DE102004052223A1 - Roof-exhaust air fan, has blow-out fan pocket firmly connected with wind guide blade and arranged on support, so that blow-out surface is automatically aligned towards lee by wind, where fan is operated by solar and AC main power - Google Patents

Abstract

The fan has a blow-out fan pocket (11) firmly connected with a wind guide blade (13) and arranged loosely on a support (14), so that a blow-out surface is automatically aligned towards lee by the wind. The fan is operated via a drive shaft by the solar power and AC main power. A free wheel-overriding clutch (9) is equipped with a gear shift for adjusting the rotary speed of the fan. An independent claim is also included for a roof-supply air fan that is operated via a drive shaft by solar power and AC main power.

Description

The known exhaust air and supply air fans are only from one unit driven that over either Mains electricity or eco-energy is supplied. The blow-out or suction surfaces are not diminished the advantageous wind direction Lee aligned.

The known direct drive electric fans have the disadvantage of that they can not guarantee delivery flows at all times.

The known fans with mains current have the disadvantage that they 100% power consumption.

Be the known fans lack an automatic alignment the wind cheaper Direction.

Of the Invention is based on the object, exhaust air and supply air fans to develop with the help of solar and / or wind energy significantly Energy from the public Save power grid, and yet ensure at any time defined flow rates can. At the same time, the blow-out or suction surfaces are automatically advantageous be aligned to Lee.

The Tasks are fulfilled by inventions described below.

The drawing 1.2 represents the schematic plan view, the drawing 1.1 the schematic sectional view of a roof exhaust fan with solar and mains power drive with the numbered components.

The exhaust air of a use is via the volume flow controller 1 (adjustable) from the rotating fan impeller 6 over the inlet nozzle 5 aspirated and blown out as exhaust air into the open air.

The hub 7 is with the continuous drive shaft and the rotor of the motor 12.2 (Mains) permanently connected. The motor 12.1 (Solar power) is via the solar power system 15 supplied and is with the continuous drive shaft via the overrunning clutch overrunning clutch 9 loosely connected.

The vacuum setpoint 2 is used for sequence control of the motors 12.1 (Solar power) and 2.2 (Mains) used. The vacuum setpoint 3 serves as the maximum limit.

If the vacuum setpoint 2 through the engine 12.1 (Solar power) is not reached, so the engine shuts off 12.2 (Mains current) in sequence continuously regulated. As long as the engine speed 12.1 (Solar power) is greater than the engine speed 12.2 (Mains current), the drive shaft from the solar power via the freewheel overrunning clutch 9 with powered. (Energy saving in mains power).

Will be the maximum setpoint 2 achieved, so will the engine 12.2 (Mains current) steplessly regulated switched back. The motor 12.1 (Solar power) drives the impeller 6 over the common shaft and the freewheel overrunning clutch 9 then alone and generates the necessary negative pressure 2 , The volumetric flow controller 1 regulates the desired amount of air.

The drives 12.1 and 12.2 are static with the impeller basket 10 over the intake pipe with the roof 4 connected.

The blower fan bag 11 is with the wind deflector 13 firmly connected and in the camps 14 arranged free-running, so that the blowing surface FF is automatically aligned by the wind to the leeward. The advantage is that less energy is used for the exhaust air.

The drawing 2.2 represents the schematic plan view and the drawing 2.1 the schematic sectional view of a roof supply fan with solar and mains power drive with the numbered components.

The outside air is via the intake housing 11 from the rotating fan impeller 6 over the inlet nozzle 5 sucked in and over the pressure chamber and the volume flow controller 1 (adjustable) transported as supply air into the use. The outside air is caused by waste heat from the engines 12.1 and 12.2 heated in winter advantageous. The hub 7 is with the continuous drive shaft and the rotor of the motor 12.2 (Mains) permanently connected. The motor 12.1 (Solar power) is via the solar power system 15 supplied and is with the continuous drive shaft via the overrunning clutch overrunning clutch 9 connected in free-running.

The overpressure setpoint 2 is used for sequence control of the motors 12.1 (Solar power) and 12.2 (Mains) used. The overpressure setpoint 3 serves as the maximum limit.

The motor 12.1 (Solar power) is via the solar power system 15 powers and drives the drive shaft via the freewheel overrunning clutch 9 at. If the overpressure setpoint 2 is not reached, the engine shuts off 12.2 (Mains current) continuously. As long as the engine speed 12.1 (Solar power) is greater than the engine speed 12.2 (Mains current), the drive shaft is powered by the solar power with (Ener saving energy in the mains current).

When the maximum setpoint 3 is achieved, then the engine 12.2 (Mains) switched back. The motor 12.1 (Solar power) drives the common shaft alone and provides the on the volume flow controller 1 specified supply air.

The drives 12.1 and 12.2 are static with the fan housing 10 over the Zuluftrohr with the roof 4 connected.

The intake housing 11 is fixed to the wind deflector 13 connected and in the camps 14 Freewheeling, so that the suction surface FA is automatically aligned by the wind to the leeward. As a result, advantageously less snow, rain, dust and pollen are sucked.

The drawing 3.2 represents the schematic plan view and the drawing 3.1 the schematic sectional view of a roof exhaust fan with wind and mains power drive with the numbered components.

The exhaust air of a use is via the volume flow controller 1 from the fan impeller 6 over the inlet nozzle 5 aspirated and blown out as exhaust air into the open air. The hub 7 is fixed to the continuous drive shaft and the rotor of the motor 12 (Mains) connected.

The vacuum setpoints 2 and 3 be for the control of the engine 12 (Mains power) and the wind turbine 8th used.

Windmill 8th is driven by the wind and turns the drive shaft via the freewheel overrunning clutch 9 , If the vacuum setpoint 2 is not reached, the engine shuts off 12 (Mains current) continuously. As long as the wind turbine speed 8th is greater than the engine speed 12 (Mains current), the drive shaft is driven by the wind. (Primary energy saving).

When the maximum setpoint 3 is achieved, then the engine 12 (Mains) switched off. Windmill 8th drives the common shaft alone and ensures the volumetric flow controller 1 set air volume (setpoints can be changed). Becomes the adjustable maximum pressure setpoint 3 exceeded, so the negative pressure via a spring pressure valve 3 limited.

Windmill 8th and the engine 12 are with the impeller basket 10 over the intake pipe with the roof 4 statically firmly connected.

The blower fan bag 11.1 is with the wind deflector 13 firmly connected and in the camps 14 arranged free-wheeling, so that the Forfluftfläche FF is automatically aligned by the wind to the leeward. As a result, advantageously less energy is used for the exhaust air.

The cover with wind funnel 11.2 of the windmill 8th is with the wind deflector 13 firmly connected and in the camps 14 arranged free-running, so that the wind funnel 11.2 can be automatically aligned to windward by the wind. As a result, the maximum wind energy at the wind turbine 8th implemented in drive energy.

The drawing 4.2 represents the schematic plan view and the drawing 4.1 the schematic sectional view of a roof supply fan with wind turbine and mains power drive with the numbered components.

The outside air is via the intake housing 11.1 from the fan impeller 6 over the inlet nozzle 5 sucked in and over the pipe system and the volume flow controller 1 transported as supply air into use. The outside air is caused by the waste heat of the engine 12 heated in winter advantageous. The hub 7 is fixed to the continuous drive shaft and the rotor of the motor 12.2 (Mains) connected.

The overpressure setpoints 2 and 3 be for the control of the engine 12 (Mains) related.

Windmill 8th is driven by the wind and turns the drive shaft via the freewheel overrunning clutch 9 , When the overpressure setpoint 2 is not reached, the engine shuts off 12 (Mains current) continuously. As long as the wind turbine speed 8th is greater than the engine speed 12 (Mains current), the drive shaft is driven by the wind. (Primary energy saving).

When the maximum setpoint 3 is achieved, then the engine 12 (Mains) switched off. Windmill 8th drives the common shaft alone and ensures the volumetric flow controller 1 set air volume (setpoints can be changed). Becomes the adjustable maximum pressure setpoint 3 exceeded, so the pressure is over a spring pressure valve 3 limited.

Windmill 8th , the motor 12 and the impeller housing 10 are above the supply pipe to the roof 4 statically firmly connected.

The intake pocket 11.1 is with the wind deflector 13 firmly connected and in the camps 14 arranged free-running, so that the suction surface FA can be automatically aligned by the wind to the leeward. As a result, advantageously less snow, rain, dust and pollen are sucked.

The cover with wind funnel 11.2 of windmill 8th is with the wind deflector 13 firmly connected and in the camps 14 arranged free-running, so that the wind funnel 11.2 can be aligned by wind to windward. As a result, the maximum wind energy at the wind turbine 8th implemented in drive energy.

Claims (11)

Exhaust fans acc. 1.1 and 1.2 , characterized in that they are operated via a drive shaft by means of solar power and / or mains power to save energy and the exhaust air outlets FF are aligned to Lee. Supply air fans acc. 2.1 and 2.2 , characterized in that they are operated via a drive shaft by means of solar power and / or mains power to save energy and their outside air passages FA are aligned to Lee. Exhaust fans acc. 3.1 and 3.2 , characterized in that they are operated via a drive shaft by means of wind energy and / or mains power saving and whose exhaust air outlets FF are aligned to Lee. Supply air fans acc. 4.1 and 4.2 , characterized in that they are operated via a drive shaft by means of wind energy and / or mains power to save energy and their outside air passages FA are aligned to Lee. Freewheel overrunning 9 , characterized in that it can also be equipped with a gearshift for speed adjustment to the speed of the fan. Instead of the wind deflector 13 may also use another method for aligning the Lee (Lee) and Wind Funnel suction (FA) or blow-off surface (FF) 11.2 to find Luv use, characterized in that z. B. via a wind pressure measurement, the alignment to the lee and windward takes place. The exhaust air version 1.1 / 1.2 and 3.1 / 3.2 is also applicable to the smoke extraction of a usable area, characterized in that in the case the exhaust air duct system is designed for 600 ° C and the drive shaft between in 1.1 / 1.2 between 14 , and 11 (in 3.1 / 3.2 between 14 , and 11.1 ) are equipped with a cooling wing. In the versions of the 1.1 / 1.2 and 2.1 / 2.2 can the engines 12.1 and 12.2 with the freewheel 9 be housed in a common motor housing characterized in that the unit can be made compact. Next, the engines can 12.1 and 12.2 and the freewheel overrunning clutch 9 be designed in a motor housing as a motor with separate windings for grid and solar power. The torques then act together on the drive shaft, the freewheel overrunning clutch is thereby replaced and eliminated, characterized in that the unit can be made compact as a standard engine. Protection requirements are also provided for 3 drives (wind, solar and mains current drive) in one unit: the drive wind turbine 8th with freewheel overrunning clutch 9 and the drive motors 12.1 and 12.2 in a motor housing as a motor with separate windings for grid and solar power is after the 3.1 / 3.2 and 4.1 / 4.2 combined, characterized in that the eco-energy from wind and / or sun and / or network energy can be used as needed. Since fans and pumps are legally identical Characteristic curve "Volume flow to print ", can also pumps are operated in the same way. Also reports for this the author of this application claims according to the aforementioned claims 1. until 10th.