A comprehensive energy-saving safety window

By integrating the window frame, guardrail, and solar water heater into one unit, the problems of separate installation of the three components in existing technologies, which occupy balcony space and have long construction periods, are solved, thus achieving efficient construction and maintenance.

CN224396367UActive Publication Date: 2026-06-23SUZHOU BIEMU ENG TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU BIEMU ENG TECH CO LTD
Filing Date
2025-07-25
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing windows, guardrails and solar water heaters need to be installed separately, which takes up balcony space, has a long construction period, is difficult to carry out in parallel construction, and has low construction efficiency.

Method used

The window frame, guardrail, and solar water heater are integrated into one unit. Precision and quality are ensured through factory processing, and installation is carried out by the same construction unit, simplifying on-site construction.

Benefits of technology

It increases the usable space on the balcony, shortens the construction period, improves construction efficiency, and facilitates later maintenance and parts replacement.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to energy -conserving window technical field, concretely relates to a kind of comprehensive energy -conserving safety window. Including window frame and solar water heater, window frame is provided with horizontal beam in, horizontal beam divides window frame into upper frame body and lower frame body, lower frame body is provided with the protective fence extending along horizontal direction in, solar water heater includes water storage device and collector, collector includes heat collecting pipe and first water pipe, heat collecting pipe is arranged multiple in lower frame body along horizontal direction interval, and heat collecting pipe is set in protective fence one side facing away from indoor, horizontal beam is provided with the mounting cavity extending along horizontal direction in, first water pipe is worn in mounting cavity, mounting cavity is filled with heat preservation layer between first water pipe, the upper end of heat collecting pipe extends to mounting cavity and is communicated with first water pipe upwards, the lower end of heat collecting pipe is located on lower frame body. Window frame, protective fence and solar water heater are combined into one, without being reserved installation and maintenance space for each single, effectively increase the use space of balcony, improve construction efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of energy-saving window technology, specifically to a comprehensive energy-saving and safety window. Background Technology

[0002] In existing technology, balcony windows are typically enclosed, and depending on actual needs, some are fitted with safety railings for protection. In addition, some balconies are equipped with solar water heaters. The collector tubes of these solar water heaters are usually installed on the side of the window facing inwards to receive sunlight and heat the cool water inside, achieving energy-saving effects.

[0003] While the individual technologies for windows, guardrails, and solar water heaters are mature, these three products are typically manufactured and implemented by different companies and construction teams. These products need to avoid interfering with each other, and the balcony requires dedicated space for installation and maintenance of each product, thus compressing the balcony's usable space. Furthermore, different construction teams must work sequentially, making it difficult to overlap, resulting in a long overall construction period and low efficiency. Utility Model Content

[0004] The technical problem to be solved by this utility model is to provide a comprehensive energy-saving and safety window. By integrating multiple functions and refining the design, and processing and manufacturing in the factory to ensure functional connection, accuracy and quality, it reduces the difficulty of on-site installation and improves installation efficiency. At the same time, it facilitates later maintenance and parts replacement.

[0005] To address the aforementioned technical problems, this utility model provides a comprehensive energy-saving and safety window, comprising a window frame and a solar water heater. The window frame has a horizontally extending beam that divides it into an upper frame and a lower frame. A horizontally extending guardrail is located on the interior side of the lower frame. The solar water heater includes a water storage tank and a collector that are interconnected. The collector includes a collector pipe and a first water pipe. Multiple collector pipes are arranged horizontally at intervals within the lower frame, and these collector pipes are located on the side of the guardrail facing away from the interior. A horizontally extending mounting cavity is provided within the horizontal beam. The first water pipe passes through the mounting cavity, and an insulation layer is filled between the mounting cavity and the first water pipe. The upper end of the collector pipe extends upwards into the mounting cavity and communicates with the first water pipe, while the lower end of the collector pipe rests on the lower frame.

[0006] Furthermore, the protective railing includes multiple rectangular protective frames arranged sequentially along the horizontal direction, each rectangular protective frame containing protective glass, and each heat collection tube corresponding to a rectangular protective frame.

[0007] Furthermore, the heat collection tube is correspondingly positioned on the vertical side of the rectangular protective frame.

[0008] Furthermore, the diameter of the heat collection tube is adapted to the width of the vertical side of the rectangular protective frame.

[0009] Furthermore, the water storage device is equipped with a circulating water supply pipe and a circulating water return pipe, which are respectively connected to the two horizontal ends of the first water pipe. A circulating water pump is also installed on the circulating water supply pipe.

[0010] Furthermore, the water storage device is also equipped with a water inlet pipe and a domestic water pipe, and the water inlet pipe is equipped with a water inlet solenoid valve.

[0011] Furthermore, two window frames are provided at horizontal intervals, and a first water pipe passes through the mounting cavity of the horizontal beam of the two window frames.

[0012] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0013] (1) The window frame with protective function and the solar water heater are combined into one unit, eliminating the need for separate installation of guardrails and the need to reserve separate installation and maintenance space for each, effectively increasing the usable space of the balcony. At the same time, the whole construction is carried out by the same construction unit, and the factory combines design, material cutting and processing to ensure manufacturing accuracy and product quality. After that, only one construction unit is needed for simple on-site installation, which shortens the construction cycle and improves construction efficiency; the later maintenance and parts replacement are also more convenient.

[0014] The horizontal beam divides the window frame into an upper and lower frame, making the layout of each component more rational. The safety railing is located on the interior-facing side of the lower frame, providing safety protection. The solar collector tubes are located within the lower frame and on the interior-facing side of the safety railing, ensuring sufficient sunlight-receiving area for effective heat collection while also protecting the tubes through the railing. The first water pipe passes through the mounting cavity of the horizontal beam, and the space between the mounting cavity and the first water pipe is filled with the insulation layer necessary for the window frame's energy efficiency, reducing heat loss and improving the thermal efficiency of the solar water heater. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of a comprehensive energy-saving and safety window installed on a balcony, according to Embodiment 1 of this utility model.

[0016] Figure 2 This is a front view of a comprehensive energy-saving and safety window installed on a balcony, according to Embodiment 1 of this utility model.

[0017] Figure 3 This is a rear view of a comprehensive energy-saving and safety window installed on a balcony, according to Embodiment 1 of this utility model.

[0018] Figure 4 This is a schematic diagram of the overall structure of a comprehensive energy-saving and safety window in Embodiment 1 of this utility model.

[0019] Figure 5 This is a front view of a comprehensive energy-saving and safety window according to Embodiment 1 of this utility model.

[0020] Figure 6 This is a rear view of a comprehensive energy-saving and safety window according to Embodiment 1 of this utility model.

[0021] Figure 7 This is the first-direction isometric view of the window frame in Embodiment 1 of this utility model.

[0022] Figure 8 This is the second-direction isometric view of the window frame in Embodiment 1 of this utility model.

[0023] Figure 9 This is a cross-sectional view of the window frame in Embodiment 1 of this utility model.

[0024] Figure 10 This is a side sectional view of the window frame in Embodiment 1 of this utility model.

[0025] Figure 11 This is a cross-sectional view of the lower frame in Embodiment 1 of this utility model.

[0026] In the diagram: 1. Balcony; 11. Balcony side wall; 12. Balcony window; 2. Window frame; 21. Horizontal beam; 22. Upper frame; 23. Lower frame; 24. Rectangular protective frame; 25. Installation cavity; 26. Guardrail; 3. Solar water heater; 31. Water storage tank; 32. Collector; 33. Collector pipe; 34. First water pipe; 35. Circulating water supply pipe; 36. Circulating return water pipe; 37. Circulating water pump; 38. Water supply pipe; 39. Domestic water pipe; 310. Water pipe valve; 311. Water tank vent pipe; 312. Return water vent pipe; 313. Return water vent valve; 314. Water supply solenoid valve; 315. Control panel; 4. Insulation layer; 5. Protective glass. Detailed Implementation

[0027] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings: Specific Implementation Example 1:

[0029] In this embodiment, the horizontal direction refers to the length of the balcony window 12.

[0030] refer to Figures 1 to 11 This utility model provides a comprehensive energy-saving and safety window applicable to applications such as... Figure 1 The balcony 1 shown includes a balcony side wall 11 and a balcony window 12. A window frame 2 is installed inside the balcony window 12, and a protective glass 5 is installed inside the window frame 2.

[0031] Specifically, the integrated energy-saving and safety window includes a window frame 2 and a solar water heater 3. A horizontal beam 21 extending laterally is installed inside the window frame 2. The two ends of the horizontal beam 21 are fixed to the inner horizontal side of the window frame 2, dividing the window frame 2 into an upper frame 22 and a lower frame 23. A horizontally extending guardrail 26 is installed inside the lower frame 23, located on the side of the lower frame 23 facing inwards. The length of the guardrail 26 is adapted to the length of the inner frame of the lower frame 23.

[0032] The solar water heater 3 includes a water storage tank 31 and a collector 32 that are interconnected. The collector 32 includes a collector tube 33 and a first water pipe 34. Multiple collector tubes 33 are arranged horizontally at intervals in the lower frame 23. The collector tubes 33 are located on the side of the guardrail 26 facing away from the room. The collector tubes 33 and the guardrail 26 are arranged at intervals in the horizontal longitudinal direction.

[0033] An installation cavity 25 extending laterally is provided within the transverse beam 21. A first water pipe 34 passes through the installation cavity 25, and an insulation layer 4 is filled between the installation cavity 25 and the first water pipe 34. The upper end of the heat collection pipe 33 extends upward to the installation cavity 25 and communicates with the first water pipe 34. The lower end of the heat collection pipe 33 rests on the lower frame 23. The heat collection pipes 33 are connected in series by the first water pipe 34, which is also connected to the water storage device 31. Specifically, in this embodiment, the insulation layer 4 is insulation cotton.

[0034] Specifically, in this embodiment, the heat collection tube 33 is a long and narrow vacuum tube with a rubber gasket ring (not shown in the figure) at the top. The first water pipe 34 has an installation port (not shown in the figure) corresponding to the position of the heat collection tube 33. The top of the heat collection tube 33 extends into the installation port of the first water pipe 34 and is sealed by the rubber gasket ring. On the bottom frame of the lower frame 23, a profile plate (not shown in the figure) is provided corresponding to the position of the heat collection tube 33. The profile plate has an installation hole adapted to the heat collection tube 33. An annular rubber gasket (not shown in the figure) is provided in the installation hole. The lower end of the heat collection tube 33 is inserted into the annular rubber gasket in the installation hole and sits on the bottom frame to form a base support for the heat collection tube 33.

[0035] In this embodiment, the guardrail is installed on the lower frame, giving the window frame a protective function. The height of the lower frame is not limited to 1.1 meters, the clear distance is not less than 110 mm, the horizontal thrust of the transverse beam is not limited to 1.5 KN / m, and the guardrail within the lower frame fulfills the function of a railing.

[0036] This application integrates the window frame 2, guardrail 26, and solar water heater 3 into one unit, eliminating the need to reserve separate installation and maintenance space for each component, effectively increasing the usable space of balcony 1. Furthermore, this integrated energy-saving safety window is designed, cut, and manufactured in a single factory, ensuring manufacturing precision and product quality. Only one construction company is required for on-site installation, shortening the construction cycle and improving efficiency.

[0037] The horizontal beam 21 divides the window frame 2 into an upper frame 22 and a lower frame 23, making the layout of each component more reasonable. The guardrail 26 is located on the side of the lower frame 23 facing the interior, providing safety protection. The heat collection tube 33 is located inside the lower frame 23 and on the side of the guardrail 26 facing away from the interior, ensuring the light-receiving area of ​​the heat collection tube 33 for effective heat collection, while also providing protection for the heat collection tube 33 through the guardrail 26. The first water pipe 34 passes through the mounting cavity 25 of the horizontal beam 21, and the space between the mounting cavity 25 and the first water pipe 34 is filled with the insulation layer 4 necessary for the energy saving of the window frame, reducing heat loss and improving the thermal efficiency of the solar water heater 3.

[0038] Specifically, in this embodiment, the water storage tank 31 is provided with a circulating water supply pipe 35, a circulating water return pipe 36, and a circulating water pump 37. The circulating water supply pipe 35 and the circulating water return pipe 36 are respectively sealed and connected to the two transverse ends of the first water pipe 34. The circulating water pump 37 is installed on the circulating water supply pipe 35 and is used to drive the water in the water storage tank 31 and the solar collector 32 to circulate through the circulating water supply pipe 35 and the circulating water return pipe 36.

[0039] The water storage tank 31 is equipped with a water level sensor. It is also connected to a water inlet pipe 38 and a domestic water pipe 39. A water inlet solenoid valve 314 is installed on the water inlet pipe 38, and the domestic water pipe 39 is used to connect water-using appliances. When the water level sensor in the water storage tank 31 detects that the water level has dropped to a set low level, the control program within the water storage tank 31 controls the water inlet solenoid valve 314 to open, allowing water to be injected into the water storage tank 31 through the water inlet pipe 38. When the water level reaches the set level, the water inlet solenoid valve 314 closes, completing the automatic water replenishment.

[0040] The water storage tank 31 is a heat-insulating water storage tank 31. Both the water storage tank 31 and the solar collector 32 are equipped with water temperature sensors. When the water temperature sensor detects that the water temperature in the water storage tank 31 is too low, the control program in the water storage tank 31 controls the circulation water pump 37 to start, pumping the water heated by sunlight in the solar collector 32 into the water storage tank 31 to raise the water temperature in the water storage tank 31. At the same time, the cool water in the water storage tank 31 is injected into the solar collector 32 to continue heating, thus realizing automatic water temperature control.

[0041] In this embodiment, a water tank vent pipe 311 is also provided on the water storage tank 31 to discharge the gas inside the water storage tank 31. A return water vent pipe 312 is also provided on the circulating return water pipe 36, and a return water vent valve 313 is provided on the return water vent pipe 312 for emptying the internal water or venting the internal air. A water pipe valve 310 is also provided on the circulating water supply pipe 35 for controlling the water supply.

[0042] The water storage tank 31 also includes a control panel 315 installed on the side wall 11 of the balcony. The control panel 315 is used to control the solar water heater, including setting the working logic conditions of the solenoid valve, setting the working circulation conditions of the circulating water pump 37, displaying the water temperature in the tank and the water temperature of the collector 32 in real time, and setting the start and stop temperatures of the circulating water pump 37. In this embodiment, the solar water heater 3 also includes a remote monitoring function via mobile phone. The control panel 315 is used to assist in the intelligent management software and hardware, enabling remote data query and control of various valve switches via mobile phone. At the same time, a pressure switch is embedded at the bottom of the balcony 1 floor, and a humidity sensor switch is installed on the floor of the balcony 1 near the window and side wall. When a leak occurs, it will be detected in time and an alarm will be triggered remotely.

[0043] Preferably, in this embodiment, such as Figure 7 , 8 As shown, the guardrail 26 includes multiple rectangular guard frames 24 arranged sequentially along the horizontal direction. Protective glass 5 is installed inside each rectangular guard frame 24, and the rectangular guard frames 24 and protective glass 5 are used to seal the lower frame 23. Simultaneously, protective glass 5 is also installed inside the upper frame 22. The solar collector tubes 33 are arranged one-to-one with the rectangular guard frames 24. The rectangular guard frames 24, with their openings, serve both as guardrail posts 26 and as impact protection for the solar collector tubes 33, without affecting indoor lighting.

[0044] Specifically, in this embodiment, the heat collection tube 33 is correspondingly positioned on the vertical side of the rectangular protective frame 24, and the diameter of the heat collection tube 33 is adapted to the width of the vertical side of the rectangular protective frame 24. This avoids mutual obstruction between the heat collection tube 33 and the rectangular protective frame 24, improving the indoor lighting effect.

[0045] Of course, in other embodiments, the guardrail 26 may also include a plurality of guard rods arranged at intervals along the lateral direction, and a protective glass 5 is provided between the guard rod and the heat collection pipe 33 to block the lower frame 23. At the same time, the outer diameter position and size of the guardrail 26 rods can be set to correspond and match the position and size of the heat collection pipe 33 to improve the lighting effect.

[0046] Preferably, in this embodiment, at the balcony window 12, according to the actual installation requirements, two window frames 2 are set at horizontal intervals, and a first water pipe 34 passes through the mounting cavity 25 of the horizontal beam 21 of the two window frames 2.

[0047] In this embodiment, as Figure 10 As shown, the protective glass 5 of the upper frame 22 and the protective glass 5 of the lower frame 23 are located on the transverse beam 21. Furthermore, in the horizontal and longitudinal direction, the protective glass 5 of the upper frame 22 is located on the side of the upper frame 22 facing away from the interior, in order to maximize the usable interior space.

[0048] The working process of this application:

[0049] When in use, the window frame 2, combined with the guardrail 26, is used to seal the balcony window 12 for safety protection. The collector 32 of the solar water heater 3 heats the internal water under the sun's rays. The cold water in the storage tank 31 is pumped into the first water pipe 34 through the circulating water supply pipe 35 by the circulating water pump 37. Since the density of cold water is greater than that of hot water, the cold water in the first water pipe 34 automatically sinks into the collector pipe 33. The hot water inside the collector pipe 33 rises to the first water pipe 34 and enters the storage tank 31 through the circulating return water pipe 36, completing the exchange of hot and cold water.

[0050] In summary, this utility model of an integrated energy-saving safety window combines the functions of the window frame 2, the guardrail 26, and the solar water heater 3. It uses energy-saving materials, reduces the space occupied by the balcony 1, and increases the usable space. At the same time, the solar collector 32 and the guardrail 26 are integrated into the window frame 2. The complex processing is completed by a single factory, and the installation can be carried out on the construction site in one go. The operation is simple, the construction speed is fast, and the construction quality can be guaranteed.

[0051] The above are merely preferred embodiments of this application and are not intended to limit this application. Various modifications and variations can be made to this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application.

[0052] In the description of the embodiments of this application, it should be noted that if terms such as "upper," "lower," "horizontal," or "inner" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship commonly used when the product of the invention is in use, they are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation on this application. In addition, terms such as "first" and "second" are only used to distinguish descriptions and should not be construed as indicating or implying relative importance.

[0053] Furthermore, the use of the term "horizontal" does not imply that the component must be absolutely horizontal, but rather that it can be slightly tilted. For example, "horizontal" simply means that its direction is more horizontal than "vertical," and does not mean that the structure must be completely horizontal, but can be slightly tilted.

Claims

1. An integrated energy saving security window, characterized by, The device includes a window frame and a solar water heater. A transverse beam extends laterally within the window frame, dividing it into an upper frame and a lower frame. A transversely extending guardrail is located within the lower frame, on the side facing the interior. The solar water heater includes a water storage tank and a collector that are interconnected. The collector includes a collector pipe and a first water pipe. Multiple collector pipes are arranged laterally at intervals within the lower frame, and these collector pipes are located on the side of the guardrail facing away from the interior. A transversely extending mounting cavity is provided within the transverse beam. The first water pipe passes through the mounting cavity, and an insulation layer is filled between the mounting cavity and the first water pipe. The upper end of the collector pipe extends upward into the mounting cavity and communicates with the first water pipe, while the lower end of the collector pipe rests on the lower frame.

2. The integrated energy-saving and safety window according to claim 1, characterized in that, The protective railing includes multiple rectangular protective frames arranged sequentially along the horizontal direction. Protective glass is installed inside each rectangular protective frame, and the heat collection tube corresponds to each rectangular protective frame.

3. The integrated energy-saving and safety window according to claim 2, characterized in that, The heat collection tubes are respectively installed on the vertical side of the rectangular protective frame.

4. The integrated energy-saving and safety window according to claim 3, characterized in that, The diameter of the heat collection tube is adapted to the width of the vertical side of the rectangular protective frame.

5. The integrated energy-saving and safety window according to claim 1, characterized in that, The water storage device is equipped with a circulating water supply pipe and a circulating water return pipe, which are respectively connected to the two ends of the first water pipe laterally. A circulating water pump is also installed on the circulating water supply pipe.

6. The integrated energy-saving and safety window according to claim 5, characterized in that, The water storage device is also equipped with a water inlet pipe and a domestic water pipe, and the water inlet pipe is equipped with a water inlet solenoid valve.

7. The integrated energy-saving and safety window according to claim 1, characterized in that, Two window frames are spaced apart horizontally, and a first water pipe passes through the mounting cavity of the horizontal beam of the two window frames.