the water using devices 3 is the same as that of the frame bodies 112 and corresponds to that of the frame bodies 112 one by one. In the present embodiment, the number of windows 12 is two, the number of frames 112 is one, and the frame 112 is located between two windows 12. The window 12 may be a push-pull type or a flat-open type.

Referring to fig. 1 and 2, a collection device 2 is used to collect rain water that lands on a window 12. Specifically, the collecting device 2 includes a water collecting tank 21 fixedly disposed below the base frame 11, a winding tray 22 rotatably disposed at two ends of an inner wall of the water collecting tank 21, a water guiding cloth 23 wound at one end of the winding tray 22, and a lifting member 24 disposed at the other end of the water guiding cloth 23. The water collection tank 21 is a rectangular tank body, and the length of the water collection tank 21 is greater than or equal to the length of the outer frame 111. The opening of the water collection tank 21 is oriented to receive rainwater from the window 12. The axial direction of the winding disc 22 is the same as the length direction of the outer frame 111, correspondingly, the winding reset pieces 26 are mounted at both ends of the winding disc 22, and the winding reset pieces 26 are coil springs for driving the winding disc 22 to rotate and reset. One end of the winding resetting piece 26 is mounted on the inner wall of the water collecting tank 21, and the other end of the winding resetting piece 26 is fixedly connected with the winding disc 22. In this embodiment, an overflow hole is formed through an inner wall of the water collecting tank 21 on a side away from the base frame 11, and the height of the overflow hole is lower than that of the dish. The overflow hole is communicated with an overflow pipe 211.

Referring to fig. 2 and 3, the elevating member 24 is slidably provided at an outer side of the base frame 11 in a vertical direction. Specifically, the lifter 24 includes a winding roller 242 and a fixing clip 241 nipping the winding roller 242. The fixing clip 241 has a connecting piece 2412 and two clamping pieces 2413 integrally formed on the connecting piece 2412, the two clamping pieces 2413 are respectively located at two opposite ends of the connecting piece 2412, and the two clamping pieces 2413 are close to each other along a direction away from the connecting piece 2412 so as to be arranged like a triangle. A clamping space 2411 is formed between the two clamping pieces 2413. One end of the water guide cloth 23 remote from the wind-up reel 22 is wound around the wind-up roller 242, and the part of the water guide cloth 23 wound around the wind-up roller 242 and the wind-up roller 242 are located in the nip space 2411. Meanwhile, fixing sleeves 243 are respectively sleeved at both ends of the winding roller 242, and the part of the water guide cloth 23 wound around the winding roller 242 is tightly pressed between the outer circumferential surface of the winding roller 242 and the fixing sleeves 243.

In order to facilitate opening and closing of the clamping space 2411, one end, far away from the connecting sheet 2412, of the clamping sheet 2413 is wound outwards to form two dismounting holes 2415, and the two dismounting holes 2415 are both located on one surface, far away from the clamping space 2411, of the corresponding clamping sheet 2413. A force application rod 2414 is arranged between the two assembling and disassembling holes 2415, and the force application rod 2414 is made of metal and has certain elasticity. The force application rod 2414 is arranged in a shape similar to an omega, and two ends of the force application rod 2414 are respectively embedded into the corresponding dismounting holes 2415. The force application rod 2414 is attached to the corresponding clamping piece 2413 to have the same inclination angle as the corresponding clamping piece 2413. A force approaching each other is applied to one ends of the two force applying rods 2414, which are away from the attachment and detachment hole 2415, to apply a force departing each other to one ends of the two clamping pieces 2413, which are away from the connection piece 2412, thereby enabling the clamping space 2411 to be opened.

Referring to fig. 4 and 5, in order to control the lifting of the lifting member 24, a driving member 25 for driving the lifting member 24 to lift is mounted on the base frame 11. Specifically, cavity 1111 has been seted up on the inner wall of frame 111 upper end, and the opening of cavity 1111 is towards support body 112, and the upper end face part of support body 112 shelters from the opening of cavity 1111, and support body 112 is located the both sides of frame 111 thickness direction and communicates via cavity 1111. Correspondingly, the driving member 25 includes a pulling rope 251, a winding rod 252, and a fixed pulley 253. The axis direction of the fixed pulley 253 is the same as the longitudinal direction of the outer frame 111, and the fixed pulley 253 is positioned in the cavity 1111 and can rotate in the cavity 1111. The pulling rope 251 is wound around the upper side of the fixed pulley 253, and both ends of the pulling rope 251 are respectively positioned at both sides in the thickness direction of the frame body 112, so that the pulling rope 251 passes through the cavity 1111. The winding rod 252 is fixedly connected with the frame body 112 and is located at the inner side of the outer frame 111. One end of the pulling rope 251 located inside the base frame 11 is wound around the winding rod 252. The end of the pulling rope 251 located outside the base frame 11 has a rope ring 2511, and the rope ring 2511 are sleeved on the force application rod 2414 so that the rope ring 2511 is located between the two dismounting holes 2415.

In order to hide the winding rod 252 and prevent the winding rod 252 from being damaged due to exposure, two cover plates 1121 are detachably disposed on one surface of the frame body 112 located at the inner side of the outer frame 111, and a receiving slot 1122 is formed between the two cover plates 1121. Both the cavity 1111 and the winding rod 252 are located in the receiving groove 1122, and the upper end of the receiving groove 1122 is communicated with the cavity 1111. Accordingly, an opening and closing door 1124 is installed on an opening of the receiving groove 1122, and the opening and closing door 1124 closes the receiving groove 1122 to hide the winding rod 252.

Referring to fig. 2 and 4, the water using device 3 is used for pumping water inwardly using collected water to cool the outside of the outer frame 111 in hot weather. Specifically, the water using device 3 includes an atomizer 31 and a water pump 32. Correspondingly, the inner wall of the cavity 1111 near the outer side of the outer frame 111 is provided with a mounting hole 1112 in a penetrating manner, the axial direction of the mounting hole 1112 is the same as the thickness direction of the outer frame 111, the atomizer 31 is positioned in the mounting hole 1112, and the spraying end of the atomizer 31 faces the outer side of the outer frame 111. The inner wall of the lower end of the outer frame 111 is provided with a pump mounting groove 1113 in a penetrating way, and the lower end surface of the frame body 112 shields the opening of the pump mounting groove 1113. The water pump 32 is located in the pump loading groove 1113, and the shock pad 1114 is arranged in the pump loading groove 1113, and the water pump 32 and the shock pad 1114 are attached to buffer the vibration generated by the working process of the water pump 32 through the shock pad 1114. The lower extreme and the header tank 21 intercommunication of dress pump groove 1113, install inlet tube 34 on the intake of water pump 32, the tip of inlet tube 34 stretches into the header tank 21 bottom.

In order to facilitate the water pump 32 to deliver water to the atomizer 31, a water conduit 33 communicating with the atomizer 31 is installed at the water outlet end of the water pump 32. Correspondingly, a pipe installing groove 1123 is formed in one surface of the frame body 112 close to the inner side of the outer frame 111, that is, the pipe installing groove 1123 is located on one surface of the frame body 112 far away from the atomizing nozzle 31. The upper end of the tubing groove 1123 communicates with the cavity 1111. The cover 1121 is positioned opposite the tubing slot 1123 to enable the cover 1121 to close the tubing slot 1123.

The implementation principle of the rainwater collection system for the energy-saving building in the embodiment of the application is as follows:

in a rainwater weather, the pulling rope 251 is pulled to enable the lifting piece 24 to ascend and pull the pulling rope 251 to drive the lifting piece 24 to ascend, so that the winding disc 22 emits the water guiding cloth 23 to enable the water guiding cloth 23 to shield the window 12, and at the moment, rainwater falls on the water guiding cloth 23 to fall into the water collecting tank 21 along the water guiding cloth 23, so that the rainwater is collected;

in sunny and hot weather, the pull rope 251 is loosened to enable the lifting piece 24 to descend under the action of gravity, at the moment, the water guide cloth 23 loses tension to enable the winding disc 22 to wind the water guide cloth 23 under the action of the winding resetting piece 26, so that the window body 12 is exposed, and when the temperature is high, the water pump 32 extracts water in the water collecting tank 21 and sprays the water through the atomizing nozzle 31, so that the effect of cooling the temperature around the window body 12 is achieved.

The embodiments of the present invention are preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, wherein like parts are denoted by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component. Therefore, the method comprises the following steps: 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 (8)

1. The utility model provides an energy-conserving window for building, including bed frame (11) with set up in window body (12) of bed frame (11), its characterized in that, be provided with collection device (2) and water consuming device (3) on bed frame (11), collection device (2) including set up in header tank (21) of bed frame (11) below, the opening of header tank (21) is towards upwards, water consuming device (3) are including atomizer (31) and water pump (32), atomizer (31) install in the top of window body (12), water pump (32) install in bed frame (11) or header tank (21), the play water end of water pump (32) with atomizer (31) intercommunication, the intake end of water pump (32) with the inside intercommunication of header tank (21).

2. The window for the energy-saving building as claimed in claim 1, wherein the base frame (11) comprises an outer frame (111) and a frame body (112) detachably disposed in the outer frame (111), a cavity (1111) is opened at an upper end of the outer frame (111), an opening of the cavity (1111) faces the frame body (112), the upper end surface of the frame body (112) shields the opening of the cavity (1111), a mounting hole (1112) is formed through an inner wall of the cavity (1111), and the atomizing nozzle (31) is located in the mounting hole (1112).

3. The window for the energy-saving building as claimed in claim 2, wherein the water pump (32) is located at the lower end of the outer frame (111), a water conduit (33) communicated with the atomizer (31) is installed at the water outlet end of the water pump (32), a pipe loading groove (1123) is opened on one surface of the frame body (112) far away from the atomizer (31), the upper end of the pipe loading groove (1123) is communicated with the cavity (1111), a water inlet pipe (34) is installed at the water outlet end of the water pump (32), and the lower end of the water inlet pipe (34) penetrates out of the outer frame (111) to extend into the water collection tank (21).

4. An energy-saving window for building as claimed in claim 3, wherein a cover plate (1121) is detachably disposed on a side of the frame body (112) where the pipe loading groove (1123) is located, and the cover plate (1121) closes the pipe loading groove (1123).

5. The window for the energy-saving building as claimed in claim 3 or 4, wherein a pump loading groove (1113) is formed through an inner wall of a lower end of the outer frame (111), an opening of the pump loading groove (1113) is shielded by a lower end surface of the frame body (112), the water pump (32) is located in the pump loading groove (1113), an upper end of the pump loading groove (1113) is communicated with the pipe loading groove (1123), and a lower end of the pump loading groove (1113) is communicated with the water collecting tank (21).

6. An energy-saving building window as claimed in claim 5, wherein a shock pad (1114) is provided in the pump-loading groove (1113), and the water pump (32) is attached to the shock pad (1114).

7. The window for energy-saving buildings as claimed in claim 5, wherein an overflow hole is perforated on the inner wall of the water collection tank (21) far away from the base frame (11), and an overflow pipe (211) is connected to the overflow hole.

8. An energy-saving building window as claimed in claim 2, wherein the number of the windows (12) is at least two, all the windows (12) are installed in the outer frame (111), a frame body (112) is provided between two adjacent windows (12), and the number of the water consuming devices (3) is the same as the number of the frame bodies (112) and corresponds to one another.

Images