US2745223A

US2745223A - Grinding drum

Info

Publication number: US2745223A
Application number: US413613A
Authority: US
Inventors: Jr Harry A Toulmin
Original assignee: Commonwealth Engineering Company of Ohio
Current assignee: Commonwealth Engineering Company of Ohio
Priority date: 1954-03-02
Filing date: 1954-03-02
Publication date: 1956-05-15
Anticipated expiration: 1973-05-15

Description

H. A. TOULMIN, JR

GRINDING DRUM May 15, 1956 Filed March 2, 1954 Q q; s-

IN V EN TOR.

HAPPY A. TOULMl/V, J4

WK qhw ATTORNEYS y 1956 H. A. TOULMIN, JR 2,745,223

GRINDING DRUM Filed March 2,, 1954 2 Sheets-Sheet 2 INVENTOR.

HARQVA. TOULM/N, m

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147 T ORNEYS GRINDING DRUM Harry A. Toulmin, Jrg Dayton, Ohio,-assignor, by mesne assignments, to The Commonwealth Engineering Company of Ohio, Dayton, Ohio, a corporation of Ohio Application Mai-c112, 195d, Serial No. 413,613, 3 Claims. (Cl. 51- 190) The present invention relates to an abrasive strip and the method of making the same, more particularly to):

a replaceable abrasive strip which is detachably mounted upon a light-weight frame to form a lightweight grinding wheel. I

In industry the grinding of a surface in order toachieve a desired finish is a very common operation The con-- that considerable economies may ventional grinding operation is accomplished by using 1 a vitrified grinding wheel. This is a solid heavy wheel wherein a suitable binder serves to hold together a quan-" tity of abrasive materials in the form of a wheel. Another form of grinding wheel which is commonly used is comprised of rubber with abrasive materials such as garnets or the like interspersed in the rubber. Because of their solid construction, both types of wheels are heavy. Because of their weight certain problems are introduced in the construction of the grinding machine.

In order to suitably support a vitrified grinding wheel, a heavy arbor or disc wheel, or'some other means of support, must be used. Consequently, the total weight of the grinding wheel plus the arbor will comprise a considerable portion of the entire weight of the grinding machine. i

In addition, heavy bearings must be employed so that the grinding wheel shaft may be accurately rotated therein. For certain sizes of grinding wheels it is necessary that bearings be employed to support both ends of the grinding wheel shaft. 'The size of the bearings is also dictated by .the fact that a heavy grinding wheel will induce a gyroscopic action in the grinding wheel shaft. Consequentlyit can be seen that important economics can be achieved if the weight of the grinding wheel itself:

' vtically aligned abrasive particles.

The abrasive particles are carried by the plastic coating and are arranged so that they are aligned vertically on the surface of the abrasive band. The abrasive band can be made in either a strip or in the form of a sleeve. This sleeve may then be cut into sleeves of appropriate widths.

This invention further discloses the method of making an abrasive band employed in the grinding wheel disclosed in this invention. When following the teachings of this invention, an extremely light-weight abrasive band is obtained. When this band is mounted upon an aluminum cylinder which is in turn supported by an expansible frame, it can be seen that an extremely light-weight grinding wheel is obtained. The use of this light-weight grinding wheel eliminates the need for heavy supporting structure. This includes an arbor, shaf and supporting bearings. erably lighter than the conventional vitrified grinding In addition, as this grinding wheel is consid ling wheel of this invention, it is necessary only to replace the abrasive band. The abrasive band is detachably mounted upon the frame of the grinding wheel. 's'equently, renewing abrasive bands may be quicklyfand easily accomplished. Thus it can be seen that it is notnecessary to replace the entire grinding wheel but mere;

ly to renew the abrasive band. As abrasiveba'n'd s are.

2,745,223 Patented May 15, 1 956 wheel it would not be necessary to use bearings to support the grinding wheel shaft on both side's-of the grinding wheel. However, it is pointed out that if agrinding wheel-of extreme width is used, it may be necessaryto support both ends of the shaft'by bearings. These bearings, however, will be light in construction andfhence will be inexpensive.

The process by which the abrasive band disclosedi in this] invention is made is extremely simple and inexpensive It is desired to make this process inexpensive. so that th abrasive bands may be expendable. Consequently, whenit is necessary to renew the grinding surface of the/grind Con abrasive band and the aluminum cylinder The abrasive band disclosed in thi -members t limited to industrial operations. The held of low-pressure grinding of precious and semi-pre'cioi'is metals especially suited for the employment of this invention. 7 It can therefore be seen that this invention will provide for considerable economies in both weight and costof grinding equipment. i

It is therefore the object of this invention ,to provide an inexpensive, light-weight grinding wheel.

It' is another obejct of this invention to provide a grinding wheel in which the grinding element is adetachably-mounted, replaceable abrasive band. p

It is still another object of this invention to provide a grinding wheel having a light-weight, expansiblesupport ing frame which carries a detachably-mounte'd, replaceable abrasive band. I y p p It is yet another object of this invention to provide an inexpensive abrasive band. i

It is a further object of this invention to providean abrasive band comprising a fabric-like base upon which are placed plastic coatings to carry a plurality of, ver- It is a still further object of thisinventi on to provide a flexible abrasive band in which the abrasive particles are mounted in plastic coatings.

It is an additional object of this invention to provide a method of making an inexpensive abrasive band which may be readily mounted and replaced upon 'a grinding wheel frame. 1 f

It is yet a further object of this invention to provide a method of making an abrasive band whereina'plurality of vertically-aligned abrasive particles are carried in plastic layers coated upon a fabric-like base.

Other objects and advantages of this invention will become readily apparent when reference is made to the accompanying description when taken in conjunction with the following drawings, wherein:

Figure l is a perspective view of a light-weight grinding Figure 3 is 'a sectional view taken along the line 33 in Figure 2;

' Figure 4 is a sectional view taken along the line 4- 3 of Figure 2;

Figure 5 is a schematic perspective view of the apparatus used in making the abrasive bands disclosed in this invention; A

Figure 6 is a perspective view of the supporting cylinderemployed in the grinding wheel disclosed in this invention;

Figure 7 is a perspective view of an abrasive band made in the form of a sleeve, and showing the manner in which this sleeve may be cut to form sleeves of desired widths; and

" Figure 8 is a perspective view illustrating another embodiment of the supporting frame for the grinding wheel of this invention, wherein grooves are provided to circu-,

late a'coolant between the abrasive band and the supporting cylinder.

Returning now to Figure 1, wherein like reference characters indicate the same parts throughout the various views, 10 indicates generally a grinding wheel constructed in accordance with this invention. The grinding wheel 10 comprises a supporting cylinder 11 which has a longitudin'ally-extending slit 12 in the wall thereof. The supporting cylinder 11 is preferably made of a light-weight metal such as aluminum. An abrasive band 13 is detachably mounted around the supporting cylinder 11. The abrasive band 13 will later be described in considerable detail. A suitable expansible frame 14 is positioned within the supporting cylinder 11 so that the supporting cylinder 11 is mounted upon the expansible frame l4. The expansible frame 14 is adapted to be rotatably mounted upon a grinding wheel shaft 15. It is preferable that the expansible frame 14 be also made of a light-weight metal, such as aluminum or the like. The expansible frame 14 may be of a type wherein legs are threadedly received within the spokes of the frame and a nut engages the threaded portion of each leg to vary the expansion of the frame. It is pointed out that there are several suitable expansible frame or spiders on the market, any of which may be used to support the cylinder 11. v

Proceeding now to Figure 2, there is illustrated therein the abrasive band 13 with portions of the band cut away. It is to be understood that the vertical dimensions of the band as illustrated in Fi ure 2 are greatly exaggerated so that the structure of the band may be clearly shown.

1 gradually wear away.- As the second plastic layer 19 is Imatically therein the apparatus used for manufacturing the The abrasive band 12 comprises a flexible base 16 made of a fabric-like material. The flexible base 16 is preferably a band of glass fibers. However, it is to be understood that other material may be readily used in place of glass fibers. Materials such as asbestos, mineral and rock wool, and high-temperature and high abrasive bands of nylon or Dacron may be satisfactorily utilized.

A layer of plastic material 17 is coated on the flexible base 16. The plastic layer 17 is preferably composed of a tough, flexible, and softresin. Other materials which may be satisfactorily employed are rubber, synthetic rubher, or polyvinyl acetate. The plastic layer 17 is a nonwearing coat. The plastic layer 17 primarily serves as a base for a plurality of abrasive particles 18, which are secured in vertically upright positions in the plastic layer 17. As shown in Figure 4, the plastic layer 17 has a thickness of approximately one-half the length of the abrasive particles 18. A second plastic layer 19 is coated uponthe first plastic layer 17. The plastic layer 19 is of such a depth that the abrasive particles 18 are virtually covered. Only the extreme tips 20 of the abrasive particles protrude from the plastic layer 19.

The plastic layer 19 is a wearing coating. Consequently, it is preferable that the plastic layer 19 be formed of a hard resin. Rosin, or rosin modified, would also be suitable for use as the plastic layer 19. Other materials such as phenol formaldehyde and urea formaldehyde would alsobe suitable for use as the second plastic layer 19. It

considerably softer than the abrasive particles, the plastic layer will wear before the abrasive particles. Consequently, the extreme portions of the abrasive particles 18 will continuously project above the surface of the second plastic layer 19. When the second plastic layer 19 has completely worn away, as indicated by the appearance of the first plastic layer, then the abrasive band may be readily replaced by another band.

Proceeding now to Figure 5, there is illustrated scheabrasive band 13. The material which is to form the flexible base 16 is unwound from a roll 21 and placed upon a conveyor belt 22. The flexible base 16 first passes beneath a container 23 which holds a quantity of plastic material. This plastic material is coated upon the flexible base 16 to form a first plastic layer 17. The plastic material also impregnates the flexible base 16. By the impregnation of the flexible base 16 with this plastic the strength properties ofthe flexible base 16 are greatly increased. v

The plastic coated flexible base then passes beneath a hopper 24 which contains the elongated abrasive particles 18. The abrasive particles 18 are uniformly scattered upon the plastic coated flexible base. As shown at 25, the positions of the abrasive particles are not uniform. Consequently the flexible base 16 proceeds through a strong magnetic field induced by the apparatus 26.

' The strong magnetic field set up by the apparatus 26 serves to align the elongated abrasive particles into upright positions. With the abrasive particles in upright positions, the flexible base is then passed into a heat treatment apparatus 27. The plastic coated flexible base is then baked in the heat treatment apparatus 27 to harden the plastic coating. The plastic layer 17 is preferably converted into a thermo-setting plastic so that it will be better able to resist high temperatures.

It is pointed out that under some conditions it may be necessary to extend the magnetic apparatus 26 into the heat treatment apparatus 27. Some heat-treating operations may also require that the magnetic field be continuously passed through the abrasive particles while they are in the heat treating apparatus 27. This will also insure that the abrasive particles will be secured in upright positions when they emerge from the heat treatment apparatus.

Upon emerging from the heat treatment apparatus 27, the flexible base 16, which now has a plastic layer 17 together with vertically upright abrasive particles 18 secured therein, is passed beneath a container 28. The container 28 holds a plastic material which is to form the second plastic layer 19. As indicated above, this plastic material is preferably a hard resin. The plastic material in the container 28 is spread over the flexible base 16 to such a depth that only the extreme tips 20 of the abrasive particles 18 protrude above the surface of the second plastic layer 19. After this second plastic layer 19 has been applied, the flexible base is then conveyed through a second heat treatment apparatus 29. In the heat treatment apparatus 29 the plastic which was applied from the container 28 is hardened and formed into a thermo-setting plastic so that it may be able to resist the high temperatures and heavy abrasion. Upon emerging from the heat treatment apparatus 29, the process of manufacturing the abrasive band 13 has been c0mpleted. The completed abrasive band 13 is then wound about a suitable drum indicated at 30.

It is to be noted that the abrasive band as made in the manner previously described emerges in the form of a strip. The strip may be cut to desired widths and suitably attached to the supporting cylinder 11 illustrated in Figure 6. Any suitable adhesive material or cement may be used to secure the abrasive band to the supporting cylinder 11. it is pointed out that either the manufacturer or the ultimate user of the abrasive band may mount the abrasive bands upon the supporting cylinders 11. In the former event the ultimate user will obtain an assembled grinding wheel as illustrated in Figure 1, Whereas in the latter event the user procures the abrasive band in strip form and mounts the band on the job site. The course to be followed will usually be determined by the economies involved.

It is also possible to manufacture the abrasive band 13 in the form of a sleeve; When manufactured in the form of a sleeve, the same apparatus as illustrated in Figure 5 is used, but is arranged in a somewhat different manner. The ultimate arrangement of the apparatus will depend largely upon the diameter of the sleeve of the abrasive material. In this process the flexible base 16 is made in the form of a sleeve, and the various components of the abrasive band are then successively applied to the sleeve-like flexible base substantially in the manner described above.

When the abrasive band is made in the form of a sleeve, the sleeve may then be cut to desired widths. This is indicated in Figure 7, wherein a sleeve-like abrasive band 31 is being cut by a cutting tool 32 into a desired Width. This cutting process may be either carried out at the site of manufacture of the abrasive band, or the ultimate user of the abrasive band may obtain the abrasive bands in sleeve form and then cut them down to his required widths. 1

After the sleeve-like abrasive band 31 has been reduced to the required width, the reduced section indicated as 33 in Figure 7' is then placed upon a supporting cylinder 11 indicated in Figure 6. The supporting cylinder 11 is then mounted upon an expansible frame 14. The expansible frame 14 is then expanded so as to slightly increase the diameter of the supporting cylinder 11. This increase in diameter of the supporting cylinder 11 will cause the abrasive band positioned thereon to be tightened in place. A suitable adhesive or cement material may be used to additionally secure the abrasive band to the supporting cylinder.

In some grinding operations it may be desirable to further cool the grinding wheel when in operation. One manner in which this may be done is by circulating a coolant between the abrasive band 13 and the supporting cylinder 11. To this end a. modified supporting cylinder 34, as illustrated in Figure 8, may be used. The modified supporting cylinder 34 has a helical or a continuous groove 35 cut in its outer cylindrical surface. A suitable coolant is then circulated through the helical groove 35. The coolant may be conveyed through the helical groove 35 in any one of several different ways. As an example which is indicated in the drawings, the hub of the expansible frame 14 is made hollow and is secured upon a hollow shaft which is suitably journalled. A suitable tubelike member could then connect the hub of the expansible frame with the helical groove 35. A second tubelike member is used for the return of the coolant from the helical groove to the hollow shaft. A pump is used to maintain circulation of the coolant which may be a liquid.

Thus it can be seen that this invention provides an improved form of an abrasive band. It is pointed out that by slight modifications in the above-described process it is possible to obtain an abrasive band which may be used to cut various shapes. To do this, the flexible base 13 should be made of glass fibers which would be molded into a desired shape. Consequently when the resins and abrasive particles are applied to this molded glass fiber base, it may be seen that an abrasive band is obtained which has a transverse configuration other than that of the 7 conventional flat abrasive strip. Consequently this invention provides not only an abrasive band which may be rapidly changed on a grinding wheel frame, but also an abrasive band which may be used to grind various shapes.

It will be understood that this invention is susceptible to modification in order to adapt it to different usages and conditions, and accordingly it is desired to comprehend such modifications within this invention as may fall within the scope of the appended claims.

What is claimed as this invention is:

1. A grinding wheel comprising a resilient metallic supporting cylinder, an expansible supporting frame positioned within said cylinder, an abrasive band mounted upon the outer surface of said cylinder, and continuous grooved means on said cylinder for circulating a coolant between said cylinder and said band.

2. In combination, a metallic supporting cylinder, an expansible frame positioned within said. cylinder, a replaceable abrasive band detachably mounted around the outer surface of said cylinder, and continuous grooved means on said cylinder between said cylinder and said abrasive band for cooling said abrasive band.

3. A grinding wheel comprising a supporting cylinder, an expansible supporting frame positioned within said cylinder, an abrasive band mounted upon said cylinder, a continuous groove on the outer surface of said cylinder, and means for circulating a coolant fluid through said groove.

References Cited in the file of this patent UNITED STATES PATENTS 170,178 Locke Nov. 23, 1875 238,284 Hapgood Mar. 1, 1881 282,509 Fearey Aug. 7, 1883 285,559 Bishop Sept. 25, 1883 426,862 Ross Apr. 29, 1890 574,763 Rudolph]. Jan. 5, 1897 615,906 Richardson Dec. 13, 1898 675,915 Woods June 11, 1901 688,775 Fry Dec. 10, 1901 698,126 Miskolczy Apr. 22, 1902 1,208,501 Crocker Dec. 12, 1916 1,788,600 Smyser Jan. 13, 1931 1,854,071 Schacht Apr. 12, 1932 1,971,653 Leroy et al. Aug. 28, 1934 2,032,356 Ellis Mar. 3, 1936 2,046,122 Hunt June 30, 1936 2,073,167 Myers Mar. 9, 1937 2,100,780 Huhn Nov. 30, 1937 2,138,882 Robie Dec. 6, 1938 2,186,001 Bartling Ian. 9, 1940 2,201,195 Melton et a1 May 21, 1940 2,284,715 Benner et al. June 2, 1942 2,284,738 Hurst June 2, 1942 2,306,781 Francis Dec. 29, 1942 2,347,662 Carlton et al. May 2, 1944 2,410,536 Vonnegut Nov. 5, 1946 2,519,275 Mollica Aug. 15, 1950 2,539,844 Kingsbury Ian. 30, 1951 2,548,166 Larson Apr. 10, 1951

Claims

1. A GRINDING WHELL COMPRISING A RESILIENT METALLIC SUPPORTING CYLINDER, AN EXPANSIBLE SUPPORTING FRAME POSITIONED WITHIN SAID CYLINDER, AN ABRASIVE BAND MOUNTED UPON THE OUTER SURFACE OF SAID CYLINDER, AND CONTINUOUS GROOVED MEANS ON SAID CYLINDER FOR CIRCULATING A COOLANT BETWEEN SAID CYLINDER AND SAID BAND.