CN210014541U - Device for reducing heat of exterior window of enclosure structure by utilizing air conditioner condensate water - Google Patents

Abstract

The utility model discloses a device for reducing the heat of an outer window of an enclosure structure by utilizing condensed water of an air conditioner, which is characterized in that: a condensed water drainage pipe attached to the outer wall of an air conditioner indoor unit and a water tank for collecting the condensed water are provided, and the condensed water drains One end of the pipe is connected to the condensate water outlet of the air conditioner indoor unit, and the other end is connected to the water inlet of the water tank. A water level sensor is installed inside the water tank. The water level sensor is connected to the controller through a signal line. The condensed water outlet of the water tank is installed with a The condensate water outlet pipe, the other end of the condensate water outlet pipe is pre-buried through the outer wall at the connection between the outer wall and the window sill board or various cantilever plates, a pipeline pump is installed on the condensate water outlet pipe, the control The instrument is electrically connected to the pipeline pump for control. The utility model has a reasonable structure design, utilizes the cooling capacity of the condensed water to save energy and rationally utilizes resources, greatly reduces the waste of unorganized drainage of the condensed water, and realizes green and sustainable development.

Description

A device for reducing the heat of the outer window of the building envelope by using the condensed water of the air conditioner

Technical field:

The utility model relates to the field of heat recovery and utilization of air-conditioning condensate water, in particular to a device for reducing the heat of an outer window of an enclosure structure by utilizing the air-conditioning condensate water.

Background technique:

The air-conditioning system will produce condensed water in the cooling mode. For areas with a large humidity load, the air-conditioning can produce more condensed water. For example, a household split air conditioner can produce about 30 liters of condensed water a day for a two-horsepower unit.

When the outdoor ambient temperature is 35°C and the wet bulb temperature is 28°C, the condensed water temperature of the air conditioner is about 17°C. At this time, the surface temperature of the outer wall of the enclosure structure and the outer surface temperature of the outer window can usually reach more than 50°C. The use of air-conditioning condensate to reduce the surface temperature of the building envelope and the ambient air temperature has great potential.

In traditional construction projects, air-conditioning condensate is usually not used, and is scattered or discharged nearby, which not only causes waste of resources, but also has certain damage and impact on buildings, and brings inconvenience to residents and pedestrians.

In my country's energy-saving buildings, the proportion of heat consumption by thermal bridges in the total energy consumption is gradually increasing. The heat bridge part is the part where the heat flow is concentrated. The harm is that it increases the local heat transfer of the wall, reduces the average thermal resistance of the wall, and changes the ambient temperature of the inner surface of the envelope. During the indoor air conditioner in summer, the heat bridge part transmits heat. Overheating will increase the energy consumption of the air conditioner.

To avoid thermal bridges, the method of thermal insulation treatment of the envelope structure is generally adopted to increase the heat transfer resistance of the envelope structure. However, in the actual tooling, the externally overhanging windowsill panels (or various cantilever panels) and windows are rarely used for external thermal insulation, so consider recycling the condensed water to reduce the external walls and windowsill panels (or various cantilever panels) The thermal bridge at the junction will reduce the heat gain of the outer windows of the enclosure structure, water the green plants, and the remaining water will cool down the window sill plate (or various cantilever plates) again through the overflow of the liquid. If there are external shading facilities, the sprinkler device can spray water for these facilities to cool down and reduce heat gain.

Utility model content:

The purpose of the utility model is to make up for the defects of the prior art, and to provide a device for reducing the heat of the outer window of the enclosure by using the condensed water of the air conditioner. The waste of unorganized drainage realizes green and sustainable development.

The utility model is achieved through the following technical solutions:

A device for reducing the heat of an outer window of an enclosure structure by using condensed water from an air conditioner, characterized in that it includes a condensed water drain pipe attached to the outer wall of an air conditioner indoor unit and a water tank for collecting condensed water, and one end of the condensed water drain pipe is connected to the air conditioner. The condensate water outlet of the indoor unit is connected, and the other end is connected to the water inlet of the water tank. A water level sensor is installed inside the water tank, and the water level sensor is connected to the controller through a signal line. The condensate water outlet of the water tank is installed with a condensate water outlet pipe. The other end of the condensate water outlet pipe is pre-buried through the outer wall at the connection between the outer wall and the window sill plate or various cantilever plates. A pipeline pump is installed on the condensate water outlet pipe, and the controller and the pipeline pump are electrically connected. Connection control.

The volume of the water tank is determined according to the water production volume of the air conditioner and the form, volume and heat gain of the outer window.

The condensed water outlet pipe that is pre-buried at the connection between the outer wall and the window sill plate or various cantilever plates passes through the window frame of the outer window and is connected with a spray pipe, and directly sprays the plate, curtain or other external sunshade. Equipment and green plants.

A water collecting tank is arranged on the side of the window sill board or various cantilever boards close to the outer wall.

The said water collecting tank is 2cm deep on the side close to the outer wall.

A pipeline pump is installed in the condensate drainage pipe, and the pipeline pump can be linked with the controller. Before the water level in the water tank reaches, the pipeline pump stops running. When the water level sensor sends a water level arrival signal to the controller, the controller controls the pipeline pump to rise. Pressure pumping; one end of the condensate drain pipe is connected to the water tank, and the other end is pre-buried through the outer wall at the connection between the outer wall and the window sill plate (or various cantilever plates), and the window sill plate (or various cantilever plates) is installed with a water collection tank. The condensed water flowing out from the indoor unit of the split type air conditioner is discharged to the water tank for storage through the condensed water drainage pipe. When the storage volume of the condensed water in the water tank reaches a certain water level, the water level sensor sends a signal to the controller, and the controller is linked to the condensed water drainage pipe. Pipeline pump, the condensate water is pumped out from the water tank by the pipeline pump, and flows along the condensate water drainage pipeline through the connection between the outer wall and the window sill plate (or various cantilever plates), the window frame of the outer window, and the external sunshade is set for direct spraying. The remaining water eventually flows into the window sill plate (or various cantilever plates) sump, and overflows to the floor drain through the overflow.

The advantages of the present utility model are:

The utility model has a reasonable structure design, recycles and utilizes the recovered air-conditioning condensate water, reduces the heat gain of the outer windows of the enclosure structure, reduces the influence of the thermal bridge on the building, reduces the indoor cooling load, and reduces the power consumption of the air-conditioning And other problems, and achieved the role of cooling, flushing irrigation and other aspects. Using the cooling capacity of condensed water saves energy and rationally utilizes resources, greatly reduces the waste of unorganized drainage of condensed water, and realizes green and sustainable development.

Description of drawings:

FIG. 1 is a schematic structural diagram of the broken bridge of the window frame and the window sill plate (or various cantilever plates) of the external window of the present invention.

FIG. 2 is a schematic diagram of the structure of the present invention for breaking the bridge to the window sill plate (or various cantilever plates) and spraying water to cool down the facility.

Figure 3 is a schematic diagram of the internal structure of the water tank, the controller and the pipeline pump.

Figure 4 is a cross-sectional view of the sill plate (or various cantilever plates) water collection tank.

Figure 5 is a top view of the sill plate (or various cantilever plates) water collection tank.

Detailed ways:

See attached image.

A device for reducing heat gain from an outer window of an enclosure by utilizing air-conditioning condensed water: comprising an air-conditioning indoor unit (1), a condensed water drain pipe 2 attached to the outer wall of the air-conditioning indoor unit 1, and a water tank 3 for collecting condensed water, the water tank 3. A water level sensor 4 is installed inside, and the water level sensor 4 is connected to the controller 5; a pipeline pump 6 is installed in the condensate drain pipe 2, and the pipeline pump 6 can be linked with the controller 5. Before the water level in the water tank 3 reaches, the pipeline pump 6 stops Running, when the water level sensor 4 sends a water level arrival signal to the controller 5, the controller 5 controls the pipeline pump 6 to increase the pressure to pump water; or various cantilever panels) 7 at the junction, the outer window and window frame 8, and the direct spray 9 are provided with external sunshade panels, curtains or other equipment and green plants, and the residual water will eventually flow into the window sill panels (or various cantilever panels) Sump 10, and overflow to floor drain 11 through full liquid.

The method is as follows: the condensed water flowing out from the split-type air conditioner indoor unit 1 is discharged to the water tank 3 through the condensed water drainage pipe 2 for storage. Before the water level in the water tank 3 reaches, the pipeline pump 6 stops running. When the water level sensor 4 sends to the controller 5 When the water level reaches the signal, the controller 5 controls the pipeline pump 6 to increase the pressure to pump water; one end of the condensate drain pipe 2 is connected to the water tank 3, and the other end is pre-buried through the outer wall at the connection between the outer wall and the window sill plate (or various cantilever plates) 7, External window frame 8, direct spray 9 is provided with external sunshade panels, curtains or other equipment and green plants, and the residual water finally flows into the window sill panel (or various cantilever panels) water collection tank 10, and overflows to the Floor drain 11.

Claims (5)

1. The utility model provides an utilize hot device of air conditioner comdenstion water reduction envelope exterior window which characterized in that: the water tank is characterized by comprising a condensate water drain pipe and a water tank, wherein the condensate water drain pipe is attached to the outer wall of the air-conditioning indoor unit, the water tank is used for collecting condensate water, one end of the condensate water drain pipe is connected with a condensate water outlet of the air-conditioning indoor unit, the other end of the condensate water drain pipe is connected with a water inlet of the water tank, a water level sensor is mounted inside the water tank and is connected to a controller through a signal line, a condensate water outlet pipe is mounted at a condensate water outlet of the water tank, the other end of the condensate water outlet pipe penetrates through a joint of an outer wall and a window board or a.

2. The apparatus for reducing heat of an exterior window of a building envelope by using condensed water of an air conditioner according to claim 1, wherein: the volume of the water tank is determined by calculation according to the water yield of the air conditioner, the form and the volume of the external window and the heat gain.

3. The apparatus for reducing heat of an exterior window of a building envelope by using condensed water of an air conditioner according to claim 1, wherein: and a condensed water outlet pipe which penetrates through the joint of the outer wall and the window board or the cantilever board and is embedded in advance passes through the window frame of the outer window and is communicated with a spray pipe, and a board, a curtain or equipment with an outer sunshade and a green plant are directly sprayed.

4. The apparatus for reducing heat of an exterior window of a building envelope by using condensed water of an air conditioner according to claim 1, wherein: and a water collecting tank is arranged on one side of the window board or the cantilever board, which is close to the outer wall.

5. The apparatus for reducing heat of an exterior window of a building envelope by using condensed water of an air conditioner according to claim 4, wherein: the water collecting groove is arranged at the side close to the outer wall, and the depth is 2 cm.

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