DE648134C - Sootblower with rotating blowpipe - Google Patents

Description

Sootblower with Rotatable Blowpipe The invention relates to sootblowers with a driven control cam for the blowing agent inlet valve, which is under spring action, a tow coupling between the cam body and the rotatably mounted blowpipe, whose nose, connected to it in a form-fitting manner, is rigid from the one on the cam body attached trailing link with the valve closed by a larger one for the full opening of the valve before starting the rotation of the blowpipe, sufficient angular range away and with one that secures both the blowpipe against premature rotation as well as for keeping the valve open, equiaxed with the dragged nose stored. and bolt rotating body connected to it in rotation. Such penitential blowers are known in the form .that the control cam body - as an axially acting thrust cam is formed, which is indirectly via a correspondingly designed, under spring action stationary slide actuates the valve drive linkage. In this known embodiment an additional pawl in connection with the bolt rotating body is not allowed do without.

To now both the space requirements of such with the specified To reduce components equipped soot flakes as well as with as little as possible Number of individual parts and thereby eliminate the risk of malfunctions as far as possible, according to the invention, first of all, the cam body as freely rotatable on the Blowpipe mounted flat washer acting perpendicular to the axis (e.g. as an eccentric) be designed, in addition to the second as a bolt rotating body with the blowpipe rigid connected, flat, cylindrical locking washer is to be arranged, the radius of which approximately correspond to the largest radius of the flat disk and the one around the circumference opposite - offset the nose attached to the blowpipe by 180 °, except for the smallest radius of the flat washer reaching cutout for that in the effective area Both disks have the left end of the spring-loaded valve drive rod got to.

The space requirement of such a bus blower can further expediently thereby be limited, dali the nose of the blowpipe in a half-ring groove _der common hub of flat disk and drive wheel protrudes, which then creates an in Simplest version of the drag coupling effective in both directions of rotation of the drive wheel is created.

In the drawing, an embodiment of a sootblower eats according to the .invention shown.

Fig. I is an axial longitudinal section and Fig. 2 is an end view of the Apparatus. Fig. 3 is a section through the B: 1 * s pipe, the blowing agent inlet valve and control members according to the line 3-3 in Fig. i.

Figs. D., 5 and 6 are simplified sections similar to Fig. 3 with the blowpipe, the. Valve and the control elements in different positions.

In the drawings are the parts screwed together of the fan casing with io, i i and 12. The housing part encloses io the steam valve 13 and the inlet channel 1d., Which through the openings 15 with the im Housing rotatably mounted blowpipe 16 is in connection.

The valve 13 and the blowpipe 16 are operated by a common control element actuated, which in the illustrated embodiment consists of a sprocket 2o, which is attached to a shaft 21 mounted in the housing parts i i and 12, which carries a gear 22 at one end. This. Gear meshes with a drive wheel 23 a, which with its hub 2: a. is rotatably mounted on the blowpipe 16. The hub 2.I is provided with a half-ring groove 25, and a nose 26 is provided on the blowpipe 16, when turning the wheel 23 in one direction or the other with one or the other other of the stop surfaces 27 and 28 of the groove 25 can come into contact.

The hub 24 of the drive wheel 23 is also turned off at its end in such a way that an eccentric 3o is formed. A flat cylindrical locking disk 31 is attached to the blowpipe 16; which is concentric to the blowpipe 16 and has a cutout 32 at its edge. The drive linkage 3.3; of the inlet valve 13: is kept in constant contact with the eccentric 3o or the locking disk 31 under the action of a spring 34. The blowpipe 16! is connected to a pointer 33 which cooperates with a fixed stop 36 provided on the apparatus housing.

The sootblower is shown in Figure 3 in its rest position. In this position, the disks 30 and 31 are in such a way that the smallest radius of the e-mentrischen flat disk 30 and the cutout 3 2 of the locking disk 31 are directed downwards. The valve spindle 33 then engages in the cutout 32 by the action of the spring 3.4, and the valve 13 is closed.

If the sprocket 2o is now rotated in such a direction that the drive belt 23 and its hub 24 rotate in the direction of the arrow in FIG correspondingly moved to its open position. During this rotation, on the other hand, the locking disk 31 and thus the `blow = hr remain initially unactuated. After the Tand '23 and thus the eccentric 30 have been rotated by about half a turn and consequently the largest radius of the eccentric 3o is directed downwards, so that the valve 13 assumes its completely open position (see Fig. Q), strikes the stop surface 27 against the nose 26, so that the locking disk 31 and thus the blowpipe 16 are forced to follow the continued rotation. The rotation of the blow pipe 16 and thus the blowing into it does not begin until the valve 13 is fully open. During the continued rotary movement, the valve Z3 is kept open, since the valve spindle 33 slides on the edge of the locking disk 31. The rotation is continued until the pointer 35 connected to the blowpipe 16 strikes against the fixed stop 36 (see FIG. 5). Then one turns in the opposite direction indicated by the, Pfeix @ in @ Fig: 6, the blowpipe 16 initially standing still until the other, stop surface 28 of the half-ring groove 25 abuts against the nose 26 and the locking disc 31 is taken. When the return movement has progressed so far that the cutout 32 of the locking disk 31 comes to lie facing downwards again, the valve spindle 33 can move upwards and engages in the cutout 32 so that the valve 13 is closed (see Fig . 3).

By changing the position of the fixed stop 36 in relation to the pointer 33. can, of course, be the angle at which the blowing in with completely. open valve can be varied .. When using. of a solid Stop: a full revolution cannot occur, since the pointer 35 and the Stop 36 must have a certain strength. If you want to get an angle of action, which corresponds to a full: revolution. the stop 36 is omitted, wherein meow the angle of rotation by a provided on a suitable fixed disk 37 Can determine graduation.

Claims (1)

PATENT CLAIMS: i. Sootblower with a driven cam body for the blowing agent inlet valve under spring action, a tow coupling between: Steuerkuxvenkkörper and rotatably mounted blowpipe, its form-fitting with him. connected nose of the trailing rigidly attached to the cam body Link when the valve is closed by a larger one for full opening of the valve before the start of the rotation of the blowpipe sufficient angular range is distant; and with one that secures both the blowpipe against premature turning as well as keeping the valve open, coaxial with the dragged nose bolt rotating body mounted and connected to it in rotation, characterized in that that the control cam is mounted vertically as freely rotatable on the blowpipe (z6) for the axis effective flat disk (z. B. eccentric 30) is formed, in addition to the Rotating bolt body is a flat, cylindrical bolt disk that is rigidly connected to the blowpipe (3r) is arranged, the radius of which is approximately the largest radius of the flat disk (3o) corresponds and the circumference is one opposite the one attached to the blowpipe Offset the nose (z6) by r80 °, except for the smallest radius of the flat washer (3o) Hora-reaching section (3z) for that in the area of action of both panes (30, 31) has the lying end of the spring-loaded valve drive linkage (33). z. Sootblower according to claim r, characterized in that the nose (z6) of the blowpipe in a half-ring groove (z5) in the common hub (24) of the flat disk (30) and the drive wheel (z3) protrudes.