DE576867C - Device for regulating the load on wood grinders - Google Patents

Description

Device for regulating the load on wood grinder object of the main patent 491 754 is an arrangement for regulating the load on wood grinders, in which the regulation of the wood feed is directly dependent on the contact pressure of the wood to the grindstone. The present invention provides another Improvement of such grinder drives, and this is achieved by that the electrical control variables generated by the bearing pressure are controlled by an amplifier arrangement act on the feed drive.

In the embodiment shown in the drawing, io is the grindstone, which is driven at a preferably substantially constant speed. For this purpose, the shaft ii can be coupled to a synchronous motor, for example. The grinding material 16 is pressed against the grindstone by the feed chains 17, 18. The chains are guided over the running wheels 19, 20 and the wheels 20 and 21 driven by worms 23 and 24. The worms 23 and 24 sit on the shaft 25, which is driven by a \ lotor 2a, 26 . Any electric motor can be used as the drive motor. In the present example, a series motor with the series winding 26 is used. The motor is fed by a control generator 27, 40 via line 28.

To regulate the feed rate, a Wheatstone bridge and a discharge vessel 30, which is controlled by the former, are provided. The discharge vessel 30 is provided in a known manner with a cathode 31, a grid 32 and an anode 33. The electrodes are housed in a vacuum vessel to which a small amount of a gas, for example mercury vapor, is subsequently fed. Due to the presence of a gas, an arc is formed instead of the electrical discharge, so that the discharge vessel can be viewed as a grid-controlled rectifier.

If an alternating voltage is applied to the anode 33, then in the Anode circuit only flow during the half period in which the The anode has a positive potential compared to the cathode. Becomes a negative potential during: the positive half-cycle applied to the grid, see above can by changing this voltage accordingly. the electricity can be regulated. if once current flows in the anode circuit it rises very rapidly to a value which is limited only by the resistance of the circle. Though that Grid is not able to influence the instantaneous value of the current, so it can regulate the average value of the anode current; because by Appropriate setting of the grid voltage can be seen at the beginning of the anode current or influence the ignition during each positive half-cycle.

The cathode 31 is heated by the element 34 which is fed from the secondary winding 35 of a transformer; the primary winding 36 of the transformer is connected to an AC voltage source 37, 38. The anode 33 is connected to the line 38 of the voltage source via the resistor 39. The control generator 27, 4o has an externally excited field 4o which is connected in parallel to the resistor 39 located in the anode circuit. The anode circuit is closed via the cathode 31 to the power line 37.

The grid circuit is made up of the secondary winding 4a of a transformer Supplied via the protective resistor 41. The primary winding 49 of the transformer is in a bridge circuit on the secondary winding 35 of the to the voltage source 37, 38 connected transformer.

The four branches of the Wheatstone Bridge are labeled a; 3, 44, 45 and 46. The opposite terminals 47 and 48 are connected to the terminals of the secondary. Winding 35 connected and are supplied by this with alternating current. The primary winding @ 1.9 of the bridge transformer is connected between points 5o and 51 of the bridge, which have the same potential when the bridge circuits are in equilibrium, ie when the ratio of the ohmic values of 43 and 41 is equal to the ratio of the ohmic values of, i5 and 46. The ohmic value ratio of the branches 43 and 44 can be adjusted as required by adjusting the sliding contact 52.

The bridge branch 45 consists of a l \ 'oil resistor, whose ear value increases inversely proportional to the pressure exerted on the discs. The pressure is variable in relation to the movements of the elastically arranged Slider bearing 12, this bearing acts through the bolt 53 on the carbon resistance. A change in the ohmic value also changes that through the disk 45 and the resistor 46 flowing current and thus the potential of 51, so that an alternating current in the Primary winding 49 will flow, which is an electromotive force in the secondary winding 42 induced. This induced voltage now controls the grid and in the same way the current which is fed to the field winding 4o of the generator 27. Hence changes the speed of the feed motor.

In the same way, a potential difference is created by shifting the contact 52 generated between the points 5o and 51, so that one also arbitrarily the feed rate can change. The arrangement regulates to a constant ohmic value of the carbon resistance 45, d. H. constant pressure on this resistance. From this it follows that that by regulating the bearing pressure is kept constant.

Claims (3)

PATENT CLAIMS: e.g. Device for regulating the load on wood grinders with regulation of the feed depending on the pressure acting on the grinding bearing according to Patent 491 754, characterized in that the bearing pressure of the resiliently arranged grinding bearing controls the grid of a discharge vessel via a carbon regulator, in whose anode circuit the excitation winding of the Feed motor or its control generator. 2. Device according to claim i, characterized in that that the discharge vessel by an alternating voltage applied to the electrodes The excitation winding (4o) of the regulating generator (27) is fed with direct current. 3. Establishment according to claim 1, characterized in that the grid circle from the compensation line a Wheatstone bridge, in one branch of which the coal regulator lies.