DE945176C - Device for the mechanical actuation of the throttle elements used to regulate the gas pressure in the riser pipes of chamber furnace batteries for the production of gas and coke - Google Patents

Description

Device for the mechanical actuation of the gas pressure regulation serving throttle devices in the riser pipes of chamber furnace batteries for generation of gas and coke The invention relates to a device for mechanical Actuation of the throttling devices in the riser pipes which are used to regulate the gas pressure of chamber furnace batteries for the production of gas and coke, in which the throttle device influencing control element in the form of a cam or the like is designed, rotated by a drive device with constant speed will.

It is known that the control member influencing the throttle device from a continuously rotated one that extends over the entire furnace battery Drive shaft. Such a wave is depending on the length of the furnace battery, which often has a large extent, a more or less large torsional stress subject. The shaft must therefore have a comparatively large cross-section, which in turn also requires larger camps. There is also one in several camps Shaft to be supported, if no couplings are built into it, sensitive against any differences in height between the coke oven batteries.

The invention now consists in the drive of the control member make a pull rod in such a way that the pull rod acts as a drive device for the cam influencing the throttle device is used, which is preferably extends over the entire furnace battery and runs in regular steps, back and forth performs walking movements. Such a training the pulling organ has the advantage; that extends over the entire furnace battery Drawbar only has a comparatively small cross-section and only on rollers needs to be stored and is not tied to any bearings, as is the case with a rotating one Wave is the case. The tie rod can therefore occur height differences or also absorb deflections without difficulty, with elongation of the The pull rod does not allow the cam disc to move evenly through the back. and affect the forward movement of the drawbar.

The invention also relates to an acting on the control member Zugorgan, whose working movement in a regular rhythm of a counter-rotating Movement that does not cause a corresponding movement of the control member is interrupted will. The transfer of the movement of the pull rod to the control element takes place preferably by means of a transmission member which is rigidly connected to one end the axis of rotation of the control member is connected and at the other end, a fork-shaped one Has head in which the pull rod is mounted in a non-positive and articulated manner. -The invention can also be made parallel to the one moving the control member Drawbar another drawbar moved in opposite directions is arranged, which with the former is linked by a reverser at one end of the battery and at the other end in the period when the control member is at a standstill, a tensile force attacks. The invention also consists in a double calving cylinder device acted upon on both sides, by the reciprocating movement .the influencing the control organ Pull rod takes place.

Finally, the invention also relates to a drive device, in which the return movement of the pull rod influencing the control element has a larger, For example, there is a multiple speed than the movement in the opposite direction the pull rod.

Further details of the invention are evident from the drawings shown, embodiments can be found. It's in fig. i part of a equipped according to the invention with automatic regulation of the riser pipe throttling Coke oven battery; e shown; Fig. 2 gives parts from a section on a larger scale after line A-B of Fig. i again.

On a rail running above the template 12 of the furnace battery 42, the cams 5 are rotatably attached, one for each riser pipe Cam. The cam disks are all in one plane that is parallel to the longitudinal direction the battery is running out. A free-running type sits on the axis of rotation of the cam disks Driver 43 (Fig. 2) with which the lower end 44 of the connecting piece 45 is fixed connected is. The freewheel-like driver 43 is designed so that when rotating of the connecting piece 45 to one side the cam by the same angular amount is also rotated @. However, if the connector is on the opposite side rotated, the cam remains in its last position.

The other, upper end of the connecting piece 45 has a fork-shaped head 46 in which a pull rod 47 running over the entire length of the battery is mounted. The power transmission from the pull rod 47 to the connecting piece [5] takes place by means of the screw 48, which, however, allows a relative movement between the pull rod and the connecting piece. One end of the pull rod 47 is rotatably attached to a disk 49 acting as an angle lever. The other end of the pull rod protrudes by means of a pull rope 5o over .eine reversing roller 5 1 with its elastic, e.g. B. resilient intermediate member 52 in connection, which in turn is attached to a second, above the former extending tie rod 53. The end of the second tie rod is also rotatably connected to the disk 49. The two tie rods are. supported against deflection by roller bearings 54.

The disk 49 is rotatable about the axis 55. At point 56 of this disc engages a connecting rod 57, which is driven by a central drive 58 alternately is moved up or down. In the illustrated embodiment according to FIG. z moves the tie rod 47 .to the right when the connecting rod 57 upwards is pressed. The freewheel-like driver is now set up so that the cam 5 is taken when the pull rod 47 is moved to the right; so she leads clockwise rotation. The two tie rods 47 and 53 are in their Longitudinal axis shifted in parallel, so perform a translatory movement. After the cam 5 is rotated by a certain angular amount, its Size of the translational displacement of the tie rod 47 and the length of the connecting piece, -45 depends, the central drive 58 causes a downward movement of the connecting rod 57, so that now the upper tie rod 53 moves to the right and the lower tie rod 47 is returned to its original position. The cam 5 rotates because of of the freewheel / 43 not with.

If the lower tie rod 47 has arrived in its starting position, a new upward movement of the connecting rod 57 begins. a certain time is followed by a corresponding downward movement; etc. The rhythm of the upward and downward movement of the pull rod is chosen so that the cam 5 makes a full revolution during a cooking period.

To the control movement of the cam 5 not too long by the Interrupting the return movement of the upper tie rod 53 is the central drive 58 set up in such a way that the period of rotation of the cam disk 5 is a multiple of the period of standstill. to this is the purpose of the central drive 58, for example, in the form of a double cylinder provided with a displaceable piston executed, the two cylinder spaces of which have a content that is many times different have and introduced into which a constant amount of pressure medium over time so that the final state of the piston movement in the larger cylinder space is very is reached much later than in the smaller one. Of course he has to go to them The stroke distance transferred to the connecting rod must be the same in both cases. The switchover of the pressure medium to one or the other cylinder space takes place automatically.

The cam or its edge becomes full with an end roller 59 provided linkage 6o scanned, the linkage 6o on the control element of the Riser pipe throttling is effective.

Claims (6)

PATENT CLAIMS: i. Device for the mechanical actuation of the for Regulation of the gas pressure used throttling devices in the riser pipes of chamber furnace batteries for the production of gas and coke, which influences the throttle device Control member in the form of a cam or the like. Is formed by a Drive device is rotated at a constant speed, marked by a tie rod (47) as a drive device for the cam (5), the preferably extends over the entire furnace battery and in even steps performs ongoing back and forth movements. 2. Device according to claim i, characterized by a pull rod acting on the control member (5), the working movement of which in a regular rhythm of an opposing movement that has no corresponding Movement of the control member causes is interrupted. 3. Apparatus according to claim i or 2, characterized by a drive device (tie rod 47), which movement is transmitted to the control member (5) by means of a transmission element (45), which is rigidly connected at one end (44) to the axis of rotation (43) of the control member and at the other end has a fork-shaped head (46) in which the pull rod is frictionally and articulated. 4. Apparatus according to claim i, 2 or 3, characterized by a further, parallel to the one moving the control member (5) Pull rod (47) counter-moving to this pull rod (53), which with the former through a reversing device (5i) is connected at one end of the battery and at its other end in the period when the control member is at a standstill, a tensile force attacks. 5. Device according to one or more of claims i to 4, characterized by a double piston cylinder device (58) acted upon on both sides, through which the down. and moving movement of the pull rod influencing the control element (47) takes place. 6. Device according to one or more of claims i to 5, characterized by a drive device (tie rod 47), in which the return movement of the Control member influencing tie rod (47) with a larger, for example multiple Speed takes place as the opposite movement of the pull rod (53). Dressed Publications: German Patent No. 498 832.