DE51740C - Method and device for using motive power to generate cold - Google Patents

Description

IMPERIAL

PATENT OFFICE.

When compressed air is used to produce cold, it is used in such a way that simply opens a shut-off device, ■ to let the air flow out to where a low one Temperature is to be achieved, this is very simple, but also very expensive, since there is a great loss of work connected with the discharge of the compressed air.

The air flowing out of the cylinders of the engines driven by compressed air Using it for cooling is economical, but not possible everywhere, because in addition there are special devices for generating motive force and those for generating it required by cold.

The present invention relates to a method and devices intended to do so are to use motive power for cooling without any special installation of apparatus.

The procedure consists in the compressed air taken from a main line first of all, in the cylinder of a machine, it serves as the driving force, so that the machine takes the air then let it flow out into a cooling container, and that. then the air through the same machine is sucked in again to be compressed again and returned to the main line for further use. Not the air from the open air, as with known methods, but that from the The cooling tank itself is converted back into compressed air by the machine's compressor.

The drawing shows as an example in Fig. 1 a. A schematic representation of the device, in Fig. ι the machine in vertical longitudinal section and in side view, in Fig. 2 in Basic outline and section, in Fig. 3 in vertical cross section along line 1 - 2 and in Fig. 4 in partial cross-section along line 3-4, Fig. 2.

The compressed air, which is admitted from the main line L, Fig. 1 a, by means of the inlet slide d, Fig. 2, into the drive cylinder α of the machine, first gives off driving force to the shaft r, which is provided with one or more flywheels, and compressed in a second cylinder b, the cold air which of these Cylinder n from the cooling vessel B through the valve, Fig. 2, and with the cooling tank B communicirende pipe m suctions while in said cylinder expandirte air α by Auslafsschieber e and the pipe I flows out into the cooling tank B. On the opposing piston / ″ through a small tube g, Fig. 3, which is branched off at the bottom of the cylinder α , air is passed for the purpose of keeping the slide e in contact with its mirror. The confluence of the tube g is arranged so that that when the outlet slide e begins to move, the piston f is relieved. The two slides d and e are driven by means of small cylinders h and i controlled by the piston j and k of the drive shaft r.

The air sucked from the cooling container B into the cylinder b of the compressor and compressed in it flows through the valve ο and the pipe ρ, FIGS. 1 and 4, back into the main line L. By sucking in the air from the cooling tank B , the compressor also contributes to the temperature

to be further reduced in the cooling container. Except for leaks, the in Using standing air nothing is lost, because this makes a complete circle process through: from the main line through the engine, through the cooling tank and through the compressor and back into the main line.

The purpose of the cylinder c communicating with the compression cylinder b , FIGS. 2 and 4, is to have a balancing effect in such a way that the harmful space behind the piston of the compression cylinder b is increased or decreased by setting the piston in c higher or lower .

With this arrangement the compressed air is not only fully used, but it is also restored to a usable state by means of a new compression transferred and delivered into the main line after having a double effect exercised by serving as a driving force and a means of generating cold.

The cooling container B is double-walled, Fig. 5 to 7. The cold compressed air circulates in this container, as the arrows in Fig. 6 indicate, and completely surrounds the cooling chambers C. The effect of the cold air when flowing around the cooling chambers can be seen by choosing the chamber walls to be corrugated, zigzag, etc., thereby increasing the area of contact for the air. The air in the cooling chambers can be renewed by opening valves F.

Claims (2)

Patent claims: ι. A method of operating a machine with compressed air, consisting in that the compressed air taken from a main line (L) is first given off driving force into a driving cylinder (a) of the machine and, after the work is done, is blown out into a cooling container (B) , from which a second cylinder (b) of the machine sucks in the air again, then compresses it again and lets it flow back into the main line L for further use. 2. To use the method mentioned under 1. a machine provided with a drive cylinder (a) and a compression cylinder (b) , characterized by: a) the arrangement of an opposing piston (f) which maintains the starter slide (e) against its mirror and whose cylinder communicates with the drive cylinder through tube (g) in such a way that the opposing piston (f) is relieved when the outlet slide e begins to move; b) the arrangement of a cylinder (c) with an adjustable piston on the compression cylinder (b) in order to enable the volume of the harmful space in the compression cylinder to be regulated. For this purpose 2 sheets of drawings.