RU201714U1 - DUCT AIR HUMIDIFIER WITH TEMPERATURE AND AIR HUMIDITY CONTROL - Google Patents

Abstract

The utility model relates to devices for automating air humidification in microclimate control systems in residential, administrative and industrial premises, is designed to work as part of a ventilation system and allows you to maintain with high accuracy both the temperature and humidity at a given point (at the outlet of the humidifier or in room). Duct air humidifier with temperature and humidity control contains a water heater for incoming air (1), a mixing unit for adjusting the power of the incoming air heater (2), a module for adiabatic air humidification (3), and a temperature and humidity sensor (7). The device is additionally equipped with two air valves, the first air valve (4) located directly after the module for adiabatic air humidification, and the second air valve (5) installed on the bypass located after the water heater of the incoming air, in the form of a parallel air duct. The technical result is to reduce the cost of the device while maintaining the functionality. 1 wp f-ly, 1 dwg

Description

The utility model relates to devices for automating air humidification in microclimate control systems in residential, administrative and industrial premises, is designed to work as part of a ventilation system and allows you to maintain with high accuracy both the temperature and humidity at a given point (at the outlet of the humidifier or in room).

Known, for example, an evaporative-type duct air humidifier containing a housing inside which a sump with water is located, a valve for supplying water to the sump, a float for controlling the water level in the sump, an evaporator, in the housing of which there are several layers of honeycomb material that absorbs water and lets air through, which are rotated relative to each other around the axis of the evaporator, as well as the electric drive, for controlled rotation of the evaporator around the axis of the evaporator, installed with partial adjustable immersion in a pan with water (see, for example, RF patent for PM No. 194408 according to class F24F6 / 00 and F24F6 / 16) [1].

The disadvantage of the known device [1] is that it, in fact, is only a humidification module and cannot be used in household ventilation devices without the use of an additional post-heater with adjustable power.

In addition, the honeycomb material used in the known device [1] (for example, GLassPad), as you know, in any case, needs to be replaced periodically, since the pores of the honeycomb material, when using tap water, are salted (covered with salts dissolved in water) , and when using demineralized water, the binding fibers of the honeycomb material are washed out. However, under the condition of constant moisture, the honeycomb material serves for a long time. If it periodically dries up, as is constructively provided in the known device [1], then the intensity of salinization will increase significantly, and the service life of the material will be reduced several times. Considering the complexity of the design of the drum with GLassPad material, in comparison with traditional rectangular cassettes, and the high cost of this material (20-30% of the cost of the humidifier), the known device [1] will be too expensive to operate and will require frequent maintenance.

It is also known, taken as a prototype, an evaporative-type air humidifier with precise temperature and humidity control "Breezart Humi Aqua P" containing a water heater for incoming air, a mixing unit for adjusting the power of an incoming air heater, a module for adiabatic air humidification, a water heater for outgoing air, a mixing unit for adjusting the power of the outgoing air heater, as well as a temperature and air humidity sensor (see, for example, http://www.breezart.ru/catalog/1000-humi-aqua-p-54690/) [2].

This known device [2] is devoid of the disadvantages of the known device [1], since it can be used in household ventilation devices without using an additional post-heater with adjustable power.

In addition, the design features of the known device [2], providing constant humidification of the used cellular material (for example, GLassPad) in the module for adiabatic air humidification, guarantee the long-term performance of this material. However, the known device [2], with all its advantages, has a high cost.

The problem to be solved by the proposed utility model is to reduce the cost of the device, while maintaining its functionality, such as maintaining the temperature and humidity at a given point (at the outlet of the humidifier or in the room), without using an additional post-heater with adjustable power.

The technical result of using the proposed utility model is to reduce the cost of the device while maintaining functionality, such as maintaining the temperature and humidity at a given point (at the outlet of the humidifier or in the room) without using an additional post-heater with adjustable power.

The above technical result is achieved due to the fact that in a duct air humidifier with temperature and humidity control, containing a water heater for incoming air, a mixing unit for adjusting the power of the incoming air heater, a module for adiabatic air humidification, and a temperature and humidity sensor, according to According to the proposal, the device is additionally equipped with two air valves, the first air valve located immediately after the module for adiabatic air humidification, and the second air valve is installed on the bypass located after the water heater of the incoming air, in the form of a parallel air duct; at the same time, air valves are located on one actuator rod with proportional (smooth) control and operate in antiphase, and dynamic control of device parameters in automatic mode is provided by proportional - integral - differential temperature and humidity controllers, which receive information from a temperature and humidity sensor.

The applicant did not find sources of information containing the same set of essential features indicated in the formula of the utility model, which allows us to conclude that the proposed technical solution meets the "novelty" criterion.

The utility model is illustrated in the drawing, where FIG. 1 shows a schematic diagram of a duct air humidifier with temperature and humidity control.

Duct air humidifier with air temperature and humidity control contains a water heater for incoming air (1), a mixing unit for adjusting the power of the incoming air heater (2), a module for adiabatic air humidification (3), a first air valve (4), a second air valve ( 5), drive with proportional control (6), air temperature and humidity sensor (7), proportional - integral-differential temperature and humidity controllers (hereinafter - PID controllers) (8).

Duct humidifier with temperature and humidity control operates as follows.

The incoming air, through the ventilation duct of the ventilation system, enters the incoming air water heater (1). The mixing unit for adjusting the power of the incoming air heater (2) according to the signal from the PID controller (8) regulates the power of the incoming air heater (1) to heat the air to the required temperature, then the air enters the module for adiabatic air humidification (3), where, accordingly, it is humidified to the set values, and passes through the open first air valve (4) further, to the temperature and humidity sensor (7), which, in turn, transmits data on the parameters of the air at the outlet to the PID controllers (8), which in automatic mode, through a proportional control actuator (6), regulate the opening / closing of the dampers of the first air valve (4) and, at the same time, the opening / closing of the dampers of the second air valve (5), since the valves operate in antiphase - this allows you to maintain air humidity at a given level.

In addition, the device can be variably equipped with an additional temperature and humidity sensor located in the exhaust duct (not shown in the diagram), which will allow maintaining the set temperature and / or humidity in the room (cascade control). In this case, an additional air temperature and humidity sensor located in the exhaust duct (not shown in the diagram) will transmit the current parameters to the PID controllers (8), by analogy with the air temperature and humidity sensor indicated in the diagram (7). Otherwise, the principle of operation of the device will be the same as described above.

Using the proposed utility model will reduce the cost of the device while maintaining the functionality, such as maintaining the temperature and humidity at a given point (at the outlet of the humidifier or in the room), without using an additional post-heater with adjustable power, since two valves with a drive cost much less. than an additional heater with mixing unit. In addition, when using the proposed utility model, the mass of the device is reduced, its installation and commissioning is simplified, since due to the absence of a post-heater, it is not required to supply heat supply pipes to it.

Claims (2)

1. Duct air humidifier with temperature and humidity control, containing a water heater for incoming air, a mixing unit for adjusting the power of the incoming air heater, a module for adiabatic air humidification, and a temperature and humidity sensor, characterized in that the device is equipped with two additional air valves, and the first air valve is located directly after the module for adiabatic air humidification, and the second air valve is installed on the bypass located after the water heater of the incoming air, in the form of a parallel air duct. 2. Duct air humidifier with temperature and humidity control according to claim 1, characterized in that the air valves are located on one actuator rod with proportional (smooth) control and operate in antiphase, and the dynamic control of the device parameters in automatic mode is provided by proportional-integral -differential air temperature and humidity regulators, which receive information from the air temperature and humidity sensor.

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