RU2124168C1 - Thermal fan - Google Patents

Abstract

FIELD: heating air. SUBSTANCE: thermal fan possesses rather high power, up to 30 kW. Fan is provided with thermoregulating device fitted with sensor having different settings which makes it possible to maintain preset temperature conditions by means of remote control unit. Drive is mounted inside slotted ejector fitted with thermal shield. Supports for securing the electric heating elements have pliability in two directions which increases service life of electric heating elements. EFFECT: enhanced reliability. 2 cl, 1 dwg

Description

 The invention relates to the field of fan engineering and can be used in the design of large-capacity heat fans for general business in wall, floor and suspended versions.

 A thermal fan is known comprising a cylindrical housing, a fan impeller mounted on a drive shaft, mesh inlets and outlets made respectively in the form of a cylindrical housing surface and an end cover, heaters with fasteners and a control unit (application EP 0183252, F 24 H 3/04 , 1986).

 Known thermal fan is difficult to manufacture and not reliable enough.

 In accordance with the invention, the heat fan described above is provided with a casing forming a heat-shielding cavity coaxial to the housing, a slotted ejector mounted on the periphery of an opening made in the rear wall of the housing, heat shields mounted on the inner end wall of the heat-shielding cavity, the rear end wall of the housing and on the outer surface ejector, thermoregulating device for turning on and off the heaters depending on the ambient temperature, the latter and the control unit is made remote, and the fan is axial and mounted coaxially to the body, and the drive is located inside the ejector, and the critical section of the latter is located in the shaft area, the fastening elements of the heaters are made in the form of supports having flexibility both in the axial and in the radial directions, for example, in the form of twisted elastic plates rigidly fixed to the casing and on the surfaces of heat electric heaters, the entrance area being at least twice the exit area.

 The drawing schematically shows a longitudinal section of a heat fan.

 The heat fan contains a cylindrical housing 1 with a casing 2, forming a heat-shielding cavity 3 coaxial to the housing, and an impeller 6 of the axial fan mounted on the drive shaft 4 coaxially to the housing 1, mesh inlet and outlet, respectively made in the form of a cylindrical surface 7 of the housing 1 and the end cover 8, wherein the entry area is at least twice the exit area. Heating elements 9 with fasteners, a control unit 10 and heat shields 11 and 12, which are equipped with an inner end wall of the heat-shielding cavity 3 and a rear end wall 13 of the housing 1, a temperature control device 14 for switching on and off the heating elements 9 depending on the ambient temperature and it like the control unit 10 is made remote, a hole 15 is made on the rear wall 13 of the housing 1, on the periphery of which a slotted ejector 16 is installed, and the drive 5 is placed inside this ejector, a critical section 17 of which is located in the shaft area and on the outer surface of the ejector 16 a heat shield 18 is installed, the fastening elements of the heating elements 9 are made in the form of supports 19 having flexibility both in the axial and in the radial directions, for example, in the form of twisted elastic plates rigidly fixed on the housing 1 and on the surfaces of the heating elements 9.

 The heat fan operates as follows.

 The control unit 10 includes a drive 5, the shaft 4 of which comes into rotation together with the impeller 6. At the same time, voltage is also supplied to the heating elements 9. The heated heating elements 9 transfer heat to the air flow coming from the impeller 6. In the event that the temperature of the heated air becomes higher predetermined, thermostatic device disconnects part of the heating elements 9 and the temperature decreases. The installation of the drive 5 inside the slotted ejector 16 allows you to improve the working conditions of the drive 5, cooling its body, which is also the heat shield 18. The reliability of the heat fan is increased and by performing block 10 and thermostatic device remote, which improves the conditions of their work and the work of staff, at a greater distance from powerful heat sources - heaters. The implementation of the supports 19 with flexibility in two directions protects the heating elements 9 from damage associated with thermal deformation, and increases their service life.

Claims (1)

 A thermal fan comprising a cylindrical housing, a fan impeller mounted on the drive shaft, mesh inlets and outlets made respectively in the form of a cylindrical housing surface and an end cover, heaters with fasteners and a control unit, characterized in that it is provided with a housing forming a coaxial housing heat-shielding cavity, slotted ejector installed on the periphery of the hole made in the rear wall of the housing, heat shields installed on the inner end the wall of the heat-shielding cavity, the rear end wall of the housing and on the outer surface of the ejector, a temperature control device for turning on and off the heaters depending on the ambient temperature, while the latter and the control unit are remote, and the fan is axial and mounted coaxially to the housing, and the drive is placed inside the ejector, and a critical section of the latter is located in the shaft area, the fastening elements of the heaters are made in the form of supports with flexibility in both axial and radial directions, for example, in the form of twisted elastic plates rigidly fixed to the casing and on the surfaces of the heaters, and the entrance area is at least twice the exit area.