DE242476C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 242476 CLASS 13 δ. GROUP

ROBERT COOKE SAYER in BRISTOL, Engl.

Hollow body.

Patented in the German Empire on June 9, 1910.

The invention relates to a feed regulator for steam boilers and other liquid containers with a filling or emptying and through according to the liquid level its movement resulting from the change in weight regulates the feed. The previously known arrangements of this type with an inside or outside the Boilers have moving hollow bodies

ίο the disadvantage that the impurities of the Water or soot and other dirt move on the hollow body and that moved by it Fix parts of the control system and thus complicate or completely disrupt operation.

In those devices, the hollow body must also be made relatively large, to even with a slight change in fluid and despite the greater resistance of the Linkage to regulate the feed.

According to the present invention, these inconveniences are eliminated in that the corresponding the liquid level moving up and down hollow bodies and those directly from it moving control parts of the boiler supply in a special housing inside or outside the boiler is enclosed airtight, so that it is thereby the influences removed from impurities and accordingly more sensitive and therefore more efficient is, especially if the housing enclosing the hollow body is more or less vented.

In the drawing, the invention is illustrated in two exemplary embodiments, namely FIG. 1 shows a system with a feed controlled by the moving hollow body by means of an electric current. FIG. 2 shows a section along AA of FIG. 1 on a particularly large scale. Furthermore, FIG. 3 shows an enlarged vertical section through the moving hollow body with its housing and the connected parts, and FIGS. 4 and 5 show a vertical section according to CC and a horizontal section according to BB of FIG.

Fig. 6 shows another embodiment with the hollow body moved directly Feed control.

In the exemplary embodiment shown in FIGS. 1 to 5, the boiler d is fed with water from the feed pump α through the pipe c when the through valve e in the pipe c is open. The electrical control device shown in the right-hand part of FIGS. 1 and 2 is used to set the valve e , and the latter is switched on and off by the device shown in the left-hand half of FIG. 1 and in FIGS. 3 to 5 which essentially consists of the following parts:

A cardanic suspension d ^{7 is} attached to the boiler wall d by means of the struts d ⁸ , the inner joint ring of which holds a tube d ⁵ that is open on both sides. A housing d ^{2 is} attached to the side of the pipe d ⁵ above and below the joint on the pipe, which encloses the hollow body regulating the feed control,

and a counterweight d ^6, which can be seen in FIGS. 3 and 5, is expediently attached beyond this housing on the other side of the tube d ^5. In the housing d " ¹ there is a spider d ¹⁰ with a ring encompassing the hollow body d ³ , and a helical spring d ^{s is} arranged between the ring and the top cap of the hollow body, so that the hollow body is in equilibrium between the spring force and its own The interior of the boiler d is now connected to the interior of the hollow body d ³ in that an extremely flexible tube ίί ⁴ extends from the interior of the tube d ^{5 below the cardanic suspension} housing d ² penetrates and after a sufficiently large for the suspension sheet finally d in the lower part of the hollow body ³ opens, as Fig. 4 shows. through this tube D ⁴ · is a similarly smooth, corresponding thinner pipe I ² passed, the upper Parts of the pipe d ⁵ begins a little above the water level WL , as especially FIG. 3 shows, then into the pipe d ⁱ at its open point below the water piegels occurs, with this tube in the housing d ² in and is guided therein in an arc, as particularly FIG. 5, and finally, after passing into the hollow body d ³ the open end here d ¹¹ of the other pipe exits, as shown in FIG. 4 shows, and finally ends in the upper part of the hollow body. The lower part of the hollow body d ^s is therefore connected to the water content below the water line WL and the upper part of the hollow body is connected to the steam content of the boiler above the water line. The position of the hollow body d ³ results in a known manner from the balance between the tension of the helical spring d ⁹ and the weight of the hollow body with its water content in the lower part. If the water level in the boiler rises above a certain height and thus the water level in the hollow body d ³ , its increased weight causes it to decrease according to a known process, which is used in a suitable manner to shut off the boiler feed. However, if the water level in the boiler drops, part of the water content of the hollow body d ^{3 flows} through the pipes d ⁱ and d ⁵ into the boiler d , and the hollow body, which has become lighter, is lifted by the helical spring d ^{9 according to a known process,} to switch on the boiler feed again.

In the first exemplary embodiment, the hollow body movement is used to control the boiler feed by the following electrical device, particularly shown in FIGS. 1 and 2. At the lower end of the hollow body d ^% and also on the bottom of the housing d ² there are two cooperating contact pieces k, k ² (Fig. 3), which touch when the hollow body is lowered and close a circuit, while the hollow body is raised Interrupt the circuit. The contact k ² is connected by the line I to one end of the battery m (Fig. 1). The other contact k is connected to the tube I ² by the line I ⁵ (Fig. 4), and the line I ⁶ (Fig. 3) connects to the other end / ^{3 of} this thin tube in the upper part of the tube d ^s. on, which merges into the coil winding f (Fig. 1) of the magnet f ² and then ends in a contact bracket A ^9. On a constantly rotating shaft i (Fig. 2) the two parts j and A are attached, the latter of which is axially displaceable and carries ^{two contact rings A 6} and V on its circumference. In the closed circuit of the battery m of the contact clip A ⁹ is located on the ring A ^7, and another contact bracket h ¹⁰ on the contact ring A ^7, and the latter contact bridges A ¹⁰ is connected to m at the other end of the battery. From the contact ring A ⁶ , the line I ⁷ goes around a magnetic core A ² and then around the other magnetic core A ³ and finally to the second contact ring A ⁷ . The two magnetic cores A ² and A ³ extend into corresponding openings in the body A, which, however, is partially pressed off from them ^{by a helical spring A 5 on each magnetic core.} However, when the electrical circuit is closed, the magnetic cores A ² and A ^{3 are} magnetized, so that they and the body A pull into one another, the drum body h is thus drawn closer to the body j . On the circumference of the drum body A there is now a thumb A 'which, when the drum is in the position of the drum pulled against the disk j, comes into the path of a magnet armature when it rotates and moves it from the position dotted in FIG. 1 to the fully extended position . The magnet armature f then remains hanging on the now excited magnet f ² , and in this position the stopcock e in the feed line c is kept closed. With increasing consumption of the water in the boiler d , its water level falls, and finally the water also flows out of the hollow body d ^a through the wide, flexible tube iü ⁴ into the tube d ^b and back into the boiler; the thus lightened hollow body is raised again by the helical spring d ⁹ , thereby the contact between k and ti ^{2 is} canceled, the magnetic cores A ² and A ³ are demagnetized, and the helical springs A ⁵ push the drum body A from the disc / back, see above that the permanent

men h 'got out of the way of the armature f . The armature f is dropped again by its magnet f ² , and, withdrawn by the helical spring g , turns the feed valve e back on so that the boiler is freshly fed until the new rise in the water level also includes the hollow body d ³ with water fills and lets it sink, whereupon the process first described is repeated.

In the embodiment according to FIG. 6, the arrangement is significantly simplified in that the electrical control of the feed regulation is omitted. is . and the closure member of the feed line is controlled directly by the rise or fall of the hollow body in its housing. For this purpose, the feed line c ' leads directly to the housing d ² , in the lower part of which a stopcock e' is arranged, after which the feed line c "leads out of the housing d ² again and ends below the water level in the boiler. The cock e ' is hinged directly to the lower end of the floating hollow body d ³ by means of the arm f ³ , the up and down movement of which therefore directly opens or closes the feed line.

Claims (3)

Patent Claims: i. Feed regulator for steam boilers and other liquid containers with a hollow body that fills or empties according to the liquid level and regulates the feed through its movement resulting from the change in weight, characterized in that this hollow body (d ³ ) is airtightly enclosed by a special housing (d ² ), which expediently at the same time also includes the moving parts of a mechanical or the contact parts of an electrical control of the feed line. 2. Feed regulator according to claim 1, characterized in that the airtight housing (d ² ) of the hollow body (d ³ ) ' is arranged inside the liquid container itself and two coaxially nested, at different heights above or below the liquid level (at d ¹¹ or at I ² ) resilient tubes ending in the hollow body and emerging from the hollow body end in a protective tube (d ⁵ ) suspended from the gimbal in the liquid container at corresponding heights above or below the water level. 3. Feed regulator according to claim 1 and 2 with electrical control, characterized in that when a through the sinking hollow body (d ^z ) brought about a current circuit between contact parts on the hollow body (d ³ ) and its housing (d ² ) arranged on a rotating shaft cam (h) is axially displaced by electromagnets (h ² , h ³ ) and then lifts a lever (f) that comes into its range into the force range of an electromagnet (f ² ) , so that it is attracted by this and thereby the feed line (c ) closes, while the rising hollow body (d ³ ) interrupts the circuit, so that the cam disk is moved back by springs (h ⁵ ) after the magnet excitation is interrupted (h ² , h ³ ) and gets out of the path of the lever, which in turn comes from his The magnet that is no longer excited is released and turned back by spring force (g) , thereby opening the feed line. For this purpose ί sheet of drawings.