DE452752C - Heating device - Google Patents

Description

Heating device. The invention relates to a heating device for achieving this as evenly as possible, below the combustion temperature of ordinary fuels lying temperatures, in particular a heating system in which hot gases are rapid moved back and forth «in contact with the object or the room that is being heated and in which a certain temperature is maintained by adding of new hot gases to replace those amounts of heat that are transferred to the ones to be heated Objects have been handed in.

Such a heating system is of value in implementation, for example of chemical reactions that are sensitive to excessively high temperatures; z. B. in the conversion of heavy petroleum oils into volatile motor fuels, Called cracking, it is of great importance that temperatures of 400 ° F are accurate paused and local overheating avoided «. Such overheating have the consequence that a considerable part of the heavy oil is converted into coke and gas is used instead of in light motor fuels, and the coke formation in turn has the Another unpleasant consequence that the iron reaction vessels or snakes burn out.

The cracking device shown in the accompanying schematic drawings consists of a preheating coil 50, a still retort housed in furnace 2517, and a superheating coil housed in furnace 25 . The heavy oil first passes through the preheat coil, then enters the still retort where it is vaporized, and finally the oil vapors from the still retort enter the superheat coil where they are cracked and converted to low boiling engine fuels. It goes without saying, however, that any other equipment can be accommodated in the heating ovens.

According to the invention, for the operation of a plurality of heating devices a common device used for reciprocating the gases, one of which corresponding share allocated to each heating stove will and about everyone Oven is evenly distributed.

Furthermore, it has been made possible to use any of the ovens that are connected to a common gas moving device, to knock off the latter, so that it can be checked and repaired. without the operation of the other Oven is disturbed. There is also an adaptation of the gas volume moved back and forth the number of ovens that are in operation.

The volume of the gases moving back and forth can be kept to a minimum be brought so that the dimensions of the device for reciprocation and their operating costs are as low as possible.

An embodiment of the subject matter of the invention is shown in the enclosed Drawings shown schematically.

Fig. I shows a device according to the invention in elevation and cross-section according to line I-1 of Figs. 2, 3 and ¢.

Fig.2 is a plan, partly in section along line II-II of Fig.i.

Fig. 3 is a section along line III-III of Fig. I.

Fig.q. is a section along line IV-IV of Fig. i.

Fig. 5 and 6 are individual representations of a controller.

To the . The reciprocation of the gases is provided by the one attached to the rod 2 Bell i. The piston rod 2 is guided in bearings 3 and 4 and is operated by means of a handlebar 6, lever 5, push rod 7 and crank 8 moved up and down. The crank 8 is in turn driven by motor 9 by means of gearbox io.

The cylindrical part of bell i is closed by a water valve i i surrounded by a ring shape. This water seal represents the lower part of the cylindrical Container z2 which is closed by the roof 13 through which the rod 2 steps outside.

The total volume of gases in the cylindrical space passed through the Walls 12, roof 13 and foundation 14 is therefore formed by bell i in divided into two parts. The part of the gases that is below the bell is standing by train 15 with channel 16 and supply channels 17 and 18 in connection. The part the gases above the bell is through the closure tube 19 and the water-filled one Closure cup 20 via train 21 with channel 22 and supply channels 23 and 2, 4 in connection. When the bell is moved upwards as a result of being driven by the motor 9 the gases in the space above the bell through the closure tube i9 and train 21 is pressed down into the channel 22 and the supply channels 23 and 2.4, while at the same time about the same amount of gas out of the supply channels 17 and 18 and through channel 16 and train 1 5 is drawn into the space under the bell. The two supply channels 17 and 23 belong to the furnace 25 and stand with the storage rooms 26 and 27 in Connection, which in turn communicate with each other at 28, where the furnace Heat is supplied.

The heat for furnace 25 is first generated in combustion chamber 29, in which oil or gas or any heating medium together with air by burner 3o is introduced, and the hot gases become after complete combustion Point 28 directed. When bell i is moved back and forth as described earlier, the gases in the two chambers 26 and 27 are pushed up and down in such that the gases on the right-hand side move downward when the Gases on the left go up, and vice versa, always being move through point 28 where heat is applied to them while they are in one or in another direction, to distribute the gases moving back and forth are between the supply channels 17 to 23 and the gas storage spaces above 26, 27 corresponding devices are provided which consist of perforated vaults 32 exist, the perforations are so large that the distribution over the entire Length of the supply channels and storage spaces is as uniform as possible. So far the required evenness is not achieved by calculating the perforations in advance can be achieved, it can be adjusted subsequently that stones 33 are placed on the openings, whereby these are partially closed.

The volume of the gases in the spaces above and below the bell is sufficient to operate the largest number of ovens connected to the bell are, d. H. so two in the case shown. When one of the ovens, e.g. B. 25, looked up or is to be repaired, it is taken out of operation by the burner 30 is shut down and the sliders 35 and 36 are lowered. After that, will the stroke of the bell decreases, corresponding to the decrease in gas volume, which must now be moved back and forth after elimination of 25. This is because of this achieved that the length of the lever 5 on the right side of the pivot point 38 changed will. For this purpose there are a number of holes 39, 40,: 41 in the right arm of the Lever 5 provided. The connection Rod 7 is attached to that Hole connected, which gives the appropriate stroke for the reciprocating movement of the bell. Thus, unnecessary rocking and waste of energy are prevented and disruption of the Furnaces that have remained in operation. Of course, the stroke of the bell could also be in changed or discontinued in any other way.

For every cubic meter of fresh combustion gas that is in the combustion chambers 29 and ..12 has been generated, a corresponding volume of exhaust gases from the System can be left out. This is done through openings 44 and 45, which with the chimneys 4.6 and 47 are in connection. The latter have flaps 48 and .49, which in accordance with the reciprocation of bell t be controlled.

A disk 7o is attached to the shaft 38 and thus takes part in the oscillating movement of the shaft. Two semicircular bands 67 are wrapped around the disc 70 , which merge on one side into the lever arm 68, while they are bent on the other side and as protruding tabs 71 and; 2 are visible. These tabs 71 and 72 are pressed together by the spring 74 and the nut 75, so that the semicircular bands are pressed finitely with a moderate pressure on the washer 7o. The end of the lever arm 68 is connected by rod 78 to the two flaps .f8 and 49 (Fig. 6). This device causes the position of the flaps always at the beginning of each oscillating movement of the shaft 38 is changed. Each time the direction of rotation of shaft 38 is reversed, lever arm 68 is rotated immediately until the two flaps have been switched over, whereupon the further movement of lever arm 68 comes to a standstill and semicircular bands 67 begin to slide on disk 70.

Before the exhaust gases, which from the storage spaces 26 and 27 through the Introduction of new combustion gases at 28 to be displaced by the chimneys 46 and 47 get into the open air, their temperature is decreased, and that in them Most of the heat contained is recovered by the recuperator coils So and Si. These snakes lie in channels 16 and 22, in the vicinity of the bell. For example, air can flow through the coils, which is preheated in this way and then during the combustion of the fuel in the combustion chamber 29 (Fig. R) is used, or any other liquid or gas, e.g. B. i - ') 1, which is preheated in this way and later distilled or cracked in the retort or your still contained in oven 25a: the fresh ones Combustion gases are introduced at 28, that is at a point opposite the both points is where the storage spaces 26 and 27 connect with your room that is to be heated and contains the objects to be heated, or in other words, the objects to be heated are in one place between the storage spaces for gases moving back and forth on the one hand and the source for new hot gases on the other hand. The mixture of old and new gases, which is formed at 28, is thus directed through those spaces that are between 28 and the storage space to which the mixture moves, and this space is therefore filled with this mixture in your moment, if the stroke of the piston reaches its end. This space can therefore in a certain sense can be viewed as an extension of the memory space, with the effect that the storage space itself can be made smaller, and so can the capacity the bell may be decreased to move the gases back and forth. This downsizing the storage spaces and the facility to move to and fro is particular Importance in large heating facilities.

The task of the storage spaces 26, 27 in the furnace 25 and the storage spaces under the still retort in oven 25d, the mixing is as long as possible to delay the heating gases and exhaust gases entering these two furnace and the gas distribution ducts be moved back and forth. It is namely often, such as. B. also when cracking, the Case that the adjacent furnace operated at different temperatures. should be. Would z. B. the snake in the furnace z5 was washed with gases of 5oo ° and the retort in furnace 25a with gases at 600 ° C, the gases in the distribution channels would Assume (under oven 25a) a mixed temperature of 55o ° C, and mixed gases of such Temperature would penetrate the furnace 25a from below when moving back and forth come into contact with the retort. However, according to the invention, the furnace with Equipped with special storage spaces, the: Mixed gases can probably enter the storage spaces penetrate, but not as far as the retort or heating coil, because the reverse movement of the heating gases begins before the mixed gases reach the one to be heated Have reached objects.

The special arrangement of the bell in the drawings is of course just an example. Instead of a double-sided bell in one Room to move back and forth, which consists of the foundation 1q., The cylindrical wall 12 and the roof 13 and gas connections above and below the bell possesses, so that with one stroke both gas volumes, both the one above as well the one below the bell, to be influenced, it is apparently possible two To use bells, each with one-sided effect and each with only one throttle connection, which opens below the bell itself. The roof 13 and the upper part of the cylindrical Walls 12 are then superfluous when using two bells acting on one side, The two bells are then operated together so that the volume below one is enlarged while the volume below the other is reduced will, and vice versa.

It is also possible to have a single acting bell with just one To use the throttle cable connection below the bell. This connection then leads into one of the gas distribution channels, e.g. B. 16, while the other gas distribution channel 22 is directly connected to the chimney 4.6. That way the gas will go down and moved by the one-sided action of a single bell. In this In this case, the valve 48 in the chimney 46 can be omitted, whereby the chimney as a open outlet for the exhaust gases is used.

It is also natural that the shape of the bell and the water seal could be square instead of round. For example, it would be used to heat a long stove it would be best to have a long, rectangular bell next to the stove and parallel with it to set up and connect the stove to the bell by means of a number of pulls, which would be distributed along the length of both the oven and the bell.

Two large recuperators are provided in drawing i and 2, whose Capacity for the exhaust from all the furnace is sufficient with the common bell are connected and operated by it. It is evident, however, that instead of It would be possible for each to provide two large common recuperators the stove to set up a pair of smaller recuperators. These could e.g. Tie special supply ducts are set up, which belong to each furnace. the Application of the invention is in no way to the heating of certain objects limited. For example, oven 25 (Fig. I) shows a heating coil like her used in oil treatment plants, and 25a an oven with a retort or Muffle that can be used for a variety of purposes.

Claims (6)

PATENT CLAIMS: i. Heating device in which gases are used as heat carriers back and forth between a heat source and the rooms or bodies to be heated are moved, characterized in that serving to move the gases Flask liquid seal is applied. 2. Heating device according to claim i, characterized by the use of a diving bell as a piston. 3. Heating device according to claims i and 2, characterized in that the heating chamber is provided by heating flues both with the space below the bell and with the space above the bell connected is. q .. Heating device according to claim i, characterized in that the space above the bell is connected to the associated heating flue by a through the bell down channel with liquid seal. 5. Heating device according to claim i, characterized in that the delivery rate the device for reciprocating the gaseous heat carrier made controllable is. 6. Heating device according to claim i and 5, characterized in that the hub of the gas pump piston is made changeable. Heating device according to claim i, characterized characterized in that heat recovery devices are used to protect the sealing liquid on the piston are housed in such channels that they the gas quantities migrating to the piston cool. B. heating device according to claim i and 7, characterized in that the Heat recovery facilities, in close proximity to the piston and as far from the heating chambers that they face the hottest part of the back and forth moving gases do not come into contact.