US52584A - Improvement in presses - Google Patents
Improvement in presses Download PDFInfo
- Publication number
- US52584A US52584A US52584DA US52584A US 52584 A US52584 A US 52584A US 52584D A US52584D A US 52584DA US 52584 A US52584 A US 52584A
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- US
- United States
- Prior art keywords
- spindle
- lever
- wheels
- cross
- plate
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 230000000875 corresponding Effects 0.000 description 8
- 239000011521 glass Substances 0.000 description 8
- 239000000463 material Substances 0.000 description 8
- 229910000754 Wrought iron Inorganic materials 0.000 description 6
- CWYNVVGOOAEACU-UHFFFAOYSA-N fe2+ Chemical compound [Fe+2] CWYNVVGOOAEACU-UHFFFAOYSA-N 0.000 description 6
- 229910001018 Cast iron Inorganic materials 0.000 description 4
- 229910000831 Steel Inorganic materials 0.000 description 4
- 238000010276 construction Methods 0.000 description 4
- 239000000203 mixture Substances 0.000 description 4
- 239000007787 solid Substances 0.000 description 4
- 239000010959 steel Substances 0.000 description 4
- 230000001429 stepping Effects 0.000 description 4
- 210000003414 Extremities Anatomy 0.000 description 2
- 230000000994 depressed Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000006011 modification reaction Methods 0.000 description 2
- 230000002035 prolonged Effects 0.000 description 2
- 230000036633 rest Effects 0.000 description 2
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03B—MANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
- C03B11/00—Pressing molten glass or performed glass reheated to equivalent low viscosity without blowing
- C03B11/02—Pressing molten glass or performed glass reheated to equivalent low viscosity without blowing in machines with rotary tables
Definitions
- My machine may be made of any approvedj I prefer that the main frame should be cast-iron and the greater portion of the" material.
- A is the frame-work, assumed to be of castiron, and B is a cross-head adapted to move vertically therein and preserve the spindle C from springing to one side or the other.
- C isa spindle turning within the cross-head B and supported in the frame A, so that it is free to slide vertically.
- D is what I term a shell-nut or threaded tube,77 with flanges, as represented. It is iitted upon the spindle O, as represented, and inclosed within wrought-iron lugged shell E,
- This lever G which connects with the lever G, so as to be operated vertically thereby.
- This lever G is bent, as indicated, and carries a weight, G', at one extremity.
- Thev lever Gris operated by pulling down the handle, and it gives a vertical motion to the spindle C and its connections, the links H H swinging or vibrating on their centers h to allow the motion, in the manner as will be obvious.
- the lever G is bent so that the upper ends of the links H H may come within the frame-workA or pass the center of the spindle.
- the weight G tends to raise the handle of the lever G,
- Bracket E is a bracket or hanger extending down from the wrought-iron shell E.
- This bracket E supports a shaft, m, carrying a bevel-wheel, M.
- the lower end of the nut or tube D is beveled,'as represented, and is toothed with bevelgearv corresponding to that of the bevel-wheel M.
- the collar on the upper end of the shellnut D is capable of being removed at will by removing a key or the like, to allow the parts to" be separated for repairs.
- the outer end of the shaft on is attened' or squared, and is adapted to receive a hand-crank (not represented) for turning it.
- the bevel-wheel M may be operated in either direction at will, and consequently the nut or tube D will be revolved around so as to raise or lower the spindle O to any extent within reasonable limits.
- the hand-crank may be removed from the shaft m, andthe parts M D, 8mo., may be kept in place eitherv by friction or by any convenient catch and lockf device. (Not represented.)
- the plate I is adapted to carry any ordinary clearing device or edge-former, or other desired part of the mold or upper die, which is to be pressed down upon the material or on the top of the'mold in advance of the main die. It is supported by two stout vertical rods, J J, which stand in holes in the cross-head B, and are adapted to slip vertically through corresponding holes in cross-head K, which is guided by the spindle O near its upper end.
- C' is a cap or nut secured on the upper end of the spindle C by a cross-pin or otherwise, so that it may be removed at pleasure.
- P P are two flat scroll-'springs made from tapering steel, which encircle the spindle G above the Vof its requiring a lesser height.
- L is a geared wheel loosely surrounding the spindle (l, and being guided or kept in place. by pins or small rolls which may be mounted either on its exterior or on its interior.
- L Il are corresponding geared wheels, so as to turn or move like nuts on thevertical rods J J, so as to regulate the depth or the distance at which the plate I shall be usually supported below the cross-head B.
- I usually employ aframework, Z, to better connect the train of gearing
- the geared wheel L is seized by ⁇ the hands or any suitable instrument and turned. This imparts a corresponding motion to both the geared wheels L L and rotates them uniformly in the same direction. This movement raises' or lowers the rods J J, as will be obvious.
- I have represented a train of gearing, TTT, mounted within a frame, t t, and the wheels T T4 are threaded and their bosses are enlarged vertically, inlike man ner to the bosses of the wheels L L', so as to form durable and substantial nuts which tit' upon the threads on the vertical rods J.
- the cross-head K rests on theframe t t, or itmay rest directly on the bosses of the wheels T T T. I prefer the latter con struction, in which case the frame t t will per- 4form the function simply of supporting the ceutral wheel, T, and holding it and the geared wheels T T in their proper relative positions.
- a suitable die is fixed on the lower end of the spindle C, and a suitable edge forming or clearing device is fitted to the plate I.
- the proper female die is now placed below, made in one or more parts, asis necessary, and moved in and out, as usual, during the period While the parts U and I remain elevated.
- the spindle C is raised -or lowered by the working of the lever G, and the shaft m is turned so as to raise or lower lthe spindle G relatively to the i hand-lever G, so that it shall be pressed down by the action of the lever to aproper extent without requiring the lever G to be thrown into any impossible or inconvenient position.
- the spindle O is now properly adjusted,
- the part I and its attachments must be adjusted. This is effected by turning the Wheel L in one direction or the other, correspondinglyraising or lowering I, as above described.
- the wheels T T' are raised or lowered by turning the wheel T or its equivalent so as to give a proper tension to the spring P P' and induce a just sufficient pressure on the part I.
- the dies may, of course, be worked in a reverse position, with the male die on the bed and the female' carried on the spindle C, if desired.
- My press is simple, and all these adjustments may be produced with great rapidity and accuracy.
- the lever G by being arranged to be operated in front of the machine and being hung in the frame A at a low point, as represented, allows the same to be caught by the hand, on a large as Well as on a small press, and drawn down with facility without the aid of a string or stepping up one or two feet from the floor, which is necessary to bring down a lever when mounted at a high point, and without the necessity for stepping around to the side or end of the machine, as is necessary where levers extend edgewise of the frame, so as to project sidewise instead of in front of the machine, and on large presses frequently requiring two men to operate the machine, evidently not ldoing it to as good advantage as one man can with my device.
- lever G The arrangement of the lever G, links H, and arms A', or their equivalents, the lever G being operated in front of the machine and at a low point, substantially in the manner and for the purposes herein set forth.
- the shaft m, wheel M, and nut D adapted to raise and lower the spindle G and its connections, substantially as and for the purposes herein set forth.
- connection L or its equivalent, the gear-wheels L' L', and the frame l, or its equivalent, adapted to raise and lower the clearer I in the horizontal position, substantially in the manner and for the purposes herein set forth.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Manufacturing & Machinery (AREA)
- Materials Engineering (AREA)
- Organic Chemistry (AREA)
- Press Drives And Press Lines (AREA)
Description
NiTED STATES PATENT OFFICE.
GEORGE MATTHEWMANF BROOKLYN, `NEW YORK.
,IMPROVEMENT- N- PRESSES.
Specification forming part of Letters Patent No. 52,584, dated February 13, 1866.
' ferent dies or for goods of difierentthioknesses third, in certain means for raising and lowering the clearer or edge-former 5 and, fourth, inl van improved arrangement for operating the; latter from the motion of the spindle, so'as tov better communicate the required motion and,v lforce.
My machine may be made of any approvedj I prefer that the main frame should be cast-iron and the greater portion of the" material.
mechanism be wrought-iron or steel; but this is not essential.
I will now proceed to describe what I con- Sider the best mode of carrying out my invention, reference being had to the accompany: ing drawings, and to the letters of reference marked thereon, in which- Figure l is a front view, partly in section, and Fig. 2 avertical section, of my press without the dies, which latter may be of any approved character. Fig. 3 is an enlarged section of a portion.
Similar letters of reference indicate like parts in all the figures.
A is the frame-work, assumed to be of castiron, and B is a cross-head adapted to move vertically therein and preserve the spindle C from springing to one side or the other.
C isa spindle turning within the cross-head B and supported in the frame A, so that it is free to slide vertically.
D is what I term a shell-nut or threaded tube,77 with flanges, as represented. It is iitted upon the spindle O, as represented, and inclosed within wrought-iron lugged shell E,
. which connects with the lever G, so as to be operated vertically thereby. This lever G is bent, as indicated, and carries a weight, G', at one extremity. A pair of rigid links, H, pivoted'to an arm, A', on the framework A, snpport the lever G by aid of a cross-pin, h.. Thev lever Gris operated by pulling down the handle, and it gives a vertical motion to the spindle C and its connections, the links H H swinging or vibrating on their centers h to allow the motion, in the manner as will be obvious. The lever G is bent so that the upper ends of the links H H may come within the frame-workA or pass the center of the spindle. The weight G tends to raise the handle of the lever G,
and also to raise the spindle C and the connected parts.
E is a bracket or hanger extending down from the wrought-iron shell E. This bracket E supports a shaft, m, carrying a bevel-wheel, M. The lower end of the nut or tube D is beveled,'as represented, and is toothed with bevelgearv corresponding to that of the bevel-wheel M. lThe collar on the upper end of the shellnut D is capable of being removed at will by removing a key or the like, to allow the parts to" be separated for repairs. The outer end of the shaft on is attened' or squared, and is adapted to receive a hand-crank (not represented) for turning it. By applying and turning such crank the bevel-wheel M may be operated in either direction at will, and consequently the nut or tube D will be revolved around so as to raise or lower the spindle O to any extent within reasonable limits. On completing the adjustment the hand-crank may be removed from the shaft m, andthe parts M D, 8mo., may be kept in place eitherv by friction or by any convenient catch and lockf device. (Not represented.)
The plate I is adapted to carry any ordinary clearing device or edge-former, or other desired part of the mold or upper die, which is to be pressed down upon the material or on the top of the'mold in advance of the main die. It is supported by two stout vertical rods, J J, which stand in holes in the cross-head B, and are adapted to slip vertically through corresponding holes in cross-head K, which is guided by the spindle O near its upper end. C' is a cap or nut secured on the upper end of the spindle C by a cross-pin or otherwise, so that it may be removed at pleasure. P P are two flat scroll-'springs made from tapering steel, which encircle the spindle G above the Vof its requiring a lesser height.
height.
cross-head K, and exert a force tending to press down the cross-.head Kland its connections. There are screw-threads produced on the lower portions of the vertical rods J J.
L is a geared wheel loosely surrounding the spindle (l, and being guided or kept in place. by pins or small rolls which may be mounted either on its exterior or on its interior. L Il are corresponding geared wheels, so as to turn or move like nuts on thevertical rods J J, so as to regulate the depth or the distance at which the plate I shall be usually supported below the cross-head B. I usually employ aframework, Z, to better connect the train of gearing When it is desired to raise or lower the plate I relatively to the spindle Gand its Vconnections the geared wheel L is seized by` the hands or any suitable instrument and turned. This imparts a corresponding motion to both the geared wheels L L and rotates them uniformly in the same direction. This movement raises' or lowers the rods J J, as will be obvious.
It will, of course, be understood by all familiar with the construction and operation of -presses of this class that the variations in the character of the work require that the plate I shall in some cases stand at greater depths below the spindle C than in other cases. `The` adjustment abovedescribed provides for varyvin g in this respect within any required limits 5 but unless some additional adjustments are provided every change in the elevation of the plate I relatively to the spindle (l would i11- volve a change in the tension of the springs P P', and conseqnentlyin the force with which the plate I would act as it comes down in advance of the spindle O, at a certain distance in advance thereof, until the plate I or its attach ments presses firmly upon the Work below. `It' it is then desired that the plate I' and its Vattachments shall rest in that position while vbe each pressed'into avertical space no greater than the thickness of the thickest part of the springs. They allow a wide range of motion with but a little Vvertical height. In order to obtain the same range ot' motion with ordinary spiral springs, the upper end of the spindle C would require to be prolonged very greatly,
because a spiral spring, when pressed to the utmost, occupies a length equal to the thickness ot' its material multiplied by the numberv of coils. My spring is much better by reason One and onci'ourth inchV serves for the minimum height for the spring for a large press. To allow the same range of motion with a spiral spring would require about six inches of minimum The traverse of both these supposed springs would be about two inches, and the tension of each, it" the spring is rightly con` structed, will be pretty nearly equal; but mine exerts a more uniform tension throughout the entire traverse, which vis the character ot' spring desired for this purpose.
In practice the above igures hardly do justice to my spring, as in practice a spiral spring cannot be pressed solid together without danger of injuring, while mine can be pressed.l
down solid with impunity.
In order to maintain a uniform condition for the spring as the plate I is raised and lowered in the adjustment above described, it is necessary to correspondingly adj ust the position ot' the cross-head K on the rods J. I have provided mechanism which will accomplish this, and will also allow of adjustment independent ot" the adj ustment at the bottom, so as to allow the force with which the plate I is depressed in advance of the spindle U to be graduated at will within any limits of which the springP P is capable. I have represented a train of gearing, TTT, mounted within a frame, t t, and the wheels T T4 are threaded and their bosses are enlarged vertically, inlike man ner to the bosses of the wheels L L', so as to form durable and substantial nuts which tit' upon the threads on the vertical rods J. The cross-head K rests on theframe t t, or itmay rest directly on the bosses of the wheels T T T. I prefer the latter con struction, in which case the frame t t will per- 4form the function simply of supporting the ceutral wheel, T, and holding it and the geared wheels T T in their proper relative positions. The cross-head Kbein g supported in such manner, directly or indirectly, upon the nuts or threaded wheels T. T, it follows that the turnjing of these wheels by the turning of the central wheel, T, in the one direction will raise the cross-head K relatively to the rods J and increase the tension ot' the spring P P', while the turning of the same in the opposite direction will lower the cross-head K and diminish the tension. The fact that these wheels L L at the bottom are turned simultaneously insures that 'the plate I is always supportedin a horizontal position. The fact that the wheels T T, near the top, are turned simultaneously insures th at the cross-'head K shall be always held in a horizontal position.
'I can substitute for the central wheel, L, near the bottom, as also for the central wheel,
T, near the top, a pitch-chain embracing the this device an equivalent ofthe wheels L and T. Theyperf'orm the functions simply of maintaining a perfect mechanical connection and compellin g uniform motion on each side of the machine. I can adopt one of these modifications at the top and another at the bottom, if desired. I square the free end of the spindle C at the top, as represented, so that in case of any derangement of the part M m, &c., I can raise'and lower the spindle C by taking hold at the top and turning it, as usual.
To produce a glass goblet or other desired article, a suitable die is fixed on the lower end of the spindle C, and a suitable edge forming or clearing device is fitted to the plate I. The proper female die is now placed below, made in one or more parts, asis necessary, and moved in and out, as usual, during the period While the parts U and I remain elevated. The spindle C is raised -or lowered by the working of the lever G, and the shaft m is turned so as to raise or lower lthe spindle G relatively to the i hand-lever G, so that it shall be pressed down by the action of the lever to aproper extent without requiring the lever G to be thrown into any impossible or inconvenient position. The spindle O is now properly adjusted, |care being taken, of course, to also so perfect the adjustment that the parts shall be in a proper position when elevated to the fullest extent that the lever G will allow them to rise. Next the part I and its attachments must be adjusted. This is effected by turning the Wheel L in one direction or the other, correspondinglyraising or lowering I, as above described. Next the wheels T T' are raised or lowered by turning the wheel T or its equivalent so as to give a proper tension to the spring P P' and induce a just sufficient pressure on the part I.
When all the parts are adjusted and melted glass or other material to be pressed is placed in the stationary female die the lever G is seized by the hand and brought down with force. The motion depresses the spindle() and its attachments and the plate I and its attachments simultaneously for a time until the plate I and its attachments rest fairly on the female die below. The furtherdepression ofthe lever G now commences to compress the springP P' and to carry the spindle G farther down until the entire movementis perfected, ready for the next operation.
The dies may, of course, be worked in a reverse position, with the male die on the bed and the female' carried on the spindle C, if desired.
My press is simple, and all these adjustments may be produced with great rapidity and accuracy. The lever G, by being arranged to be operated in front of the machine and being hung in the frame A at a low point, as represented, allows the same to be caught by the hand, on a large as Well as on a small press, and drawn down with facility without the aid of a string or stepping up one or two feet from the floor, which is necessary to bring down a lever when mounted at a high point, and without the necessity for stepping around to the side or end of the machine, as is necessary where levers extend edgewise of the frame, so as to project sidewise instead of in front of the machine, and on large presses frequently requiring two men to operate the machine, evidently not ldoing it to as good advantage as one man can with my device.
The saving of time when one man is working alone is of vast importance in pressing glass. mold or die it should be formed instantly, or it chills. My improved arrangement of the hand-lever gives this advantage by not requi ring the operator to go from the front of the press to the side. It is necessary that he shall go to the front in order to shove thel molders in and out of. the press. My invention allows him to operate the lever instantly without movin g therefrom. f
Having now fully described my invention, what I claim as new in presses, and desire to secure by Letters Patent, is as follows:
1. The arrangement of the lever G, links H, and arms A', or their equivalents, the lever G being operated in front of the machine and at a low point, substantially in the manner and for the purposes herein set forth.
2. The shaft m, wheel M, and nut D, adapted to raise and lower the spindle G and its connections, substantially as and for the purposes herein set forth.
3. The within-described'l combination and arrangement of the connection L, or its equivalent, the gear-wheels L' L', and the frame l, or its equivalent, adapted to raise and lower the clearer I in the horizontal position, substantially in the manner and for the purposes herein set forth. y
4. The within-described combination and arrangement ofthe springs l? P', spindle C, and threaded wheels T' T', adapted to increase and diminish the force with which the plate I is pressed down in advance of the spindle C, substantially as and so as to realize the advantage of requiring little height for the entire mechanism, as herein set forth.
GEORGE MATTHEWMAN.
Witnesses:
THoMAs D. SrETsoN, D. W. STE'rsoN.
After the melted glass is placed in the
Publications (1)
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US52584A true US52584A (en) | 1866-02-13 |
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US52584D Expired - Lifetime US52584A (en) | Improvement in presses |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20040132265A1 (en) * | 2002-12-27 | 2004-07-08 | Semiconductor Energy Laboratory Co., Ltd. | Separating method |
US20040211962A1 (en) * | 1994-12-27 | 2004-10-28 | Semiconductor Energy Laboratory Co., Ltd. | Semiconductor device, method of fabricating same, and, electrooptical device |
-
0
- US US52584D patent/US52584A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20040211962A1 (en) * | 1994-12-27 | 2004-10-28 | Semiconductor Energy Laboratory Co., Ltd. | Semiconductor device, method of fabricating same, and, electrooptical device |
US20040132265A1 (en) * | 2002-12-27 | 2004-07-08 | Semiconductor Energy Laboratory Co., Ltd. | Separating method |
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