DE1293000B - Electrolytic belt grinder - Google Patents

Description

1 2

The invention relates generally to an electrolytic The grinding belt 19 (FIG. 3) is preferably made of

table grinding machine and in particular a grinding an electrically conductive material, for example machine with a perforated belt and one made of a strip of a copper or aluminum overlay, by means of which an electrolyte with very little tissue, produced and has a multitude of Possible obstruction is moved, so that a 5 closely adjacent openings 21 on, through satisfactory grinding work with as little as possible an electrolyte can easily pass through, borrowed electrical voltage and without overheating These openings should be arranged so that they can be carried out. the entire surface of the workpiece evenly

The use and construction of electrolytic cover with electrolyte, even if the workpiece Belt grinders have been known for a long time, and io during the grinding work across the grinding belt many special designs are used. and is moved. They normally stretch

Among the difficulties in developing a wise over the entire surface of the abrasive tape, solder-like Belt sander include the correct len but at least one strip of the sanding belt feed and regulation of the electrolyte for the grinding of the cover, which is as wide as the width of the Zone. 15 workpiece is. The disturbance of the electrolyte by

The invention is therefore based on the object of regulating the sanding belt through it in the first place to create a belt sander, in which through the perforations, as described in more detail below a sufficiently continuous and adequate is described in the edition behind the grinding feed of the electrolyte are provided in the zone between the band, so that it is for the sake of Workpiece and the sanding belt of the sanding machine ao expediency is usually preferable that is maintained. perforate the entire sanding belt. The outside surface

This object is achieved by means of simultaneous 22 of the grinding belt 19 carries a covering from a Use of grinding material, which is electrically non-conductive in itself, in grinding devices, such as aluminum Features: nium oxide, silicon carbide or diamond scrap, wel-

a) one on the back of the sanding belt attached to the sanding belt in any conventional way arranged, with holes and with an over-way can be attached. It is important to ensure, Pressure chamber provided support plate for the fact that the particles forming the coating from the management of pressurized electrical outer surface of the sanding belt no more than about lytes between sanding belt and backing plate, 0.1270 mm (0.005 "), preferably about 0.0254 mm

b) a distribution of the holes over the 3 ° Φ, Ορη protrude and that this with the greatest possible all in the area of the grinding point uniformity should be the case if necessary Surface of the support plate, a satisfactory sanding belt can be made from one

,, ",, ..., non-conductive flexible material, such as heavy

c) an abrasive belt with holes, a _{cloth, which is perforated in a} suitable manner through the holes _{3g of the} electrolyte from the bores 3g and exiting on the back (against the support) of the support plate to the _electrically transmitting paint on the front of the belt can pass through. _{extends through the perforations} , as well as on his

Embodiments of the invention are in the workpiece facing front with a following description in connection with the suitable binder as well as a non-conductive one Drawings explained. It shows 40 abrasive grit is provided.

F i g. 1 is a partial elevational view of the invention. The housing 11 has a relatively

corresponding part of an electrolytic belt sander - weak support 26 (Fig. 2) on its front machine, surface that corresponds to the inner surface 27 of the front run 28

F i g. FIG. 2 is a partial view of the FIG. 1 of the grinding belt 19 shown is closely adjacent and to Grinding machine from the side, 45 this is parallel, with the front run in front.

F i g. 3 is an enlarged section along the line, preferably moved downwards. The edition of 26, the ΙΠ-ΙΙΙ the F i g. 1, which is used in conventional belt grinders

Fig. 4 can be a partial section along the line known support essentially similar, IV-IV of FIG. 3, has a large number of closely spaced,

F i g. 5 shows a section along the line V-V of the 50 relatively small openings 29. They are in F i g. 2 provided with a second embodiment of the plate that part of the support which the tenkonstruktion, grinding position of the workpiece is opposite. These

F i g. 6 a section along the line VI-VI of the openings cover an area that is slightly F i g. 5 rotated 90 ° clockwise, wider than the surface of the workpiece on which

7 shows a partial plan view of another 55 engaging the grinding belt. This area has to be something Embodiment of the invention. be wider if a reciprocating transverse

In the following, the invention will take place on the basis of a movement of the workpiece. In vertical Fig. 1 and 2, for example, the electrolyte-right direction, shown for example, begins the area of the openings see belt grinder 10 described in more detail. 29 at or slightly above the lower edge of the This has a central housing 11, which is on the upper 60 workpiece and extends slightly over the upper part a stand 12 is arranged, the further edge of the workpiece. The extent of the opening below of the housing a drive motor 13 gene over the upper edge of the workpiece addition wearing. On the housing 11 an upper roller 16 is lowered to a certain extent from the free one arranged quite adjustable, while a lower passage of the sanding belt from, so from the Ge roll 17 on the shaft 18 of the motor 13 to the rotational speed with which an aqueous liquid hung with this is arranged. The axially parallel arranged by the sanding belt under moderate pressure Rollers 16 and 17 are accessible from one end. The openings are disproportionate Band 19 surrounded by a uniform thickness. moderately small for a more complete and even

3 4

Gere distribution of the electrolyte to ensure the workpiece 47 so that the grinding zone is constantly

which emerges against the grinding belt and through this fresh electrolyte partly through direct flow

passes through. and partly by the movement of the sanding belt

The pad 26 can be supplied from any electrical source. The conductive material drips from the grinding zone, but it should be sufficiently resistant to wear and tear, partially due to its own weight, so that it moves through the grinding belt partially with the grinding belt 19 after no excessive abrasion. Tungsten Carbide in the bottom of the reservoir 39.
The pump 37 picks up other types of wear-resistant electrolyte collected by grinding through the basin 39 and conveys this through materials or coatings, the conduit 34 upwards into the chamber 33 with nen. back to such a pressure that the electrolyte

The exact arrangement of the openings 29 in the belt through the openings 29 in the support 26 is sufficient the support, which enters through the openings and from this through the openings 21 is taken can, if necessary, at a given in the sanding belt 19. The in this way through the This workpiece can be adapted by allowing electrolyte to pass through the grinding belt 19 the support 26 by a support of the requires a current flow between the workpiece and such type is replaced, or by the fact that the support, so that small particles of the workpiece the openings in an insert 26 a are provided in a manner known per se by electrolytic the one, which is removable from the support. Erosion. The main task of the

As in Fig. 3 and 4, there is a housing 31, 20 abrasive coating consists of the abrasive belt 19 of shallow depth at the rear of the support, with direct electrical contact with the for example, by means of screws 32, fastened to isolate which workpiece 47, while a secondary radio together With the perforated area of the opening, it appears that the decomposition layer 26 forms a small chamber 33 which is wiped away with the products of the electrical effect - openings29 communicates. The chamber 33 25 den.

is connected by a line 34 to a pump 37. A good electrolyte, which is supplied by one of the viebunds. This is with its suction side 38 with a len known types can be that of the Low-lying point of a collecting basin 39 connected to source 45 supplied voltage to a value of the one which is held below the lower roller 17- less than 10 volts when the thickness arranges and this as well as the lower part of the sanding 30 of the sanding belt 19 and the thickness of the sanding over belt 19 surrounds. The basin 39 extends precisely and evenly on the sanding belt Reaching far up and forward to which electrical power is and are within the specified limits, lyt to be able to intercept, which is under the conditions and the assigned structure of the notice the force of gravity and the downward movement of the inventive device can many different Strand 28 of the grinding belt from the grinding 35 dene forms for machining workpieces zoned moved down. have different shapes. For example, as in

A workpiece support table F i g is located on the stand 12. 5 and 6, a support 51 with a con-42 is shown preferably adjustable, e.g. B. with the help of a cave front surface 52 between the grinding belt arm 43 arranged so that its rear edge 44 main support rollers, for example the one shown in FIG. 1 at the front or outer surface 22 of the front 40 16 and 17 rollers shown. That Strand 28 of the sanding belt is closely adjacent, the front run 56 of the sanding belt 57 (FIG. 6), which in FIG however, is at a distance from this. The work- its structure to be similar to the sanding belt 19 The piece support table 42 is electrically conductive and can be used against the front surface 52 of the support 51 one side of a source 45 in one direction flow-pressed through the workpiece 58 resting on the connected to the electrical energy, which is mounted either 45 table 59. At table 59, for example, can be continuous or may be pulsating and preferably has a roller 60 as in FIG. 6 with dashed lines a constant current density represented by the workpiece lines, be rotatably mounted to the maintains cross-section. The other side of the sanding belt 57 also has to be energized against the support 51 is via a switch 46 with the press. That part of the edition 51, which the Abrasive belt support 26 connected. The workpiece 50 opposite workpiece has a variety of 47, which is mounted on the table 42, serves as openings 61 (Fig. 6), which the connection Anode. At a suitable location between the openings 62 in the sanding belt 57 and The table and the rest of the machine, for example between the chamber 63 behind the middle part of the support 51 see the table 42 and the support arm 43 is a manufacture. By using the modified electrical insulation 40 is provided. 55 edition 51 it is therefore possible to have a convex surface ,. . With the help of an electrolytic belt grinder, how it works to deliver.

The grinding machine 10 according to FIG. 1 and 2 becomes F i g. 7 shows another embodiment of a

made operational by the fact that the source 45 support 66 with a convex outer surface 67 to

electrical energy to the table 42 and the support 60 which the sanding belt 68 is wrapped around. Given-

26 is switched and the motor 13 as well as the two freely rotatable rollers 69 and 70

Pump 37 can be switched on. Then one will be used to keep the sanding belt in place

Workpiece 47 is applied to the table 42 and to hold it for support. A guide wheel 72, which for

a feed to the outer surface 22 of the front convex surface 67 is equiaxed and a

Trums 28 of the grinding belt 19 communicated until it has the 65 slightly larger radius than this can

ses front run 28 just touched. The pump 37 also adjacent to the pad 66 and between

causes the electrolyte to flow out of which rollers 69 and 70 are provided. The

Chamber 33 through the openings 29 and 21 against changed support has an electrolyte chamber 75 in

its central part, which is connected to the inlet conduit 71 and with openings through the outer surface of the support 66 in essentially the same manner as for the one in FIG. 3 described the structure shown. A machine with the modified support 66 can therefore be used to produce a concave Surface on a workpiece can be used by the electrochemical decomposition process. Although in each of the embodiments shown, the grinding belt is in a vertical position to and at least in the embodiments according to FIGS. 1 to 6 for the return of the electrolyte gravity is used to the suction side of the pump for the circulation of the electrolyte, can the device according to the invention can easily be modified so that it can be used in any other desired position depending on the tasks to be performed, so that the illustrated embodiments and arrangements are only to be understood as possible embodiments.

Claims (3)

Patent claims: 1. Electrolytic belt grinder, characterized by the following in grinding devices known characteristics: a) one on the back of the sanding belt (22), with bores (29) and Support plate provided with an overpressure chamber (33) for supplying under pressure standing electrolyte between the sanding belt and the support plate, b) a distribution of the bores (29) over the entire area in the area of the grinding point Surface of the support plate (26, 26 a), c) a sanding belt (22) provided with holes (21) through its holes from the Bores of the support plate (26, 26 a) escaping electrolyte to the front of the Band can pass through. 2. Belt grinder according to claim 1, characterized in that the support plate (26, a), seen in the direction of movement of the grinding belt (22), in front of the area of the grinding point in has a plurality of bores in a manner known per se. 3. Belt grinder according to claim 1 or 2, characterized in that the grinding belt is formed by a liquid-permeable fabric made of conductive material which is attached to its outside is provided with a thin grain coating of non-conductive material, the Support plate is used to conduct electricity. 1 sheet of drawings