US2380659A - Processing machine - Google Patents

Processing machine Download PDF

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Publication number
US2380659A
US2380659A US402973A US40297341A US2380659A US 2380659 A US2380659 A US 2380659A US 402973 A US402973 A US 402973A US 40297341 A US40297341 A US 40297341A US 2380659 A US2380659 A US 2380659A
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Prior art keywords
die
rod
packer
male
dies
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US402973A
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Taine G Mcdougal
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Motors Liquidation Co
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Motors Liquidation Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B11/00Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses
    • B30B11/02Presses specially adapted for forming shaped articles from material in particulate or plastic state, e.g. briquetting presses, tabletting presses using a ram exerting pressure on the material in a moulding space
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S425/00Plastic article or earthenware shaping or treating: apparatus
    • Y10S425/035Opposed plunger

Definitions

  • My invention relates to a machinefor use in the manufacture of spark plugs, especially a machine used in the processing of spark plug insulators.
  • a spark plug insulator must be formed of a very compact and dense material.
  • Figure 1 of the drawings is a front view of a machine embodying my invention. with parts broken away and in section.
  • Figure 2 is a detail view showing the upper die about to enter the cooperating lower die which has been filled with a predetermined quantity of powdered material.
  • Figure 3 indicates the relationship of the parts of the-molding press after the upper die member has reached the limit of its travel but before the packer rod has been moved to compress the powdered material.
  • Figure 4 shows the relationship or the parts after the packer rod has been moved down to further condense and compress the powdered insulating material.
  • FIG. 1 indicates a stationary plate which may serve as the main support of my machine. Supported above plate 2 on rods 4 is a die block 8. Die block 6 may be fixed. it desired, but I prefer to mount supporting rods 4 on a cushioned platen (not shown) located below stationary plate 2. This platen will preferably be mounted on a piston fitting in a hydraulic cyli der. 'This cylinder may be used merely as means of giving block 6 a "floating" supp rt. or itmayalsobeusedtoraisedieblock isoasto lengthen the capacity of the female die -'above core pin N. to permit the female die parts to hold a greater charge than is shown in Fig. 2, Die block 6 hasa plurality of openings 8 in which sleeves "I are secured by the heads 12 of these sleeves and nuts ll. Sleeves I I! carry the lower or female die members. made up in three parts.
  • the lowermost or bottom one is of these parts is, v the forming die for the lower portion of the spark plug insulator indicated'at l8.
  • the middle or intermediate member is substantiall cylindrical in shape and is the molding die for the cylindrical intermediate portion of the insulator.
  • the upper part 22 of the female die is in fact merely a retaining nut, which serves to holdthe parts IS and 20 in place but contributes nothing to the shape of the finished insulator.
  • die member 24 Cooperating with the lower or female die memher is the male die member 24.
  • Die member 24 is secured to die plate 26 by a. retaining nut 28 which. cooperates withwretaining bushing 30 in die plate 25.
  • Die plate 26 is supported by backing plate 32. Plates 26 and 32 may be actuated by any suitable means such as a hydraulic ram mot shown).
  • a support 34 is mounted on the hydraulic ram so as to reciprocate with plates 26 and 32.
  • Piv-' otally mounted at 35 on support 34 is a rocker arm 36.
  • a two-part push rod 31. of rod 31 is secured to a short cylinder or sleeve 38 as by a weld 3!.
  • the upper end of rod 31 is held in sleeve 38 by a shear pin 40.
  • Pressure block 14 isprovided with a plurality of openings 5 into which are presed plugs I of a special hardened wear resistant material.
  • a piston 58 Located in the stationary plate 2 of my ma- The lower end chine I-have provided a cylinder in which a piston 58 is slidably disposed. Piston 58 actuates rod ill which operates an ejector $2. Ejector i2 is in effect the bottom or end wall of the female 'die.
  • the material to be molded may rest immediately upon ejector 62, or I may first insert a core pin 64. After the molding operation has been completed and male die 24 has been withdrawn, pres sure fluid may be admitted to the underside of piston it to loosen spark plug insulator II and core pin it in female die member I6.
  • packer rod 52 has not as yet been moved'relatively to die member 2. At a point approximately fir of an inch before the end of the stroke of the machine is reached, the
  • a predetermined quantity of downward motion of plates 26 and 32 ceases, and 4 push rod 31 contacts stop ll pivoting rocker arm 36 counterclockwise to transmit pressure through bar 43, pressure block 44, plugs l0 and pressure rods 50 to packer rod 52.
  • Rod 52 is thereby moved downward a fraction of an inch further, compressing the pulverized'insulating material in the mold and increasing the density of the molded spark plug insulator, especially at its upper end.
  • a female die member having walls forming a cavity completely enclosed except at one end thereof and adapted to contain moldable material, cushioned means for said member adapted to yield to prevent an excessive pressure being created in the die cavity should an excess of moldable material be supplied thereto.
  • a male die member co-operable with said female die member, means to reciprocate the male die member into cooperating relationship with the female die member until the male die has compressed moldable material in said female die member, a packer rod reciprocable in the male die member, and means co-operable with the reciprocating means to actuate the packer rod near the end of the working stroke of the reciprocating means.
  • a plurality rod near the end of the working stroke of the reciprocating means whereby the packer rod in each male die is reciprocated relatively thereto.
  • dic means including a piston to support each end wall, a cylinder for each piston, and fluid connections among all the cylinders to equalize pressure diflerences.
  • a female die member a male die member, means toreflect relative reciprocation of said die members, a. packer rod reciprocable within the male die memher and relatively to both die members, a push rod mounted on said reciprocating means, a stop engageaible by said push rod near the end of the working stroke of the reciprocating means, and means including a rocker arm for transmitting the motion of the push rod to the packer rod.
  • a processing machine a plurality of female dies supported therein, a plurality of male dies, means for reciprocating the male dies into cooperating relationship with the Iemaie dies, a packer rod reciproca'ble in each male die, a push rod carried by said reciprocating means and reciprocable relatively thereto, means. including a rocker arm for transmitting the movement of the push rod to the packer rods, and stop means engageable by said push rod after completion of the working stroke or the male dies and while said male dies are engaged with the female dies, whereby the packer rods are reciprocated in the male dies.

Description

T. e. M DOUGAL PROCESSING MACHINE Filed July is. 194
2 sh ee'lz w t 1 1p. Mum i nmluw l v I? -1- HIV I Z i 3: 7 1226 6; 7 7", zga&
y 1945- T. G. McDOUGAL 2,380,659
- PROCESSING MACHINE Fild July 18, 1941 2 Sheets-Sheet 2 "70 v V 3m entor Yzzze: 6 7/7flozgal I Patented July '31, 1945 rnocnssmd MACHINE Taine G. McDougal, Flint,'Mich., assignor to General Motors Corporation, Detroit, Mich. a corporation of Delaware Application July is, 1941, Serial No. 402,973
8 Claims.
My invention relates to a machinefor use in the manufacture of spark plugs, especially a machine used in the processing of spark plug insulators.
For maximum effectiveness and efficiency. a spark plug insulator must be formed of a very compact and dense material. For years it has been the objective of the spark plug industry to' tion to provide a machine in the manufacture of 'spark plug insulators in which a packer rod inside the die is moved against the molded powder during the last fraction of an inch of movement of the forming press. but after the die parts have come to rest. Uniformity in density among the insulators is made possible by the provision of compensating -means to equalize the molding pressures among the various dies.
Figure 1 of the drawings is a front view of a machine embodying my invention. with parts broken away and in section.
Figure 2 is a detail view showing the upper die about to enter the cooperating lower die which has been filled with a predetermined quantity of powdered material.
Figure 3 indicates the relationship of the parts of the-molding press after the upper die member has reached the limit of its travel but before the packer rod has been moved to compress the powdered material.
Figure 4 shows the relationship or the parts after the packer rod has been moved down to further condense and compress the powdered insulating material.
Referring to the drawings in detail and specifically to Figure 1. 2 indicates a stationary plate which may serve as the main support of my machine. Supported above plate 2 on rods 4 is a die block 8. Die block 6 may be fixed. it desired, but I prefer to mount supporting rods 4 on a cushioned platen (not shown) located below stationary plate 2. This platen will preferably be mounted on a piston fitting in a hydraulic cyli der. 'This cylinder may be used merely as means of giving block 6 a "floating" supp rt. or itmayalsobeusedtoraisedieblock isoasto lengthen the capacity of the female die -'above core pin N. to permit the female die parts to hold a greater charge than is shown in Fig. 2, Die block 6 hasa plurality of openings 8 in which sleeves "I are secured by the heads 12 of these sleeves and nuts ll. Sleeves I I! carry the lower or female die members. made up in three parts.
The lowermost or bottom one is of these parts is, v the forming die for the lower portion of the spark plug insulator indicated'at l8. The middle or intermediate member is substantiall cylindrical in shape and is the molding die for the cylindrical intermediate portion of the insulator. The upper part 22 of the female die is in fact merely a retaining nut, which serves to holdthe parts IS and 20 in place but contributes nothing to the shape of the finished insulator.
Cooperating with the lower or female die memher is the male die member 24. Die member 24 is secured to die plate 26 by a. retaining nut 28 which. cooperates withwretaining bushing 30 in die plate 25. Die plate 26 is supported by backing plate 32. Plates 26 and 32 may be actuated by any suitable means such as a hydraulic ram mot shown).
' A support 34 is mounted on the hydraulic ram so as to reciprocate with plates 26 and 32. Piv-' otally mounted at 35 on support 34 is a rocker arm 36. ,To one end of rocker arm 36 is connected a two-part push rod 31. of rod 31 is secured to a short cylinder or sleeve 38 as by a weld 3!. The upper end of rod 31 is held in sleeve 38 by a shear pin 40. As the reand causing it to bear upon a recessed surface 42 of pressure bar 43. which transmits the resulting downward thrust to presure block or plate ll. Pressure block 14 isprovided with a plurality of openings 5 into which are presed plugs I of a special hardened wear resistant material. The downward pressure of plugs 48 is transmitted to presure rods 5| which bear directly pon the heads of packer rods 52. A coil springil below the head of each packer rod may be provided to return the parts to the position shown in Figure 1 either immediately before the downward thrust on packer rod 52 is applied or immediately after it is removed. Another set of springs. one of which is shown at 55. may be pro vided between pressure bar 43 and die plate 26 to assist springs 54 in returning parser rod 52m its retracted position.
Located in the stationary plate 2 of my ma- The lower end chine I-have provided a cylinder in which a piston 58 is slidably disposed. Piston 58 actuates rod ill which operates an ejector $2. Ejector i2 is in effect the bottom or end wall of the female 'die. The material to be molded, whether a plastic or a dry powder, may rest immediately upon ejector 62, or I may first insert a core pin 64. After the molding operation has been completed and male die 24 has been withdrawn, pres sure fluid may be admitted to the underside of piston it to loosen spark plug insulator II and core pin it in female die member I6. I prefer to use cylinders 6 in plate 2 as equalizers or compensators as well as ejector cylinders. By interconnecting these cylinders, I provide means whereby one or more of pistons SI may be madeto yield in case an excess of powder is supplied to the pocket above core pin 64 in the female die. Such a powder excess would ultimately create'an vexcessive pressure in the corresponding cylinder 56, which would then be equalized through the connections (not shown) of this cylinder with the are then reciprocated so as to cause male die member 2| to enter the mold, compressing the powder to the form shown in Figure 3. In Figure 3 the parts of the machine are shown with plates '26 and 32 at the lower extremity of their travel.
In Figure 3, however, packer rod 52 has not as yet been moved'relatively to die member 2. At a point approximately fir of an inch before the end of the stroke of the machine is reached, the
A predetermined quantity of downward motion of plates 26 and 32 ceases, and 4 push rod 31 contacts stop ll pivoting rocker arm 36 counterclockwise to transmit pressure through bar 43, pressure block 44, plugs l0 and pressure rods 50 to packer rod 52. Rod 52 is thereby moved downward a fraction of an inch further, compressing the pulverized'insulating material in the mold and increasing the density of the molded spark plug insulator, especially at its upper end.
Differences in molding pressures among the cyl-' inders which might be caused by differences in the charges, or the like, are not allowed to build up, because of compensating cylinders 56, as. de-.
scribed above. The relationship of the machine parts at the end of the stroke of packer rod 52 is shown in Figure 4. Plates 2' and 31 are then reciprocated upward, withdrawing male die memto contain moldable material, a male die member,
means to reciprocate one of said die members relatlvely to the other until the male die member has entered the female die through said one end and mpressed moldable material therein, cushioned means for the die member not reciprocable for preventing excess pressure being created should an excess of moldable material be within the die cavity, a packer rod reciprocable within the male die member and relatively to both die members, and means cooperating with the reciprocating means for actuating the packet rod near the end of the working stroke of the reciprocating means.
2. In a plastic molding press, a female die member having walls forming a cavity completely enclosed except at one end thereof and adapted to contain moldable material, cushioned means for said member adapted to yield to prevent an excessive pressure being created in the die cavity should an excess of moldable material be supplied thereto. a male die member co-operable with said female die member, means to reciprocate the male die member into cooperating relationship with the female die member until the male die has compressed moldable material in said female die member, a packer rod reciprocable in the male die member, and means co-operable with the reciprocating means to actuate the packer rod near the end of the working stroke of the reciprocating means.
3. In a spark plug molding machine, a plurality rod near the end of the working stroke of the reciprocating means, whereby the packer rod in each male die is reciprocated relatively thereto. 4. In an insulator molding machine, a plurality of female dies, a plurality of male dies, means for reciprocating said dies into cooperating relationship, a packer rod reciprocable in each said male die, means'to reciprocate said packer rods near the end of the working stroke of the first said reciprocating means, a movable end .wall' in each female die, means includingapiston to support each end'wall, a cylinder for each piston, and fluid connections among all the cylinders to equalize pressure differences.
5. In an insulator molding machine, a plurality of female dies, a plurality of male dies, means for reciprocating said dies into cooperating relationship, a packer rod reciprocable in each said male die, means to reciprocate said packer rods near the end of the working stroke of the first said reciprocating means, a movable end wall in each female die, a core pin in each female die supported onsaid end wall, means including a piston to support each end wall, a cylinder-for each piston, and fluid connections among all the cylinders to equalize pressure differences.
6. In an insulator molding machine, a plurality of female dies, a plurality of male dies, means for reciprocating said dies into cooperating relationship. a packer rod reciprocable in each said male.
dic, means including a piston to support each end wall, a cylinder for each piston, and fluid connections among all the cylinders to equalize pressure diflerences.
'7. In an insulator molding machine, a female die member, a male die member, means toreflect relative reciprocation of said die members, a. packer rod reciprocable within the male die memher and relatively to both die members, a push rod mounted on said reciprocating means, a stop engageaible by said push rod near the end of the working stroke of the reciprocating means, and means including a rocker arm for transmitting the motion of the push rod to the packer rod.
8. In a processing machine, a plurality of female dies supported therein, a plurality of male dies, means for reciprocating the male dies into cooperating relationship with the Iemaie dies, a packer rod reciproca'ble in each male die, a push rod carried by said reciprocating means and reciprocable relatively thereto, means. including a rocker arm for transmitting the movement of the push rod to the packer rods, and stop means engageable by said push rod after completion of the working stroke or the male dies and while said male dies are engaged with the female dies, whereby the packer rods are reciprocated in the male dies.
TAINE G. MCDOUGAL.
US402973A 1941-07-18 1941-07-18 Processing machine Expired - Lifetime US2380659A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2821748A (en) * 1953-05-08 1958-02-04 Baldwin Lima Hamilton Corp Apparatus for compacting and ejecting flanged articles by single plunger action
US3052918A (en) * 1958-08-04 1962-09-11 Stanley H Holmes Hydraulic molding apparatus
US3244782A (en) * 1957-05-17 1966-04-05 Magnetics Inc Toroidal core pressure forming method
US3353214A (en) * 1964-10-30 1967-11-21 Herbert C Schulze Apparatus for compacting particulate material
US5160747A (en) * 1990-10-10 1992-11-03 Kyocera America, Inc. Apparatus for manufacturing ceramic chip-resistant chamfered integrated circuit package
US5277570A (en) * 1992-03-30 1994-01-11 Siggers David L Press for pressing a compressible material

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2821748A (en) * 1953-05-08 1958-02-04 Baldwin Lima Hamilton Corp Apparatus for compacting and ejecting flanged articles by single plunger action
US3244782A (en) * 1957-05-17 1966-04-05 Magnetics Inc Toroidal core pressure forming method
US3052918A (en) * 1958-08-04 1962-09-11 Stanley H Holmes Hydraulic molding apparatus
US3353214A (en) * 1964-10-30 1967-11-21 Herbert C Schulze Apparatus for compacting particulate material
US5160747A (en) * 1990-10-10 1992-11-03 Kyocera America, Inc. Apparatus for manufacturing ceramic chip-resistant chamfered integrated circuit package
US5277570A (en) * 1992-03-30 1994-01-11 Siggers David L Press for pressing a compressible material

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