CS197342B2 - Apparatus for sucking in and blowing out hot air heat storage stoves - Google Patents

Abstract

1347114 Electric thermal storage stoves ATELIERS DE CONSTRUCTIONS ELECTRIQUES DE CHARLEROI 19 April 1971 [3 April 1970] 26271/71 Addition to 1241760 Heading F4U An electric thermal storage stove as described in Specification 1,241,760 is modified in that the fan impeller 12 and its housing are supported by a structure 10, 11 which is releasably affixed either to flanges 7 or 8 of legs 5 supporting the heat storage core 1 whereby the orientation of a fan air outlet duct 22 may be reversed, and in that a deflector plate 18 which determines the proportions of cold and heated air passing to the fan impeller is pivotable about a pin 17. The plate 18 is actuated by a bimetallic element 21 in response to the heated air temperature. A heating resistor grid 23 is provided in the outlet duct 22.

Description

(54) Equipment for suction of cold air and blowing of warm air of storage heaters

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for sucking in cold air and blowing out hot air for electric storage heaters. They are known electric. A storage heater consisting of a heat storage core equipped with heating electrical resistors through which vertical heating ducts pass, leading to the underside of the heat storage. core, further from a fan located below. a core, the suction opening of which is connected to a channel passing through the deflector core. a sheet located above the rear edge of the fan intake opening and in the extension of one of the vertical heating channels, and from the hot air exhaust channel.

The general disadvantage of electrical. This type of storage heater is impossible to place anywhere in the heated room, since it has to be positioned with respect to the direction of the exhausted hot air, so that it is necessary to choose the stove exactly for the given local situation, which makes their production difficult. quantity of species required.

SUMMARY OF THE INVENTION It is an object of the invention to improve electrical storage heaters in order to achieve them. simple assembly and in particular allowing reversal of the air flow direction. in the channel passing through the core by simply inverting the stove base.

The object was solved according to the invention by designing a device for sucking in cold. air for electric storage heaters consisting of a thermal storage core, resting on a support plate with holes and equipped with electric heating elements. resistors, permeated by vertical channels opening at the bottom side of the accumulator core into the holes of the support plate, from a fan located under the accumulator core, whose suction channel is spo. only with vertical deflector sheet heating channels located above the rear edge of the fan intake channel and in the extension of one of the vertical channels passing through. thermal storage core, of guiding. plates connected to the front and rear edges of the suction channel. fans, and from a hot air exhaust duct or a thermal and electrical control device, characterized in that the second guide plate of the intake duct and the exhaust duct of the fan is mounted on the sides of the fan housing. with crossbars attached to the side fasteners. the edges of the 'beams' between the rear. the edge of the fan intake duct and the free 'end' of the deflector plate, rotatably mounted on a pendant. a bar below the mouth of the first heating duct, while the first guide plate of the intake duct and the exhaust duct of the fan is fixed to the side walls of the housing.

below the mouth of the second, heating duct between the front edge of the fan intake duct and the underside of the front portion of the support plate with the thermal storage core openings.

Further, according to the invention, the side fastening edges of the beams for attaching the sidewalls and cross members of the housing fan base to the lower side of the storage core are arranged symmetrically with respect to. the vertical longitudinal plane of symmetry of the storage core.

Also according to the invention, a heating resistor is mounted at the outlet end of the hot air exhaust duct and the deflector plate is provided with a lever arm.

Finally, according to the invention, a double plate is fastened to the first guide plate with one end, the other end of which is slidably supported on the lever arm of the deflector plate.

The usefulness and advantages of the solution according to the invention have been demonstrated since their delivery. Since the electric storage heaters have a control box located either to the left or right of the core, in which the various control devices as well as the electrical resistance connections are located, it is not indifferent if the hot air is blown to the left or right of the core from control cabinets. The direction of hot air flow can greatly affect the location of the stove in the room. If the storage heater is not placed near the wall of the room, it is possible that when using the stove it is found that the direction of hot air blowing that was selected during the stove installation is not good and that the more favorable direction would be reversed.

The advantage of the solution according to the invention is that it is possible to ignore the flow of warm air when making the stove and possibly to reverse it even after the stove has been placed in the room. Furthermore, the device according to the invention allows a simple and inexpensive production of a part of the accumulator stove comprising control devices accessible from outside for controlling the mixture of hot and cold air.

On the whole, the solution according to the invention forms a compact unit for the intake of cold and hot air blowing, which can easily be offset by 180 ° as a whole and thus change the direction of hot air blowing. depending on the . arrangement of the heated room and the location of the electric storage stoves.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described by way of example with reference to the accompanying drawing, in which FIG. 1 is a schematic partial elevational view of accumulation stones with a device according to the invention; and FIG.

As shown in FIGS. 1 and 2, the electric storage heater consists of a storage core 1 of refractory bricks through which the first heating channel 2 and the second heating channel 3 pass vertically, which are connected together at the upper part of the storage core 1 by a transverse channel. The storage core 1 rests on a support plate 4 with holes at the points of the vertical heating channels 2, 3. The support plate 4 with holes is supported by at least two sliders 5 provided with sliders 6 resting on the ground. Each beam 5 is provided with a lateral fastening. the edge 7 and the second fastening edge 8, which are equidistant from the adjacent vertical heating channel 2, 3. This is the lateral fastening edge 7,. 8 arranged symmetrically with respect to the vertical heating channels 2,. 3. A housing base consisting of two sidewalls 10 of which are fastened to the side fastening edges 7, 8 by means of screws 9. one is seen from FIG. 1 in a front view. Both sides · 10 are together. connected by one or more crossbars 11, which are shown in section. Between the sidewalls 10 there is a fan 12 rotating in the direction of the arrow 13, provided with a wide suction channel 25 bordered by an edge 14 and a rear edge 15. From the front edge 14 of the suction channel 25. a first guide plate 18 extends to the underside of the storage core 1, formed by a support plate 4 with holes. Hanging rod

17, located between the two sidewalls 10, supports one end of the deflector plate 18 arranged below the mouth of the first heating duct 2 passing through the storage core 1. From the rear edge 15 of the suction duct 25 a second guide plate 19 extends near the free end deflector plate

This second guide plate 19 is also located below the mouth of the first heating channel 2. The two guide plates 18, 19 are attached to the sidewalls 10. If the cabinet base containing the sidewalls 10 is not attached to the first side fastening edge 7, but vice versa to the second side fastening edge 8, the plates 18, 19 are located below the level of the mouth of the second heating channel 3, while the first guide plate 16 is located below the level of the first heating channel 2. The deflector plate 18 is rotatable to the hanger rod 17 depending on the temperature of the hot air exiting the heating channel. To achieve this effect, a lever arm 20 is attached to the deflector plate 18, on which a double plate 21 is applied, which is fixed to the first guide plate 16, and whose end slides along the lever arm 20. This allows easy control of the course the position of the deflector plate 18 controlling the mixture of hot and cold air by giving the lever arm 20 a suitable shape, for example by bending it.

In the outlet opening of the exhaust duct 22 of the fan 12 there is a grid of heating resistors 23, which forms an additional heating device and creates a turbulent flow of the outgoing air flow even though the electric resistors 23 do not pass through the heating resistors.

A thermostat 24 and possibly an electric switch and other control devices can be placed on the cross member 11 of the housing adjacent the first lateral fastening edge 7.

Claims (5)

I will invent the object 1. Apparatus for the intake of cold air and hot air blowing of storage heaters, consisting of a heat storage core consisting of a support plate with holes and equipped with heating electrical resistances, permeated by vertical ducts opening at the underside of the storage core into the support plate holes, below an accumulator core whose suction channel is connected to vertical deflector sheet heating channels located above the rear edge of the fan suction channel and in the extension of one of the vertical channels passing through the heat storage core from guide plates connected to the front and rear edges of the suction channel by fans; a hot air exhaust duct, optionally from a thermal and electrical control device, characterized in that the second guide plate (19) of the intake duct (25) and the exhaust duct (22) of the fan (12) is fastened to the side walls (10) of a fan base (12) with crossbars (11) attached to the side fastening edges (7, 8) of the beams (5) between the rear edge (15) of the suction channel (25) of the fan (12) and the free end of the deflector plate (18) mounted on the hanger rod (17) below the mouth of the first heating duct (2), while the first guide plate (16) of the intake duct (25) and the exhaust duct (22) of the fan (12) is secured to the side (10) of the fan housing. 12) below the level of the mouth of the second heating channel (3) between the leading edge (14) of the suction channel (25) - the fan (12) and the underside of the front part of the support plate (4) with openings of the heat storage core (1). Device according to claim 1, characterized in that the side fastening edges (7, 8) of the beams (5) for fastening the sidewalls (10) and crossbars (11) of the fan housing (12) to the underside of the storage core (1) are arranged. symmetrically with respect to the vertical longitudinal plane of symmetry of the storage core (1). Device according to claim 1, characterized in that a heating resistor (23) is mounted at the outlet end of the hot air exhaust duct (22). Device according to claim 1, characterized in that the deflector plate (18) is provided with a lever arm (20). 5. Device according to claim 1, characterized in that a double plate (21) is fastened to one end of the deflector plate (18) with one end attached to the first guide plate (16).