CN205037512U - Winter air conditioning system energy recuperation device - Google Patents

Abstract

The utility model discloses an energy recovery device for an air-conditioning system in winter, aiming at providing a simple and practical energy recovery device which can greatly improve energy utilization rate, save resources, has no rotating equipment, and does not consume electric power. The air duct is divided into a fresh air inlet duct and an exhaust air duct by partitions. The heat pipe passes through the partition. The condensation section of the heat pipe is placed in the fresh air inlet duct, and the evaporation section of the heat pipe is placed in the exhaust duct. An air supply fan is installed at the outlet of the air duct, and an exhaust fan is installed at the outlet of the exhaust air duct; the outlet of the fresh air inlet duct is connected to the air inlet of the air conditioning system, and the inlet of the exhaust air duct is connected to the exhaust Air outlet connection. The heat recovery device of the utility model realizes the heat transfer from the exhaust air to the fresh air without consuming energy, makes full use of the heat in the exhaust air, realizes the preheating of the fresh air, recovers the heat energy in the hot air, and achieves the purpose of energy saving , reducing the air-conditioning load and greatly improving energy utilization.

Description

Winter air conditioning system energy recovery device

technical field

The utility model relates to the technical field of air conditioning, in particular to an energy recovery device for an air conditioning system in winter.

Background technique

With the increasing popularization rate of air-conditioning in my country, its energy consumption continues to increase. According to statistics, the energy consumption of heating, ventilation and air-conditioning in building energy consumption accounts for about 20% of the total energy consumption, and it is still increasing rapidly year by year. The high consumption of energy has caused great pressure on our country. At present, 20% of China's annual completed area is public buildings. Among the annual energy consumption of public buildings, about 50%-60% are consumed in air-conditioning refrigeration and heating systems, and 20%-30% are used in lighting. In the energy consumption of air conditioning and heating, the fresh air load accounts for a large proportion, and the exhaust air wastes heat in vain, resulting in an increase in heating load. Therefore, solving this problem is of great significance to energy conservation and environmental protection.

In the traditional primary return air conditioning system, the fresh air enters the air conditioner directly through the air inlet, and the exhaust air of the air conditioning system is directly discharged into the air. Due to the high exhaust air temperature of the air conditioning system, energy loss is caused and the energy utilization rate is low.

Energy Recovery Device Contents

The purpose of this utility model is to provide a simple and practical energy saving device that can greatly improve the energy utilization rate and save resources, and has no rotating equipment and no power consumption, aiming at the technical defects of the current air-conditioning and heating energy consumption is huge and the energy utilization rate is not high. Recovery unit.

The technical scheme adopted for realizing the purpose of this energy recovery device is:

An energy recovery device for a winter air-conditioning system, comprising an air duct, a heat pipe, an air supply fan and an exhaust fan, the air duct is divided into a fresh air inlet air duct and an exhaust air duct by a partition, and the heat pipe passes through the The condensing section of the heat pipe is placed in the fresh air inlet duct, the evaporation section of the heat pipe is placed in the exhaust air duct, and the air supply unit is installed at the outlet of the fresh air inlet duct. Fan, the outlet of the exhaust air duct is equipped with the exhaust fan; the outlet of the fresh air inlet air duct is connected to the air inlet of the air conditioning system, and the inlet of the exhaust air duct is connected to the air exhaust of the air conditioning system port connection.

Compared with the prior art, the beneficial effects of the utility model are:

1. The winter air-conditioning heat recovery device of the present utility model realizes the heat transfer from the exhaust air to the fresh air without consuming energy, makes full use of the heat in the exhaust air, realizes the preheating of the fresh air, and recovers the heat energy in the hot air, To achieve the purpose of energy saving, reduce the air-conditioning load, greatly improve energy utilization and save resources.

2. The winter air-conditioning heat recovery device of the utility model is provided with baffles at the air outlet and the fresh air inlet, so there will be no cross-infection in the new exhaust room, thereby ensuring the quality of the indoor fresh air.

Description of drawings

Fig. 1 shows the principle diagram of the utility model winter air-conditioning system energy recovery device.

detailed description

Below in conjunction with accompanying drawing and specific embodiment the utility model is described in further detail.

The principle diagram of the energy recovery device for the winter air-conditioning system of the present utility model is shown in Figure 1, including an air duct, a heat pipe 1, an air supply fan 2 and an exhaust fan 3, and the air duct is separated into a fresh air inlet air duct 4 by a partition And the exhaust air duct 5, the heat pipe 1 passes through the partition, the condensation section of the heat pipe 1 is placed in the fresh air inlet duct 4, and the evaporation section of the heat pipe 1 is placed in the exhaust In the air duct 5 , the air supply fan 2 is installed at the outlet of the fresh air inlet air duct 4 , and the exhaust fan 3 is installed at the outlet of the exhaust air duct 5 . The outlet of the fresh air inlet duct 4 is connected to the air inlet of the air conditioning system, and the inlet of the exhaust air duct 5 is connected to the air outlet of the air conditioning system.

The main action parts of the energy recovery device of the winter air-conditioning system of the utility model are heat pipes and blowers. The heat pipe in the utility model is an airtight pipe whose inner wall is lined with a liquid-absorbing core capable of producing capillary action, and the liquid-absorbing core contains a working liquid as a heat transfer medium. The exhaust fan discharges the exhaust air from the exhaust outlet, and first passes through the evaporation section of the heat pipe, so that one end of the heat pipe is heated, and the liquid in the liquid-absorbing core evaporates at this end, and the steam flows to the cooler area of the heat pipe, where it condenses into a liquid and releases the condensation The fresh air entering from the inlet of the fresh air duct first passes through the condensation section of the heat pipe to absorb the heat in the condensation section, so as to realize the heat transfer from the exhaust air to the fresh air. In the heat pipe, the condensate after heat release is absorbed by the liquid-absorbing core again, and returns to the evaporation area of the liquid-absorbing core by means of capillary action, so that the whole cycle can continue, so that during the working process of the device, the heat is continuously flowing. From the exhaust air to the fresh air, the heat energy in the hot air is recovered to achieve the purpose of energy saving, reduce the load of the air conditioner, and produce a significant energy saving effect.

The above is only a preferred embodiment of the utility model, it should be pointed out that for those of ordinary skill in the art, without departing from the principle of the utility model, some improvements and modifications can also be made, these Improvement and retouching should also be regarded as the protection scope of the present utility model.

Claims (1)

1. A kind of energy recovery device of air-conditioning system in winter, it is characterized in that, comprise air channel, heat pipe, blower fan and exhaust fan, described air channel is separated into fresh wind air inlet air channel and exhaust air channel by dividing plate, so The heat pipe passes through the partition, the condensation section of the heat pipe is placed in the fresh air intake duct, the evaporation section of the heat pipe is placed in the exhaust air duct, and the exit of the fresh air intake duct The air supply fan is installed, and the exhaust fan is installed at the outlet of the exhaust air duct; the outlet of the fresh air inlet air duct is connected with the air inlet of the air conditioning system, and the inlet of the exhaust air duct Connect to the exhaust port of the air conditioning system.