DE1775719B1 - SOLENOID VALVE, IN PARTICULAR FOR GASES - Google Patents

Description

can be kept short. In addition to the anchor, you need the two springs and a stationary stop only one moving part, namely the head with the pen. It's very simple Way ensured that the high bias of the spring effective in the second stroke section while Tearing off the armature from the magnetic plug is available, but otherwise the armature movement unaffected.

It is also advantageous if the spring in the first bore part has a steeper characteristic than the spring in the second bore part. This enables the spring characteristic to be adapted to the steeper one Achieved characteristic curve of the magnetic force and thereby brought about a further improvement.

The invention is described below using an exemplary embodiment shown in the drawing explained in more detail. It shows

1 shows a longitudinal section through a solenoid valve according to the invention and

F i g. 2 in a diagram in which the force P is plotted against the stroke h , the characteristics of the magnet system and the return spring.

The solenoid valve essentially consists of a valve housing 1 and a solenoid attachment 2. The valve housing has inlet and outlet nozzles 3, a valve seat 4, and an annular space surrounding this 5 and connecting bores 6 and 7. The closure body 8 is located on the end face an anchor 9 and is secured there between an end plate 10 and a flange Ring 11 held. The armature is guided in an armature tube 12, which is at the top through a magnetic plug 13 is complete. The arrangement is carried out by a magnetic coil 14 on a bobbin 15 surround. A protective cap 16 is held in place by a screw 17. For more details of the solenoid valve, provided they correspond to the usual, will not be discussed in more detail. Inside the Armature is a longitudinal bore 18, which consists of a part 19 of smaller diameter and a Part 20 of larger diameter consists. In part 19 there is a helical spring 21 with a lower spring force, in part 20 a coil spring 22 of greater spring force. At the top is in the bore part 19 a sleeve 23 is inserted, which is supported on the magnetic plug 13. She carries a pin 24 that comes with his head 25 rests against a shoulder 26 at the transition point between the bobbin parts 19 and 20. the weaker spring 21 is thus supported on the one hand on the sleeve 23 and on the other hand on the head 25, the Spring 22 is supported on the one hand on head 25 and on the other hand on end plate 10.

The mode of operation can best be described in conjunction with FIG. 2 explain. F i g. In a force-stroke diagram , FIG. 2 shows a curve A which corresponds to the attraction characteristics of the magnet system. The spring characteristic has the course of the curve sections B, C and D, the dashed line corresponding to the spring 21 and the dash-dotted line to the spring 22.

If the electromagnet is excited and the armature 9 is attracted, only the spring 21 is initially compressed (curve B) until the pin 24 comes to rest on the magnet plug 13 and the spring 21 is mechanically bridged as a result. With the further movement of the armature, the spring 22 is now compressed. However, the preload of this spring must first be overcome (curve C). The spring 22 is then compressed (curve D) until a very high spring force value is finally reached. As a result, the armature can be torn off the magnet plug 13 with certainty when the electromagnet is de-energized.

F i g. 2 clearly shows that there is always sufficient magnetic force to tension the spring Is available because the spring characteristic of the magnet system characteristic is adapted and the The spring force is less than the magnetic force at every point of the stroke.

1 sheet of drawings

Claims (2)

1 2 is arranged. This is intended to give the attracted armature a slight inclination and prevent the armature from sticking to the magnetic plug. From- 1. Solenoid valve, especially for gases, with the laying of this spring and the inclination of the Aneinem Armature, which is only on the magnetic core, but in practice encounters difficulties, stopper facing away from the end of a closure piece There are also known solenoid valves that on carries and a locking piece from a two-part rear side of the anchor at the most Holfeder is loaded, thus marked. In a known construction, this is am net that the armature (9) in a known magnetic plug facing closure piece moving-way a longitudinal bore (18) with a shoulder io borrowed arranged in the anchor and through an additional (26) and the first bore part (20) spring, which is coaxial in extension of the return larger Diameter and the second bore spring is arranged, supported. The power of this allotment (19) With a smaller diameter, one helical set spring is to be closed over the end section of the stroke (21, 22) record that the first drill is effective in addition to the return spring. With another tion part from the closure piece (8) is limited and 15 construction of this type, in which both closure im The area of the shoulder where the spring separating pieces are held movably in the armature are insden Head (25) has that the second bore a total of three arranged concentrically to one another part of a pen connected to the head uses feathers, part alone, part common (24) is axially penetrated, which act in a sleeve (23) and whose common characteristic curve guides the Mage which is adapted to the magnet force curve on the magnetic plug (13). These valves have supports and slidable in the second bore but a complicated structure, part engages, and that the bias of the spring The invention is based on the object a in the first bore part is larger than the clamping solenoid valve of the type described above the spring in the second bore part in the admit that has a simple, symmetrical structure The moment when the pin is on the magnetic stop 25 and it is ensured that also with starred comes to the plant. kern magnet system a safe return of the 2. Solenoid valve according to claim 1, characterized by armature under the influence of the return spring, indicates that the spring (22) in the first Boh- whereby the desired characteristic curve within narrow Torungteil (20) has a steeper characteristic than tolerances should be maintained. the spring (21) in the second bore part (19). According to the invention, this object is thereby achieved solves that the anchor in a known manner has a longitudinal bore with a shoulder and the first bore part of larger diameter and the the second hole part of the smaller diameter each receive a coil spring so that the first hole The invention relates to a solenoid valve, part of which is limited by the closure piece and in the area especially for gases, with an anchor, the shoulder a head separating the springs on the shoulder on the end facing away from the magnetic plug has that the second bore part of one with carries a closure piece and is axially penetrated by a pin connected at most to the head, the two-part return spring is loaded. 4 ° is guided in a sleeve, which is located on the magnetic plug Solenoid valves in which the armature is not supported and slidable in the second bore hole Gravity drops when the electromagnet partially engages, and that the bias of the spring in the is excited, usually have a coil spring, the first bore part is greater than the tension of the which extends partly inside the armature and the spring in the second hole part at the moment on a 45 closing the armature tube on one side when the pin is in contact with the magnetic plug Magnetic plug supported. The interpretation of this return comes. Holspring usually does not cause any difficulties- With this construction, a structure is guaranteed, if only small forces are to be overcome, which is symmetrical to the axis performs. The in dir. B. leave the remanent force of the magnet system and / or extension of springs arranged to one another the weight of the anchor. 50 comfortably accommodate in the anchor without this Difficulties arise, however, when a large space is required, which is particularly the case with Armature return larger forces to overcome small solenoid valves for household appliances from vorind. This is particularly the case with valves for gases which is part. In each end position there is only one partial case, which contain sticky ingredients that are effective in the exact conditions in the spring on the end face between armature and magnet stop 55 can be adapted to the corresponding end position, Fen store and to a proper sticking For example, in the closed position of the anchor. Here the force of the normally active spring can be interpreted so weak that disengaged return spring is not disengaged. If you use the anchor in any case, even with sticky Verjedoch a return spring of so great strength that the final piece is tightened. Conversely, the They tear off the armature under all circumstances, and the spring is only effective in the other end position May be, the magnetic force of the usual magnet is strong enough to be an absystem without further ado does not stop the armature from breaking; it causes the armature to tear from the magnetic plug. she position to pull out. but does not disturb the rest of the lifting movements A solenoid valve is known in which the addition, since it is only effective over part of the stroke, lent to a return spring, which is otherwise locked in the area of the locking 65. Tolerances that are Final piece on the opposite of the magnetic plug with the otherwise usual superposition of several rim ends Attacking the side on which the magnetic plug results are switched off, facing end face eccentrically an additional spring The construction is extremely simple. The anchor