DE3918019C1 - Boiler exhaust gas temp. controller - has insert body element moving along length of boiler, to control or free flow channels - Google Patents

Abstract

The device influences the exhaust gas temperature of a boiler, consisting of a row of linked boilers, with intermediate flow channels, leading from combustion chamber to exhaust channels, and an adjusting element, for the channel flow size. The element is formed as an insert body (5, 5'), which moves along the length of the boiler, and controls and frees the flow channels (3) as required. It consists of displaceable perforated plate, with apertures to free or partly/completely cover the channels.

Description

The invention relates to a device according to the preamble of Claim 1.

In a sectional boiler with several in a row arranged boiler members, the combustion takes place in the of the combustion chamber.

The heating gases flow then through vertical flow channels to exhaust manifolds. Both in Combustion chamber as well as in the flow channels and the exhaust gas collectors there is very good heat transfer to the boiler water.

In the interest of high efficiency, the boilers are designed that the exhaust gas temperatures are as low as possible. Actually exhaust gas temperatures reached are, however, of the respective Chimney conditions dependent. These relationships can very different. So it is possible that the exhaust gas temperatures are significantly above or below the corresponding ideal values.  

In DE-GM 88 02 323 is sufficient to comply with Exhaust gas temperature the use of an actuator between neighboring boiler sections proposed. This actuator initially closes a separate short-circuit flow opening between the combustion chamber and the exhaust manifold. Should the required minimum exhaust gas temperature cannot be reached then the actuator can be opened and thereby a direct flow be achieved. This is just a special one Effect of increasing the temperature as required and not by one basic adaptation of the exhaust gas temperature to the respective Chimney conditions.

The invention has for its object to provide a device with which Operator the exhaust gas temperature depending on the present Always adjust chimney conditions, d. H. either can raise as well as lower.

This object is achieved in a device for influencing the exhaust gas temperature of a sectional boiler according to the invention by the in the characteristic of Features mentioned claim 1 solved.

It is not just an actuator for opening one Short circuit flow opening and for raising the exhaust gas temperature in front. Rather, it is an aperture-like Insert body, the flow channels lying one behind the other directly captured. This means that the exhaust gas temperature in the comprehensive sense can be influenced. By the Adjusting the insert body can namely a more or less large flow cross-section from the front or rear area the combustion chamber to the exhaust gas ducts are released. In order to the operator can control the draft of the boiler Adjust the chimney immediately.  

The insert body can be designed as a displaceable perforated plate be, which releases all flow channels in a basic position. Since according to a special development of the invention, the holes the perforated plate in the basic position the flow channels in rear area to the front and in the front area to the rear protrude by moving the perforated plate lengthways a more or less strong flow through the back or achieve front flow channels. When moving to at the front, the rear flow channels are partially or completely covered. The flow through the front of the boiler is stronger. When moving backwards, the front Flow channels partially or completely covered. Rear There is a stronger flow through the boiler area.

A rotary valve or a flap is also used as an insert body suitable that all flow channels in a basic position release and when twisting or adjusting the Flow channels in the rear or front area entirely or partially cover.

With very simple means it is thus possible to control the flow in the Adapt the boiler to the chimney conditions.

An embodiment of the Invention is shown in the drawing and will be described in more detail below. It shows

Fig. 1 is a front view of a boiler section,

Fig. 2 shows the section AA of Fig. 1 and

Fig. 3 is a plan view of the representation according to FIG. 2.

Between the combustion chamber 1 and the exhaust gas ducts 2 are vertical flow channels. 3 Sealing strips 4 guarantee a predetermined flow path. A perforated plate, which is longitudinally displaceable in guides 7 as insert body 5, covers the upper region of the flow channels 3 leading to the exhaust gas channel 2 . Openings 6 in the perforated plate release a more or less large flow path depending on their position. The openings 6 protrude beyond the flow channels 3 to the front in the rear area and to the rear in the front area. It is therefore possible to subject the rear or front boiler area to a higher pressure with a corresponding adaptation of the exhaust gas temperature.

As an alternative to the perforated plate, a rotary slide valve can also be used as insert body 5 ' or a flap (not shown).

Claims (7)

1. Device for influencing the exhaust gas temperature of a sectional boiler from consecutively arranged boiler sections with flow channels leading between the boiler sections from the combustion chamber to exhaust gas channels and an actuator changing their flow cross-section, characterized in that the actuator as a continuous flow channels over the length of the boiler, 3 ) detecting and releasing to the desired extent insert body ( 5, 5 ' ) is formed. 2. Apparatus according to claim 1, characterized in that the insert body ( 5 ) is designed as a displaceable perforated plate, the openings ( 6 ) in the basic position release all flow channels ( 3 ) and which when moving the flow channels ( 3 ) in the rear or partially or completely covers the front area. 3. Device according to claims 1 and 2, characterized in that the openings ( 6 ) of the perforated plate in the basic position protrude the flow channels ( 3 ) in the rear boiler area to the front and in the front boiler area to the rear. 4. Device according to claims 1 to 3, characterized in that the perforated plate partially or completely covers the rear flow channels in the case of a forward displacement and the front flow channels ( 3 ) in the event of a rearward displacement. 5. Apparatus according to claim 1 to 4, characterized in that the perforated plate on the top of the flow channels ( 3 ) in a lateral guide ( 7 ) is arranged to be longitudinally displaceable. 6. The device according to claim 1, characterized in that the insert body ( 5 ' ) is designed as a rotary slide valve, which in a basic position releases all flow channels ( 3 ) and which partially or when the flow channels ( 3 ) are rotated in the rear or front region completely covers. 7. The device according to claim 1, characterized in that the insert body as a adjustable flap is formed in a basic position clears all flow channels and when adjusting the Flow channels in the rear or front area partially or completely covers.