US2259475A

US2259475A - Apparatus for reconditioning engine cylinders

Info

Publication number: US2259475A
Application number: US328994A
Authority: US
Inventors: Emil A Koether
Original assignee: Koppers Co Inc
Current assignee: Beazer East Inc
Priority date: 1940-04-10
Filing date: 1940-04-10
Publication date: 1941-10-21
Anticipated expiration: 1958-10-21

Description

OctQZl, 1941." E. A. KOETHER APPARATUS FOR RECONDITIONING- ENGINE CYLINDERS 'Filed April 10, 1940 Gttornegs Patented Oct. 21, 1941 APPARATUS FOR RECO CYLI Koppers' Company, tion of Delaware Application April 10, 1940, Serial No. 328,994

NDITIO-NING ENGINE NDERS [Emil A. Koether, Baltimore, Md., assignor to Pittsburgh, Pa., a corpora- 4 Claims. (Cl. 51" 19o) This invention relates to a method of and means for reconditioning cylinder.walls of internal combustion engines. 1

In the past, when an internal combustion engine, particularly gasoline engines such as used 'in automobiles, showed evidence of oil pumping and loss of compression, the practice was to rebore or regrind the cylinders and insert new pistons and new rings. pensive, and required the installation of expensive machinery.

The next step in the development of the reconditioning art involved a honing operation designed to remove less metal from the cylinders than boring or grinding, in order to correct any taper and out-of-roundness which might exist. This method was also expensive and not entirely satisfactory, as in most instances a substantial amount of metal had to be removed from the cylinders and besides the additional expense new pistons were invariably then required.

Both the prior art methods have been largely supplanted since the development of flexible rings and expanders. The practice has been to use these rings as replacement rings in old pistons and to assemble the pistons with the new rings in the old cylinders without any treatment of the cylinders. Obviously, if the old pistons are to be used, the cylinders can not be enlarged by any machining or grinding operation.

The present invention is based on determination that in almost all cases the condition of the old cylinder walls is such that the new rings will not function properly without some form of treatment to the cylinder walls before the new rings are installed. Most frequently, when new rings are put into old cylinders thatare not reconditioned in some way, serious blowby takes place and this results in subsequent wear, and also scoring of the rings and cylinders invariably occurs. Slight scratches in theold cylinder walls, and adherent layers of carbon. and socalledcylinder varnish," which is a deposition the cylinder walls believed to result from partly burned oil, all exert a harmful action on the new rings and prevent their burnishing and seating properly in any reasonable operating period. Another frequent cause of trouble are the glazed surfaces which are common in used cylinders, and these glazed spots usually. protrude slightly above the adjacent surfaces. pass over these spots they receive quite a shock and are forced away from the cylinder which causes blowby and excessive oil consumption. 56 composed of felt-like material.

The procedure was ex Whenthe rings They also prevent the rings from seating-in properly in any reasonable operating period.

The present invention provides a simplev scheme for cleaning and builing the cylinder walls by the use of a flexible expansible tool which may be driven by an ordinary electric drill stock and which requires no special guiding structure or fixtures.

The invention provides a bufiing head' which, when properly operated, will 'recondition the cylinder in about sixty (60) seconds and has a useful life of about fifty (50) to sixty (60) reconditioning operations, which, when considering the average automobile of six cylinders, is normally over three hundred (300) cylinders.

Broadly considered, the invention contemplates a buffer which is freely expansible and cylinder sizes.

vet-like finish, but also hence may be used with a considerable range of It bufls or polishes the cylinder walls by rotary motion about an axis approximately concentric with the axis of the cylinder and by eliminating minor scratches and all deposits of carbon and cylinder varnish, produces a surface on the cylinder walls such that the new piston rings will seat-in in a relatively short period.

The operation does not contemplate the removal of any material amount-of metal from the cylinder walls, but is rather a hand-guided bufiing operation effective to remove foreign substances adhering to the walls of the cylinder..

Not only are the high spots and glazed surfaces buffed smooth to a velthe low spots and socalled bellies in the cylinder are thoroughly reconditioned. The surface produced on the cylinder walls is new metal and, therefore, clean and uniform throughout, and its velvet-like surface is ideal for the seating-in of new rings.

'The invention will now be described with reference to :the accompanying drawing, in which:

Figure 1 is a view partly sectional of the buffer head mounted in a chuck of an electric drill, a portion of the shank or stem being brokenaway to reduce the length of the view.

Fig. 2 is an end elevation ofthe bufling-tool shown in Fig. 1.

Fig. 3 is a face view of one of the abrasive units.

Fig. 4 is an edge view of the unit shown in Fig. 3.

Fig. 5 is an end view of 'the unit shown in Fig. 6 is a face view of a wiper unit, preferably in the cylinder surfaces Fig. 7 is an end view thereof.

Fig. 8 is a face' view of an alternative form of wiper unit composed of canvas or like fabric with an internal metallic stiffener.

Fig. 9 is an end view of the unit shown in Fig. 8.

In Figure 1, H represents the housing of an electric motor drill, and I2 represents the chuck thereof. In the chuck I2 is mounted a stem or shank l3 which is shouldered at E4 to receive a sleeve-like hub l5. The hub I5. is longitudinally slotted to receive a number of abrasive units generally indicated by the numeral IS, in Figs. 1 and 2, and shown in detail in Figs. 3, 4 and 5, and also a smaller number of wiper units generally indicated at ii in Figs. 1 and 2. These wiper units are preferably of the form shown in Figs. 6 and 7, but in lieu thereof, I may use a modified form, shown in Figs. 8 and 9.

It will beobserved that the slots are not radial but secant, so that the units project from the hub at an angle of perhaps twenty degrees (20) are approximately equal to the length of the 'hub l5. Each ply of abrasive cloth is slitted as indicated at 22, alternate slits being long and short, as clearly indicated in Fig. 3, so that each abrasive unit comprises a sort of brush in which the fingers corresponding to the bristles are staggered as to successive plies (see Fig. 4)

The abrasive material is cut back adjacent the ends of the clip I9, to give clearance for. the flanges 23 of the .retaining caps 24 which are assembled against the ends of the hub l4 after the clips l9 have been inserted in the slots. The parts are held in assembled relation by a castelaxially back and forth through the cylinder and in the course of about one minute will clean and impart a high polish to the cylinder wall, removing all coatings of carbon and cylinder varnish, but removing a negligible amount of metal. This leaves the cylinder walls in a condition which ensures rapid seating of the replacement rings.

The wipers l1, being stifier than the abrading elements l6, serve to center the bufling head. They also collect particles of abrasive and perform a secondary polishing action. Four such elements are satisfactory, but the number is subject to variation. They are arranged at approximately uniform intervals.

The slitting of the plies of the abrasive cloth and staggered arrangement of the slits give flexibility with support of one ply by the next. The alternate long and short slits prevent undue localization of fiexure and thus serve to increase the life of the unit.

A single unit can be used to recondition cylinders of various sizes (within reasonable limits) because the abrasive units and wipers are each flexible and are urged outward by centrifugal proximately uniform intervals around said head.

lated nut threaded on the end of the shank l3- and locked by means of a cotter-pin 26.

The units I! (see Figs. 6 .and '7) are mounted in clips 21, identical with the clips I 9, but the wiper blade I! is composed of a sheet of felt impregnated with rubber or other suitable materials. Consequently, it is flexible, but, as compared to the abrasive fingers, rather stifi'.

Other forms of wipers such as shown in Figs. 8 and 9 may be substituted for those shown in Figs. .6 and 7. In such case, the clip 21a is identical with those already described, but the wiper blade comprises a sheet of canvas or similanfabric lla folded around a flexible metallic stiffener 28 which is completely housed within the canvas and serves as a resilient element to hold the canvas wiper to its work.

To recondition the cylinder, the bumnghead is inserted into the cylinder after removal of the cylinder head and is rotated by operating the electric drill H. While it rotates, it is shifted fingers, the fingers in one ply being staggered relatively to those in adjacent plies.

3. A rotary buifing tool for reconditioning en'- gine cylinders, comprising a shank for mounting in'suitable rotating means; a head mounted on said shank; a plurality of brush-like elements.

projecting outward fromsaid head and each comprising a plurality of superposed plies of abrasive coated fabric slitted to form flexible fingers, the fingers in one ply being staggered relatively to those in adjacent plies; and flexible centering means comprising a plurality of relatively stifi flexible wipers interspersed among the brush-like elements at approximately uniform intervals.

around said head.

4. The combination defined in claim 1 in which the brush-like elements and wipers include clips which clamp the abrasive cloth or the wiper elements as the case may be, and said clips are re.- ceived in slots in the head and are there retained by flanged caps which confine the clips.

EMIL A. KOETHER.