US700984A - Measuring-can. - Google Patents

Measuring-can. Download PDF

Info

Publication number
US700984A
US700984A US7699201A US1901076992A US700984A US 700984 A US700984 A US 700984A US 7699201 A US7699201 A US 7699201A US 1901076992 A US1901076992 A US 1901076992A US 700984 A US700984 A US 700984A
Authority
US
United States
Prior art keywords
stem
discharge
ports
compartments
spout
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
Application number
US7699201A
Inventor
William E Sherwood
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US7699201A priority Critical patent/US700984A/en
Application granted granted Critical
Publication of US700984A publication Critical patent/US700984A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01FMEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
    • G01F11/00Apparatus requiring external operation adapted at each repeated and identical operation to measure and separate a predetermined volume of fluid or fluent solid material from a supply or container, without regard to weight, and to deliver it
    • G01F11/10Apparatus requiring external operation adapted at each repeated and identical operation to measure and separate a predetermined volume of fluid or fluent solid material from a supply or container, without regard to weight, and to deliver it with measuring chambers moved during operation
    • G01F11/12Apparatus requiring external operation adapted at each repeated and identical operation to measure and separate a predetermined volume of fluid or fluent solid material from a supply or container, without regard to weight, and to deliver it with measuring chambers moved during operation of the valve type, i.e. the separating being effected by fluid-tight or powder-tight movements
    • G01F11/20Apparatus requiring external operation adapted at each repeated and identical operation to measure and separate a predetermined volume of fluid or fluent solid material from a supply or container, without regard to weight, and to deliver it with measuring chambers moved during operation of the valve type, i.e. the separating being effected by fluid-tight or powder-tight movements wherein the measuring chamber rotates or oscillates
    • G01F11/24Apparatus requiring external operation adapted at each repeated and identical operation to measure and separate a predetermined volume of fluid or fluent solid material from a supply or container, without regard to weight, and to deliver it with measuring chambers moved during operation of the valve type, i.e. the separating being effected by fluid-tight or powder-tight movements wherein the measuring chamber rotates or oscillates for fluent solid material

Definitions

  • n4 - ucnms Pzrzns co, wo'roumou WASHINGTON, u. c
  • Nrrn STATES PATENT OFFICE Nrrn STATES PATENT OFFICE.
  • the object of the invention is to facilitate the operation. of delivering the milk in measured quantities from the can containing the milk in bulk.
  • This object I attain by the novel construction of the measuring-can hereinatter described and set forth in the'claims,
  • FIG. 1 is a side elevation of a can embodying my invention.
  • Fig. 2 is a vertical transverse section of the same.
  • Fig. 3 is a horizontal transverse section on line X X in Fig. 2, and
  • Figs. 4: and 5 are enlarged vertical sectional views illustrating more clearly the operation of the measuring devices.
  • C represents the body of the can, which is provided with a removable cover 0.
  • the bottom B denotes the bottom proper of the can, which bottom is a suitable distance above the base of the body 0 to accommodate directly under said bottom the measuring-compartments D D, disposed one above the other and attached to the bottom B, which is formed with an opening aoverthe upper compartmentD and with a rabbet a around said opening to serve as a seat for a removable cover I).
  • the lower compartment D is also provided with a removable cover I), which constitutes the bottom of the upper compartmentD.
  • the cover I) is supported upon a circumferential rim a projecting from the inner side of the shell which forms the walls of the two compartments D D. Suitable gaskets o c are placed on the seats of the covers I) b to prevent leakage thereat.
  • the bottom 0 of the lowermost compartment is inclined to a discharge-opening d, from which is extended a discharge-spout d, protruding through the body 0.
  • Each of the covers 6 b is provided with a disohargeport e in range with the opening (Z. Through these ports passes the valvestem f, which is extended through the top of the body 0 for the purpose hereinafter explained.
  • a valve g which controls the discharge through the opening at and spout d.
  • this valve are two valves g and 9 attached to the stem f and spaced to open both ports e 6 when the valve g is in its closed position in the discharge-opening d, as shown in Fig.
  • Each of said valves is adjustably secured to the stem by means of lock nuts applied to the screwthreaded portion of the stem and sustaining the valve between them.
  • the uppermost valve 9 is a greater distance beneath the port e in the top of the compartment D than the valve g is beneath'the port 6 in the top of the compartment D.
  • Said valves being all moved simultaneously by the valve-stem f causes the valves g and g to be carried in succession to their closed positions by the upward movement of said valve-stem, which at the same time removes the lowermost valve 9 from the discharge-openingd.
  • a suitable spring 7L forces the stem f downward to automatically close the discharge-opening d.
  • I provide gages, one consisting of a notch t in the upper end portion of the stem f, engaging a projection 11 on the case 0 when the said stem is drawn up to raise the valve 9 from the discharge-opening d and set the valve g in its closed position in the port 6 in the top of the compartment D.
  • the other gage consists of a shoulder j on the stem f, abutting against the lower endj of a vertical tube j which is attached to the upper part of the can and receives the stem f through it.
  • the said stem is raised to this last-described position, the uppermost valve 9 closes the port 6 in the top of the compartment D and the lower valves g and 9 open, respectively, the port 6 in the top of the compartment D and the discharge-opening d in the bottom of said compartment, as shown in Fig. 5 of the drawings, and thus cause both of said compartments to be emptied through the spout d, while the inlet of milk to said compartments is closed.
  • the covers I) and b are retained on their seats by means of a spring-bar Z, resting on the under sides of projections Z on the inner sides of the can and bearing with its central portion on top of the cover I). Between the two covers is interposed a prop t, which may be attached to either the bottom or top of the compartment D and serves to hold the lower cover 1) on its seat.
  • I employ suitable guides, preferably of the form of wires 0 and o, secured vertically in the side of the rabbet a and inner side of the upper compartment D, which wires engage notches in the edges of the covers I) b.
  • the two compartments D and D are provided with separate ventiducts n and n of different diameters.
  • the larger duct, n is attached to the cover I) and the smaller duct, n, rises from the cover b and passes telescopically through the duct n, with a space between them.
  • the manipulator of the can draws the stem up until the shoulderj strikes the end j ofthe tube j This causes the valve 9 to close the port e in the top of the upper compartment D and lifts both of the lower valves g and g to allow the milk to pass from both compartments D and D to escape through the discharge-spout d.
  • a can provided with measuringcompartments arranged one above the other in side of the can and each of said compartments provided with an opening in its top, removable covers closing said openings, means for retaining the covers in their closed positions, a discharge-spout attached to the lowermost compartment, discharge-ports in the tops of the compartments, valves controlling the discharges through said ports and spout, and a stem carrying said valves to move them simultaneously as set forth.
  • a can provided with measuring-compartments arranged one above the other inside of the can and each of said compartments provided with an opening in its top, removable covers closing said openings, means for retaining the uppermost cover in its closed position, a prop interposed between said cover and subjacent cover to confine the latter in its closed position, a discharge-spout attached to the lowermost compartment, discharge ports in the tops of the compartments, valves controlling the discharges through said ports and spout, and a stem carrying said valves to move them simultaneously as set forth.
  • a can provided with measuring-compartments disposed one above the other inside of the can and each of said compartments provided with an opening in its top, removable covers closing said openings, ventiducts extending from said covers and. arranged telescopically one within the other, means for retaining the cover of the uppermost compartment in its closed position, a prop interposed between the covers, a discharge-spout attached to the lowermost compartment, discharge-ports in the aforesaid covers, guides determining the positions of the closed covers, a stem passing through the aforesaid ports, a valve attached to the lower end of the stem to control the discharge through the spout, valves attached to said stem and spaced to open the aforesaid ports in succession by the upward movement of the stem, a spring forcing the stem downward to automatically close the spout, and gages on the stem and can determining the positions of the valves as set forth and shown.

Description

No. 700,984. Patented May 27, I902.
.W. E. SHERWOOD.
MEASURING CAN.
(Application filed Sept. 30, 1901.) (No Model.)
2 Sheets-Sheei I.
W: Noam: PETERS cc, PHOTO-LITNQRWASNINGTUN, u. c
Patented May 27, I902.
w. asus nwoon.
MEASURING CAN.
Application filed Sept 30, 1901 2 Sheets-Sheet 2,
(No Model.)
I m 9., II
wwif fild ATTORNEY.
n4:- ucnms Pzrzns co, wo'roumou WASHINGTON, u. c
Nrrn STATES PATENT OFFICE.
lVILLlAM E. SHERWVOOD, OF ONEIDA, NEW YORK.
MEASURING-CAN.
SPECIFICATION forming part of Letters Patent No. 700,984, dated May 27, 1902.
Application filed September 30, 1901. Serial No. '76,99Z- (N mod lsigned to be used in delivering milk to customers.
The object of the invention is to facilitate the operation. of delivering the milk in measured quantities from the can containing the milk in bulk. This object I attain by the novel construction of the measuring-can hereinatter described and set forth in the'claims,
and as illustrated in the annexed drawings, in which- Figure 1 is a side elevation of a can embodying my invention. Fig. 2 is a vertical transverse section of the same. Fig. 3 is a horizontal transverse section on line X X in Fig. 2, and Figs. 4: and 5 are enlarged vertical sectional views illustrating more clearly the operation of the measuring devices.
C represents the body of the can, which is provided with a removable cover 0.
B denotes the bottom proper of the can, which bottom is a suitable distance above the base of the body 0 to accommodate directly under said bottom the measuring-compartments D D, disposed one above the other and attached to the bottom B, which is formed with an opening aoverthe upper compartmentD and with a rabbet a around said opening to serve as a seat for a removable cover I). The lower compartment D is also provided with a removable cover I), which constitutes the bottom of the upper compartmentD. The cover I) is supported upon a circumferential rim a projecting from the inner side of the shell which forms the walls of the two compartments D D. Suitable gaskets o c are placed on the seats of the covers I) b to prevent leakage thereat. The bottom 0 of the lowermost compartment is inclined to a discharge-opening d, from which is extended a discharge-spout d, protruding through the body 0. Each of the covers 6 b is provided with a disohargeport e in range with the opening (Z. Through these ports passes the valvestem f, which is extended through the top of the body 0 for the purpose hereinafter explained. To the lower end of the stem fis adj ustably attached a valve g, which controls the discharge through the opening at and spout d. Above this valve are two valves g and 9 attached to the stem f and spaced to open both ports e 6 when the valve g is in its closed position in the discharge-opening d, as shown in Fig. 2 ot' the drawings. Each of said valves is adjustably secured to the stem by means of lock nuts applied to the screwthreaded portion of the stem and sustaining the valve between them.- The uppermost valve 9 is a greater distance beneath the port e in the top of the compartment D than the valve g is beneath'the port 6 in the top of the compartment D. Said valves being all moved simultaneously by the valve-stem f causes the valves g and g to be carried in succession to their closed positions by the upward movement of said valve-stem, which at the same time removes the lowermost valve 9 from the discharge-openingd. A suitable spring 7L forces the stem f downward to automatically close the discharge-opening d.
To determine the positions of the aforesaid valves, I provide gages, one consisting of a notch t in the upper end portion of the stem f, engaging a projection 11 on the case 0 when the said stem is drawn up to raise the valve 9 from the discharge-opening d and set the valve g in its closed position in the port 6 in the top of the compartment D. The other gage consists of a shoulder j on the stem f, abutting against the lower endj of a vertical tube j which is attached to the upper part of the can and receives the stem f through it. WVhen the said stem is raised to this last-described position, the uppermost valve 9 closes the port 6 in the top of the compartment D and the lower valves g and 9 open, respectively, the port 6 in the top of the compartment D and the discharge-opening d in the bottom of said compartment, as shown in Fig. 5 of the drawings, and thus cause both of said compartments to be emptied through the spout d, while the inlet of milk to said compartments is closed.
The covers I) and b are retained on their seats by means of a spring-bar Z, resting on the under sides of projections Z on the inner sides of the can and bearing with its central portion on top of the cover I). Between the two covers is interposed a prop t, which may be attached to either the bottom or top of the compartment D and serves to hold the lower cover 1) on its seat.
To facilitate the operation of placing the covers I) and b in proper position on the two compartments, so as to cause the ports e c to be in range with each other, I employ suitable guides, preferably of the form of wires 0 and o, secured vertically in the side of the rabbet a and inner side of the upper compartment D, which wires engage notches in the edges of the covers I) b.
The two compartments D and D are provided with separate ventiducts n and n of different diameters. The larger duct, n, is attached to the cover I) and the smaller duct, n, rises from the cover b and passes telescopically through the duct n, with a space between them.
In usingthe described can in delivering milk to customers the person manipulating said can allows the discharge-opening d to be closed by the valve g while carrying the can to the place of delivery, as shown in Fig.- 2 of -the drawings. This causes both compartments D and D to be filled. WVhen he Wishes to furnish the customer a pint of milk, said manipulator draws up the stem f until the notch t engages the projection t". This causes the valve g .to close the port 6 in the top of the lowermost compartment D and lifts the valve g from the discharge-opening d, and thus allows the contents of the compartment D to be discharged through the spout d, as represented in Fig. 4 of the drawings. In case the customer desires a quart of milk the manipulator of the can draws the stem up until the shoulderj strikes the end j ofthe tube j This causes the valve 9 to close the port e in the top of the upper compartment D and lifts both of the lower valves g and g to allow the milk to pass from both compartments D and D to escape through the discharge-spout d.
It will be observed that the operation of cleaning the interior of the can is materially facilitated by the ability of removing therefrom the covers Z) Z) of the measuring-compartments D D, together with the ventiducts n n, and the valve-stem f, with the valves 9 g g and the spring h.
What I claim is-- 1. A can provided with measuring-compartments arranged one directly over the other, a discharge-spout attached to the bottom of the lower compartment, ports in the tops of the compartments and disposed in range with said discharge-spout, a stem passing vertically through said ports and to the discharge-spout, and valves attached to said stem and controlling the discharges through said ports and spout as set forth and shown.
2. A can provided with measuringcompartments arranged one above the other in side of the can and each of said compartments provided with an opening in its top, removable covers closing said openings, means for retaining the covers in their closed positions, a discharge-spout attached to the lowermost compartment, discharge-ports in the tops of the compartments, valves controlling the discharges through said ports and spout, and a stem carrying said valves to move them simultaneously as set forth.
3. A can provided with measuring-compartments arranged one above the other inside of the can and each of said compartments provided with an opening in its top, removable covers closing said openings, means for retaining the uppermost cover in its closed position, a prop interposed between said cover and subjacent cover to confine the latter in its closed position, a discharge-spout attached to the lowermost compartment, discharge ports in the tops of the compartments, valves controlling the discharges through said ports and spout, and a stem carrying said valves to move them simultaneously as set forth.
4. A can provided with measuring-com partments arranged one above the other, a discharge-spout attached to the lowermost compartment, discharge-ports in the tops of said compartments, a stem passing through said ports, and valves attached to said stem and spaced to open the spout and close the ports in succession by the upward movement of the stem as set forth.
5. A can provided with measuring-compartments arranged one above the other, separate ventiducts extending from the tops of the compartments and disposed telescopically one within the other, a discharge-spout attached to the lowermost compartment, discharge-ports in the tops of the compartments, a stem passing through said ports, and valves attached to said stem and spaced to open the spout and close the ports -in succession by the upward movement of the stem as set forth.
6. A can provided with measuring-compartments arranged one above the other, a discharge-spout attached to the lowermost compartment, discharge-ports in the tops of the compartments, a stem passing through said ports, valves attached to said stem and spaced to open the spout and close the ports in succession by the upward movement of the stem, and gages on the stem and can determining the positions of the valves as set forth.
7. A can provided with measuring-compartments disposed one above the other and each of said compartments provided with an opening in its top, removable covers closing said openings, discharge-ports in said covers, a discharge-spout attached to the lowermost compartment, guides determining the movement of the covers, a stem passing through said ports, valves attached to said stem and spaced to open the spout and close the ports in succession, and gages on the stem and can determining the positions of the valves as set forth.
8. A can provided with measuring-compartments disposed one above the other and each of said compartments provided with an opening in its top, removable covers closing said openings, separate ventiducts extending from said covers and disposed telescopically one within the other, a discharge-spout attached to the lowermost compartment, discharge-ports in the aforesaid covers, a stem passing through said ports, valves attached to said stem and spaced to open the spout and close the ports in succession by the upward movement of the stem, and gages determining the positions of the valves as set forth.
9. A can provided with measuring-compartments disposed one above the other, a discharge-spout attached to the lowermost compartment, discharge-ports in the tops of the compartments, a stem passing through said ports, a valve attached to the lower end of said stem for controlling the discharge through the spout, a spring forcing the stem downward to automatically close the spout, valves attached to the stem and spaced to open the aforesaid ports in succession by the upward movement of the stem, and gages on the stem and can to determine the positions of the valves as set forth.
10. A can provided with measuring-compartments disposed one above the other inside of the can and each of said compartments provided with an opening in its top, removable covers closing said openings, ventiducts extending from said covers and. arranged telescopically one within the other, means for retaining the cover of the uppermost compartment in its closed position, a prop interposed between the covers, a discharge-spout attached to the lowermost compartment, discharge-ports in the aforesaid covers, guides determining the positions of the closed covers, a stem passing through the aforesaid ports, a valve attached to the lower end of the stem to control the discharge through the spout, valves attached to said stem and spaced to open the aforesaid ports in succession by the upward movement of the stem, a spring forcing the stem downward to automatically close the spout, and gages on the stem and can determining the positions of the valves as set forth and shown.
WILLIAM E. SHERWOOD.
Witnesses:
J. J. LAASS, WM. HAWLEY.
US7699201A 1901-09-30 1901-09-30 Measuring-can. Expired - Lifetime US700984A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US7699201A US700984A (en) 1901-09-30 1901-09-30 Measuring-can.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US7699201A US700984A (en) 1901-09-30 1901-09-30 Measuring-can.

Publications (1)

Publication Number Publication Date
US700984A true US700984A (en) 1902-05-27

Family

ID=2769515

Family Applications (1)

Application Number Title Priority Date Filing Date
US7699201A Expired - Lifetime US700984A (en) 1901-09-30 1901-09-30 Measuring-can.

Country Status (1)

Country Link
US (1) US700984A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2556655A (en) * 1946-07-23 1951-06-12 Henry G Lane Device for delivering predetermined quantities of liquids
US3877618A (en) * 1974-03-25 1975-04-15 Olin Corp Lost motion fluid measuring valve assembly

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2556655A (en) * 1946-07-23 1951-06-12 Henry G Lane Device for delivering predetermined quantities of liquids
US3877618A (en) * 1974-03-25 1975-04-15 Olin Corp Lost motion fluid measuring valve assembly

Similar Documents

Publication Publication Date Title
US700984A (en) Measuring-can.
US697830A (en) Apparatus for measuring and drawing liquids.
US561718A (en) Measuring-can for dispensing liquids
NO134283B (en)
US524900A (en) Measuring-tank
US803964A (en) Benzin-can.
US1916819A (en) Sugar measuring and serving device
US640081A (en) Self-measuring liquid-dispensing vessel.
US298778A (en) Ebenezee h
US531717A (en) Bottle-filling machine
US208645A (en) Improvement in self-measuring faucets
US1297458A (en) Predetermined-bulk liquid-dispenser.
US444903A (en) Measuring milk-can
US476760A (en) panchaud
US1246565A (en) Liquid-dispensing device.
US474575A (en) butts
US450383A (en) Liquid-measuring vessel
US1304463A (en) Dispensing vessel
US1001977A (en) Device for drawing off measured quantities of liquids.
US1092920A (en) Latrine.
US586855A (en) Self-measuring storage-tank
US1131495A (en) Liquid-serving device.
US145725A (en) Improvement in combined tanks and liquid-measures
US1322881A (en) Liquid-dispensing device
US610521A (en) bonafede