RU2041431C1 - Ventilation unit - Google Patents

Abstract

FIELD: ventilation. SUBSTANCE: air suckers with inlets for air are opposite. The mixing chamber is interposed between the air sucker. The air dispensing duct is connected with the inlet openings. Fans having inner and outer impellers and electric motors are combined in block to permit independent reverse rotation of impellers. Air dispensing air duct is mounted coaxially inside the air suckers at the mixing chamber and is in communication with it. The inlets of the air suckers are in communication with a room and provided with devices for measuring parameters of air and gates. One inlet is provided with regenerative device. The inner impellers are arranged inside the air duct. The outer impeller is mounted inside the chamber. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to ventilation technology.

 A ventilation device is known that contains coaxially placed supply and exhaust ducts, in each of which fans with impellers and electric motors are installed, air intake openings in the supply and exhaust ducts, air distribution openings in the supply air duct, the exhaust duct is located inside the supply air, and the fan motors are combined into a single unit with the ability to independently reverse the rotation of the fan impellers.

 The disadvantages of this device are the inability to use a closed loop ventilation system, the use of only two ventilation channels.

 The purpose of the invention is the expansion of functionality.

 According to the invention, in a ventilation device including coaxially placed supply and exhaust ducts, in each of which there are fans with impellers and electric motors, air intake openings in the supply and exhaust ducts, air distribution openings in the supply and exhaust ducts, the exhaust duct is located inside the supply and combined into a single unit. The air duct is installed coaxially inside the air intakes at the mixing chamber and communicates with it, while the air inlets are connected to the room and are provided with devices for measuring air parameters and dampers, one of the inlets is equipped with a regenerative device, the internal fan impellers are located inside the air-outlet duct, and the outer inside the air mixing chamber, the fan motor is made with a two-rotor inverted, in the grooves of the stators of which three-phase obm In fact, the inner rotor is made in the form of a hollow drum into which active iron plates and a short-circuited squirrel cage type winding are pressed in, the outer rotor of the reversed design is made of the same materials, according to the same principle as the inner one, where the inner surface of the inner rotor is provided the impeller and forms the distributing channel of ventilation in the room and exhaust from the mixing chamber, the outer surface of the outer rotor is also equipped with impellers located at both ends of the rotor and providing both x end air intake through the air intake duct to the mixing chamber, wherein by rotation of the impeller blades takes place outside containment, the air intake duct is provided with devices to change parameters of the air and dampers. Such a constructive solution allows the use of this device in closed ventilation and air enrichment systems, which significantly expands its functionality.

 The drawing shows a General diagram of the device, including a section aa of the mixing chamber and a longitudinal section of the mixing chamber with an electric motor, fans, ducts, devices and dampers.

 The ventilation device contains coaxially placed supply 1 and exhaust 2 ducts, the exhaust duct is connected to the distributing duct 3 in the premises. An exhaust duct is located inside the supply air duct and coaxially passes through the mixing chamber 4, which simultaneously serves as the casing of the fan motor 5 of the reversed design, which has two stators and two rotors internal and external, there is also a regenerative device 6 installed in one of the open parts of the supply air duct, heat exchanger 7, filter 8, sump 9, installed in both open parts of the supply air duct, air distribution holes 10 in the distribution duct. Fan impellers 11 are located on the inner side of the inner rotor and on the outer side of the outer rotor. Both open sides of the supply air duct are provided with shutters 12. The supply and exhaust ducts are equipped with air inlet openings 13. The air is mixed in the mixing chamber 4.

 The device operates as follows.

 Before starting operation of the device, one of the necessary operating modes is selected by closing or opening the shutters 12 in the supply duct 1. When the closed mode of the impeller of the fan of the external rotor 11 of the engine 5 is started, the air is sucked out of the room through the supply duct 1 through the intake port 13 provided with a regenerative device 6 , heat exchanger 7, sump 9 and filter 8 into the mixing chamber 4. At the same time, due to the rotation of the impellers of the external ventilation channel, mixing occurs air in the mixing chamber, and the rotation of the internal rotor equipped with impellers 11 exhausts the regenerated air from the mixing chamber through the air intake 13 through the exhaust duct 2 and distributes it in the room through the distributing duct 3 through the air-distributing openings 10. To change the operating mode from closed to open it is enough to open the damper on the open supply air duct and close the similar damper on the closed one, or open both shutters (air enrichment mode) without changing operating mode of the electric fan.

 The proposed ventilation device connects in one system, through the use of several modes of operation, ventilation, regeneration and air enrichment, which can not provide any of the known existing devices.

Claims (1)

 A VENTILATION DEVICE containing opposed air intakes with air inlets, a mixing chamber located between them, an air-distributing duct connected to the room by exhaust vents, fans with internal and external impellers and electric motors, combined into a single unit with the possibility of independent reversal of the rotation of the impellers, characterized in that in order to expand the functionality, the air distribution duct is installed coaxially inside the air the intakes at the mixing chamber and communicated with it, while the entrances of the air intakes are connected to the room and are equipped with devices for measuring air parameters and dampers, one of the entrances is equipped with a regenerative device, and the internal impellers of the fan are located inside the air-distributing duct, and the outer one inside the air mixing chamber .

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