DE555816C - Electromagnetically driven compressor, especially for cooling systems - Google Patents

Description

There are compressors with electromagnetic drive whose cylinders are made up of solenoids is enclosed and its piston back and forth as an anchor in the magnetic force fields is moved and compresses the coolant. As a rule, however, such pumps cannot deliver the required Compress pressures.

The invention overcomes this disadvantage in that it has the armature opposite the cylinder allowed to increase significantly, so that the magnetic force field is large enough to be required for the compression To generate pressure. According to the invention, the compressor cylinder in the movable Arranged armature and moved back and forth with it, while the piston is immobile. The anchor can be single or double acting be. In the latter case, those arranged in the anchor can optionally Cylinders of different sizes and connected by pipes or ducts, so that the compressor works as a two-stage or multi-stage compressor. Is expedient It is also the case with such electromagnetically driven compressors, the drive solenoids individually or collectively to replace by groups of solenoids to the Number of strokes or the stroke length of the armature or both by optionally switching on and off of changing solenoids. An electric pendulum can be used to reverse the armature.

The drawing shows as exemplary embodiments of the invention in '

Fig. Ι a vertical longitudinal section through a compressor with electromagnetic Drive,

Fig. 2 shows a cross section along line H-II of Fig. 1,

Fig. 3 shows a switching device for reversing the solenoid circuits and in

Fig. 4 shows another switching device for the solenoids that is independent of the solenoid armature.

The cylinder r is surrounded by two solenoids 2 and 3. An anchor 4 is movable in it, which has a cylindrical bore at each end, into which one on the cylinder cover 33 fixed tube 6 protrudes. The bores 5 serve as the actual ones Pump cylinders, tubes 6 as pistons. The bores 5 each have a valve on the bottom 7 to open and close a channel 8, which the associated bore 5 with a connects to it parallel channel 9. The cylinder ι has an inlet line 10. The lines 11 of the two hollow pistons 6 lead to the condenser of the cooling system. The anchor 4 is not close to the cylinder 1, the two pistons 6, however, seal against their Cylinders 5 in the anchor.

With alternating closing and opening of the circuits for solenoids 2 and 3 the armature 4 moves back and forth in the cylinder 1. To switch the circuits

the arrangement shown in Fig. 3 is used: Located at one end of the cylinder 1 a tubular extension 12 made of dimagnetic material. One slides in it on the armature 4 attached rod 13, which is also made of dimagnetic material is and carries an iron block 14, which during the "reciprocating movement of the Armature 4 in the tube 12 waridert back and forth. Outside the tube 12, a pendulum 15 is attached to a solenoid 16, the the tube 12 encloses.

The circuit includes a line 17 which is connected to a terminal 18 and from which a flexible line 19 branches off leading to the solenoid 16. Another compliant conduit 20 connects that Solenoid with a terminal 21. The solenoid 16 is therefore always energized and therefore follows the ao movement of the block 14.

The two solenoids 2 and 3 are connected to line 17 by lines 22 and 23 and through lines 24 and 25 with a toggle contact 26, which is on the pendulum 15 is arranged. The toggle contact 26 alternately connects depending on its position Line 27 leading to terminal 21 with lines 24 or 25.

Assume that between the toggle contact 26 and the line 25 is a contact is closed, the solenoid 3 is energized and the armature 4 is moved to the right in Fig. 3. The block 14 is pushed to the outer end of the tube 12; walks with him also the solenoid 16 and the pendulum 15 after right, so that the toggle contact is separated from line 25 and connected to line 24 will. As a result, the solenoid 2 is now excited, so that the armature again wanders to the left. In this way, the anchor is automatically moved back and forth, with him also the cylinder 5, so that the two pistons 6 alternately the coolant through Pump out the lines 11 by using them in the usual way as single-acting suction and Pressure pumps are working.

In Fig. 4 a modified embodiment for the switching device is shown, in which the movement of the current switch is independent of that of the armature. here The tube 12 and block 14 are eliminated and the solenoid 16 acts with an armature 28 together, who sits on the toggle contact 26 and communicates with him and the. Pendulum around the Pin 29 rotates. If the toggle contact is in the position shown in Fig. 4, so is the circuit via line 19, solenoid 16, line 20, the contact and the line 27 closed. This energizes the solenoid 3 and the armature 4 pulled to the right. At the same time, however, the contact 30 is in the same way as in one electric bell interrupted, and the circuit is now over the other Solenoid closed as the pendulum swings back.

The solenoids 2 and 3 (Fig. 1, 2) are surrounded by a cage made of iron bars 31, the closed magnetic fields between a central flange 32 and the two cylinder covers 33 produce so that the magnetic force field is always strong enough to produce the required To 'generate pressure.

Claims (4)

Patent claims: 1. Electromagnetically driven compressor, especially for refrigeration systems, characterized in that the armature reciprocated by the solenoids the compressor cylinder contains and at fixed, in the compressor cylinder reaching into the cattail is geführf. 2. Compressor according to claim 1, characterized in that the armature of an electric pendulum mounted outside the compressor is controlled, which interacts magnetically with the armature or works independently of him. 3. Compressor according to claim 1 or 2 with a double-acting armature, characterized in that that the two cylinders are of different sizes and are connected by pipes or channels in such a way that the Kornpressor works as a two-stage or multi-stage compressor. 4. Compressor driven electromagnetically by means of solenoids, thereby characterized in that independent groups of solenoids are arranged on the jacket of the compressor cylinder, the to change the Habzahl and / or the stroke length are optionally excited. 1 sheet of drawings