SE419945B - grinder - Google Patents

Description

7995449-0 grinding wheels are recessed in a rotating main grinding wheel, which, however does not interact with another grinding wheel, without machining the goods are mainly made through mutual contact parts of the goods in between. Only in the contact area pickling of the grinding wheel.

With these known grinding devices there are no possibilities to influence the result during the grinding process. In the case of grinding devices one according to the present invention, on the other hand, has a lot great opportunities to influence the grinding process during operation and hence the template result. So, for example, the kane or several discs can be made to rotate in the same or different direction as well as with same or different speeds. You thus have a practically 'infinite possibility of continuously varying the fixed grinding the impact of the disc on the grinding process.

The invention is described in the following with an embodiment examples and with reference to the accompanying drawings, at which Figs. 1a and 1b show in perspective a grinding device according to the invention, wherein Fig. 1a shows a rotating grinding wheel with drive device and Fig. 1b shows associated fixed grinding disc with planetary arrangements according to the invention discs, Fig. 2 shows a part of an axial section through a grinding device according to the invention, Figs. 3 and 4 show two different designs on planetary grinding wheels, Figs. 5-8 are intended to make the device function, wherein Fig. 5 with a schematic perspective view shows the relative movement between the rotating the grinding wheel and the planetary disks, Fig. 6 shows an axial section through the device according to Fig. 5, Fig. 7 shows in person a part of a movable grinding wheel and a planetary disk, which for the sake of clarity, was drawn transparently, so that a the existing fiber bundle becomes visible, and Fig. 8 shows on a larger scale that in fig; 7 visible fiber bundle.

The device shown in Figs. 1a and 1b comprises a control conventional drive assembly 10 for driving a rotatable ring formig malakiva ll. This comprises a plurality in a wheel 12 attach ring sector-shaped grinding means 13. The wheel 12 has a central, approximately conical portion 14, which is provided with a screw 7965449-0 linear feed barriers 15. The hole 12 is arranged rotating within a housing 16, which has an outlet 17 and is divided into a first part 18 and a second part 19. The two the parts 18 and 19 have cooperating flanges 20 and 20, respectively. 21 and corresponding bolt holes 22 resp. 23, so that housing components can be tightly joined into one unit (Fig. 2).

The second housing part 19 has a recess 24 for the wheel 12 conical portion 14. The recess 24 is also helical continuous feed barriers 25. The recess 24, which turns into a linear connection portion 26 for a supply pipe, forms with its feed booms 25 together with the conical 14 and its feed bars 15 an input means with from the cylindrical portion 26 towards the housing 16 tapered annular gap, in which a first decomposition of entered goods.

In the middle of the housing part's 18 rotatable grinding wheel ll the housing part 19 a fixed and with the grinding wheel 11 coaxial, ring-shaped grinding wheel 27, which also consists of a plurality of ring sector made grinding means 28, which are suitably attached to the housing part 19.

To date, the described device corresponds in all essentially a conventional grinding device or refiner.

Unlike such a device, however, a device according to the invention one or preferably several, rotatably the rotatable grinding wheel 11 planetary, rotatable removable grinding wheels 29, which will continue to be is called "planetary disks", while in analogy therewith the rotatable the disk ll will be referred to as the "solar disk" and the end disc 27 "corona disc".

In the exemplary embodiment shown in Fig. 1b, all net discs 29 arranged with their axes of rotation on one and the same ma circle and with equal division. Of course, it is also possible to arrange the planetary disks at different radial levels in holding to the center of the solar and corona disks. IN In the embodiment shown, each grinding member 28 is seen with a planetary disk 29. Alternatively, e.g. only every other grinding means be provided with a planetary disc. 7995449-0 As can be seen in particular from Fig. 2, a planetary disk 29 recessed 1 a circular recess 30 in a grinding member 28 in the housing part 19 and rotatably supported by a shaft 31, which extends through the housing part 19. The shaft 31 is drive-connected with an engine 32.

For adjusting the planetary disc 29 1 axial joint is 1 the example shown is the motor 32 flanged with an external threaded, flanged sleeve 33, which is screwed 1 correspondingly internal threads 1 projecting from the housing part 19, shaped part 34.

By turning the sleeve 33 relative to the housing part 19 thus the planetary disk 29 can be displaced by axial joint 1 and for setting relative to the grinding means of the corona disk 27 28.

The shaft 31 is mounted in the sleeve 33 with bearing 35 and sealed against the housing part 19 with seals 36. _ For easier installation, maintenance, etc. is appropriate each planetary disk unit, ie planetary disk, drive motor, shaft, etc., as a unit detachable from the housing part 19. In the example shown This has been achieved by the shaft 31 and the sleeve 33 are arranged in a housing part 19 recessed and at the same fasteners 38 attachable by screws 37.

For setting the malt pressure load is in a known manner the solar disk ll axially adjustable through its axis 39.

The function of the device will now be elucidated with reference to Figs. 5-8. In a known manner, goods are introduced centrally in 1 device. and is subjected to a first decomposition in the tapered the gap between the conical portion 14 of the wheel 12 and recess 24 in the housing part 19. Hereafter the moth comes in between the grinding member 13 of the rotating solar disk 11 and the fixed corona the grinding means 28 of the disc 27, 1 which are recessed planetary discs 29, which are so adjusted that they are 1 plane with the corona disk 27. At stationary planetary disks 29, the machining the gap between the solar disk and the corona disk becomes 1 largely conventional, but if the plates arranged according to the invention the net discs are set in rotation, the grinding material is exposed to one 2S_ 7905449-0 "twist" movement, which on a fibrous material produces a spin-up fiber and other materials a 'twist-crushing' effect. As an example, Fig. 7 and on a larger scale in Figs. 8 how a bundle of fibers 40 at in opposite directions of rotation (arrows 41 and 42 respectively) rotating solar disk ll and planetary disk 29 "Twisted" under the influence of the two directions of movement. In it shown position, the fiber bundle in Fig. 8 is partially obscured, "distant" part in contact with the grinding member 13 of the solar disk and thus moves to the right of the figure, while its 'hotter' part is relatively tubular to the left, but mainly downwards due to the contact with the planetary disk 29 in this position downwards in Fig. 7 movable portion.

For counter-rotating solar disk and planetary disk (such as 1 fig. 7) gives the invention the great advantage of not being finished waste, ie too large particles, at the encounter with a planetary disk will be inserted by it towards the solar disk and the corona the center of the disc (downwards in Fig. 7) for further processing.

In this way, a uniformly processed product is obtained to a high degree.

The material will also not be exposed to more action than necessary, which in turn entails significant energy savings.

According to the invention, the planetary disks 29 can be driven in any direction of rotation (Fig. 5) relative to the rotatable the solar disk ll or in alternating directions of rotation. Then it can for example in some cases it may be desirable to drive every other planet disc in right turn and every other turn in left turn. Planetary disks their speeds can also vary from one another.

The material and surface condition of the planetary disks can vary according to the goods. In some cases it may be appropriate with a surface condition with gutters and elevations according to fig. 4, i.e. corresponding to the grinding means 28. In other cases, the planetary vor 29 'of grindstone material (Fig. 3) may be preferred. IN This latter material has the advantage of being planetary disks then becomes self-cleansing.

Claims (3)

7905449-0 P A T E N T K R A V Grinding device with a fixed grinding wheel (27) and one with this coaxial, rotatable grinding wheel (II), both grinding wheels being provided with cooperating grinding surfaces, characterized in that the grinding surface of the fixed grinding wheel (27) consists of a stationary main part ( 28) and a plurality of individually drivable malyte parts (29) recessed in the main part in any direction of rotation. Grinding device according to claim 1, characterized in that each individually drivable grinding part is axially adjustable relative to the main part of the grinding surface of the fixed grinding wheel (27). Grinding device according to claim 1 or 2, characterized in that each individually drivable grinding part is included in a unit detachable from the device, which consists of a separate grinding wheel (29), which is recessed in the fixed grinding wheel. van (27), a drive shaft (31), a cover (38) attachable to the grinding device housing (19), a bearing sleeve (33) and a drive motor (32) attached to the bearing sleeve, the bearing sleeve (33) being displaceable relative to the cover by means of threads (38).