DE894034C - Drive of shredding machines - Google Patents

Description

Drive of shredding machines Shredding machines with two in the opposite direction rotating, concentrically arranged grinding elements are known. Such machines are driven either directly or via a transmission through two motors. To drive such shredding machines In other embodiments, only one motor is used, which is interposed a gear or belt drive for changing the direction of rotation drives both grinding elements.

The invention relates to the drive of such shredding machines and makes it his business to revolve the two in opposite directions Drive grinding organs directly from a single electric motor. this happens according to the invention in that the armature of the motor with the shaft of a grinding organ and the housing of the motor with the hollow shaft of the second grinding element is firmly connected. For example, when using a three-phase motor with Squirrel-cage rotor of the latter is arranged on the shaft of a grinding element and the motor housing with the winding to the hollow shaft of the second Flanged grinding organ, so that the armature and housing of the electric motor and the rotate in opposite directions in each case with them rigidly connected grinding organs. The power is supplied in a known manner through slip rings.

Compared to the previously known drive designs of the above Shredding machines thus come either a motor or according to the invention a gear or countershaft, if necessary all of the aforementioned parts, in omission. The power transmission losses are in the drive according to the invention on Minimum limited, and the drive will run very smoothly achieved. Further advantages result from the elimination of accessories, such as motor consoles, slide rails, etc., through simple assembly and maintenance of the Drive. The operating costs are reduced because with wear of gears, V-belt or the like does not need to be calculated.

The space required to drive the shredder can still be reduced if, according to a further embodiment of the invention the arrangement is made so that the hollow shaft is divided into two hollow shaft ends, which are firmly connected to one another through the housing - of the electric motor. The electric motor is here between the two bearings of the shafts of the shredding machine relocated. While one shaft in turn carries the armature, the hollow shaft is interrupted and the motor housing itself as a supporting link between the hollow shaft ends switched on.

When using a three-phase motor, it can be useful to the short-circuit cage in the rotating housing and the field windings on the armature to accommodate, since the windings are exposed to lower centrifugal forces in this case are. Here, too, power is supplied via slip rings.

Further details of the invention emerge from the in the drawing illustrated embodiments. In each of the exemplary embodiments mentioned it is easily possible to use the rotating motor housing on its outer Use the circumference of attached blades to generate an axial flow of air, the z. B. can be used to cool the shredding machine. It shows Fig. I a longitudinal section through a mill with a floating motor mount, Fig. 2 a longitudinal section through a mill with built-in between the bearings of the mill shaft Engine.

In the mill housing 8, the grinding chamber of which is closed by the door 9, the hollow shaft 2 is rotatably mounted. With the hollow shaft 2, the grinding disc i and the housing 3 of the electric motor with its power supply q. firmly connected. The inner shaft 6, on which the armature 7 of the electric motor and the grinding disk 5 are attached, is rotatably mounted in the hollow shaft: 2.

When accommodating the motor between the bearings of the mill shafts According to Fig. 2, the mill housing 16, the grinding chamber of which is closed by the door 17 is designed so that it, together with the end shield 18, the engine completely includes. The hollow shaft parts are in the mill housing 16 and in the 'bearing plate' 18 23 and io, which are rigidly connected to one another by the housing i i of the electric motor are rotatably mounted. With the hollow shaft parts 23 and io are the Mahlscheibe.2z and the power supply 12 is coupled. The shaft 14 is rotatably mounted in the hollow shaft. This shaft 14 carries the armature 15 of the motor and the grinding disk 13.

Blades i9 are attached to the motor housing ii, and in the end shield: i8 are air inlet openings 2o and air outlet openings zi in the housing jacket intended. An air flow can therefore be generated by the blades i9. By the air sucked in through the opening 2o serves to cool the motor and the housing 16 of the shredding machine and then enters the open air again through the openings 21.

Claims (3)

PATENT CLAIMS: i. Drive of shredding machines with two counter-rotating Grinding organs, characterized in that both grinding organs (i, 5) are replaced by a single one Electric motor are driven directly by using the armature (7) of the motor the shaft (6) of a grinding element (5) and the housing (3) of the motor with the hollow formed shaft (2) of the second grinding element (i) is firmly connected. 2nd drive of shredding machines according to claim i, characterized in that the electric motor arranged between the two bearings of the shafts of the shredding machine is and the hollow shaft is divided into two hollow shaft ends (23, io), which through the housing (ii) of the electric motor are connected to one another. 3. Drive of shredding machines according to claims i and 2, characterized by a three-phase motor, the housing part of which is designed as a squirrel cage and its armature is the current-carrying windings wearing. q .. drive of shredding machines according to claims i to 3, characterized in that that the rotating housing (i i) of the electric motor on its outer circumference with Blades (19) is provided for generating an air stream which z. B. for cooling the powered shredding machine is used.