US2024073A

US2024073A - Roll and bar grinding mill

Info

Publication number: US2024073A
Application number: US740575A
Authority: US
Inventors: Sonsthagen Asbjorn
Original assignee: Individual
Current assignee: Individual
Priority date: 1933-03-17
Filing date: 1934-08-20
Publication date: 1935-12-10
Anticipated expiration: 1952-12-10

Description

A. SONSTHAGEN ROLL AND BAR GRINDING MILL 2 Sheets-Sheet 1 Filed Aug. 20, 1934 INVENTOR ATTO RNEY Dec. w, 935.

A. SONSTHAGEN ROLL AND BAR GRINDING MILL Filed Aug. 20, 1934 2 Sheets-Sheet 2 INVENTOR RN SOA/STHHGEA/ ATTORNEY Patented Dec. 10, 1935 UNITED STATES PATENT OFFICE Application August 20, 1934, Serial No. 740,575 In Great Britain March 17, 1933 2 Claims.

This invention relates to apparatus for grinding material in a more or less viscid condition and refers primarily to mills of the kind in which the material is acted upon by a moving body, a

disc'or roller for example, with which is associated a stationary member which may comprise a'bar or a group of bars, beneath which the material passes whilst acted upon by the moving body.

The present improvements may also be employed in mills of the kind in which double or multiple rollers are employed.

It has been proposed, in order to improve the eiiiciency of mills such as those above referred to, to subject the material at the nip or point where it is entering the gap, to a considerable amount of pressure.

Where it is desired that the material shall be finely ground, it is necessarythat the gap or space between the grinding element shall be very small. In order to maintain an output, the fineness of which does not vary, it is essential that the spacing of the parts just referred to shall remain constant.

practice, however, it is found that due to distortion or wear, the accuracy of the original setting cannot be maintained for any considerable period of time-and frequent truing of the parts is necessary.

Bhe present invention has for its object certain improvements designed to overcome the aforesaid difliculties and by means of which it is possible to retain-the parts in their desired adjusted'position so that the standard of fineness of the material passed through the mill is readily maintained.

According to the present invention, in order to overcome the aforesaid objections, fluid actuated means are provided whereby one member or a group of members can be subjected to pressure "urging it towards the cooperating member in a manner such that the desired gap for the passage of the material is preserved under all conditions of wear or distortion.

In the case where the length of the bar is coir'iparatively great as, for example, where a comparatively long roller is employed, the dimculty of maintaining a gap of constant width may be due to flexure of the said roller. On the other hand, with a short roller no flexing thereof takes place, but the fault may be due to wear of the baror the roller itself or its bearings or heating of the parts.

In such a case as that first above referred to the bar is preferably so constructed that it may flex or bend.

The original setting may provide a gap of only a fraction of one thousandth of an inch up to a few thousandths, and this flexible bar must be kept firmly up to its work without any yield to increase the width of the gap during the per- 5 formance of its'work.

The fluid actuated means may comprise a simple arrangement of hydraulically operated plungers bearing against the back of the bar.

A pressure gauge would be provided and pro- 10 vision made for regulating the pressure with which the plungers bear upon the bar.

In order that the invention may be the better understood, it will now be described with reference to the appended drawings, in which:-

Fig. 1 is a part diagrammatic view of a machine embodying one form of the present invention.

Fig. 2 is an end view of the bar and its associated parts.

Fig. 3 is a transverse section to a larger scale than that of Figs. 1 and 2 taken upon line A-'-A, Fig. 2.

Fig. 4 is a transverse section to the same scale as that of Fig. 3, taken upon line 3-3 of Fig. 2. 25

Fig. 5 is an end view showing an'arrangement whereby a plurality of grinding bars are employed in conjunction with a roller.

Fig. 6 shows a modification of the arrangement shown in Fig. 5.

Fig. 7 is a sectional plan showing a plurality of grinding bars applied to a disc.

Fig. 8 is a front view of the arrangement shown in Fig. 7.

Fig. 9 is a frontview showing a modification of the arrangement according to Fig. 8.

Fig. 10 is a sectional plan of the arrangement according to Fig. 9.

Fig. 11 is a sectional view of a roller capable of flexure in the direction of its length.

Referring to the-accompanying drawings, Figs. 1 to 4, l indicates the bar which cooperates with the moving body, which, in the present instance, is assumed to be a roller, indicated by -2, al-

though, as previously stated, the invention is equally applicable to disc or other'mills.

As already stated, one member or a group of members may be adapted to act as the flexible member and for practical purposes, as will be readily understood, it is more convenient that the bar should act as the flexible member. As hereafter :explained, however, the roller may form the flexible member.

One method of treating the bar to provide the desired flexibility is shown in Fig. 3, on reference to which it will be seen that the bar is provided with a number of cuts la extending inwards from the back of the bar for a convenient distance. The number of cuts, and the depth thereof may be varied as may be found necessary or desirable, it being understood that the degree of flexure is actually very small.

The bar is provided upon the front or that side on which the material enters the machine with a longitudinally disposed web or vane lb, the face of which is inclined so that there is a gradually decreasing space leading to the nip, that is to say, the point where the material actually passes between the active faced the bar and the surface of the roller or other moving body.

4 indicates a bridge piece carrying the bar I, the ends of said bridge piece being attached to the frame 4a of the machine by means of the screws 4b and nuts 40.

A method of attaching the bar to the bridge piece is clearly shown in Figs. 2 and 4. on reference to which it will be seen that the bridge piece is provided upon its inner face with a longitudinally disposed channel or recess 5. The bar I is of substantially L-shaped cross-sectional outline, the base of the bar, indicated by l, fitting withinthe aforesaid channel 6. The bar is held in position by means of a wedge 8, for which a recess 9 is provided, said wedge having one face bearing against the adjacent surface of the bar I and being drawn into and held against displacement in its recess by means of screws l0 secured at one end to the back of the wedge, and for which screws nuts I l are provided.

In order to force the bar against the active surface of the roller, hydraulically operated pistons, indicated by l2, are provided, each working in a cylinder l3 formed upon the bridge piece. Each piston is provided with a rod M, the

outer end of which engages the rear edge of the base of the bar I.

The cylinders, in the arrangement illustrated and the bar or bridge piece, are shown as a unitary structure, but under some circumstances it may be found desirable to employ independent cylinder units located at the desired points along the length of the bar, the pressure applied by each piston being the same or varied, as desired.

According to the arrangement illustrated, the necessary pressure is supplied by means of the pump l5 connected by the pipe IE to the casing l1, upon which is provided a pressure gauge Ill. The casing has connected to it a pipe I 9, to which are connected the two cylinders, one being in series with the other and being provided with inlet and exhaust ports indicated respectively by 20 and 2|. The exhaust or return pipe is indicated by 22, said pipe communicating with a passage in the casing II, a pipe 23 leading from said passage to the pump inlet. The pipes l5 and 23 are connected at 24, a cock 25 being provided as shown. By this means it is possible to regulate or release the pressure with which the bar is forced against the active surface of the I width of gap for a certain material can be eX-fl pressed in terms of pressure. If, therefore, the width of gap necessary for treating any particular material is known, it is possible, by regulating the pressure, to secure the desired width of the gap. 5

It will be understood that in practice, when the mill is working, the compressed material is tending to force the bar away from the moving body, the limit of the bars movement away from the surface cooperating therewith determining the 10 working width of the gap.

As previously stated, the flexible member may be the roller, and in order that this may be so, the roller or the shaft carrying it, may be so weakened as to permit it to flex. 5

For example, as shown in Fig. 11, the inner surface of the roller may be scored at intervals throughout its length. In the drawings, as indicates the internal circumferential grooves or scorings. 20

Examples of arrangements designed to secure the above results are shown in Figs. 5 and 6, in which, for the sake of simplicity, only the bar, its support 4 and the roller 2 are shown. In Fig.

5 the pressure applied to the roller by the bar I 25 at one point is balanced by arranging a second bar at a point diametrically opposite to said bar I.

In Fig. 6 three bars are provided, disposed at equidistant intervals around the circumference 3 of the roller 2. The number of bars could be increased where the roller is of large diameter, but in all cases they would be so disposed that pressure applied by one bar is more or less met or balanced by the pressure of the other or others, 5

as the case may be.

The system of balancing pressures such as just described may, with equal advantage, be extended to disc mills, and in Figs. 7, 8, 9 and 10 are illustrated various arrangements whereby pressure 40 acting upon one side of the centre line of the disc w and tending to cause it to, as it were, rock in its plane of rotation, can be counteracted. Thus, in Figs. 7 and 8 a plurality of bars are provided which all act upon the face-of the disc, but they 45 are so disposed that instead of a local pressure acting upon the disc upon one side of the centre thereof, there is an even pressure which, in eifect, is distributed over the whole surface of the disc.

In the examples justdescribed, the pressure is acting upon one side of the disc only and tending to thrust it backwards.

For practical purposes, this pressure is inconvenient and may necessitate a construction which will cause the machine to be unnecessarily heavy and cumbersome.

In the arrangement shown in Figs. 9 and 10, the difiiculty is met by using both sides of the disc and providing bars upon both sides of the said disc. The number of cylinders and pistons will, of course, depend upon the length of the bar or the diameter of the disc as the case may be.

It is obvious that the automatic arrangement must provide for the application and the maintenance of a steady pressure towards the gap and firm rigidity in the opposite direction.

.The desired rigidity in the opposite direction must take into account compensation for wear and of step by step adjustments to maintain a certain amount of grinding pressure.

The flexibility of the grinding bar makes it possible to true it up on the straight portion and afterwards flex it to take the shape of the worn of individual units, the said units would be so connected as to ensure a uniform pressure in the whole system.

For grinding purposes such as here referred to, it should be remembered that the amount of fluid to be moved to operate the bar can be reduced to a very small amount. With suitably designed apparatus only a few cubic inches of fluid will be required for this purpose. In certain instances it may be of advantage that the plungers do not move until the load reaches a predetermined point.

For grinding machines which need very little movement of fluid, pumps may be dispensed with, as it is possible, by simple means, to force a plunger into the pressure chamber, to place the fluid under the desired pressure.

To maintain the pressure under conditions of slight leakages, an air cushion may be provided.

When the grinding bar acts against a roller, the pressure will be uniform for each plunger, as every inch of the length presents the same surface per revolution.

With a disc, however, such is not the case as it presents more surface, as the radius is increased, reaching its maximum at the periphery.

In the latter case, the plungers have to be adjusted in their relation to each other to correspond to this fact so as to secure the same film thickness in the whole length of the grinding bar.

It is within the scope of the present invention to provide means to meet this requirement.

As applied to multiple roller mills or refiners, the pressure between the grinding surfaces could be obtained by the application of the pressure producing devices to any one or more of the rolls.

I claim:

1. A grinding machine for paint and the like 5 comprising a rotary cylindrical member and a fixed bar in contact therewith, forming a grinding nip therebetween, said bar being provided with a plurality of slits extending inwardly from the face of the bar remote from the cylindrical member, said slits extending in planes transverse the length of the bar, thereby rendering said bar flexible along the length of its nipping contact, and means for constantly flexing said bar along its nipping contact length to constantly urge said bar to maintain said nip and to adjust itself to the wear of the nip contacting faces of said grinding members.

2. A grinding machine for paint and the like comprising a rotary cylindrical member and a fixed bar in contact therewith, forming a grinding niptherebetween, said bar being provided with a grinding portion extending continuously along the cylindrical member and. being further provided on the side remote from the cylindrical member with an integral rib extending longitudinally of the bar and having spaced slits transversely of its length thereby rendering the bar flexible along the length of its nipping contact, and means for constantly flexing said bar along its nipping contact length to constantly urge said bar to maintain said nip and to adjust itself to the wear of the nip contacting faces of said grinding members.

ASBJORN SONSTHAGEN.