DE179218C - - Google Patents

Description

PATENT OFFICE

At brickworks in colder areas you can, if you have regard to drying relies on drying the raw stone exclusively in the open air, none

. 5 operating period longer than 100 to 150 days - depending on the more northerly or southerly location of the brickworks ■ - reach. This short one Operating period indicates too many inconveniences

. let, i.a. especially on insecure working relationships and difficult interest on investment costs, in that the entire system earns interest and pays for itself only through the work during the relatively short operating period must become.

This disadvantage is based exclusively on the question of drying, because the weather and Temperature is no problem for most of the brickworks in terms of the rest of the operation in the way of expanding operations.

The use of waste heat from the ring oven has been known for many years and - if used correctly - causes excellent drying, but is not sufficient for autumn and winter. Attempts were then made to use the steam from the steam engine. A very important drawback here, however, is that the exhaust steam is generally not available at night, i.e. precisely when it is most needed when the temperature of the air is falling. . This drawback in the application of exhaust steam is BEZW by the present invention using the heat collector already proposed for heating systems. large heat-insulated water tank eliminated. It is characteristic of the invention that this heat collector is continuously switched between the heating source (steam engine) and the radiators. The heat collector is placed as close as possible to the machine and connected to the same by a pipeline which is provided with one or more injectors switched on, by means of which the water is heated by the exhaust steam in such a way that the colder water from the bottom of the container is sucked into the injectors, where the same is compressed while simultaneously heating the steam and then fed up into the container. This cycle is continuously maintained as long as the machine works until the water has reached the desired maximum temperature determined. The connection between the tank and the radiators is made by a pipe that carries the warm water from the top. Part of the tank after the heating elements, and a return pipe that returns the cooled water from the same to the lowest part of the tank, so that in connection with the radiators and the tank a complete circuit is created, the driving force of which is the weight difference between the warm and the cooled water. is. ¹ The invention and the whole process is best illustrated by the following example:

The exhaust steam of a high-pressure steam engine with ten hours of daily working time contains on the whole z. B. three million calo-

rien. These three million calories are supposed to be released evenly within 24 hours. So the amount of water in the container with the ascertained daily increase in temperature, which ^{can be determined to about 30 0} (the minimum temperature 70 ° and the maximum temperature 100 °), with the mentioned temperature increase of 30 ^{0 1} Va * ^of three million calories or a total of Accumulate about ι 750,000 calories, while the remaining heat - 1,250 oco calories - is not accumulated, but is given off during the working hours of the machine.

When the steam engine is started in the morning, the water in the container has respectively. The minimum temperature for the heat collector is 70 ⁰ . The circulation through the radiators is continuous. The exhaust steam from the machine now begins to heat the water, but of the emitted heat of the water is always _^10/24, consumed in the heating elements while the remainder, ¹ V _24, the temperature of the water increases.

Since the entire amount of water is just large enough that it is heated from ¹ Y ₂₄ around the heat emitted on ioo °, then one has the evening when the engine is turned off after a ten-hour work, bringing the water to the latter temperature. The warm water is then circulated through the night the radiators, so that the same every hour Y gives ₁₄ of the accumulated heat, and the next morning when the machine is started again, the water temperature has dropped to 70 ^0, whereupon a new heating takes place, etc.

Of course, the water is at the

Maximum temperature of 100 ° circulate faster through the radiators than with the lower ones Temperatures, so that the amount of heat given off does not remain exactly the same during each unit of time. In practice it plays • However, this difference does not matter, it can also be due to this, if desired be completely overridden by arranging a valve, which throttled slightly will open when the water is warmest and fully open when the same is on coldest, whereby the circulation in the former case can be inhibited as needed can.

The invention is illustrated in the accompanying drawing.

α is the steam engine, b the Abdampfroh.r and e the heat collector, which must be well insulated and protected against heat loss. The exhaust steam flows through an oil cleaning device f and a mixing valve g after one or two jet devices or injectors h and h ¹ . If necessary, the mixing valve g can be used to exit the boiler. fresh steam can be supplied. Because the steam flows through the jet device h or at the same time through the jet device h ¹ , the water is sucked from the lower part of the container e through the line k and flows through the jet devices, whereby the same is heated. Through the tubes / and I ¹ it is introduced into the container, in the uppermost part of which it is appropriately distributed, e.g. B. by several branch tubes. This circulation system (the small circulation pipe) gradually stores the waste heat in the container. ■

From the upper part of the tank the water is directed through the pipe m to the radiators, p and returns through the pipe η to the lower part of the tank (the large circulation system). With a suitable measurement of the speed of the water through the pipes and the heating surfaces of the same, the temperature at which the water flows back into the container can be regulated so that the difference in specific gravity of the warm and cold water gives sufficient driving force to reduce the To maintain circulation of the water in the lines m and «. The circulation may g ₀ but if desired, o by using a pump. Like. Accelerated.

An overflow pipe 0 drains the oil that may still collect on the surface and also regulates the water level.

The container e can also be connected to the feed line of the channel by a suitable line, which is not shown in the drawing.

Claims (1)

Patent claim: Device for heating the drying system of brickworks and the like Evaporation of the steam engine BEZW using a heat collector. a large thermally insulated water tank, characterized in that this water collector is continuously switched between the heating source and the radiators is. 1 sheet of drawings.