DE348532C - Compression refrigeration machine - Google Patents

Description

Compression calender. The invention relates to a compression device for gases in which more than two pressure effects are used; The invention is especially intended for refrigeration machines in which carbonic acid, ammonia or such a body as a refrigerant for use and multiple effects is used by putting gas of different pressure levels in the compression cylinder is introduced, allowing the gas entering under the highest voltage is that it brings the mixture to the highest tension before the compression stroke.

In such devices, the liquid refrigerant comes from a condenser through an expansion valve or halin to a container, where it partially evaporates, whereby the non-evaporating cold liquid is cooled. That of the liquid separated gas then escapes from the top of the container after the compressor; the liquid on the other hand falls to the bottom and lets through a second expansion valve or a -haha in a vaporizer.

According to the invention, the two expansion valves or cocks are now arranged so that they can be adjusted simultaneously in one manipulation.

In one embodiment of the invention, the two parallel Valves connected to a set screw either directly or by lever. The pivot of one lever can be adjusted so that the C) opening width of the two valves changes to each other.

The valve seats can also be set up variably so that the valve openings can be changed independently of the adjusting screw. can.

According to a modified arrangement, both valves are on a common spindle attached and threaded from one side of the spindle or more appropriately adjusted by a differential thread on the spindle; through which a more sensitive setting is enabled.

The valve spindle and the valve seats are expedient of themselves hardened steel made so that they are subject to wear and tear due to the high speed are not attacked by the refrigerant passing through.

It is useful to have a partition plate between the two valve seats to arrange to the gases flowing after the compressor one direction upwards to give and to separate gas and liquid.

In the accompanying drawing are two embodiments of the invention brought to the display.

Fig. I is a schematic cross-sectional view one by one Effect based apparatus.

Fig. 2 is the section of an apparatus with two parallel to each other Valves, and Fig. 3 shows in section a device with two on one common Spindle seated valves.

In Fig. I, A is the compressor, which is connected to the condenser C. and R is connected to the condenser C and the evaporator E. Container. The passage of the refrigerant is moving through two at the same time set valves Y controlled, one of which is used to partially evaporate the refrigerant, that comes from the condenser C, in the container R, the other to complete Evaporation of the unevaporated flowing from the container R to the evaporator E. The refrigerant is used. The container R and the evaporator E are at the same time with the Compressor connected as shown.

The invention relates to the design of the valves Y after in the Fig. 2 and 3 drawn art.

According to Fig. 2, a valve a is held on its seat b by a lever c which is rotatable at d; a second valve e parallel to valve a is held on its seat f by a lever g rotatable at h to which valve e is connected at j. The movement of these two valves is brought about by a set screw k, which presses on the lever g, whereby both valves can be adjusted equally. The pivot d of the lever e is carried by a screw-> spindle l, through which this pivot d can be moved so that the valves a and e can open accordingly. From the condensation device C cold liquid enters through the channel m and the valve a into the container R, from which the partially evaporating refrigerant escapes through the vent o into the compressor A, while the non-evaporated cold liquid through the valve e to the outflow channel P and from there into the evaporator E. The valve seats b and f are supported by bolts q and y so that the valve openings can be adjusted independently of one another.

According to Fig. 3, the valves a and e provided with seats c and d are mounted on a screw spindle k, which is movable by means of its thread f in the nut thread g of a bolt h; the bolt h has an external thread j which is movable in a nut thread s. The threads f and g have a smaller pitch than the threads j and s. The spindle k is prevented from rotating by a pin l engaging in it. The cold liquid flows in from the condenser C through the channel m and flows through the valve a into the container R and the gas that forms flows into the compressor A at n , while the non-evaporated liquid flows through the valve e into the flue leading to the evaporator E. o flows. A partition P is erected between the valve seats c and d, which gives the withdrawing gases the direction upwards and ensures the discharge of the liquid through the valve h.

Claims (3)

PATENT ATTRACTIONS: i. Compression refrigeration machine, in which the from one Condenser cold liquid flowing through an expansion valve in a container partially evaporated, whereby a cooling of the non-evaporated refrigerant is achieved which is then discharged from the container through a second expansion valve after the evaporator flows, characterized in that both expansion valves (a, e) simultaneously are adjustable with one handling. 2. Compression refrigeration machine according to claim i, characterized in that the two expansion valves (a, e) are parallel to one another are arranged and regulated by a single adjusting screw (k). 3. Compression refrigeration machine according to claim i, characterized in that 'the two expansion valves (a, e) are arranged on one and the same back and forth movable spindle (k).