US2059038A

US2059038A - Machine for selecting cork disks

Info

Publication number: US2059038A
Application number: US715531A
Authority: US
Inventors: Sala Jose Vaca
Original assignee: Hijos de HA Bender SA
Current assignee: Hijos de HA Bender SA
Priority date: 1933-03-21
Filing date: 1934-03-14
Publication date: 1936-10-27
Anticipated expiration: 1953-10-27

Description

A L A S .Im

MACHINE FOR SELECTING CORK DISKS Filed March 14, 1934 7 Sheets-Sheet 1 'wsws @cfi. 27, 1936. J. v. SALA MACHINE FOR SELECTING CORK DISKS Filed March 14, 1954 7 Sheets-Sheet 2 15342 Uaccz falah Oct. 27, 1936. J v s MACHINE FOR SELECTING CORK DISKS Filed March 14/12134 7 Sheets-Sheet 3 @7058 Zaca jala/ J. V. SALA MACHINE FOR SELECTING CORK DISKS Filed March 14, 1934 7 Shets-Sheet 4 Oct. 27, 1936. J. v. SALA 2,059,038

MACHINE FOR SELECTING CORK DISKS Filed March14, 1954 7 sheets-sheet. 5

FIEI- El g jo'se'l Waca, Sam,

0a. 27, 1936. v J, v; SALA 2,059,038

MACHINE FOR SELECTING CCSRK DISK S Filed March 14, 1934 7 Sheets-Sheet 6 60 52 fla ca/ Salem 0C1: 27, 1936. v s 2,059,038

MACHINE FOR SELECTING CORK DISKS Filed March 14, 1934 7 Sheets Sheet 7 56 Z'aca/ SaZcz/ Patented Oct. 27 1936 UNITED, STATES PATENT OFFICE Guixols, Spain, a company of Spain Application m n, 1934. Serial No. 115,531 In Spainlhrch :1, 19s:

a V y 34' onion. (Cl. 269-15) ,The object of this invention is a machine tor Figure '7 is a front view otthese mechanisms in:'- selecting the disks of cork or other materialemsection through the line VII-VII of Figure 6.

ployed for closing bottles with crown seals or Figure'B is a detail of a modification or the other types of metal caps or stoppers. machine in which instead of compressed air there The machines which make the cork disks deis used a vacuum. liver these disks mixed with a large quantity or As is seen from the drawings the machine 1 pieces of cork and in addition there is a high cludes a hopper I in which the disks are thrown percentage of disks which are incomplete or are in bulk. The bottom of this hoDD is defective owing to being too thin or too thick or il y n endless b l 2 w h m v the owing to not having their two faces parallel, or direction Shown y the arrow. and is driven y owing to the cork having pores and defects which the rollers 3, land 5 which draw the disks from make the disk useless. This requires that the the pp l to the testing mechanism w i will cork disks be carefully selected in order to sepabe Subsequently describedo leaving the op-- rate the pieces and defective disks, which opera- P 1 these disks remain on t belt 3 o tion is usually carried out by hand and in addiirregular heaps and with the object of distribut tion to being slow and costly is extremely tiring. I e es disks n a single 3; 23 2 The machine which is the subject of this inveneelries J after the pp e tion carries out this operation automatically as padd 1 which on evo vin s p te t e disks it is sufficient to throw the disks in bulk into the from the p of t e pile leaving on y a layer 0r hopper of the machine and the machine separates disks n th l A s m disks m y escape the the pieces and incomplete disks and then submits action or this wheel 6, there s ed h 8hthe complete disks to a test by compressed air p;- irll l l l r B p y r i regw t g t'g d isg or vacuum, throwing out as useless the disks a W 0 0 V r m e e which allow the air to pass. At the same time it which might be 0 p Others makes them checks t parallelism of the two fa e f the fail by the side of the belt to a channel formed 25 disk and the thickness of the disk, rejecting the g: mg gg zi 22 2:33 y two defective disks. y y

The machine includes a transporting mechgpggn fi gg g gg fii z t iggg gii gg ig anism which tak J the disks from the ho r and Y a y A arranges them until they are in a line, ?n which correspond w the cone thickness of the disks- 1 state they are? delivered to a unitary testing :3; 21 :5 is ggs g ggg g f j f g fi gg gg mechanism. The first testing mechanism separates the pieces and the incomplete @isks, that drawn sideways gf h sglmls is those ota diameter less than the normal; from I rollers they l to or o this mechanism the disks pass to a second testin which conducts them to a deposit Thedlsks g or pieces which have the corresponding thickness .mechanism in which, they are subjected to air or less s thro h themners H mums on the pressure or to a vacuum, there they are tested to I pas I channel I5 which has a slight inclination and see ii they have pores which allow the air to i I in order to make the disks slide along the chan pass and at the same time they are tested to nel t5 the latter is driven with a shaping movedetermine the thickness of the disk and the si- I n n 1 its t i ment by means of an angular lever II which in its a e sm 0 W0 aces' I turn is driven by projections 88 arranged on the In the attached drawings the": is shwn the lateral face of the roller 5. This channel I! has machine this inventions I holes 15' (Fig.4) of a lesser diameter than the 1 is a front elevation of the whole of disks so that the small or bmken pieces, which the machine 1 lmmdmal e fall through the holes, are conducted by the inn-- Figure 2 is a plan view otvthe machin nel II to the deposit receptacle ll. On arriving Figure 3 1s a 1mm 919mm m scale at the end 0! the channel II the proper size disks with some parts in section of the mechanism n through'the aperture g on the belt L which sorts and lines the I The disks after having passed by the action or Fi 4 is a P n Vi w of Figure 3. the wheel 8 meet an inclined table l9 which moves F r 5 is a detail in perspectiveqth fi meeh- 'them towards one of the edges'oi the belt 2 toanism. y I p put them in line. As it is possible that b the Figure 6 is a.v vertical section through the I action-oi this inclined plane it some of the disk:

or the test ng mechanisms. mayf 'mount on others, near this inclined plane at there is arranged another revolving shaft 29 provided also with a spiral and having on its end two fins 29 which causes to fall into the chanvnel |5 the superfluous disks and those which have mounted on others.

In this manner there is obtained the placing of the disks 22 forming a line in which there is no disk on another and during this -movement there is applied on the line of disks two small belts 2| which maintain the disks 'flrmly against the belt 2 at the part where the belt curves around the cylinder 5 and thus singly and sequentially delivers the disks to the testing mechanisms which separate the defective disks from the good ones.

As is seen in more detail in Figures 3 and 6,

the small, belts 2|- which hold the disks firmly on made up of a channel 25 'pivotally supported at" 21 to a part or the machine (Fig. 6) and the other constituted by a lever or plane 25 movably connected to the shaft 29.

when these two pieces are in the position shown in full lines inFlgure c, the disk 22 on coming away from the belts 2| falls and is conducted to the vertical channel 29 to be submitted to further tests, whilst when these pieces 25,

25 are in the position shown in dotted lines in s Figure 6 the disk falls into the channel 30 which conducts it out of the machine. The guide bars or

pieces

25 and 25 are arranged to be selectively actuated-during .the'operation of the machine so as to cause the disks to be either delivered-to the channel 29 or channel 30 by suitable electrical means hereinafter described.

At the point in which the belts 2| leave the disk, there is arranged a mechanism which tests the diameter of the disk to separate the pieces and the disks whose diameter is less than the correct one. This mechanism is made up of toggles or jaws 3| pivoted at 22 to the lever 33 and connected at their, upper ends to a spring 34 I which maintains them normally in a raised and closed position. By means or a graduated stop 95 the separation of these toggles is regulated in such a way that normally their clamping or en gaging ends are'spaced at a distance slightly less thanthe correct'diameter of the disks 22. The-disks 22 are drawn by the belt 2 and the small belts 2| between the lower ends of the tog- .gles 3| and if the diameter of thedisk 22 is cor-,-

rect, as this diameter is greater than the separation oI/the toggles, the advancing disk" draws the toggles downwardly overcoming the action of the spring 34. On the other hand dealing with a piece ora diskoi a diameter less than the correct one, the disk or piece passes freely through the spaced ends of the toggles without drawing them down. When the toggles 3| descend, the lever 32 also descends and thencloses the electric contact 35 connected to an electric. magnet 31 whose armature 39 on being. attracted by the electro-magnet works through the intermediation of the mechanism 39, 49, 4|, operatively connected to the

guide members

25, 29, so as to move these members to the position shown in full lines in Figure 6. The armature 29 off the electro-' magnet is combined through a connecting rod 42 witharetardingmechanism whichcauses thesepiecesfl, 251: remaininthisposition during the time necessary for the disk 2; to come loose from the toggles and the small belts 2| and to fall in the channel 29.

K From the channel 29 the disk passes to another testing mechanism in which it is tested to determine its permeability by means of compressed air or vacuum to see if the disk closes hermetically.

This unitary mechanism includes a, wheel or by means of a duct 48 with a small air pump consisting of a membrane 49 which injects through this duct 48 compressed air to test the permeability of closing air tight qualities of the disk.

The movement of the pistons 41 is carried out by means of the levers 59 dijven in their turn by the fixed eccentric in such a way that the same movement of the shaft 55 with the

wheels

44, 45, causes the plunger 4 to be reciprocated so as to be applied on the disk 22 and separated from it at predetermined points during the rotation of the wheel 4!.

In a similar way the membranes or .alr pumps 49 are driven by the levers 52 and springs 53. These springs 52 tend to always compress the air by means of the membranes 49 whilst the free end of the levers 52 is driven by means of another fixed eccentric 54 which at the convenient moment leaves them free in order that they may be driven by the springs 53.

The working of this mechanism is as i'ollowsz The disk 22 is introduced in the pocket or slot 45 when this is in the top position, that is to say' immediately below the channel 29 and shortly after continuing the rotation of the

wheels

44, 46

brane 49 and the lever 52 hardlyvaries but if' the disk loses, asthe wheel goes on turning, the membrane 49 moves towards the left of Figure 6 until it takes up the position shown in the lower part of this figure.

. Under the wheel 44 and corresponding to the position in which the piston 41 withdraws from the disk 22 there is a movable channel 51 which can take up the three positions shown in Figure 6 corresponding to three ducts or

deposits

58, 59, 90.

This channel 51 is driven .or worked on one hand by the spring 99- which tends to place it alwaysin the position shown in Figure 6 by-full lines and on the other hand is worked by stops 63 which at every movement of the wheel 44 places it in'the position nearer the leit where it is retained by the latch 52 so as to align with the compartment 59. In additionthere is another similar latch 6| which serves as a stop or retention piece for the intermediate position of the channel 51 corresponding to the intermediate deposit x does not let the air escape and consequently the membrane remains in the position towards the right, the extension 56 does not touch either. of

the two latches and consequently the channel 51 remains in its position towards the left and conducts the disk to the deposit 56 corresponding to the gooddisks. If the disk allows a small quantity of air to escape the extension 56 works the latch 62 and then the chanel 57 remains in the intermediate position in front of the deposit 59 to which the disks of inferior or doubtful quality If the disk allows the air to escape completely and the membrane remains in the position shown in the lower part of. Figure 6 then the extension 56 works the latch 6| and the swinging channel 51 takes the position corresponding with the compartment or receptacle 66 to which the defective disks go.

This mechanism may be combined also in such a way that the testing of the disks is not made-by air pressure but by vacuum. This variation is shown in Figure 8. In this case the lever I52 and the eccentric I54 have the necessary arrangement for the spring 53 to work the membrane 49 inthe sense of producing an aspiration or vacuum. The mechanism described tests at the same time .whether thetwo faces of the disks are parallel.

To this end each of the plungers 41 rest solely on the point 64 of the stem 65 in such a way that it may oscillate aroundthe same and be joined to a crown or ring 66 which by means of springs rests against another ring 61 forming part of the stem 65. In combination with this, there is arranged on the shaft 65' a sliding sleeve 66 forming part of an arm 69 whichron arriving at the lower part,

contacts with a spring 10 which forms an inclined elastic plane and pushes the sleeve 68 towards the plunger 41. When the two faces of the disk are parallel one to another, the. plunger l! is conveniently applied on the disk and the ring 66 in the top part of Figure 6, and meets with the piece 16 fixed to the shaft II which by means of.

the connection ofshaft II with arm I2 works the pawls 6| and-62 and places the channel 51 inthe position at the right corresponding to the deposit 66 of the defective disks.

This same mechanism tests the thickness of the disks separating the defective enesfor being lever carries a stem or extension". When the disk being tested is of normal thickness, this stem 13 passes freely through the groove 15 of the piece 16 but if the disk is too thick or too thin the stem .13 engages the piece 16. so as to cause the latter to move therewith, movement actuates' the channel or gate 51 through thelinks 1], l2 and theirassociated parts, so as to move. the channel into alignment with the compartment 60 that receives the defective disk.

, It will be observed that I provide asubst'antially' unitary mechanism which serves to director con-- vey the disk through a predeterminedhourse and ,from a series of independent mechanisms through which the discs' might be separately passed.

It will be seen therefore that this machine submits the disks to different tests regarding diameter, thickness, parallelism of its faces, the presence of pores allowing the air to pass, etc and carries out a -much more exact and careful work than could be done by hand in the usual way.

I claim:--' 1. In a machine for sorting disks, means to mparatin'g undersized disks and pieces ofdisk from disks of the proper size, and a testing device for receiving the disks of proper size, said testing device including air pressure means for determin-' ing the permeability of the disks, means for deters mining the thickness of the disks and parallelism of the faces of the disks, said means for determining the permeability, thickness and parallelism of the disks being operable substantially simultaneously on each of the disks.

2. In a machine for sorting disks, a conveyor for conducting the disk through the machine,-

means for arranging the disks in a layer on .the conveyor, a testing device for receiving the disks, spaced belts for transferring the disks from the conveyor to the testing device, means in advance of the testing device for separating undersized disks and pieces of disks from disks of the proper size, said testing device having air pressure means for determining the permeability of the disks,

means for determining the thickness of the disk, Y and means for determining the parallelism of the faces of the disk.

3. In a machine for sorting disks, means for conducting the disks through the machine, mov- ,able spaced jaw members, yieldable means normally maintaining said jaw members in their raised position, the space between said jaw members normally being slightly less than the correct size of the disks so as tube, in the path thereof as the disks'pass through the machine, means for conducting undersized disks and pieces of disks that pass uninterruptedly between the jaw members from the inachine, a, testing device for, re-

ceiving the proper size disks, a movable guide for conducting the disks from the jaw members to the testing device, and means operable by the jaw members for moving the guide in alignment with the testing device todeliver disks of the proper size thereto.

4. In a machine for sortingdisks, means. for separating undersized disks and pieces of disks from disks of the proper size, a testing device for receiving the disks .of proper size, said testing device including a revoluble member having spaced'cavities for receiving the disks, each of said cavities having air pressure means ,associ-' ated therewith for determining the permeability tothe movableguide whereby the disks are de or the disks, receptacles for receiving the disks as they issue from the testing. device, a movable guide associated with the testingdevice for'conducting thedisks to said receptacles, and means "operatively connecting'said air pressure means posited intooneofthe receptacles in accordance? with their degree of permeability as determined by said testing device. 3

5. In a machine for sorting. disks, means for separating undersized disks and pieces of disks from disks of the proper size, a testing device for receiving the disks of proper size, said testing de- 5 vice including a revoluble member having spaced cavities for receiving the disks, each of said cavities having associated therewith a tiltable member arranged-to be applied to the disks for determining the parallelism of the faces of the disks, receptacles for receiving the disks as they issue from the testing device,- a movable guide member associated with the testing device for conducting the disks to said receptacles, and

means operatively connecting said tiltable member to said guide member, whereby the disks are deposited into one of the receptacles in accordance with the parallelism of their faces as determined by said testing device.

, 6. In a machine for sorting disks, conveying means for receiving and carrying the disks through a predetermined course, and means associated with the conveying means for substantially simultaneously determining the premeabil- 'ity of the disks, parallelism of the faces of the disks and the relative thickness of the discs, said means including mechanism for operating on the opposite sides of the disk.

' 7. In a machine for sorting disks, testing mechanism for separating the disks in accordance with their degree of perfection, said testing mechanism including means for receiving the disks, and.

means associated with the receiving means for substantially simultaneously determining the permeability of the disks and the parallelism of the faces of the disks, said means including mecha-' nism operating on opposite sides of the disk.

8'. In a machine for sorting disks, testing mechj anism for separating the disks in accordance with their degree of perfection, said testing mechanism 40 including means for receiving 'the{ disks, and means associated with the receiving means for substantially simultaneously determining the permeability of the disks and thickness of the disks, said means including mechanism operating on 5 the same side of the disk. r

9. In a machine for sorting disks, testing mechanism for separating the disks in accordance with nism including means for receiving the and 50 means associated with the receiving means for substantially simultaneously determining the parallelism of the faces of the disks and the relative thickness; of the disks, said means including mechanism operating on the same side of the 10. In a machine for sorting disks, testing means for separating the disks in accordance with their degree of perfection, mea'nsin advance of said testing means for conducting undersized u -disks and pieces of disks fromthe machine and delivering disks of the proper size to the testing means, said testing means having pockets for receiving thedisks, and means associated with each pocket for determining the permeability of the g5 disks therein, parallelism of the faces ofthe I and the relative thickness of the disks.

'11.In a machine for sorting disks, testing means for separating the disks, said testing means having pockets for receiving the disks, means de livering the disks to ipepockets, and means asso-' ciated witheach pocket for determining the permeability of the disks therein, parallelism of the.

r of the'disks, and the relative,thickness of the disks, receptacles for as issuefrom the and a guide their degree of perfection, said testing mechadrawn from the machine.

member operatively associated with the testing means for conducting the disks to one of the receptacles in accordance with the degree of perfection of the disks as determined by said testing means.

12. A machine for sorting disks having in combination, testing mechanism, a conveyor for receiving the disks-indiscriminately placed thereon, said disks and mechanism having means for receiving the disks, means for singly feeding the disks intothe receiving means, a movable memberhaving a tiltable portion arranged to engage the disks in the receiving means, means associated with said movable member for determining the parallelism of 'the faces of the disks, and means operable by the movable member for determining the thickness of the disks.

13. A machine for sorting disks having in combination, testing mechanism, a conveyor for receiving the disks indiscriminately placed thereon, means for feeding the disks to the testing means singly receiving the disks, a movable member associated with the receiving means and having a tiltable portion arranged to engage the disks, means associated with said movable member for determining the parallelism of the faces of the disks, and means operable by said movable member for determining the thickness of the disks, receptacles for receiving the disks as they issue from the testing mechanism, and a guidemechanism, said testing mechanism having layer on the conveyor, movable means operating i transversely to the conveyor for withdrawing any superposed disks that escape the action of said blade member and returning them to the a conveyor, and longitudinal reciprocating means associated with said last". mentioned means for separating the oversized and undersized disks from the proper sized disks before the latter are returned to the conveyor. 1

15. In a machine for sorting disks, a con- -veyor fore receiving the disks indiscriminate of said blade member and returning them to the conveyor, said last mentioned means including a trough arranged to receive the discharged disks, said trough having parallel rollers spaced the proper thickness of the disks whereby disks of less than predetermined size fall between the rollers, and a reciprocating channel member for receiving the disks that fall between the rollers for returning the .latter to the conveyor, said channel member having openings of less diameter than the proper diameter of the disks are with- 16.Inamachineforsortingdisks,aconveyor for receiving the disks indiscriminately placed any superposed disks that escape the action of said blade member and returning them to the conveyor, and means associated with said last mentioned means for separating the over-sized disks from the proper sized disks before the latter are returned to the conveyor, testing mechanism for receiving the disks as they issue from; the conveyor, said testing mechanism including means for receiving the disks,'means associated with the receiving means for determining the permeability of the disks, parallelism of the faces of the disks and the thickness of the disks.

17. In combination with a machine for sorting disks, a testing device, a conveyor for receiving the disks'indiscriminately placed thereon, means for arranging the disks in a layer onthe conveyor, means for singly conducting the disks from the conveyor to the testing device, means at the discharge end of the conveyor for maintaining the disks in proper position during the transfer operation, said testing device having pockets for receiving the disks, means for withdrawing undersized disks and pieces of disks from the machine and-delivering disks of the proper size singly to the'pockets, means associated with each pocket for determining the permeability of the disks,

parallelism of the bases of the disks and the thickness of the disks, receptacles for receiving the'disks, and means operatively connected to the testing device for conducting the disks to I one of the receptacles in accordance with the degree of perfection of the disks as revealed by the test.

18. In a machine for sorting disks, a testing device including spaced movable members, one of said members having means for receiving the disks to be tested, means associated with said receiving means for determining the permeability of the disks, the other of said members having a movable element associated'with the receiving means for maintaining the disks in position,

' means for maintaining the disks in position, and

means operatively connected to said movable element for determining the parallelism of the opposed faces of the disks.

20. In a machine for sorting disks, a testing device comprising spaced movable members, one

of said members having means for receiving the disks to be tested, air pressure means associated with said means for determining the permeability 'of the disks, the other of said members having reciprocating elements associated with' said means for maintaining the disks in position,- and 7' means operatively connected to each reciprocating element for determining the parallelism of v the opposed faces of the disks. 7

21. In a machine, for, sorting disks, a, testing device comprising axially aligned revoluble members, one of said members having means for singly receiving the disks to be tested, air pressure means associated with ,the receiving means for determining the permeability of the disks, the other of said revoluble membershaving recipro-r eating elements associated with the pockets for maintaining the disks in pSiti0!1, fl-Ild meansfl operatively connected to each reciprocating element for determining the thickness of the device comprising spacedrevoluble members, one of said members having means for singly receiving the disks to be tested, air pressure'means associated with each pocket for determining the permeability of the disks, the other of said revoluble members having reciprocating elements associated with the receiving means for maintaining the disks in position, and means operatively connected to each reciprocating element for determining the parallelism of the opposed faces of the disk and the thickness of the disk.

23. In a machine for sorting disks, a conveyor for receiving the disks indiscriminately placed thereon, means for arranging the disks in a layer on the conveyor, a testing device for receiving the disks as they issue from the conveyor, means for singly conducting the disks tothe testing device, means adjacent the discharge end of the conveyor for engagingthe disksto insure their proper transfer to the testing device, and testing mechanism'for receiving the disks as they issue from the conveyor, said testing mechanism having means for singly receiving the disks, and

means associated with the receiving means for determining the permeability of the disks, parallelism of the faces of the disks and the relative thickness of the disks.

24. A machine for sorting disks having in combination, a testing mechanism for complete disks,

means delivering the disks to the testing mechanism,,togg1e means having spaced'jaws. arranged c to engage disks of normal diameters and allow disks of smaller diameters and incomplete disks to pass, yieldable means for normally maintaining the jaws closed, and means operatlvly associated with the toggles for causing the opening of the jaws'to permit the disks of proper diameters to be delivered to the testing mechanism, and means for withdrawing the other disks from the machine.

A machine for sorting disks having, in combination, testing mechanism for complete disks, a conveyor for receiving the disks indiscriminately placed thereon, means for arranging the disks a layeron the conveyor and singly feeding the disks to the testing mechanism, means as the disks issue from the conveyor for separating the complete disks from the incomplete disks and delivering the complete disks to the testing mechanism, said testing mechanism having a. revoluble member provided with pockets for receiving the disks, means operatively associated with each pocket for determining the degree of perfection of the physical characteristics of the disks, receptacles for receiving the disks as they r issue from the testing mechanism, a movable gate arranged to align selectively with the receptacles, and means nperatively associated with the testing mechanism and said gate for moving the gate into alignment with one of the receptacles so as to discharge the disks therein depending upon the degree of perfection of the disks.

26: A machine for sorting disks having in combination, testing mechanism for complete disks,

22. me machine for sorting disks. a testing po ket for determining h p m b y of the disks, means associated with each pocket for determining the parallelism of the faces of the disks, means associated with each pocket for determining the thickness of the disks, receptacles for receiving the perfect and defective disks, a movable gate arranged to align with the receptacles and receive the vdisks as they issue from the testing mechanism, and means operatively connecting the testing mechanism to said gate whereby to move the latter into alignment with one of the receptacles in accordance with the mining the thickness of the degree of perfection of the disks as revealed by the test so that the disks are discharged into the proper receptacle.

27. A disk testing device of the class described including a revoluble member having a pocket for receiving the disk to be tested, means for actuating said member, a reciprocating plunger arranged to align with the pocket for maintaining the disk in engagement therewith, a movable pressure pump communicating with the pocket and coacting with the plunger for determining the permeability of the disks, receptacles for receiving the disks when they leave the revoluble member, a g'atearranged to align selectively with the receptacles, and means operatively connect-' ing the gate with the testing mechanism whereby said disk as it issues from the testing mechahim is deposited in one of the receptacles in accordance with the degree of perfection of the disk as determined by the test.

28. A disk testing device of the class described including a revoluble member having a pocket for receiving the disk to be tested, means for actuating said member; a reciprocating plunger arranged to align with the pocket for maintaining the disk in engagement therewith, means operatively associated with the plunger for determiningthe, parallelism of the faces of the disks, receptacles for receiving the disks when they leave the revoluble member, a gate arranged to align selectively with the receptacles, means operatively connecting the gate with the testing mechanism whereby each disk as it issues'f'rom the 7 testing mechanism is deposited in one of the re-.

receiving the disks when they leave the revoluble member, a gate arranged to align selectively with the receptacles, means peratively connecting the gate with the testing mechanism whereby eachdiskasitis'suesfromthetestingmechanis'm is deposited in one of the receptacles in accordance with the degree of perfection of the disk as determined by the m. I

-" faces of the disks and the disks, receptacles for 30. A machine for sorting disks having in combination a testing device, means associated with said testing device for separating undersized disks and pieces of disks from disks of the proper size, means for singly conducting the disks of proper size to the testing device, and-independently operable means associated with the testing device for substantially simultaneously determining the permeabiiity of the disks and the parallelism of the faces of the disk.

31. A machine for sorting disks havingin combination a testing device, means associated with said testing device for separating undersized disks and pieces ofdisks from disks of the proper size, means for singly conducting the disks of proper size to the testing device, and independently operable means associated with. the testing device for substantially simultaneously determining the permeability of the disksand the thickness of the faces of the disks.

32. A machine for sorting disks having in combination' a'testing device, means associated with said testing device for separating undersized disks and pieces of disks from disks of the proper size, means for conducting the disks of proper size to the testing device, and independentlyoperabie'means associated with the testing device for substantially simultaneously determining the thickness of the disks and the parallelism of the faces of the disks. J

33. A machine for sorting disks having incombination a testing device, means in advance of said testing device for separating undersizeddisks and pieces of disks from disksof the proper size, means for successively conducting the disks of proper size to the testing device, independently operable means associated with the testing device for substantially simultaneously determining the permeability of the disks, parallelism of the relative thickness of the disks, receptacles for receiving the disks as they issue from the testing device,'and a guide member operatively associated with the testing device for conducting the disks into one of the receptacles in accordance with the degree of perfection of .the disks as determined by the testing device. v

34. In a machine for sorting disks, a conveyor on the conveyor, a testing device beneath said conveyor, means coacting with theend of the v 'f'sosavscssinsf,

for receiving the disks indiscriminately placed thereon, means for conveying the disks in a layer