DE379726C - Quick-closing slide with spindle drive - Google Patents

Description

Quick-closing slide with spindle drive. It is often necessary move a gate valve quickly. This task occurs z. B. with pneumatic Conveyor systems for bulk goods and the like. The bulk material falls out of a bunker or Collecting tank through a funnel, which can be shut off by a slide, in provided trolleys, or it is through pipes connected to the funnel sucked off. The bulk material now by no means flows through in a steady stream through the funnel, especially not if the bulk material is dusty, such as ash, coal, etc., acts. This type of bulk material often forms bridges that a drying up of the normal stream, or, if they collapse, a sharp increase of the current, so that the wagon collecting the goods overflows when the Current through the gate valve is not being throttled fast enough. So far has a simple screw spindle is used to move the gate valve, with a handwheel or mechanically with a pulley or a toothed or Sprocket was turned. Every revolution of these previously used spindles was moving the slide only by the amount of the pitch of the spindle thread. That kind of slide movement However, it was not sufficient for a quick closure of the slide.

According to the invention, the slide travel should now be for each spindle revolution be enlarged so that one revolution of the spindle moves the slide corresponds in the amount to a multiple screw pitch '. This accelerated slide movement is by a spindle with opposite threads on both of them end up generated. The threads can have the same or unequal pitch. The one The end of the spindle is in a stationary nut, the other in a traveling nut guided. One end of the spindle screws into the stationary nut or out, the other end simultaneously fetches the hiking nut fastened with the slider in or push them out. Discs or collars attached to the spindle limit the slide movement.

The spindle can also be hollow and with internal and counter-rotating external threads be provided. The hollow spindle rotates in a fixed nut that is attached to the Bunker is attached. The hollow spindle is also the traveling nut for the slide rod, which is threaded and firmly connected to the slide. Wander the Hollow spindle by turning from one side into the stationary nut, then the slide rod provided with opposing threads moves at the same time from the other side into the hollow spindle, and the slide is moved by the amount the pitch of the external and internal thread of the hollow spindle during one revolution postponed.

Through Fig. I is a section through the device with the mark a spindle with threads at both ends, through Fig. 2 a section through the device shown with hollow spindle and internal and external thread.

In Fig. I, i is the spindle, 2 is the traveling nut and; the slide denotes. As can be seen from the drawing, the traveling nut and slide are firmly connected to one another. The nut firmly connected to the bunker wall is denoted by 4, the bunker wall by 5 and the handwheel that moves the spindle is denoted by 9. It is now desirable that the distance between the pulley and the bunker wall remains the same despite the wandering of the spindle. For this purpose, the belt pulley is not placed directly on the spindle, but on a sleeve 8. In this sleeve 8 a wedge io is inserted, which also partially engages in a longitudinal groove pushed into the spindle i. If the handwheel 9 and thus the sleeve 8 are now rotated, the rotary movement is transmitted to the spindle i by the wedge io. So that the sleeve 8 cannot move, it is provided with an annular spring 14 which runs in a groove which is formed by a recess in the sleeve 6 screwed to the bunker wall and the disc 7 in front of it. M ird the handwheel 9 is rotated, then z. B. the spindle x into the nut, and at the same time the spindle unscrews the traveling nut 2. The distance between fixed nut .4 and traveling nut 2 or between slide 3 and bunker wall 5 increases with each turn of the screw by the pitch of the two opposing threads that are cut into the spindle i. The stroke limits for the slide movement are determined by the disk i1 attached to one end of the spindle by means of screw 12 and the adjusting ring 13 attached to the other end of the spindle i.

In Fig. 2 with i, 1, 4, 5 and 9 the same parts are designated as in Fig. I. The spindle i is hollow and has internal and external threads. If the external thread is right-hand, then the internal thread is left-hand, and vice versa. 2 is the threaded pusher rod. In contrast to Fig. I, the handwheel is firmly keyed onto the spindle i. If the wheel 9 is rotated in one direction and thus the spindle i is screwed into the stationary nut 4, then the threaded slide rod i connected to the slide "is screwed out of the hollow spindle by the hollow spindle i at the same time. Here, too, increases with each revolution of the spindle, the distance between the bunker wall and the slide by the amount of the pitch of the internal and external thread of the spindle.

Claims (1)

PATENT CLAIMS: i. Quick-closing slide with spindle face drive, characterized in that the spindle carries a right-hand and left-hand thread, One of which is in a stationary mating thread and the other is in a mating thread runs, which is firmly connected to the slide to be moved, with the slide the sum of the pitches of the two threads is transmitted. z. Spindle drive through Belt pulley, gearwheel, handwheel or the like according to claim i, characterized in that that the wheel is firmly connected to a sleeve, which is in one by ring groove and spring certain distance from the fixed mating thread is held and the by a pin or key that slides in a longitudinal groove in the spindle with the spindle is coupled. ;. Spindle according to claims i and 2, characterized in that that discs or collars are arranged on it, which limit the slide movement.