CN206496450U - Temperature-controlled dehumidification air-conditioning system - Google Patents

Abstract

The utility model discloses a kind of temperature control dehumidifying air-conditioning system, include the compressor for circulating connection successively by pipeline, outdoor condenser, indoor condenser, reservoir, throttling arrangement and evaporator, the air side of outdoor condenser is provided with condensation fan, indoor condenser is located on the front wind path of evaporator, the inlet side of evaporator is provided with evaporation fan, pressure sensor is installed, the air side of indoor condenser is provided with temperature sensor on the export pipeline of indoor condenser；Pressure sensor is electrically connected by controller with condensation fan, and temperature sensor is electrically connected by controller with evaporation fan.The utility model realizes indoor cooling, heating and dehumidifying purpose by setting the rotating speed of blower fan inside and outside pressure sensor and temperature sensor, control room.

Description

Temperature-controlled dehumidification air-conditioning system

technical field

The utility model relates to the technical field of air temperature control and dehumidification treatment, in particular to a temperature control and dehumidification air conditioning system with the functions of cooling, heating and dehumidification.

Background technique

At present, most of the air-conditioning equipment installed indoors have two types of functions: cooling and heating. Dehumidification is generally used as an auxiliary function, or a dehumidifier is used for dehumidification, and then the air-conditioning system is used for temperature control.

There are two main types of air conditioning equipment:

One is the air handling unit of the refrigeration and heating system, and dehumidification is used as an auxiliary function. Because only the evaporator is on the indoor side and the dehumidification process is performed, the indoor temperature will gradually decrease and the dehumidification effect will decrease.

The second is to use a dehumidifier to dehumidify, and then use an air-conditioning system to control the temperature, which requires two devices, which is relatively complicated and has high operating costs.

Utility model content

The purpose of this utility model is to provide a temperature-controlled dehumidification air-conditioning system. By setting pressure sensors and temperature sensors, the speed of indoor and outdoor fans is controlled to achieve the purpose of heating, cooling and dehumidification of the indoor side.

The technical scheme of the utility model is as follows:

A temperature-controlled dehumidification air-conditioning system, including a compressor, an outdoor condenser, an indoor condenser, a liquid receiver, a throttling device, and an evaporator connected sequentially through pipelines, characterized in that: the outdoor condenser A condensing fan is provided on the air outlet side, the indoor condenser is located on the air path in front of the evaporator, an evaporating fan is provided on the air inlet side of the evaporator, and a pressure sensor is installed on the outlet pipeline of the indoor condenser , the air outlet side of the indoor condenser is provided with a temperature sensor; the pressure sensor is electrically connected to the condensation fan through the controller, and the temperature sensor is electrically connected to the evaporation fan through the controller.

The temperature-controlled dehumidification air-conditioning system is characterized in that: both the condensing fan and the evaporating fan are speed-adjustable fans.

The pressure sensor controls the speed of the condensation fan through the controller, and the temperature sensor controls the speed of the evaporation fan through the controller. By controlling the speed of the condensing fan to control the condensation heat dissipation on the outdoor side, and controlling the speed of the indoor fan to achieve indoor cooling or dehumidification.

The beneficial effects of the utility model:

1. The utility model is simple in principle and easy to control.

2. The three functions of the utility model are convenient to switch, that is, cooling, heating and dehumidification can be switched at will.

Description of drawings

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

detailed description

Referring to Fig. 1, a temperature-controlled dehumidification air-conditioning system includes a compressor 1, an outdoor condenser 2, an indoor condenser 4, a liquid receiver 6, a throttling device 7 and an evaporator 9, which are sequentially connected through pipelines. The air outlet side of the outdoor condenser 2 is provided with a condensing fan 3, the indoor condenser 4 is located on the air path in front of the evaporator 9, the evaporator 9 is provided with an evaporator fan 10 on the air inlet side of the evaporator 9, and the outlet pipeline of the indoor condenser 4 is equipped with a A pressure sensor 8 and a temperature sensor 5 are provided on the air outlet side of the indoor condenser 4; the pressure sensor 8 is electrically connected to the condensing fan 3 through the controller, and the temperature sensor 5 is electrically connected to the evaporating fan 10 through the controller.

In the present utility model, the condensing fan 3 and the evaporating fan 10 all adopt speed-adjustable fans.

Concrete control flow of the present utility model is as follows:

Refrigeration workflow: the pressure sensor 8 controls the condensing fan 3 to run at high speed through the controller. At this time, the heat dissipation from the outdoor condenser 2 to the outside increases, and the refrigerant is supercooled, and the temperature of the refrigerant entering the indoor condenser 4 is low. The temperature sensor 5. The controller controls the evaporating fan 10 to run at a high speed. At this time, the evaporating temperature is relatively high. After the indoor air is cooled by the evaporator 9, it is then slightly heated by the indoor condenser 4, and finally the outlet air temperature is lowered. This cycle.

Working process of heating and dehumidification: the pressure sensor 8 controls the condensing fan 3 to run at a low speed through the controller. At this time, the heat dissipation of the outdoor condenser 2 to the outdoor becomes smaller, and the cooling effect of the refrigerant is poor. The temperature of the refrigerant entering the indoor condenser 4 is relatively high. The sensor 5 controls the evaporating fan 10 to run at a low speed through the controller. At this time, the evaporating temperature is very low, and the indoor air is greatly cooled by the evaporator 9. The air temperature is lower than the dew point and becomes saturated air. Condenser 4 turns into unsaturated air (capable of absorbing moisture) after a large increase in temperature, and finally the temperature of the outlet air rises, thus circulating.

The above-mentioned scheme is only a description of the preferred mode of this patent, and does not limit the scope of this patent. Improvements should all fall within the scope of protection determined by the claims of the present invention.

Claims (2)

1. A temperature-controlled and dehumidified air-conditioning system, comprising a compressor, an outdoor condenser, an indoor condenser, a liquid reservoir, a throttling device and an evaporator which are connected sequentially through pipelines, characterized in that: the outdoor condensing The air outlet side of the evaporator is provided with a condensing fan, the indoor condenser is located on the air path in front of the evaporator, the air inlet side of the evaporator is provided with an evaporating fan, and the outlet pipeline of the indoor condenser is installed with A pressure sensor, a temperature sensor is provided on the air outlet side of the indoor condenser; the pressure sensor is electrically connected to the condensation fan through a controller, and the temperature sensor is electrically connected to the evaporation fan through a controller. 2. The air-conditioning system with temperature control and dehumidification according to claim 1, characterized in that: both the condensing fan and the evaporating fan are speed-adjustable fans.