CN222909834U - Building energy-saving door and window system - Google Patents

Abstract

The utility model relates to a building energy-saving door and window system belongs to door and window system technical field, which comprises a wall body, the inside seal of wall body is furnished with the frame type, the inside of frame type is connected with the sealing frame that is two in quantity through the hinge rotation. This building energy-saving door and window system, first transparent toughened glass and the double-deck glass of second transparent toughened glass can keep apart indoor outer heat, reduce heat loss, make door and window system have energy-conservation nature, sealed close in the inside of frame formula, can generate electricity and save the inside of storage battery through the circuit board box body through frame form photovoltaic board, can make the transparent zone of heating of electricity through operating button, then can clear up the fog on first transparent toughened glass and the transparent toughened glass of second, make it volatilize, charge for the cell-phone through USB interface that is three in quantity, promote door and window system's energy-conservation nature, can look over the inside remaining electric quantity of storage battery through the display screen.

Description

Building energy-saving door and window system

Technical Field

The utility model relates to the technical field of door and window systems, in particular to a building energy-saving door and window system.

Background

The door and window are divided into enclosure components or separation components according to different positions of the door and window, different design requirements are needed, the door and window has the functions of heat preservation, heat insulation, sound insulation, water prevention, fire prevention and the like, new requirements are energy-saving, heat lost by gaps of the door and window in cold areas accounts for about 25% of total heating consumption, the requirement of tightness of the door and window is important content in energy-saving design, the door and window are important components in a building enclosure structure system, two functions are achieved, the door and window are important components of building modeling, the shape, the size, the proportion, the arrangement, the color, the modeling and the like of the door and window have great influence on the overall modeling of the building, the door and window is divided into the enclosure components or the separation components according to different positions of the door and window, according to the door and window materials, the door and window materials can be divided into the following categories of wood door and window, steel door and window and plastic door and window, the door and window are improved, the living standard of people is continuously improved, and the grade of the door and window products derived from the people are gradually increased.

For example, CN217481159U in chinese patent discloses a building energy-saving door and window system, including the shaped frame and rotate the window of connection at the shaped frame both ends, the outside fixed mounting of shaped frame has the wall body, the one end that the shaped frame kept away from the window is provided with the shape cover that returns, just the outside of shape cover that returns is rectangular array threaded connection has the second locking lever, the outer wall fixed mounting of shape cover returns has and carries out extruded first sealed pad with the wall body, the one end fixedly connected with that just is close to the shaped frame of shape cover returns and carries out extruded second sealed pad with the shaped frame, this building energy-saving door and window system through setting up shape cover, second locking lever, first sealed pad and second sealed pad, realizes sealing the installation to the gap department of shaped frame and wall body, improves the leakproofness between shaped frame and the wall body, through setting up movable frame, limiting plate, heat preservation strip and first locking lever, is convenient for drive movable frame and make a round trip to rotate on the limiting plate for contact between heat preservation strip and the shaped frame, play the effect of isolated gas.

Above-mentioned patent is convenient for drive and remove the frame and make a round trip to rotate on the limiting plate for contact between heat preservation strip and the shaped frame plays the effect of isolated gas, but when building energy-conserving door and window in this patent uses, because indoor and outdoor difference in temperature reason makes the condition that appears fog in the door and window easily, when clearing up glass fog in the door and window, need use the rag to clear up, its process is comparatively loaded down with trivial details, has reduced the practicality.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides a building energy-saving door and window system which has the advantages of being convenient for cleaning fog on glass in a door and window, and the like, and solves the problems that when the building energy-saving door and window is used, fog is easy to occur on the glass in the door and window due to the temperature difference between indoor and outdoor, cleaning is carried out by using rags when the glass in the door and window is cleaned, the process is complicated, and the practicability is reduced.

In order to achieve the aim, the utility model provides the technical scheme that the building energy-saving door and window system comprises a wall body, wherein a frame is hermetically sealed in the wall body, two sealing frames are rotatably connected in the frame through hinges, handles are fixed on the front face of each sealing frame, and a connecting mechanism is arranged on the front face of each frame;

The connecting mechanism comprises a battery frame, a fixing plate, a storage battery pack, a circuit board box body, a frame-shaped photovoltaic plate and a connecting assembly, wherein the battery frame is fixed on the lower side of the front face of the frame through bolts, the fixing plate is fixed on the front face of the battery frame through bolts, the storage battery pack is assembled inside the battery frame, the circuit board box body is fixed on the right side of the battery frame, the frame-shaped photovoltaic plate is arranged on the back face of the frame, and the storage battery pack and the frame-shaped photovoltaic plate are electrically connected with the circuit board box body through wires.

By adopting the technical scheme, fog on glass in doors and windows can be cleaned conveniently.

Further, coupling assembling includes first transparent toughened glass, the transparent heating layer of electric system, the transparent toughened glass of second, three USB interface, display screen, two operating button, first transparent toughened glass passes through the inside that the sealed frame was fixed to sealed glue, the transparent heating layer of electric system passes through the inside that the sealed frame was fixed to sealed glue, the transparent toughened glass of second passes through the inside that the sealed frame was fixed to sealed glue, three the USB interface all sets up in the front of circuit board box body, the display screen sets up in the front of circuit board box body, two operating button all sets up in the front of circuit board box body, transparent heating layer of electric system, two operating button, three USB interface and display screen all pass through wire and circuit board box body electric connection.

By adopting the technical scheme, the mobile phone can be charged through three USB interfaces.

Further, the electric transparent heating layer is positioned at the rear side of the first transparent toughened glass, and the second transparent toughened glass is positioned at the rear side of the electric transparent heating layer.

By adopting the technical scheme, the first transparent toughened glass and the second transparent toughened glass can be heated to proper temperature by heating the electric transparent heating layer.

Further, the operation button is located on the right side of the display screen, and the display screen is located on the right side of the USB interface.

By adopting the technical scheme, the electric transparent heating layer can be started and closed by operating the button.

Further, the handle is located on a transverse central axis of the sealing frame.

By adopting the technical scheme, the sealing frame can be opened by holding the handle.

Further, the frame-shaped photovoltaic panel is located on a longitudinal central axis of the frame.

By adopting the technical scheme, the frame-shaped photovoltaic panel can perform illumination power generation.

Further, the sealing frames on the left side and the right side are symmetrically distributed on the left side and the right side of the longitudinal central axis of the frame.

By adopting the technical scheme, the stability of the two sealing frames in the frame type is improved.

Further, the first transparent toughened glass and the second transparent toughened glass are symmetrically distributed on the front side and the rear side of the transverse central axis of the sealing frame.

Through adopting this technical scheme, can promote door and window system's thermal insulation performance and sound insulation performance through the mutually supporting of first transparent toughened glass and second transparent toughened glass.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

This building energy-saving door and window system can keep apart indoor and outdoor heat through the double-deck glass of first transparent toughened glass and second transparent toughened glass, reduce thermal loss, make door and window system have energy-conservation nature, sealed frame seals the inside of closing at the frame type, frame form photovoltaic board is located the back of frame type, be equivalent to being located outside the window, can generate electricity and save the inside of storage battery through circuit board box body through frame form photovoltaic board, can make the transparent zone of heating of electric system through operating button, then can clear up the fog on first transparent toughened glass and the transparent toughened glass of second, make it volatilize, charge for the cell-phone through USB interface that the quantity is three, promote door and window system's energy-conservation nature, can look over the electric quantity that storage battery is inside through the display screen.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a connecting mechanism according to the present utility model;

FIG. 3 is a schematic view of a frame-type rear structure of the present utility model;

fig. 4 is a schematic perspective view of a first transparent tempered glass of the structure of the present utility model.

In the figure, 1, a wall body, 2, a frame type, 3, a sealing frame, 4, a handle, 5, a connecting mechanism, 51, a battery frame, 52, a fixing plate, 53, a storage battery pack, 54, a circuit board box body, 55, a frame-shaped photovoltaic plate, 56, a connecting component, 561, first transparent toughened glass, 562, an electric transparent heating layer, 563, second transparent toughened glass, 564, a USB interface, 565, a display screen, 566 and an operation button.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, the energy-saving door and window system for a building in this embodiment includes a wall 1, a frame 2 is sealed inside the wall 1, two sealing frames 3 are rotatably connected inside the frame 2 through hinges, a handle 4 is fixed on the front surface of the sealing frame 3, a connecting mechanism 5 is arranged on the front surface of the frame 2, and the connecting mechanism 5 is convenient for cleaning fog on glass in a door and window.

In this embodiment, the handles 4 are located on the transverse central axis of the sealing frame 3, and the left and right sealing frames 3 are symmetrically distributed on the left and right sides of the longitudinal central axis of the frame 2.

Referring to fig. 2-4, in order to facilitate cleaning of fog on glass in doors and windows, in this embodiment, the connection mechanism 5 includes a battery frame 51, a fixing plate 52, a battery pack 53, a circuit board box 54, a frame-shaped photovoltaic panel 55 and a connection assembly 56, the battery frame 51 is fixed on the lower side of the front face of the frame 2 through bolts, the fixing plate 52 is fixed on the front face of the battery frame 51 through bolts, the battery pack 53 is assembled inside the battery frame 51, the circuit board box 54 is fixed on the right side of the battery frame 51, the frame-shaped photovoltaic panel 55 is arranged on the back face of the frame 2, and the battery pack 53 and the frame-shaped photovoltaic panel 55 are electrically connected with the circuit board box 54 through wires.

In this embodiment, the connection component 56 includes a first transparent toughened glass 561, an electrically transparent heating layer 562, a second transparent toughened glass 563, three USB interfaces 564, a display screen 565, and two operation buttons 566, where the first transparent toughened glass 561 is fixed inside the sealing frame 3 by a sealant, the electrically transparent heating layer 562 is fixed inside the sealing frame 3 by a sealant, the second transparent toughened glass 563 is fixed inside the sealing frame 3 by a sealant, and the double-layer glass of the first transparent toughened glass 561 and the second transparent toughened glass 563 can isolate indoor and outdoor heat, so as to reduce heat loss, make the door and window system have energy conservation, the sealing frame 3 is sealed inside the frame 2, the three USB interfaces 564 are all arranged on the front surface of the circuit board box 54, and the display screen 565 is arranged on the front surface of the circuit board box 54.

In this embodiment, two operation buttons 566 are disposed on the front surface of the circuit board box 54, the electrical transparent heating layer 562, two operation buttons 566, three USB interfaces 564 and the display screen 565 are electrically connected with the circuit board box 54 through wires, and the frame-shaped photovoltaic panel 55 is located on the back surface of the frame 2, which is equivalent to being located outside the window, and can generate electricity through the frame-shaped photovoltaic panel 55 and store the electricity into the storage battery 53 through the circuit board box 54.

The transparent heating layer 562 of electric system is located the rear side of first transparent toughened glass 561, and the transparent toughened glass 563 of second is located the rear side of transparent heating layer 562 of electric system, and operating button 566 is located the right side of display screen 565, and display screen 565 is located the right side of USB interface 564, and frame-shaped photovoltaic board 55 is located the vertical axis of frame type 2, and first transparent toughened glass 561 and the transparent toughened glass 563 of second are the front and back both sides of the horizontal axis of sealing frame 3 in symmetrical distribution.

It should be noted that, through operating the operation button 566, the transparent heating layer 562 of electric system can be heated, then the fog on the transparent toughened glass 561 of first and the transparent toughened glass 563 of second can be cleared up, make it volatilize, charge for the cell-phone through USB interface 564 that is three in quantity, promote door and window system's energy-conservation nature, can look over the electric quantity that the storage battery 53 is inside through display 565, and then promoted the practicality.

The working principle of the embodiment is as follows:

The double-layer glass of the first transparent toughened glass 561 and the second transparent toughened glass 563 can isolate indoor and outdoor heat, heat loss is reduced, the door and window system has energy-saving performance, the sealing frame 3 is sealed and closed in the frame 2, the frame-shaped photovoltaic panel 55 is positioned on the back of the frame 2 and is equivalent to being positioned outside a window, the power can be generated through the frame-shaped photovoltaic panel 55 and stored in the storage battery 53 through the circuit board box body 54, the electric transparent heating layer 562 can be heated through operating the operating button 566, fog on the first transparent toughened glass 561 and the second transparent toughened glass 563 can be cleaned, the fog is volatilized, the mobile phone is charged through the USB interfaces 564 with three numbers, the energy-saving performance of the door and window system is improved, the residual electric quantity in the storage battery 53 can be checked through the display screen 565, and the practicability is further improved.

Claims (8)

1. The building energy-saving door and window system comprises a wall body (1) and is characterized in that a frame type (2) is hermetically sealed in the wall body (1), two sealing frames (3) are rotatably connected in the frame type (2) through hinges, handles (4) are fixed on the front face of each sealing frame (3), and a connecting mechanism (5) is arranged on the front face of each frame type (2);

Coupling mechanism (5) are including battery frame (51), fixed plate (52), storage battery (53), circuit board box body (54), frame form photovoltaic board (55) and coupling assembling (56), battery frame (51) pass through the positive downside of bolt fastening at frame type (2), fixed plate (52) pass through the positive at battery frame (51) of bolt fastening, the inside at battery frame (51) is assembled in storage battery (53), right side at battery frame (51) is fixed to circuit board box body (54), frame form photovoltaic board (55) set up the back at frame type (2), storage battery (53) and frame form photovoltaic board (55) all pass through wire and circuit board box body (54) electric connection.

2. The energy-saving door and window system for buildings of claim 1, wherein the connecting component (56) comprises first transparent toughened glass (561), an electric transparent heating layer (562), second transparent toughened glass (563), three USB interfaces (564), a display screen (565) and two operation buttons (566), wherein the first transparent toughened glass (561) is fixed in the sealing frame (3) through sealant, the electric transparent heating layer (562) is fixed in the sealing frame (3) through sealant, the second transparent toughened glass (563) is fixed in the sealing frame (3) through sealant, three USB interfaces (564) are all arranged on the front surface of the circuit board box body (54), the display screen (565) is arranged on the front surface of the circuit board box body (54), and the two operation buttons (566) are all arranged on the front surface of the circuit board box body (54), and the electric transparent heating layer (562), the two operation buttons (566), the three USB interfaces (565) and the display screen (565) are all electrically connected with the circuit board box body (54) through leads.

3. The architectural energy saving door and window system of claim 2, wherein said electrically transparent heating layer (562) is located on the rear side of the first transparent tempered glass (561), and said second transparent tempered glass (563) is located on the rear side of the electrically transparent heating layer (562).

4. The energy-saving door and window system for construction according to claim 2, wherein the operation button (566) is located on the right side of the display screen (565), and the display screen (565) is located on the right side of the USB interface (564).

5. The building energy-saving door and window system according to claim 1, wherein the handle (4) is located on the transverse central axis of the sealing frame (3).

6. The building energy-saving door and window system according to claim 1, wherein the frame-shaped photovoltaic panel (55) is located on the longitudinal central axis of the frame-shaped photovoltaic panel (2).

7. The building energy-saving door and window system according to claim 1, wherein the sealing frames (3) on the left side and the right side are symmetrically distributed on the left side and the right side of the longitudinal central axis of the frame (2).

8. The energy-saving door and window system for construction according to claim 2, wherein the first transparent toughened glass (561) and the second transparent toughened glass (563) are symmetrically distributed on the front side and the rear side of the transverse central axis of the sealing frame (3).