CN207019217U - A kind of building energy conservation temperature control device - Google Patents

Abstract

The utility model discloses a building energy-saving temperature control device, which comprises a water tank, a water delivery pipeline and an air outlet device. On the inner wall of the top wall, the air outlet device and the water tank are connected through the water pipeline; the water pipeline includes the main water outlet pipe, the water inlet end of the main water outlet pipe is connected to the water tank through the circulation pump, and the water outlet end of the main water outlet pipe is connected to the second water tank at the same time. The water inlet end of the first water outlet pipe and the water inlet end of the second water outlet pipe, the water outlet end of the main return water pipe are connected to the water tank, and the water inlet end of the main return water pipe is connected to the water outlet end of the first water return pipe and the water outlet of the second water return pipe end; the upper end of the roof is provided with a solar panel, the solar panel is connected to a storage battery, and the storage battery supplies power for the heater, the circulation pump and the fan. The utility model realizes indoor temperature control through the power supply of the solar panel, reduces the use of fossil fuels, and is more energy-saving and environment-friendly.

Description

A building energy-saving temperature control device

technical field

The utility model belongs to the technical field of building energy-saving devices, and mainly relates to a building energy-saving temperature control device.

Background technique

Solar energy is a kind of clean energy. With the advancement of science and technology, the efficiency of converting solar energy into electrical energy is constantly improving, and the cost is gradually decreasing. However, due to the limitations of various factors such as construction conditions, solar energy has not been widely used in buildings. . With the improvement of people's awareness of energy conservation and environmental protection, while people are pursuing the comfort and livability of buildings, they also have higher and higher requirements for energy conservation and environmental protection. The main reference index for the comfort and livability of buildings is the building quality. Whether the temperature can be controlled within a suitable range, but the existing buildings basically use air conditioners for temperature control, especially in cold winters, where the power consumption of air conditioners is large. In northern China, electricity is mainly obtained by thermal power generation. In winter, the air is more likely to be polluted, increasing the utilization rate of solar energy, and designing devices that use solar energy to adjust the temperature of buildings has become the development direction of energy conservation and environmental protection.

Utility model content

In order to solve the above technical problems, the utility model provides a building energy-saving temperature control device using solar energy for power supply.

The technical scheme of the utility model is:

An energy-saving temperature control device for a building. A roof is provided above the wall. The energy-saving temperature control device includes a water tank, a water delivery pipeline and an air outlet device. The water tank is buried underground outside the wall, and a heater is provided in the inner cavity of the water tank. , the air outlet device is located on the inner wall of the wall near the roof, and the air outlet device and the water tank are connected through a water delivery pipeline; the water delivery pipeline includes a main water outlet pipe, a main return water pipe, a first water outlet pipe, a first return water pipe, a The second water outlet pipe and the second water return pipe, the water inlet end of the main water outlet pipe is connected to the water tank through the circulation pump, the water outlet end of the main water outlet pipe is connected with the water inlet end of the first water outlet pipe and the water inlet end of the second water outlet pipe at the same time, the main The water outlet end of the return pipe is connected to the water tank, and the water inlet end of the main return pipe is connected to the water outlet end of the first water return pipe and the water outlet end of the second water return pipe at the same time; the air outlet device includes a first air outlet device and a second air outlet device, The first air outlet device includes an installation housing fixedly installed on the inner wall of the wall, a capillary coil and a fan are arranged in the inner cavity of the installation housing, and the two ends of the capillary coil are respectively connected to the water outlet of the first water outlet pipe With the water inlet end of the first return pipe, the side wall of the installation shell rotates and is equipped with a spherical air outlet cover with openings at both ends; the structure of the second air outlet device is the same as that of the first air outlet device; The upper end surface is provided with a solar battery panel, and the solar battery panel is connected with a storage battery, and the storage battery supplies power for the heater, the circulation pump and the blower fan.

Preferably, a rotating shaft is fixedly installed in the spherical wind outlet cover, and a rotating motor is connected to one end of the rotating shaft.

As a preference, the main outlet pipe is provided with a main outlet pipe control valve, the main return pipe is provided with a main return pipe control valve, the first return pipe is provided with a first return pipe control valve, and the second return pipe is provided with a main return pipe control valve. The pipeline of the water pipe is provided with a second water return pipe control valve.

Preferably, the side wall of the main return pipe at the front end of the main return pipe control valve is connected with a cooling return pipe, the outlet end of the cooling return pipe is connected with a cooling coil, the cooling coil is buried underground, and the outlet end of the cooling coil is connected to the water tank , the cooling return pipe is provided with a cooling return pipe control valve.

Preferably, the inner wall of the water tank is provided with an insulating layer.

The beneficial effects of the utility model are:

The building energy-saving temperature control device of the utility model charges the storage battery through the solar panel, and the storage battery supplies power for the heater, the circulation pump and the fan. The heat in the water is transported to the room, which reduces the use of fossil fuels and is more energy-saving and environmentally friendly; it is equipped with a spherical air outlet cover, and the angle of the spherical air outlet cover can be adjusted according to needs, thereby adjusting the wind direction; a cooling coil is provided. In summer, Switch the energy-saving temperature control device to the cooling mode, and bury the cooling coil underground to ensure that the water in the pipeline is at a lower temperature; the water tank is equipped with an insulation layer to enhance the insulation effect of the water tank.

The utility model has the advantages of simple structure, strong practicability and high popularization and application value.

Description of drawings

Fig. 1 is a structural representation of the utility model;

Figure 2 is an enlarged view of A in Figure 1;

Figure 3 is an enlarged view of B in Figure 1;

In the figure: 1 is the wall, 2 is the roof, 3 is the solar panel, 4 is the water tank, 5 is the circulating pump, 6 is the main outlet pipe, 7 is the main outlet pipe control valve, 8 is the main return water pipe, and 9 is the The main return pipe control valve, 10 is the cooling return pipe, 11 is the cooling return pipe control valve, 12 is the first return pipe control valve, 13 is the second return pipe control valve, 14 is the first outlet pipe, 15 is the first return pipe Water pipe, 16 is the first air outlet device, 17 is the second water outlet pipe, 18 is the second water return pipe, 19 is the second air outlet device, 20 is the cooling coil, 21 is the heater; 1601 is the installation shell, 1602 It is a capillary coil, 1603 is a blower fan, 1604 is a spherical air outlet cover, and 1605 is a rotating shaft.

detailed description

Refer to Figures 1-3 for the specific implementation of the present utility model, a building energy-saving temperature control device, a roof 2 is provided above the wall 1, the energy-saving temperature control device includes a water tank 4, a water delivery pipeline and an air outlet device, and the water tank 4 Buried in the ground outside the wall 1, the inner wall of the water tank 4 is provided with an insulating layer, the inner cavity of the water tank 4 is provided with a heater 21, and the air outlet device is located on the inner wall of the wall body 1 near the roof 2, and the air outlet device It is connected with the water tank 4 by a water delivery pipeline. The water delivery pipeline includes a main water outlet pipe 6, a main water return pipe 8, a first water outlet pipe 14, a first water return pipe 15, a second water outlet pipe 17 and a second water return pipe 18, and the water inlet end of the main water outlet pipe 6 passes through the circulation pump 5 Connected to the water tank 4, the water outlet end of the main water outlet pipe 6 is connected to the water inlet end of the first water outlet pipe 14 and the water inlet end of the second water outlet pipe 17 at the same time, the water outlet end of the main return water pipe 8 is connected to the water tank 4, the main return water pipe 8 The water inlet end is connected to the water outlet end of the first water return pipe 15 and the water outlet end of the second water return pipe 18 at the same time. The air outlet device includes a first air outlet device 16 and a second air outlet device 19. The first air outlet device 16 includes an installation housing 1601 fixedly installed on the inner wall of the wall 1, and the inner cavity of the installation housing 1601 is provided with The capillary coil 1602 and the blower 1603, the two ends of the capillary coil 1602 are respectively connected to the water outlet end of the first water outlet pipe 14 and the water inlet end of the first return water pipe 15, and the side wall of the installation housing 1601 is rotated. A spherical air outlet cover 1604 with an open end. The structure of the second air outlet device 19 is the same as that of the first air outlet device 16 .

A rotating shaft 1605 is fixedly installed in the spherical air outlet cover 1604, and one end of the rotating shaft 1605 is connected with a rotating motor. By rotating the motor, the rotation angle of the spherical air outlet cover 1604 can be adjusted more conveniently.

The upper surface of the roof 2 is provided with a solar battery panel 3, the solar battery panel 3 is connected with a storage battery, the solar battery panel 3 charges the storage battery through a charging circuit, and the storage battery supplies power for all electrical equipment in the device.

The pipeline of the main water outlet pipe 6 is provided with a main water outlet pipe control valve 7, the pipeline of the main water return pipe 8 is provided with a main water return pipe control valve 9, and the pipeline of the first water return pipe 15 is provided with a first water return pipe control valve 12, The pipeline of the second water return pipe 18 is provided with a second water return pipe control valve 13 .

The side wall of the main return pipe 8 at the front end of the main return pipe control valve 9 is connected with a cooling return pipe 10, and the outlet end of the cooling return pipe 10 is connected with a cooling coil 20, and the cooling coil 20 is buried underground, and the outlet water of the cooling coil 20 The end is connected to the water tank 4, and the cooling return pipe 10 is provided with a cooling return pipe control valve 11.

When heating:

Turn on the heater 21, the water temperature in the water tank 4 can be set as required; open the main outlet pipe control valve 7 and the main return pipe control valve 9, close the cooling return pipe control valve 11, the first return pipe control valve 12 and the second The return pipe control valve 13 can be opened as required or both can be opened at the same time;

When cooling: turn off the heater 21, open the main outlet pipe control valve 7 and the cooling return pipe control valve 11, close the main return pipe control valve 9, the first return pipe control valve 12 and the second return pipe control valve 13 can be used as required Turn on one or both at the same time; then turn on the circulation pump 5 and the blower fan 1603, and the cool wind can enter the room from the spherical wind outlet hood 1604.

The above-mentioned embodiments are only descriptions of preferred implementations of the utility model. Without departing from the design spirit of the utility model, various deformations and improvements made by those skilled in the art to the technical solution of the utility model are acceptable. Should fall within the scope of protection determined by the claims of the utility model.

Claims (5)

1. A building energy-saving temperature control device, the top of the wall is provided with a roof, it is characterized in that, comprising a water tank, a water delivery pipeline and an air outlet device, the water tank is buried underground on the outside of the wall, and the inner cavity of the water tank is provided with The heater and the air outlet device are arranged on the inner wall of the wall near the roof, and the air outlet device and the water tank are connected through a water delivery pipeline; the water delivery pipeline includes a main water outlet pipe, a main return water pipe, a first water outlet pipe, and a first water return pipe , the second water outlet pipe and the second water return pipe, the water inlet end of the main water outlet pipe is connected to the water tank through the circulation pump, and the water outlet end of the main water outlet pipe is connected to the water inlet end of the first water outlet pipe and the water inlet end of the second water outlet pipe at the same time , the water outlet end of the main water return pipe is connected to the water tank, and the water inlet end of the main water return pipe is connected to the water outlet end of the first water return pipe and the water outlet end of the second water return pipe at the same time; the air outlet device includes the first air outlet device and the second air outlet device, the first air outlet device includes an installation housing fixedly installed on the inner wall of the wall, a capillary coil and a fan are arranged in the inner cavity of the installation housing, and the two ends of the capillary coil are respectively connected to the first water outlet pipe. The water outlet end and the water inlet end of the first return pipe, the side wall of the installation shell is rotated and equipped with a spherical air outlet cover with openings at both ends; the structure of the second air outlet device is the same as that of the first air outlet device; The upper end surface of the roof is provided with a solar battery panel, and the solar battery panel is connected with a storage battery, and the storage battery supplies power for the heater, the circulation pump and the blower fan. 2 . The building energy-saving temperature control device according to claim 1 , wherein a rotating shaft is fixedly installed in the spherical wind outlet cover, and a rotating motor is connected to one end of the rotating shaft. 3 . 3. A building energy-saving temperature control device according to claim 2, characterized in that a main outlet pipe control valve is provided on the main outlet pipe, and a main return pipe control valve is provided on the main return pipe. A first water return pipe control valve is provided on the pipeline of the first water return pipe, and a second water return pipe control valve is provided on the pipeline of the second water return pipe. 4. A building energy-saving temperature control device according to claim 3, characterized in that, the side wall of the main return pipe at the front end of the main return pipe control valve is connected with a cooling return pipe, and the outlet end of the cooling return pipe is connected with a cooling plate The cooling coil is buried in the ground, the outlet end of the cooling coil is connected to the water tank, and the cooling return pipe is provided with a cooling return pipe control valve. 5. A building energy-saving temperature control device according to claim 4, characterized in that the inner wall of the water tank is provided with an insulating layer.