US1166558A - Press. - Google Patents

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Publication number
US1166558A
US1166558A US3800915A US3800915A US1166558A US 1166558 A US1166558 A US 1166558A US 3800915 A US3800915 A US 3800915A US 3800915 A US3800915 A US 3800915A US 1166558 A US1166558 A US 1166558A
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United States
Prior art keywords
die
floating
press
block
carrier
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Expired - Lifetime
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US3800915A
Inventor
Francis E Stevenson
Harry C Little
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HYDRAULIC PRESS Manufacturing CO
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HYDRAULIC PRESS Manufacturing CO
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Priority to US3800915A priority Critical patent/US1166558A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B3/00Producing shaped articles from the material by using presses; Presses specially adapted therefor
    • B28B3/02Producing shaped articles from the material by using presses; Presses specially adapted therefor wherein a ram exerts pressure on the material in a moulding space; Ram heads of special form

Definitions

  • This invention relates especially to presses.
  • press crushed or fine salt into blocks or briquets for the same use but presses of ordinary construction are not well adapted for this purpose because when such material is subjected to great pressure in one direction uniform density cannot be obtained in the block or briqu'et owing to the cohesion of the particles of salt and the friction produced on the side walls of the chamber in which the block or briquet is formed which causes the material to become arched while resisting the power of the press.
  • one end of the block, z. e., that to which the pressure is directly applied is made harder than the other.
  • a press equipped with a floating spring-supported mold or die into the lower end of which extends a die -supported on a transversely movable carrier and the opposite end of which receives a hydraulically operated ram.
  • the material to be compressed is fed to the mold chamber while the bottom thereof is closed by the lower die and then the hydraulic ram carrying the upper die is operated to compress the material to the desired extent.
  • the floating die or mold is depressed against the force of its supporting springs owing to the cohesion'of the particles and their adhesion to the side walls of the mold chamber. The effect is to cause the lower die to enter part way into the mold chamber and thus 00- operate with. the upper dieto compress the side of the press.
  • Fig. 3 is a detail view partly in elevation and partlyin section showing particularly the condition of the dies during the compressing'operation.
  • Fig. 4 is a similar view showing the position of the parts after the block hasbeen compressed and the upperv and lower dies removed from the chamber of the floating die and in which position the upper die maygbe, operated to eject 1 the compressed block.
  • Fig. 5 is a view simi-' lar to Fig. 4 but showing how the'upper die ejects the compressed block and'how the apron operates to remove the block to one
  • Fig. 6 is a detail view in perspective showing particularly the 'construction and relation of the lower die, its carrier and the supports or ralls on which the die-carrier is mounted.
  • the main franie of the press maybe of any suitable construction and need not-be described in detail.
  • the pillars 01' strain rods B whichin-turn support the hydraulic ram C .that operates the upper die D.
  • the floating die E has a chamber e, the
  • The-walls of which are slightly tapered or inlchned, as shown, from bottom upward and the corners of the walls of'this chamber are suitablybeveled to avoid sharp edges on the briquet .or block.
  • The-lower face 'of the die D . is recessed, as shown, andhas beveled edges in orderto give propershape to the top ofthe compressed I block.
  • the floatingdie' E is provided with arms e" engaging the pillars'orstrain rods B and The base A' supports these arms carry downwardly projecting i rods F which extend through springs G the base A and they carry adjustable collars g which rest on the tops of the springs.
  • Hydraulic jacks H are connected to the arms of the floating die and these serve to lift the die above its normal spring-supported position just before the block or briquet is ejected. Stop collars I secured to the press strain rods limit the upward movement of the floating die when raised by the jacks.
  • the lower die L is mounted on a die-carrier M which rests on rails N secured to the base of the press. Normally the die L projects to a small extent into thefloating die, as shown in Fig. 3, but after the block has been formed and compressed the floating die is raised by the jacks in such manner as to withdraw the lower die from the chamber of the floating die and then by means of the lever O the carrier M may .be moved to the position shown in, Fig. -t at which time press supports, m extending upwardly from the carrier M come below the floating die and take the strain of the press when the floating,
  • Fig. 4 shows how the block is received on the base of the press in front of an apron P extending downwardly from the die-carrier in such relation to the block that when the carrier is moved back to its normal position the block will be pushed to one side of the press.
  • the movement of the die-carrier is limited by means of adjustable bolts Q, fitted in lugs 9 projecting downwardly from the (lie-carrier and which abut against the ends of the rails N.
  • a press comprising a floating chambered die, an upper die cooperating there with and which when it descends lowers the floating die, a lower die extending into the chamber of the floating die and means for withdrawingthe floating die from the lower die and for moving the lower die laterally to one side of the press.
  • a press comprising a floating chambered die, springs on which it is supported, an upper die cooperating with the floating die and which when it descends lowers the floating die, a lower die extending into the chamber of the floating die, means for lifting the floating die above the plane of the lower die and means for moving the lower die laterally to one side of the press.
  • a press comprising a floating chambered die,an upper die cooperating therewith and which when it descends lowers the floating die. a lower die extending into the chamber of the floating die, a die-carrier for the'lower die, an apron carried thereby for pushing the compressed material to one side of thepress, means for raising the floating die above the plane of the lower die, and means for moving the lower die and its carrier sidewise relatively to the vertical axis of the floating die.

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Chemical & Material Sciences (AREA)
  • Ceramic Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Press Drives And Press Lines (AREA)

Description

F. E. snvzusou M.- c. LITTLE.
J rams. APPLICATIO! FILED JULY 3, 1915- 1,166,558. Patented Jan. 4, 1916.
2 SHEETS-SHEEI I.
A I mun "Inn" 7+ x zewenwong F. E. STEVENSON &- H. C. LITTLE.
PRESS. APPLICATION man JULY 3, I915.
.fi t
fiverzfo'ra; we
' To all whom itmog concern.
FRANCIS ESTEVENSON AND HARRY c. nxrrnnfori v ou ur eI L AD,.onio Asislsuons TO THE HYDRAULIC mmssMANUrAcTURmeco rAnY, GEMOUNT GILEAD; OHIO.
1 PRESS.
Specification of Letters Patent. Patented Jan, 41 1916.
Application filed July 3, 1915. Serial No. 38,009.-
Be it known that we, FRANCIS E. STE-VEN- SON and HARRY C. LITTLE, both citizens of the United States, and both residing in Mount Gilead, in the county of Morrow and State of Ohio, have invented certain new Which thefollowing is a. specification.
This invention relates especially to presses.
of the kind used for compressing materials of different kinds into blocks orv briquets of convenient size and it relates particularly to a press designed to compress salt into block or briquet form whether itbe of the evaporated kind or crushed rock salt.
' Rock salt in lumps of comparatively large size is commonly fed to cattle and other stock and it is also not uncommon to com-.
press crushed or fine salt into blocks or briquets for the same use, but presses of ordinary construction are not well adapted for this purpose because when such material is subjected to great pressure in one direction uniform density cannot be obtained in the block or briqu'et owing to the cohesion of the particles of salt and the friction produced on the side walls of the chamber in which the block or briquet is formed which causes the material to become arched while resisting the power of the press. In this Way one end of the block, z. e., that to which the pressure is directly applied, is made harder than the other. To remedy these defects we have provided a press equipped with a floating spring-supported mold or die into the lower end of which extends a die -supported on a transversely movable carrier and the opposite end of which receives a hydraulically operated ram. The material to be compressed is fed to the mold chamber while the bottom thereof is closed by the lower die and then the hydraulic ram carrying the upper die is operated to compress the material to the desired extent. In so doing the floating die or mold is depressed against the force of its supporting springs owing to the cohesion'of the particles and their adhesion to the side walls of the mold chamber. The effect is to cause the lower die to enter part way into the mold chamber and thus 00- operate with. the upper dieto compress the side of the press.
position and in order to eject the finished block or briquet hydraulic plungers or jacks are employed to lift the floating die above the plane of the lower die so that. the latter with its carrier may be withdrawn to one.-
side of the press leaving a clear space to receive the block or briquet which is ejected by a downward movement of the upper die.
. The die carrier is fitted with an apron which serves to move the block when ejected from thereof. Fig. 3 is a detail view partly in elevation and partlyin section showing particularly the condition of the dies during the compressing'operation. Fig. 4 is a similar view showing the position of the parts after the block hasbeen compressed and the upperv and lower dies removed from the chamber of the floating die and in which position the upper die maygbe, operated to eject 1 the compressed block. Fig. 5 is a view simi-' lar to Fig. 4 but showing how the'upper die ejects the compressed block and'how the apron operates to remove the block to one Fig. 6 is a detail view in perspective showing particularly the 'construction and relation of the lower die, its carrier and the supports or ralls on which the die-carrier is mounted.
The main franie of the press maybe of any suitable construction and need not-be described in detail. the pillars 01' strain rods B whichin-turn support the hydraulic ram C .that operates the upper die D.
The floating die E has a chamber e, the
-walls of which are slightly tapered or inlchned, as shown, from bottom upward and the corners of the walls of'this chamber are suitablybeveled to avoid sharp edges on the briquet .or block. "The-lower face 'of the die D .is recessed, as shown, andhas beveled edges in orderto give propershape to the top ofthe compressed I block. "The floatingdie' E is provided with arms e" engaging the pillars'orstrain rods B and The base A' supports these arms carry downwardly projecting i rods F which extend through springs G the base A and they carry adjustable collars g which rest on the tops of the springs.
By these devices th floating die is adapted to be depressed against the force of the springs during the compressing operation. It will be observed that there are four rods F and four corresponding springs G and that the arms 6 are adapted to move vertically on the pillars or strain rods B which serve as guides for the floating die.
Hydraulic jacks H are connected to the arms of the floating die and these serve to lift the die above its normal spring-supported position just before the block or briquet is ejected. Stop collars I secured to the press strain rods limit the upward movement of the floating die when raised by the jacks. The lower die L is mounted on a die-carrier M which rests on rails N secured to the base of the press. Normally the die L projects to a small extent into thefloating die, as shown in Fig. 3, but after the block has been formed and compressed the floating die is raised by the jacks in such manner as to withdraw the lower die from the chamber of the floating die and then by means of the lever O the carrier M may .be moved to the position shown in, Fig. -t at which time press supports, m extending upwardly from the carrier M come below the floating die and take the strain of the press when the floating,
' 'die is depressed during the operation of ejecting the block or briquet. This is clearly shown in Fig. 4, and Fig. 5 shows how the block is received on the base of the press in front of an apron P extending downwardly from the die-carrier in such relation to the block that when the carrier is moved back to its normal position the block will be pushed to one side of the press. The movement of the die-carrier is limited by means of adjustable bolts Q, fitted in lugs 9 projecting downwardly from the (lie-carrier and which abut against the ends of the rails N.
While we have shown four springs for supporting the floating die, it is, of course, understood that we are not limited to this number of springs, and it is also obvious that the springs may be omitted and the hydraulic jacks or rams H may serve to take their place, these rams being used to yieldingly support the floating die and also to elevate it to the desired extent to clear the lower die just before the ejecting operation. Other details of construction may also be varied.
\Vhat we claim is:
1. A press comprising a floating chambered die, an upper die cooperating there with and which when it descends lowers the floating die, a lower die extending into the chamber of the floating die and means for withdrawingthe floating die from the lower die and for moving the lower die laterally to one side of the press.
2. A press comprising a floating chambered die, springs on which it is supported, an upper die cooperating with the floating die and which when it descends lowers the floating die, a lower die extending into the chamber of the floating die, means for lifting the floating die above the plane of the lower die and means for moving the lower die laterally to one side of the press.
3. A press-comprising a floating chambered die, an upper die cooperating therewith and which when it descends lowers the floating die, a lower die extending into the chamber of the floating die, a die-carrier on which the lower dieis mounted, means for raising the floating die above the plane of the lower die, means for moving'the lower die laterally, and means on the die-carrier for supporting the floating die when the lower die is moved to one side of the chamber of the floating die.
4. A press comprising a floating chambered die,an upper die cooperating therewith and which when it descends lowers the floating die. a lower die extending into the chamber of the floating die, a die-carrier for the'lower die, an apron carried thereby for pushing the compressed material to one side of thepress, means for raising the floating die above the plane of the lower die, and means for moving the lower die and its carrier sidewise relatively to the vertical axis of the floating die.
In testimony whereof we have subscribed our names.
FRANCIS E. STEVENSON. HARRY C. LITTLE.
Witnesses HELEN G. CARR, C. V. PURCELL.
Gopiesof this patent may be obtained for five cents each, by addressing the Commissioner of Patents,
, WashtngtomD. 0.
hereunto ice
US3800915A 1915-07-03 1915-07-03 Press. Expired - Lifetime US1166558A (en)

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