DE449377C - Sea mine depth adjuster - Google Patents

Description

Sea mine depth adjuster. The most common depth setting devices for sea mines are set up in such a way that the setting is on a previously established one Water depth takes place through the interaction of spring and water pressure. An Indian Usually air-filled pressure chamber has an opening that is like a valve Plate, the so-called depth plate, is closed. They act in the opposite direction Meaning a spring and the pressure of the water column standing on the plate, its cross-section corresponds to the area of the pressure chamber opening framed or limited by the valve seat, and the pressure of which depends on the depth of the water in which the respective depth, plate is located. The spring is dimensioned and adjusted so that the emanating from it Pressure exceeds that of the water column as soon as the desired water depth is reached is. Then it rises the depth plate, clearing the opening, of from their seat and moves some device through which the detection the mine takes place.

The spring acting on the depth plate is, as already noted, generally adjustable, however, the spring pressure can only be relatively small amounts can be changed. A depth adjuster that comes with a specific spring is therefore only suitable for certain water depths. Should the mine be in significantly different depths can be set, so you have to go through the spring replace another spring with a correspondingly stronger or weaker dimension, and the new spring must then be set again for itself, which is only possible with certainty Attempts can be done. But this creates quite a lot of inconvenience in the company.

The invention avoids this disadvantage in that devices are taken, by virtue of which the area framed by the valve seat of the depth plate can be changed. It therefore changes the pressure area created by the water column is loaded, and the spring overcoming a certain pressure is maintained, while in the known devices the cross section of the effective water column always remains the same and the compressive force of the spring is changed, what, how noted above, for strongly changing water depths only by using a new one appropriately sized spring can be done. The facilities for changing the. Cross-section of the opening closed by the depth plate or the effective one However, the water column can be designed in such a way that readjustment is far easier is to be accomplished than the installation and adjustment of a new spring, so that the invention brings about very significant advantages in the company.

For the facilities for changing that cross-section result different embodiments. Two of these that prove to be particularly useful . have shown are in the accompanying drawings in the longitudinal section of a Depth adjuster shown, which is provided with such a device. Fig. i and 2 show the one, fig. 3 and q. the other embodiment, wherein; Fig.i -un; d 3 the depth adjuster for setting the mine in shallower water depths, Fig. 2 and ¢ show it for setting in greater water depth.

The pressure chamber io (section i and 2) is provided with the opening ii, which is covered by the depth plate 12. The water pressure acts on this and finds access in the upper part 13 of the housing through openings i [. The water pressure counteracts the spring 1 5, the Wi; derlager 1 6 can be adjusted by a handwheel 17 from. As mentioned at the beginning, this allows the pressure of the spring to be regulated in certain limiters. However, these limits are so narrow that only slight differences in the setting depth can be achieved as a result. The depth plate 12 has a shaft; 8, which is guided in the cover i9 of the upper housing part 13. A lever 2 i, which is mounted on an arm 22 on the housing 10 and, in the position shown, depresses a plunger 23 under spring pressure, engages in a bore 2o of this shaft. Before the mine is thrown, one is screwed down. Bolt 24, the depth plate 12 is applied to its seat 25 (section i) in the upper end of the housing so 'that the parts are in the position shown in Fig. I. After sinking the mine, the bolt 2 ¢ with accessories is removed in a known manner, and the depth plate 12 is now held under the action of the water pressure against the pressure of the spring 15 on its seat until the mine has risen to a water depth in which the pressure of the spring exceeds that of the water column. At the moment when this occurs, the depth plate is lifted from its seat, the lever 2 i lifts off the plunger 23 , and this moves under the pressure of the spring acting on it, which in some known way is locking of the mine at the height reached at that moment.

As stated, one must now replace the spring 1 5 with a different sized spring in the previously known depth adjusters of this type if the mine is not to be found in, for example, 6 or 8 m water depth, but in, for example, 20 or 30 m, and thereby arise numerous inconveniences. These are avoided in the embodiment of Figs. I and 2 in that the depth plate 12 of Fig. I can be exchanged for the smaller depth plate 12 'of Fig Seat 25 for the depth plate 12 is equipped, but also with a second seat 25 'for the smaller depth plate i2'. The water column that rests on the larger depth plate 12 corresponds to that area which is framed by the associated valve seat 25, that is to say an area with the diameter D (section i). The water column bearing on the smaller depth plate 12 ', on the other hand, corresponds to the smaller area of diameter D' framed by the associated valve seat 25 '. The pressure of this water column is therefore, corresponding to the smaller cross section, smaller than that caused by the water column bearing on the depth plate 12, and since the pressure of the spring 15 is the same in both cases, the smaller depth plate becomes when the mine rises 12 'far earlier from its seat abuehobon and thus causes the mine to be fixed than with the larger depth plate 12. To adjust the mine for a greater water depth, one only needs to replace the depth plate 12 with the depth plate 12', which is easily possible , if you unscrew the cover i9 after removing the lever 21.

If z. B. the cross section of the valve seat 25 'to that of the Seat 25 is in the ratio of i: 5, so would for any adjustment depth at Use of the small depth plate of the counter spring to overcome only 1j5 of the pressure that it would have to overcome if the larger depth plate were to be used. If, for example, there were a pressure of 100 kg on the large depth plate 12, so the small plate 12 'would only be loaded with 20 kg of pressure, from which it can be seen that that the same spring tension when applying the small plate at a five times greater depth overcomes the pressure of the weight of the water column than with the large plate, i.e. at five times greater depth, already causes the mine to be determined.

In the embodiment of Figures 3 and 4, it is not the depth plate, which is replaced, but the housing io, which for this purpose is attached to the flange 26 is releasably connected to the upper housing part i3. The depth plate i2 is now Equipped with two seats 27 and 27 ', the seat 27 fits on an opposing seat 28 the pressure chamber io (Fig. 3) and the seat 27 'on an opposing seat 28' of the pressure chamber i o '(Fig.q.). According to this, in the case of Fig. 3, a water column weighs on the depth plate with a cross-section corresponding to the seat diameter D, and in the case of Fig. 4. the seat diameter 1? '.

As noted above, there are other solutions to the task as well conceivable to change the cross section of the valve seat. For example, the Walls of the compensation opening slidable and adjustable plates are used that can be pushed towards the center of the openings. The opening leaves thereby open up or expand at will. You could use the pressure chamber opening to expand conically to the outside and depth plates of different diameters optionally that find their seat more or less deep in this conical opening, and more.

The task can also be solved in such a way that the valve seats of different sizes not, as in the drawn embodiments, lie concentrically inside one another, Instead, you could also have several openings with differently sized seats arrange them next to each other, each with the corresponding depth plate, but one of them those depth plates are invariably determined and the associated Keep openings that are not to be taken into consideration permanently closed. Here but again several springs are necessary, albeit equally sized, or devices to bring one and the same spring to effect on the different depth plates.

In the illustrated embodiments, the return spring is located in the pressure chamber. This is by no means necessary, the return spring can also be used as a Tension spring formed and arranged outside the pressure chamber.

Claims (3)

PÄTRNTAl @ TSPRÜcHR: i. Seeminen-Tiefensxeller with depth plate and Counter spring, characterized in that the effective area of the depth plate in its size is variable. 2. Depth adjuster according to claim i, characterized in that that the pressure chamber has several valve seats of different sizes of cross-section which can optionally be adjusted to one of the desired depths, with a depth plate is provided and put into use while the others are locked. 3. Depth adjuster according to claim i, characterized in that the pressure chamber has several Nesting valve seats with a set of interchangeable matching ones Has depth plates (Fig. I and 2). ¢. Tiefens.teller according to claim i, characterized in that that the depth plate has several nested valve seats, which the opposing seat of the exchangeable pressure housing is optionally adapted (Fig. 3 and 4).