US1258071A - Glazing-machine. - Google Patents

Glazing-machine. Download PDF

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US1258071A
US1258071A US11135316A US11135316A US1258071A US 1258071 A US1258071 A US 1258071A US 11135316 A US11135316 A US 11135316A US 11135316 A US11135316 A US 11135316A US 1258071 A US1258071 A US 1258071A
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Prior art keywords
glazing
bowl
ware
pipe
valve
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US11135316A
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George W Winter
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05CAPPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05C5/00Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work
    • B05C5/02Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work the liquid or other fluent material being discharged through an outlet orifice by pressure, e.g. from an outlet device in contact or almost in contact, with the work
    • B05C5/0241Apparatus in which liquid or other fluent material is projected, poured or allowed to flow on to the surface of the work the liquid or other fluent material being discharged through an outlet orifice by pressure, e.g. from an outlet device in contact or almost in contact, with the work for applying liquid or other fluent material to elongated work, e.g. wires, cables, tubes

Definitions

  • My invention relates to glazing machines of the type used in putting the desired finish on pottery ware.
  • My invention is particularly adaptable for glazing both the interior and the exterior of this ware by virtue of a number of particularly novel structures.
  • the main object of my invention resides in the provision of a structure whereby the ing each successive operation and in this connection, the structure may also be such that the entire interior of the ware may also be glazed.
  • Still a further object of the invention resides in combination with a gage member in connection with which the ware is placed, a bowl into which the ware is dipped and means for causing a relative movement between the gage member and bowl when the ware is in its applied position.
  • This structure may also be supplemented by the provision of means whereby the interior is automatically glazed upon the assumption by the relatively movable units of their glazing position.
  • Figure l is a view in central vertical sec tion showing my improved type of glazing machine, and,
  • Fig. 2 is a vertical section taken through a valve structure used by me.
  • an overflow bowl 1 as being rigidly supported upon a stationarysupport rod 2, by means of the laterally projecting arms or brackets 3.
  • This stationary rod also carries a stationary gage member 4 at its upper end, by means of the laterally projectmg bracket arms shown at 5. It is in connection with this stationary gage member that the ware is designed to be placed just prior to the glazing operation, a narrow-' Specification of Letters Patent.
  • ware may be glazed to the same level dur-' Patented Mair. 5, 1918.
  • the glazing bowl 7 is shown as being slidably mounted to as; sume either the full line position or the dotted line position of Fig. 1.
  • This bowl is provided with a centrally arranged upstanding pipe8, which is spirally bored as is shown, which pipe is in communication with the inclined pipe 9 attached to the bottom of the bowl after the manner shown.
  • This pipe 9 is in turn attached to the pipe or supporting standard 10 which is itself slidably mounted in the two overflow bowl bracket arms 3.
  • the glazing bowl 7 receives its main support from the slide rod 11 also slidably mounted in the bracket arms 3 and collar 12 near the base of the standard 2 and is rigidly connected with the bowl by means of a pair of clamping members.
  • the lower end of the rod 11 is provided with a piston head 14, which piston head is operatively mounted within the air cylinder 15.
  • This air cylinder is in communication with a source of air supply, such as the storage tank 16 by means of a pipe connection 17, which latter is provided with a valve structure 18.
  • the plug 19 of-this I .valve is provided with a longitudinal bore the glazing bowl 7, I have provided a foot pedal arrangement comprising the treadle member 23 pivoted intermediate its ends as I is shown at 24 and this treadle member is connected by means of a link 25 and arm 26 directly to the valve plug. Depression of the rear end of the cause the valve plug to assume the position shown in Fig. 2, whereinthe longitudinal bore 20 alines with the opening in the pipe 17 to permit the flow of air from the cylinder 16 beneath the piston head 14 to cause its elevation. This movement is in turn imparted to the glazing bowl to make it assume the dotted line position shown. Release of the foot pedal or removal of the foot therefrom, causes the valve plug 19 to treadle member 23 will move through an arc of movement of ninety 7 degrees by means of the tension spring 23*,
  • This pipe 8 has been provided.
  • This pipe 8 comwith the transverse bore 22 to thus permit the exhaust of the air beneath the piston 14 to the atmosphere-
  • This glazing bowl is designed to be filled to the desired level with a glazing material and consequently when it is elevated and the ware is in position, the exterior of this ware will be glazed to the desired level.
  • l have connected the pipe 29 leading from the air reservoir 16 to the top of the receptacle 27, whereby the glazing material is given the benefit of the air pressure.
  • the valve structure represented by the casing 30 and the piston valve 31, is interposed between the pipes 10 and 28 and the arrangement is such that when the glazing bowl is elevated, the stem 32 of the valve will abut the underside of the bracket arm 3 when the bowl has reached substantially the end of its upward travel.
  • This valve is in the nature of a cut oil valve and when the stem 32 is moved, the port 33 is uncovered which ermits the glazing material to circulate about the reduced shank portion 34 of the valve .to enter the port 35 and then the pipe 10.
  • This valve operates against the tension of a spring 36 so that when the foot pedal 23 is released to permit the exhaust of the air, the communication of the liquid in the reservoir 27 with the centrally upstanding pipe 8, will be broken.
  • the glazing material thus entering the interior of the jug will be given a spiral motion due to the spiral bore in the pipe 8 and sprayed over the surplus running down through its mouth portion and dropping into the glazing bowl 8.
  • op-0E valve 40 which is attached to the pipe connection 41 leading to the top of the reservoir 27 and which, when the pressure within the reser- ,the pressure to mits the glazing maintain the desired agitation.
  • This valve may also be used to exhaust all of the air on top of the liquid in the reservoir 27 when it is desired to permit the glazing material within the overflow bowl 1 to again enter this receptacle. crating the valve 42 located in the pipe line 29 to break the communication of the reservoir 16 with the reservoir- 27.
  • the pop-oft valve may be manually operated to exhaust the air within the reservoir 27 which then permaterial to flow through the by-passconnection 43 into thepipe 29' and eventually into the reservoir 27 .
  • this pipe 43 serves as a means for agitating the glazing material within the overflow bowl 1, the pipe being'of a suiiiciently reduced size to permit the slow escape of air therethrough, which in turn bubbles up through the bowl 1 tol have provided a by-pass 44 which leads to the bottom of the reservoir 27 which maintains the glazing material contained therein also inan agitated state.
  • the check valve shown at 45 may be operated, which permits it to flow into the overflow bowl 1 and from there in turn into the reservoir 27.
  • a glazing machine comprising a glazing bowl, means for supplying the glazing to said bowl, means for maintaining a constant level in said bowl, a gage memberin connection with which the ware is placed, and means for causing a relative movement toward eachother of said bowl and said gage when the ware is in position.
  • A- glazing machine comprising a glazing bowl, an overflow bowl properly located beneath said glazing bowl, a gage member in connection with which the ware is placed, and means for causing a relative movement toward each other of bowl and said gage when the ware is in position.
  • Aglazing machine comprising a 'glazing bowl, an upstanding supply pipe within said bowl, a gage member in connection with which the ware is placed, means for causing a relative movement toward each'other by said bowl and said gage'when the ware is in position, and means for automatically forcing the glazing through movement has occurred.
  • a glazing machine comprising a glazing bowl, a gage member in connection with which the ware is placed, means for causing I a relative movement toward each other of said bowl and said gage when the ware 1s 1n 1 position, and means for venting the interior said bowl, a
  • said glazing said-pipe after such of the ware after said bowl and gage have tion with which the ware is placed, means for: causing a relative movement towardeach other of said bowl and said gage when the ware is in position, means for forcing the glazingthrough' said pipe after such movementhas occurred, and means for vent- 1 ing the interior of the ware.
  • a glazing machine comprising abowl, a central upstanding supply pipe within which the ware is position, an air pressure tank, and means for automatically renderin the air pressure tank effective to force t said' pipe after such movement has occurred.
  • a glazing machine comprising a glazing bowl, a centrally upstanding supply.
  • a glazing machine comprisin able glazing bowl, a stationary owl for catching the overflow from said glazing bowl, a centrally upstanding supply pipe within, said stationary bowl, 'a stationa gage member in connection with which the 105 ware is placed, means for elevating said; bowl, means for venting the inside of the ware as it is dipped into said glazing bowl, and means for automatically spraying the interior of the when the bowl has been elevated.
  • gage member in connection with placed, means for causing a relative movement toward each other of i said bowl and said gage when the ware is in e glazing through occurred, and means for.

Description

G. W. WINTER.
GLAZING MACHINE.
APPLICATION FILED JULY 26, 1916.
Patented Mar. 5, 1918.
Elnue-mtoz Cpl UNITED STATES" PATENT OFFICE.
GEORGE W. WINTER, OF CROOKSVILLE, OHIO.
GLAZING-MAGHINE.
Application filed July 26, 1916.
To all whom it may concern:
Be it known that I, GEORGE W. WINTER, a citizen of the United States, residing at Crooksville, in the county of Perry and State of Ohio, have invented certain new and useful Improvements in Glazing-Machines, of which the following is a specification.
My invention relates to glazing machines of the type used in putting the desired finish on pottery ware. My invention is particularly adaptable for glazing both the interior and the exterior of this ware by virtue of a number of particularly novel structures.
The main object of my invention resides in the provision of a structure whereby the ing each successive operation and in this connection, the structure may also be such that the entire interior of the ware may also be glazed.
Still a further object of the invention resides in combination with a gage member in connection with which the ware is placed, a bowl into which the ware is dipped and means for causing a relative movement between the gage member and bowl when the ware is in its applied position. This structure may also be supplemented by the provision of means whereby the interior is automatically glazed upon the assumption by the relatively movable units of their glazing position.
Other objects of the invention will become more apparent after a further detailed description of the accompanying sheet of drawings, wherein similar characters of reference designate corresponding parts, and
wherein:
Figure l is a view in central vertical sec tion showing my improved type of glazing machine, and,
Fig. 2 is a vertical section taken through a valve structure used by me.
In the drawings, I have shown what I have termed an overflow bowl 1 as being rigidly supported upon a stationarysupport rod 2, by means of the laterally projecting arms or brackets 3. This stationary rod also carries a stationary gage member 4 at its upper end, by means of the laterally projectmg bracket arms shown at 5. It is in connection with this stationary gage member that the ware is designed to be placed just prior to the glazing operation, a narrow-' Specification of Letters Patent.
ware may be glazed to the same level dur-' Patented Mair. 5, 1918.
Serial No. 111,353.
. neck piece of ware, such. as the jug 6, being shown in the drawings. The glazing bowl 7 is shown as being slidably mounted to as; sume either the full line position or the dotted line position of Fig. 1. This bowl is provided with a centrally arranged upstanding pipe8, which is spirally bored as is shown, which pipe is in communication with the inclined pipe 9 attached to the bottom of the bowl after the manner shown. This pipe 9 is in turn attached to the pipe or supporting standard 10 which is itself slidably mounted in the two overflow bowl bracket arms 3. The glazing bowl 7 receives its main support from the slide rod 11 also slidably mounted in the bracket arms 3 and collar 12 near the base of the standard 2 and is rigidly connected with the bowl by means of a pair of clamping members. 13, which clamping members also clamp the pipe 10 in position. The lower end of the rod 11 is provided with a piston head 14, which piston head is operatively mounted within the air cylinder 15. This air cylinder is in communication with a source of air supply, such as the storage tank 16 by means of a pipe connection 17, which latter is provided with a valve structure 18.
The plug 19 of-this I .valve is provided with a longitudinal bore the glazing bowl 7, I have provided a foot pedal arrangement comprising the treadle member 23 pivoted intermediate its ends as I is shown at 24 and this treadle member is connected by means of a link 25 and arm 26 directly to the valve plug. Depression of the rear end of the cause the valve plug to assume the position shown in Fig. 2, whereinthe longitudinal bore 20 alines with the opening in the pipe 17 to permit the flow of air from the cylinder 16 beneath the piston head 14 to cause its elevation. This movement is in turn imparted to the glazing bowl to make it assume the dotted line position shown. Release of the foot pedal or removal of the foot therefrom, causes the valve plug 19 to treadle member 23 will move through an arc of movement of ninety 7 degrees by means of the tension spring 23*,
' pipe 8 has been provided. This pipe 8 comwith the transverse bore 22 to thus permit the exhaust of the air beneath the piston 14 to the atmosphere- This glazing bowl is designed to be filled to the desired level with a glazing material and consequently when it is elevated and the ware is in position, the exterior of this ware will be glazed to the desired level.
In order to also glaze the interior of the ware, the centrally arranged upstanding municates with a receptacle 27 for holding the glazing material by means of its pipe connections 9 and 10 and also the flexible hose connection shown at 28. In order to force the glazing material through the central pipe 8, l have connected the pipe 29 leading from the air reservoir 16 to the top of the receptacle 27, whereby the glazing material is given the benefit of the air pressure. The valve structure represented by the casing 30 and the piston valve 31, is interposed between the pipes 10 and 28 and the arrangement is such that when the glazing bowl is elevated, the stem 32 of the valve will abut the underside of the bracket arm 3 when the bowl has reached substantially the end of its upward travel. This valve is in the nature of a cut oil valve and when the stem 32 is moved, the port 33 is uncovered which ermits the glazing material to circulate about the reduced shank portion 34 of the valve .to enter the port 35 and then the pipe 10. This valve operates against the tension of a spring 36 so that when the foot pedal 23 is released to permit the exhaust of the air, the communication of the liquid in the reservoir 27 with the centrally upstanding pipe 8, will be broken. The glazing material thus entering the interior of the jug will be given a spiral motion due to the spiral bore in the pipe 8 and sprayed over the surplus running down through its mouth portion and dropping into the glazing bowl 8. In order to maintain a constant level in-this glazing bowl, I have provided it with a se ries of apertures 37 which, when the liquid has reached its level, permits the surplus tooverflow into, the overflow bowl 1. Also, to vent the interior of the ware 6 to permit the steady outflow of the glazing material from it as the jug is withdrawn, without causing bubbling, l have provided the vent pipe 38 which lies parallel with the pipe 8 for themajor portion of its length and is open at its top end and also exhausts out its rear end 39 into the atmosphere.
In order to regulate the pressure upon the surface of the glazing material within the reservoir27 as far as excess pressure is concerned, I have provided a op-0E valve 40 which is attached to the pipe connection 41 leading to the top of the reservoir 27 and which, when the pressure within the reser- ,the pressure to mits the glazing maintain the desired agitation.
voir goes above a predetermined point allows a portion of the air to escape to reduce the desired point. This valve may also be used to exhaust all of the air on top of the liquid in the reservoir 27 when it is desired to permit the glazing material within the overflow bowl 1 to again enter this receptacle. crating the valve 42 located in the pipe line 29 to break the communication of the reservoir 16 with the reservoir- 27. After this valve has been operated, the pop-oft valve may be manually operated to exhaust the air within the reservoir 27 which then permaterial to flow through the by-passconnection 43 into thepipe 29' and eventually into the reservoir 27 During this normal operation this pipe 43 serves as a means for agitating the glazing material within the overflow bowl 1, the pipe being'of a suiiiciently reduced size to permit the slow escape of air therethrough, which in turn bubbles up through the bowl 1 tol have provided a by-pass 44 which leads to the bottom of the reservoir 27 which maintains the glazing material contained therein also inan agitated state. Should it be desired to remove practically all of the glazing material within the glazing bowl 7, the check valve shown at 45 may be operated, which permits it to flow into the overflow bowl 1 and from there in turn into the reservoir 27. l
The operation of my device is as follows: The operation of the foot pedal 23 against the tension of the spring 23 causes the valve 18 to assume the position shown in Fig. 2, wherein air from the'storage reservoir 16 enters beneath the piston head 15 to cause its elevation. This elevation in turn causes the elevation of the glazing bowl 7 a predetermined distance, so that the ware 6 after it has been placed in position, will always be glazed to the same level' It is, of course, understood that the gage member 4 may be adjusted to the desired height by means of the adjusting bolts 5*. When the glazing bowl has been thus elevated, the valve stem. 32 will be caused to engage the underside of the bracket arm 3 to uncover the port 33 and permit the the reduced portion of the valve 34 into the upstanding pipe 8. This pipe is provided with a. spiral bar which imparts a spiral motion to the glazing material and thus the entire interior of therware is sprayed, the
level within the bowl 7 is maintained, be-
This is accomplished by op- Similarly,
glazing material to flow about,
cause of the apertures 37 which permit the.
overflow to flow into the overflow bowl 1 flow of glazing material to the interior of 1 the ware is automatically shut 011' by the and this may in turn be again ermitted to enter the reservoir 27 by operating the valve 42 to shut off the air ressure and relieving thepressure by manua operation of the popoff valve 40. This will then permit the glazing material to. flow by gravity through the pipes 43 and 29 into the reservoir 27. Release of the foot pedal then will bring the valve 18 to a position whereby the transverse bore 21 alines with the pipe 0 ening l7 and the longitudinal bore 20 of the valve with the transverse bore 22 through the valve casing. This permits the escape of the air beneath the pistonl to allow the descent of the glazing bowl and during its descent, the
spring 36 automatically moving the valve 3 to its shut-off position. Thus, it will be apparent that I have pro vided an apparatus of considerable utility wherein the only operations that are necessary is the placing of the ware 6 in its coro rect position and the operation of the foot pedal 23. v. This causes the glazing of the interior as well as izhe exterior of the ware,
as has already been related.
What I claim, is:
1. A glazing machine comprising a glazing bowl, means for supplying the glazing to said bowl, means for maintaining a constant level in said bowl, a gage memberin connection with which the ware is placed, and means for causing a relative movement toward eachother of said bowl and said gage when the ware is in position.
i 2. A- glazing machine comprising a glazing bowl, an overflow bowl properly located beneath said glazing bowl, a gage member in connection with which the ware is placed, and means for causing a relative movement toward each other of bowl and said gage when the ware is in position.
3. Aglazing machine comprising a 'glazing bowl, an upstanding supply pipe within said bowl, a gage member in connection with which the ware is placed, means for causing a relative movement toward each'other by said bowl and said gage'when the ware is in position, and means for automatically forcing the glazing through movement has occurred.
4. A glazing machine comprising a glazing bowl, a gage member in connection with which the ware is placed, means for causing I a relative movement toward each other of said bowl and said gage when the ware 1s 1n 1 position, and means for venting the interior said bowl, a
' bowl, an
said glazing" said-pipe after such of the ware after said bowl and gage have tion with which the ware is placed, means for: causing a relative movement towardeach other of said bowl and said gage when the ware is in position, means for forcing the glazingthrough' said pipe after such movementhas occurred, and means for vent- 1 ing the interior of the ware.
6. A glazing machine comprising abowl, a central upstanding supply pipe within which the ware is position, an air pressure tank, and means for automatically renderin the air pressure tank effective to force t said' pipe after such movement has occurred.
7. A glazing machine comprising a glazing bowl, a centrally upstanding supply.
pipe within the bowl, a gage member in con,-
nection with which the ware is placed, means 85 for causing a relative movement toward each other of said bowl and said gage when the means for automatically through said pipe after laced, means for elevating said means for automatically spraying the interior of the wareby means of said pipewhen the bowl has been ele'vated.
' 9. A glazing machine comprisin able glazing bowl, a stationary owl for catching the overflow from said glazing bowl, a centrally upstanding supply pipe within, said stationary bowl, 'a stationa gage member in connection with which the 105 ware is placed, means for elevating said; bowl, means for venting the inside of the ware as it is dipped into said glazing bowl, and means for automatically spraying the interior of the when the bowl has been elevated.
Intestimony whereof I aflix my signature in presence of two witnessesa.
w GEORGE W. WINTER. Witnesses: I
WM. J. CALHooN,
'JosHUA Sownas.
gage member in connection with placed, means for causing a relative movement toward each other of i said bowl and said gage when the ware is in e glazing through occurred, and means for.
er in connection with which the a movware by means of said pipe
US11135316A 1916-07-26 1916-07-26 Glazing-machine. Expired - Lifetime US1258071A (en)

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2676895A (en) * 1949-12-29 1954-04-27 American La France Foamite Method and apparatus for applying coating material to the inside of a container
US2715385A (en) * 1951-09-25 1955-08-16 Int Smelting & Refining Co Apparatus for applying mold wash to molds
US2734481A (en) * 1956-02-14 Sand core dipping machine
US2800876A (en) * 1953-12-07 1957-07-30 Smith Corp A O Spud fitting coating apparatus
US2857878A (en) * 1954-10-28 1958-10-28 Western Electric Co Apparatus for tinning terminals
US3646908A (en) * 1968-11-01 1972-03-07 Atomic Energy Authority Uk Apparatus for coating fibers
US3823687A (en) * 1970-12-16 1974-07-16 Dunlap Holdings Ltd Coating apparatus
US3853663A (en) * 1970-12-16 1974-12-10 Dunlop Holdings Ltd Application of liquid coatings
US4877655A (en) * 1987-07-15 1989-10-31 Figgie International Inc. Ball holding and cementing apparatus and method
US5232503A (en) * 1991-10-07 1993-08-03 San Jose Technology Apparatus for evaporatively coating objects with a predetermined thickness profile
US5912055A (en) * 1997-12-22 1999-06-15 Gore; Leslie George Coating metal strip

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2734481A (en) * 1956-02-14 Sand core dipping machine
US2676895A (en) * 1949-12-29 1954-04-27 American La France Foamite Method and apparatus for applying coating material to the inside of a container
US2715385A (en) * 1951-09-25 1955-08-16 Int Smelting & Refining Co Apparatus for applying mold wash to molds
US2800876A (en) * 1953-12-07 1957-07-30 Smith Corp A O Spud fitting coating apparatus
US2857878A (en) * 1954-10-28 1958-10-28 Western Electric Co Apparatus for tinning terminals
US3646908A (en) * 1968-11-01 1972-03-07 Atomic Energy Authority Uk Apparatus for coating fibers
US3823687A (en) * 1970-12-16 1974-07-16 Dunlap Holdings Ltd Coating apparatus
US3853663A (en) * 1970-12-16 1974-12-10 Dunlop Holdings Ltd Application of liquid coatings
US4877655A (en) * 1987-07-15 1989-10-31 Figgie International Inc. Ball holding and cementing apparatus and method
US5232503A (en) * 1991-10-07 1993-08-03 San Jose Technology Apparatus for evaporatively coating objects with a predetermined thickness profile
US5912055A (en) * 1997-12-22 1999-06-15 Gore; Leslie George Coating metal strip

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