DE489862C - Locking device for containers, especially for lid closures of electrically driven centrifuges - Google Patents

Description

Locking device for containers, in particular for lid closures electrically driven slings The locking of locks with electric driven devices, in particular the lid of slingshots and the like not only the opening of the lid during operation, but also during discharge, so after switching off the engine, preventive measures are known. One has to do this a mechanical centrifugal governor is arranged on the centrifugal shaft, which depends from the speed of this shaft the switch of an electromagnetic blocking of the Lid controls after opening the main switch. The design of the mechanical governor it means that it is practically possible to open the lid if the spin speed is still around 25 ° h of the operating speed. It must but it is required that the shutter can only be opened if the centrifugal shaft actually stands still.

According to the invention this is achieved by using the electromagnetic The rotor or armature voltage is blocked and the mains switch is only open when it is open Starter and can be switched off when the machine is at a standstill. A particularly useful one Embodiment of the invention is that two are under spring action Slide bolts are arranged, one of which is coupled to the power switch while the other forms the core of the locking electromagnet and with one on the closure part provided nose cooperates.

Closing the power switch through the lid is electromotive powered slings, already known. However, opening the lid is at this facility is possible at any time by opening the power switch at the same time. Industrial accidents are therefore not avoided, because the intended shoe brake cannot bring the centrifugal shaft to an immediate standstill after opening the lid.

The drawing shows in Fig. z for a more detailed explanation of the concept of the invention a circuit diagram for a three-phase induction motor with slip ring armature is given, while Figs. 2 and 3 an embodiment of the locking device itself in Section and represent in a front view.

In the figures it is assumed that it is the closure of the Cover of a slingshot, namely Fig.r shows the parts in the locked position, while in the Fig.2 and 3 the locking device for itself without the Spin lid is shown.

i is the lid of a slingshot 2, which must be kept closed should, as long as the centrifugal drum, not shown, driven by a three-phase slip ring motor 111 is driven, revolves.

On the underside of the cover i a locking bolt 3 is arranged at the front, which is beveled at its lower end and a recess above the bevel q. owns. This bolt falls into a sleeve-like part 5 of the locking device 6, which is attached to the outside 'on the wall 2 of the centrifugal container.

The locking device 6 contains in addition to the sleeve part mentioned second chamber 7, in which two sliding bolts 8 and 9 are movable, which the Walls io and ii of the chamber; 7 penetrate and thus into the free space of the sleeve 5 can enter.

The upper slide pin 8 is moved purely mechanically and is below the influence of a spring 12 which presses the bolt into the chamber 5 (Fig. 2). the end In this position it is pushed back by the front bevel 13 of the locking bolt 3, on a corresponding bevel 1q. of the bolt 8 strikes and thus him moves to the left against the action of the spring 12.

With its left end, the bolt 8 rests against one arm 1 5 of a two-armed switch lever which is rotatably mounted on the wall io at 16 by means of a bracket 17, the lower arm 18 of which carries the switch blades i9 belonging to the contacts 2o. As can be seen from Fig. 3, these contacts form parts of a double-pole switch. Accordingly, the double-armed shift lever is U-shaped. To the contacts 2o are z. B. two phases of a three-phase network are connected, the lines of which are labeled SI, Slj, Sll in Fig. I and lead to the stator of the motorM.

The arm i8 of the shift lever is under the influence of a spring 21, the lever to the switch-off position shown in Fig. 2 in solid lines pulls. It thus supports the action of the spring i2 and ensures that the arm 15 and the bolt 8 remain permanently in contact.

The second slide bolt located below the bolt 8 in the chamber 7 9, which acts as the actual locking bolt, is housed in the chamber 7 as an anchor Formed electromagnet, the winding 22 z. B. to the tension of two slip rings of the motor M is connected. The slip ring connections lead in a known manner to starter A.

The sliding bolt 9 is in several parts and consists of the actual Anchor 23 and two rod-like continuations screwed into these, one of which, 24, acting as a locking bolt can enter the free space of the sleeve 5 while the other, 25, penetrates the wall io and carries a crosspiece 26 on which two tension springs 27 attack in order to move the slide pin 9 to the right into the locked position.

The recess q. on the locking bolt 3 is dimensioned so that the Locking pin 24 and only this can slide into it, while the bolt 8 in .this recess cannot collapse. Accordingly, if the locking bolt 3 in the Sleeve 5 enters, it slides on the bevel 1q. past. The bolt 8 will moved to the left, and the switching lever 15, 18 reaches the closed position shown in dashed lines (Fig.: 2). This turns on the stator current while the starter initially turns on is still open. As a result, tension now occurs on the slip rings, see above that at the same time the winding 22 receives voltage and the armature 23 is attracted. The locking pin 24 so steps back behind the wall ii, and the locking bolt 3 can fall completely into the sleeve 5. The lid is now in its closed position and the sling can be started by operating the starter in the usual way will. With the start of the rotor rotation, the voltage on the slip rings decreases. The excitation of the winding 22 decreases accordingly, and the armature 23 goes under the influence of the springs 27 back to its original position, whereby the locking pin 24 enters the recess ¢ of the bolt 3 and thereby locks the cover i. This state remains as long as the rotor is rotating at all, only then again with its standstill, the slip ring tension grows. On the other hand, the stator switch remains permanently inserted, since the end 14 of the bolt 8 is pushed into the sleeve 5 Part of the bolt 3 rests, thus the bolt 8 the lever 15, 18 in the closed Position (Fig.2) holds, so that an interruption of the current is excluded at this point is. Should the mains voltage fail for any unforeseen reason, so the locking position of the sliding pin 9 remains, since if it is omitted any tension, of course, no tension at standstill, even on the slip rings of the engine can occur. If this voltage occurs again when the rotor is at a standstill the cover is unlocked and can now be opened. When opening at the same time the sliding bolt 8 returns to its starting position and opens thereby the stator switch. in case of prolonged absence of tension the lock is to be removed, this can be done, for example, by a lead-sealed done eyelet, which can be operated from the outside and which engages your sliding bolt 9. Pulling on this eyelet would then temporarily release the lock and turn it on Allow the lid to be opened.

In the exemplary embodiment it is assumed that it is a motor for multiphase electricity. The idea of the invention can be modified accordingly but can also be carried out for DC or single-phase motors. With DC motors only has to be taken into account that the armature voltage after switching off the starter gradually decreases with decreasing speed, thus instead of the tension spring 27 a Compression spring is to be used.

Claims (4)

P_1TRX TA NSPRÜCHE: i. Locking device for containers, in particular for lid closures of electrically driven centrifuges and the like, characterized in that that an electromagnetic lock (22, 23, 24) on the rotor (armature) voltage and the mains switch (i5, 1g, 20) only when the starter is open and at a standstill the machine can be switched off. 2. Apparatus according to claim i, characterized by two spring action (i2, 27) sliding bolts (8 and 23, 24, 25) whose one (8) interacts with the power switch (i5), while the other is the core of the Forms locking electromagnets (22) and provided with .einer on the closure part Nose (3, 4, 13) cooperates. 3. Device according to claim i and 2, characterized in that that the rear end of the upper sliding bolt (8) against a two-armed Shift lever (i5) of the engine switch sets. 4. Apparatus according to claim i, characterized characterized in that the entire locking device is housed in a housing (6) which has the power switch (i5 to 2o) and a chamber (5) at the same time, in «-which the part to be locked can engage with a nose (3) or the like and into which the front ends (i4, 24) of the sliding bolts (8 and 23) protrude.