DE3614885A1 - Air heater - Google Patents

Abstract

Air heater for solid fuels, such as wood, coal, peat etc., which has two blower groups which are controlled by controllers and thermostats in such a way that a first blower group is switched on when the temperature in the hot-air duct has exceeded the value set at a control member, and that the second blower group is switched on when the value set at the control member is exceeded and at the same time the set value of a second control member in a room to be heated is higher than the temperature in this room, the control of the supply of combustion air in this control system taking place independently of the temperature-controlled heat emission.

Description

The invention relates to an air heater for solid Fuels, consisting of a furnace, an exhaust gas duct, a warm air duct in a heat exchanging Contact with the furnace and / or with the flue gas duct, and a fan arrangement in the warm air duct.

The previously described air heaters normally point just a blower on what is in control of Solid fuel air heaters create difficulties. With just one blower it is not possible to To regulate the heating output of the air heater satisfactorily.

The object of the present invention is therefore an air heater to create that does not have these disadvantages. According to this task is present in the air heater Invention provided that the blower arrangement divided into two groups and a control element in the warm air duct is arranged, the first fan group is switched on when the temperature in the warm air duct exceeded the value set on the control unit Has. The second fan group is switched on if the value set on the control element is exceeded and at the same time the temperature in the room to be heated is lower is arranged as that in a second in this room Regulator set value. With this solution the It is possible to control the heat emission very precisely to reach the air heater. When the stove fired up the control element in the warm air duct  the temperature rise within the channel, and as soon as the temperature reaches the set value of the control element exceeds, the fan arrangement is switched on, which then warm air into the warm air duct blows. Regarding the second fan group, that this is switched on and warm air pushes through the channel when the temperature in the too warming room is lower than that in a second Control unit set value within this room. If the temperature inside the room is the same as in the second Control unit has reached the set value, switches the second fan group, so that then only the first fan group to maintain the room temperature remains switched on. This means that in the case of equal heat emission from these two fan groups the heat emission is reduced to half. This is sufficient for compensation in most cases the heat losses in the room to be heated.

The regulation can still go according to this invention be improved by the section of the warm air duct, through that of the second fan group blown warm air flows, has a temperature sensor. This temperature sensor is with a control element connected that the supply of combustion air in the Oven controls. This solution has the advantage that if the temperature in the room to be warmed the value set on the second control unit has reached second fan group switches off, as already has been described. The temperature then rises the section of the hot air duct from the warm air blown by the second fan group otherwise is flowed through, since there is no longer any heat dissipation takes place. This temperature rise is caused by the temperature sensor  detects, and acts on that with the temperature sensor related, the supply of combustion air in the furnace controlling control device such that with increasing Temperature the supply of combustion air in the oven is throttled. This slows down the combustion in the oven, d. that is, heat generation decreases. As a result, the temperature of the the first fan group through the duct. If the room temperature is in this operating state among those set on the second control organ If the value drops, the second fan group switches on again a, causing the temperature in the area of the temperature sensor through the increasing heat absorption of the flowing Air decreases, and as a result the temperature sensor requests heat via the subordinate control unit, by supplying combustion air to the Furnace is raised again. With increased combustion air the heating power of the furnace increases, which then also the temperature of the blown into the room to be heated Warm air rises again, and consequently this room is heated becomes.

In order to develop temperature zones for the control elements within the scope of operation of both fan groups the duct that carries the warm air can be required formed according to an embodiment of this invention be that the regulating body on one side in Warm air duct, and the temperature sensor on the other side of the warm air duct is arranged, the regulator in the by the first fan group generated warm air flow, and the temperature sensor in the warm air flow generated by the second fan group is arranged. This ensures that both regulatory bodies are clearly separated from each other, and only the one prevailing in the respective temperature zone State for controlling the assigned fan group  is used.

The appended claims leave further advantageous ones Recognize embodiments of the invention.

The invention will now be described with reference to the accompanying ones Drawings explained in more detail. In the drawings shows -

Fig. 1 is a schematic representation of an air heater in a perspective view from the back, including a schematic representation of the electrical circuit,

Fig. 2 is a front view of the air heater, partially cut, and -

Fig. 3 is a perspective view of the furnace in section, with the smoke and exhaust gas routing, the temperature sensor and the controller for the combustion air supply.

The air heater according to the invention consists of a furnace 1 , the loading flap 2 of which is arranged on the upper part of the furnace. The furnace is equipped with a grate 3 and below the grate 3 with an ash room 4 . The air heater has a door 5 at the front for ash removal and cleaning work. In the ash room 4 , an ash box 6 is accommodated, which can be removed when the door 5 is open. The lower part of the furnace 1 has a flue gas guide chamber 7 which is oriented horizontally and surrounds the furnace on three sides. A vertically aligned pipe system 8 is attached to the flue gas guide chamber 7 outside the furnace 1 from above. The pipe system 8 connects to the exhaust gas or flue gas collection chamber 9 in the upper part of the air heater. The collecting space 9 is connected to a pipe socket 11 , which has a throttle valve 10 , and is connected to the chimney via a stovepipe to be plugged on.

The previously described combination of the furnace 1 with the flue gas flues 7, 8, 9 is enclosed on three sides by a warm air duct arrangement, the outer end of which is formed by the sheet metal jacket 12 of the air heater. The air to be heated is forced through the air heater by means of a fan arrangement, which consists of two fan groups 14, 15 . The air is drawn in from the outside through grilles 16 in the sides of the air heater, directed downwards by means of a vertical wall 17 and there, horizontally deflected, to the blowers 14, 15 , which push the air upwards, the air being in heat-exchanging contact with the wall of the furnace 1 and the vertically arranged pipe system 8 comes. The lower part of the pipe system 8 has guide surfaces 18, 19 which direct the air flow from the blower arrangement onto the wall of the furnace 1 and the pipe system 8 . In the upper part of the air heater, the warm air enters a guide chamber 20 , the bottom of which is the furnace and the side walls and the top cover of which are formed by the sheet metal jacket 12 of the air heater. The flue gas or exhaust gas collection chamber 9 is disposed within said guide chamber, and the pressed into the guide chamber 20 hot air passes on its way into the chamber 20 along the outer surface of the collection chamber. 9 The sheet metal housing or the casing 12 of the air heater has at least one lamellar opening in the region of the chamber 20 , from which the warm air is pressed into the space to be heated. The warm air flow through the air heater is indicated by arrows 21 .

The embodiment of an air heater shown in the drawings has a blower arrangement 14 , 15 , the two groups 14, 15 of which each consist of a blower, the blowers being arranged side by side on the bottom of the air heater. Of course, the number of blowers or the blower output thereof can vary in order to achieve the desired regulation. It can be seen in particular from FIG. 1 that the regulating member 22 is arranged on the part of the warm air duct 13 at which the warm air pushed up by the first fan group 14 passes. The control element 22 can be a controller for two-point operation. The controller is switched on when the temperature reaches and exceeds 40 ° C, for example, otherwise the controller is in the off position. As can be seen from the circuit diagram of FIG. 1, the control element 22 is connected to the electrical circuit 23 of the first fan group 14 . At the same time, the control element is connected to an electrical circuit 24 of the second fan group 15 in series with a second control element 25 . The second control element 25 can be a room thermostat. Consequently, when the mains switch 26 is switched on, the first fan group is switched on when the value set on the control element 22 in the warm air duct 13 has been reached. Accordingly, the second fan group 15 is also switched on when the value set on the control element is reached and the temperature in the room to be heated is lower than the value set on the second control element 25 . A temperature sensor or sensor 27 is arranged on the part of the warm air duct 13 , past which the warm air pushed up by the second fan group 15 passes. The temperature sensor 27 is connected to a control element 28 for regulating the supply of combustion air into the furnace 1 . A thermostat 29 for controlling the heating power is also connected to the control element. The control element 28 controls the supply of combustion air in such a way that the supply of combustion air is throttled when the temperature at the temperature sensor 27 rises. When the furnace is fired up and during work on the furnace, the combustion air can reach the furnace through the furnace door, as is indicated by arrows 30 in FIG. 2. The control element 28 can keep the tubular combustion air inlet channel 31 completely closed. Of course, the control element 28 can also be set in its zero position so that a small part of the combustion air can still reach the furnace through the inlet duct.

In order to form a temperature zone for each blower group, the hot air duct arrangement is advantageously designed in such a way that the duct arrangement has a U-shape in a horizontal section, as can also be seen from FIG. 3. The side walls and the rear wall of the furnace, which form the three inner sides of the warm air ducts, have a substantially square shape in a horizontal section. The control member 22 and the temperature sensor 27 are arranged within the warm air duct 13 on the opposite side walls of the furnace. It is, of course, obvious that the warm air ducts can alternatively also be arranged opposite one another along the side walls of the furnace or the furnace, and can also vary in cross-section within the scope of the disclosure of this invention. The special arrangement of the control elements 22, 27 ensures that they are in each case in the area of the fans arranged separately in groups. This subdivision of the warm air ducts into separate zones, each with a blower group and the associated regulating elements in this zone, enables the heat output of the air heater to be controlled properly.

The air heater basically consists of a frame construction which supports the furnace 1 and the exhaust gas or smoke exhaust ducts. The frame also carries the sheet metal casing 12 and the blowers 14, 15 . Wood, such as logs, wood shavings, or coal, peat etc., can be used as solid fuel for combustion. In general, fuels can be used for combustion, the combustion process of which otherwise has to be monitored almost continuously. This permissive use is achieved according to the invention by an air heater whose heat emission and combustion process for heating a room is continuously monitored and controlled.

LEGEND

1 oven
2 loading flap
3 rust
4 ash room
5 oven door
6 ash boxes
7 flue gas guide chamber
8 pipe system
9 Exhaust gas collection chamber
10 throttle valve
11 pipe sockets
12 sheet metal casing, housing
13 hot air duct
14 fan group
15 fan group
16 air intake grilles
17 vertical wall
18 baffle
19 baffle
20 guide chamber
21 arrow
22 regulatory body
23 circuit
24 circuit
25 control element (room thermostat)
26 power switch
27 temperature sensor
28 control element
29 thermostat
30 arrow
31 Combustion air inlet duct

Claims (6)

1. Air heater for solid fuels, consisting of a furnace ( 1 ), an exhaust duct, a warm air duct ( 13 ) in heat-exchanging contact with the furnace and / or with the exhaust duct ( 7, 8, 9 ), and a blower arrangement in Warm air duct ( 13 ), characterized in that the fan arrangement is divided into two groups ( 14, 15 ) and a control element ( 22 ) is arranged in the warm air duct ( 13 ), the first fan group ( 14 ) being switched on when the temperature in the Warm air duct ( 13 ) has exceeded the value set on the control element ( 22 ), and that the second fan group ( 15 ) is switched on when the value set on the control element ( 22 ) is exceeded and at the same time the set value of a second control element ( 25 ) is in one warming room is higher than the temperature in that room. 2. Air heater according to claim 1, characterized in that the section of the warm air duct ( 13 ) through which the hot air from the second fan group ( 15 ) flows upward has a temperature sensor ( 27 ) with a controller ( 28 ) for Control of the combustion air supply in the furnace ( 1 ) is cooperatively connected. 3. Air heater according to claim 1 and 2, characterized in that for detecting the temperature in the individual zones of the warm air duct ( 13 ), the control member ( 22 ) in the temperature zone of the first fan group ( 14 ) and the member ( 27 ) for detecting the temperature are arranged in the temperature zone of the second fan group on the opposite sides of the furnace ( 1 ) in the warm air duct ( 13 ). 4. Air heater according to claim 1 to 3, characterized in that the warm air duct ( 13 ) is arranged in contact with at least two opposite side walls of the furnace ( 1 ) and has a square cross section, and that the exhaust duct from a substantially parallel to each other and vertically aligned pipe system ( 8 ), which forms the connection between a flue gas guide chamber ( 7 ) in the lower part of the furnace ( 1 ) and the flue gas collecting chamber ( 9 ) above the furnace ( 1 ). 5. Air heater according to claim 4, characterized in that the exhaust gas collecting space ( 9 ) is arranged within the warm air chamber ( 20 ), which is equipped with at least one lamella opening in the upper part of the sides of the sheet metal jacket ( 12 ) of the air heater. 6. Air heater according to claim 2, characterized in that the combustion air supply in the furnace ( 1 ) regulating element ( 28 ) is equipped with a thermostat ( 29 ).