FI73072B - LUFTVAERMARE. - Google Patents

Description

73072 Heat Exchanger - Luftvärmare

The invention relates to a solid fuel hot air generator as defined in the preamble of claim 1.

U.S. Pat. No. 4,470,400 discloses a warm air generator 5 in which a fan is arranged on both sides of the fireplace. A control element is placed in the air flow duct connected to the fans. However, with such a warm air generator, the heating power cannot be satisfactorily adjusted.

It is an object of the present invention to provide an improvement in a solid fuel hot air generator, particularly in terms of controllability of heating power. In order to achieve its object, the invention is mainly characterized by the features set forth in the characterizing part of claim 1.

The hot air generator of the present invention has two .5 groups of fans or the like. A control member is located in the air flow duct and the first fan group is on when the temperature in the air flow duct exceeds the set value of the control member. The second group is on when the setpoint of the control element is exceeded and controlled by another control element, such as a thermostat, placed in the space to be heated. This solution achieves good controllability of the heating power. When a fire is ignited in the firebox, the control member located in the airflow duct senses the temperature in the airflow duct and when the temperature exceeds the setpoint of the control member, the fan groups start blowing heated air into the airflow duct. For the second group of pu controllers, this takes place on the condition that the setpoint of the second control element, such as the thermostat, in the space to be heated is higher than the temperature of the space to be heated. After the temperature of the room to be heated has reached the set value of the thermostat 30, the second fan group stops and the temperature of the room to be heated is maintained by means of the first 2 73072 fan groups. If the fan outputs in both fan groups are equal, the heating output will halve. This is sufficient in most cases to compensate for the heat loss of the space to be heated.

The control effect of the invention can be further enhanced by placing a temperature sensing member connected to the combustion air supply regulator of the furnace in the part of the air flow duct affected by the air flow of the fan group connected to the control element located in the heated space. 10 This solution has the effect that when the temperature of the room to be heated reaches the room thermostat setpoint and the second fan group is interrupted in the part of the airflow duct through which the airflow passes normally, the temperature 15 starts to rise because heat is no longer transferred by the airflow. This temperature rise acts on a temperature sensing member connected to the furnace combustion air inlet regulator so that the temperature rise reduces the combustion air supply to the furnace. Thus, tu-; The combustion of solid fuel in the 20 furnaces slows down, which in turn reduces the heat output of the furnace and further lowers the temperature of the air blown into the space to be heated by the first group of fans. If the above:: results in the temperature of the space to be heated falling below the setpoint of the net thermostat, a second group of fans is switched on, which in turn decreases the temperature at the temperature sensing element, because the heat generated in the furnace is also transferred at the temperature sensing element into the flowing air after the second fan group has started. The temperature sensing member then provides a movement of the combustion air supply control that increases the flow of combustion air to the furnace. This in turn increases the combustion efficiency of the furnace and raises the temperature of the air to be blown into the space to be heated by both fan groups. while on.

3,73072

The provision of the fan group-specific temperature zones shown in the previous paragraph in the air flow duct can be realized according to a preferred embodiment so that the control member connected to the first fan group air flow duct 5 and the In this case, the warm air flows of the first and second fan groups, which remain sufficiently separate, are obtained.

Other preferred embodiments of the invention are set out in the appended dependent claims.

The invention is further illustrated in the following description, in which reference is made to the embodiments shown in the accompanying drawings. In the drawings, Fig. 1 is a perspective schematic rear view of the hot air generator according to the invention and an electrical diagram of the hot air generator, Fig. 2 is a

The warm air generator shown in the drawings comprises a furnace 1, the filling hatch 2 of which is at the top of the furnace. The firebox 1 is a lower firebox with a grate 3 and an ash space 4 below the grate 3. The hot air generator is provided with an ash removal and maintenance hatch 5 and an ash box 6 in the ash chamber 4, which can be removed through the hatch 5. In the lower part of the firebox 1 there is a horizontal control chamber 7 73072 rotating on three sides of the firebox, on the upper surface of which a vertical piping 8 forming a flue gas duct is attached outside the firebox 1. The piping 8 is connected to a flue gas collector chamber 9 at the top of the hot air from which the hot air generator is connected to the chimney.

The above combination of furnace 1 and flue gas flow ducts 7, 8, 9 is surrounded by an air flow duct 13 delimited by the coating plate 12 of the heat generator. The air to be measured flows under the grilles 16 on the sides of the heat generator, driven by fan groups 14, 15. From the grille 16 (the second one shown in Figure 1), the air flow is directed downwards as directed by the vertical guide wall 17 and from there along a horizontal flow path 15 to the fan groups 14, 15 which direct the air flow upwards. At the bottom of the flue gas flow piping 8 there are guide plates 18, 19 which direct the air flow from the fans to the outer surface of the furnace 1 and to the piping 8. From this, the warming air flows upwards into the flue gas collector chamber. 20 outside the warm air flow control; 'lane 20, bounded at the top and sides by the part of the coating plate ·' '12 and below by the top of the firebox 1. The flue gas collecting chamber 9 is located in the warm air flow control space 20, at which: control grilles are formed in the coating plate 12, from which the hot air flow is directed to the space to be heated. Overall, the warm air flow through the warm air generator described above is indicated by arrows 21.

·. In the embodiment shown in the drawings, the fan groups 14 and. . 15 each comprise one-piece fans. Of course, there may be more than one fan in either or both groups. With particular reference to Figure 1, the first:; at the air flow generated by its fan group 14, a control element 22 is arranged in the air flow duct 13, which may be a normal on / off control which switches on when the temperature 5 73072 exceeds a certain temperature, e.g. 40 ° C. As can be seen from the electrical diagram of Figure 1, the control element 22 is connected to the electrical circuit 23 of the fan group 14. Likewise, the control element 22 is connected to the electrical circuit 24 of the second fan group 15 in series with the room-5 thermostat 25. Thus, when the main switch 26 is on, the first fan group 14 is also on when the control limit of the control member 22 in the air flow duct 13 is exceeded. Likewise, the second fan group 15 is on if, in addition to the previous condition, the temperature of the room to be heated is lower than the set value of the room thermostat. At the air flow generated by the second fan group 15, a temperature sensing member 27 is located in the air flow duct 13, which is connected to the furnace combustion air supply regulator 28. The apparatus further includes a power control thermostat 29. The controller. 13 the amount of combustion air decreases and vice versa. In order to maintain the combustion event, the supply of base air can be arranged according to the arrows 30 through the door 5 to the furnace. In this case, the controller 28 can, for example, close the inlet duct 31 of the tubular combustion air completely. It can also be arranged that the minimum flow always takes place via the inlet channel, even in the smallest position of the regulator.

In order to provide temperature groups specific to the fan group, it is preferable to form the air flow duct in the cross-sectional direction of the firebox as viewed in a substantially U-shape, with the sides and rear of the firebox forming three sides of the air flow duct. In this case, the control member 22 and the temperature sensing member 27 are located in the parts of the air flow duct 13 located on opposite sides of the furnace.

0 Naturally, the air flow duct system can be formed only on opposite sides of the furnace or on all four sides of the furnace with a cross-section, for example on all sides of a substantially rectangular furnace. The arrangement on opposite sides provides the necessary fan group-specific temperature zone division, whereby the power control of the warm air generator takes place as described above.

Claims (6)

A solid fuel air heater comprising a fireplace (1), a combustion gas duct system (7, 8, 9), a heating system duct system (13) in heat transfer connection to the fireplace (1) and / or the combustion duct system gases (7, 8, 9) and a fan system divided into two sections (14, 15) of fans or the like in the heating air duct system and a control means (22) located in the heating air duct system (13), Accordingly, the first section (14) of the fan system is arranged, in a known manner, to be point-coupled when the temperature in duct system (13) for the heating air exceeds a set value of the control means (22), and that the second section (15) of the medical system is arranged to be point-connected when a set value of the control means (22) is exceeded and controlled by another control means (25), such as a thermostat, in the space intended for heating. 2. An air heater according to claim 1, characterized in that the part of the heating system duct system (13) affected by the air flow from the second fan section 20 (15) connected to the regulating means (25) arranged in the heated room means (27) for sensing temperature, which means is connected to a setting device (28) for supplying combustion air to the fireplace (1). 3. Air heater according to claim 1 or 2, characterized in that in order to provide temperature zones for sections of the fan system in the duct system for heating air (13) the control means (22) belonging to the first section (14) of the fan system and the means (27) for sensing 30 of the temperature associated with the second section (15) of the fan system are located on opposite sides of the fireplace (1) parts of the heating system duct system (13).