US1259894A - Carbonating-machine. - Google Patents

Carbonating-machine. Download PDF

Info

Publication number
US1259894A
US1259894A US11989316A US11989316A US1259894A US 1259894 A US1259894 A US 1259894A US 11989316 A US11989316 A US 11989316A US 11989316 A US11989316 A US 11989316A US 1259894 A US1259894 A US 1259894A
Authority
US
United States
Prior art keywords
cylinder
valve
pump cylinder
charging
receptacle
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
US11989316A
Inventor
Thomas Millward
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 US11989316A priority Critical patent/US1259894A/en
Application granted granted Critical
Publication of US1259894A publication Critical patent/US1259894A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F23/00Mixing according to the phases to be mixed, e.g. dispersing or emulsifying
    • B01F23/20Mixing gases with liquids
    • B01F23/23Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids
    • B01F23/236Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids specially adapted for aerating or carbonating beverages
    • B01F23/2362Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids specially adapted for aerating or carbonating beverages for aerating or carbonating within receptacles or tanks, e.g. distribution machines
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S261/00Gas and liquid contact apparatus
    • Y10S261/07Carbonators

Definitions

  • This invention relates to a machine for carbonating beverages and its object is to produce a machine which will use as little power as possible above that stored in the tanks from which the supply of water and CO under pressure is obtained and is an improvement upon the invention disclosed in Patent No. 1,177,531, granted to me March 28, 1916, in that the present invention dispenses with the snifi valve disclosed in that patent and provides improved operating mechanism.
  • Another object of the invention is to produce a machine which will be capable of carbonating and discharging a small quantity of water with each operation thereof, the machine being small enough to be adaptable to bars and candy stores where the water is drawn off as it is carbonated.
  • Another object of the invention is to re prise the number of valves used in the construction of the machine to a minimum thereby reducing the weight and cost of the completed machine.
  • Figure 1 is an end view of the complete machine showing the water supply tank, the gas mixing tank and discharge spout,
  • Fig. 2 is a side elevation of the machine looking from the left of Fig. 1, s
  • Fig. 3 is a side elevation of the machine looking from the right of Fig. 1,
  • Fig. 4 is a plan view of the complete machine
  • Fig. 5 is a vertical sectional view of one of the valves and the operating arm therefor.
  • Fig. 6 is a vertical sectional view of the check valve.
  • the numeral 1 indicates the base upon which a cylinder 2 is formed, said cylinder having removable ends 3 and 4.
  • the end 4 is provided with a central boss 5 forming a packing gland with suitable packing 'fixed bearing cap 10.
  • the shaft 9 has two segment gears 11 and 12 mounted thereon at opposite ends of the bearing cap.
  • the segment gears are mounted to rotate with the shaft 9 as it is oscillated by means of the handle 13, said handlehaving bosses 14 and 15 connected therewith and rigidly connected with said shaft.
  • the boss of the gear 11 has a notch therein with an inclined cam 16, while the gear 12 has a notch with an inclined cam 17 therein facing in the opposite direction from the cam 16.
  • the boss 15 has a lug 18 which projects into the notch adjacent the inclined cam 16 and'the boss 14 has a lug 19 which projects into the notch adjacent the inclined cam 17.
  • the arm 20 carries a double bell crank lever 23 having two arms 24 and 25.
  • the arms 24 and 25 are provided with set screws 26, 27 for the purpose of opening the valves controlled thereby at the proper time as will be later explained.
  • the double bell crank lever 23 passes into a notch 28 on one end of the shaft 9.
  • a notch 29 to receive the upper end of a bell crank lever 30, which has an arm 31 projecting over a valve 32 for the operation of said valve as will be later explained.
  • the arm 31 is provided with a set screw 33 for the purpose of opening the valve 32 'at the proper time, the adjustment of said set screw providing the means for properly timing the opening of said valve.
  • the segment gears 11 and 12 are in mesh with two rack bars 36, 37 which are connected to a yoke 38, the latter in turn being connected to the piston rod 7.
  • the water supply is contained in a suitable receptacle 40 which has a pipe 41 leading therefrom. to a downwardly opening check valve 42.
  • a pipe 43 connects the check valve 42 with a T 44from which T a pipe 45 extends to the downwardly opening valve 46 the branch 44 extending into the cylinder'2.
  • Adjacent the valve 46 is a valve 47, and pipes 48, 49 extend from the two valves last, mentioned into the car bonating receptacle 50, the pipe 49 extending nearly to the bottom of said carbonat- 1 and is connected with a T 55, one branch of which 56 is connected with the cylinder head 3.
  • a pipe 57 extends to the outlet valve 82, said valve having a spout 58 thereon to allow the escapeof liquid from the cylinder when achargeis to be withdrawn the efrom.
  • the T 55 has a partition 55 to direct the incoming liquid into the cylinder instead of trapping the airy and gas in the pipe 57.
  • the operation ofthe carbonating machine is as follows: Assuming the tank 40 to be filled or partially filled with water the operating handle 13 is operated to draw a charge of water into, .the cylinder 2 by moving it to the right, Figs. 3 and 4. lVhen the handle is moved to the right, Figs. 8 and 4, the cam on the segment gear 11 will throw the handle so asto close both of the valves 46, 47 and at the same time the. valve 32 will be opened The movement of the handle continues until it assumes the. position shown in Fig. 3, thereby moving the piston to force any water in the cylinder out through the discharge pipe. As soon as the handle reaches the end of its throw it may he moved to the left (Fig.
  • the left hand'end of the cylinder has received its charge asabove mentioned and the handle may then be moved to the right to the position shown in Fig. 3.
  • the first result; of the movement to the right will be to move the handle latera ly along its axis by the cam 16, see Fig. 4, the shaft 9 bearing on the bell crank lever 30 and lifting the lever 28 thereby closing both valves 46, 47, and opening the valve 32.
  • the valve 32 is opened, tl e air or gas trapped in the cylinder will be blown out and the handle may be moved to the position shown in Fig. 3 thereby delivering a charge of carhonated'water.
  • the cycle of operations may be repeated as often desired;
  • a carbonating machine comprising a pump cylinder, a liquid supply receptacle connected with the pump cylinder, at chargin cylinder, connections on opposite ends of the pump cylinder extendingto the charging cylinder, a check valve between the sup-. ply receptacle andpump cylinder, two valves between the charging cylinder and pump.
  • a discharge spout having a connection extending therefrom to the top of the pump cylinder, a discharge valve with which said discharge spout is connected, a piston in the pump cylinder, a handle having means connected therewith to operate the piston, means operated by the handle to open the discharge valve when the two valves on the pipes leading from the discharge receptacle are closed, and means to open the two valves on the charging receptacle when the discharge valve isclosed.
  • it carbonating machine comprising a pump cylinder, a liquid supply receptacle connected with the pump cylinder, a check valve in the connection between the supply receptacl' and pump cylinder, a gas charging receptacle, connections between the gas charging receptacle and opposite ends of the pump cylinder, two valves on the connections between the charging receptacle and pump cylinder, a discharge spout having a connection with the upper portion of the pump cylinder, a valve with which said discharge spout is connected, a piston, a pivoted handle, connections between the handle and piston for operating 'the piston, means whereby the discharge valve is opened when the handle is moved in one direction, the valves on the pipes leading from the charging receptacles being then closed, and means to open the valves onthe charging receptacle when he operating handle is moved in the opposite direction.
  • a carbonating machine comprising a pump cylinder, a liquid supply receptacle connectedwith the pump cylinder, a valve on the connection between the pump cylinder and supply receptacle, a charging cylinder, pipe connections from the charg'n'ig cylinder to opposite ends of the pump cylinder, two valves interposed between the pump cylinder and the pipes leading to the charging cylinder, a discharge pipe connected with the top of the pump cylinder at one end thereof, a valve on said discharge pipe, means for supplying CO to the charging cylinder, a piston in the pump cylinder, a handle for operating said piston, means whereby the discharge valve will be opened when the handle is moved in one direction, and means whereby the two valves on the pipes leading from'the charging cylinder will be opened when the operating handle is moved in the opposite direction.
  • a carbonating machine comprising a pump cylinder, a liquid supply receptacle connected with the pump cylinder, a check valve on the connection between the liquid supply receptacle and pump cylinder opening toward the pump cylinder, a charging cylinder having pipe connections with opposite ends of the pump cylinder, a valve on each of the latter pipes, a discharge pipe connected with the top of the end of the cylinder opposite tothe supply pipe, a valve on said discharge pipe, a piston in the pump cylinder, a pivoted operating handle, means whereby the discharge valve may be opened by the operation of the handle, means whereby the two valves on the pipes leading from the charging cylinder may be opened when the discharge valve is closed, and
  • a carbonating machine comprising a pump cylinder, a solid piston therein and an operating lever, connections between the piston and operating lever, a liquid supply receptacle, a pipe connection between the liquid supply receptacle and one end of the pump cylinder, a check valve in said pipe connections openingtoward the pump cylinder, a charging cylinder, pipes connecting said charging cylinder with opposite ends of the pump cylinder, a valve for each of the latter pipes, a bell crank lever moved by the operating lever for opening the discharge valve, a double bell crank lever for opening the two valves on the pipes leading to the charging cylinder when the discharge valve is closed, and means to supply the charging cylinder with carbon dioXid under pressure.
  • a pump cylinder In a carbonating machine, a pump cylinder, a solid piston therein and an operating lever, connections between the operating lever and piston, a liquid supply receptacle, a pipe connection between the liquid supply receptacle and one end of the pump cylinder, a check valve on the pipe connection between the supply receptacle and pump cylinder and opening toward the pump cylinder, a charging receptacle, two pipes extending from the charging receptacle to opposite of said pipes, a discharge valve, a bell crank lever for operating said discharge valve, a double bell crank lever for operating the two valves on the pipes leading from the charging receptacle, and means whereby the handle will. be shifted laterally to open the discharge valve when moved in one direction and to open the valves on the pipes leading fromthe charging receptacle when moved in the opposite direction.
  • a carbonating machine comprising a pump cylinder, a solid piston therein, an operating lever pivotally connected with the pump cylinder, rack bars connected with the piston, segment gears in mesh with said rack bars, means whereby said segment gears will be operated by the handle for the operation of the piston, a liquid supply receptacle, a pipe connecting the liquid supply receptacle with one end of the pump cylinder, a check valve on said pipe opening toward the pump cylinder, a charging receptacle, pipes lead ing from the charging receptacle to opposite ends of the pump cylinder, a valve on each of said pipes, a discharge pipe leading from the upper portion of one end of the pump cylinder, a valve on said discharge pipe, means whereby the handle may be operated to open the discharge valve when moved in one direction and to open the two valves on the oipes leading from the charging cylinder w hen moved in the opposite direction, and means to supply the charging cylinder with carbon dioXid under pressure.
  • a pump cylinder a piston therein, an operating lever pivoted on the pump cylinder, rack bars on opposite sides of the pump cylinder connected with the pump cylinder, segment gears in mesh with said rack bars, means whereby the operating lever will be connected with one of said segment gears to move the piston in one direction and with the other of said segment gears to move the piston in the opposite direction, a liquid supply receptacle, a pipe extending from the liquid supply receptacle to one end of the pump cylinder, a check valve on said pipe extending toward the pump cylinder, a charging receptacle, means to supply said charging receptacle with CO under pressure, a pipe leading from the charging receptacle to opposite ends of the pump cylinder, a valve on each of said ,pipes, a discharge pipe connected with the upper portion of the pump cylinder, a discharge valve with which said discharge pipe is connected, means whereby the operating lever will be moved laterally to open the discharge valve when it is moved in one direction,
  • a carbenating machine comprising a pump cylinder, a solid piston therein, an operating lever pivotally supported by the pump cylinder, a pair of rack bars, connec tions between the rack bars and pump pisten for the movement of the latter, a pair of segment gears in mesh With said rack bars, a liquid supply receptacle, a pipe extending from the liquid supply receptacle t0 the pump cylinder a charging cylinder, means to supply said charging cylinder with CO under pressure, pipes leading from the charging cylinder to opposite ends of the pump cylinder, a valve 011 each ,of the latter erally to open the discharge valve or the ttvo valves on the pipes leading from the charging cylinder and to lock said operating lever With said segment gears alternately.

Description

T. MILLWARD.
CARBONATING MACHINE.
APPLICATION FlLED SEPT. 13. 1916- Patented Mar. 19. 1918.
4 SHEETS-SHEET I.
IA" VEN 7 0/0. THEM F5 M/LL WEED T. MILLWARD.
CARBONATING MACHINE.
APPLICATION FILED SEPT. 13. I916.
Patented Mar. 19, 1918.
4 SHEETS-SHEET 2.
T. MILLWARD.
CARBONATING MACHINE.
APPLICATION FILED SEPT. I3. I9I6. 1,259,894. Patented Mar. 19, 1918.
4 SHEETS-SHEET 3.
11v VEN TOR. THU/VH5 M/LL WE RD T. MILLWARD.
CARBONATING MACHINE.
APPLICATION FILED SEPT. 13. ms.
Patented Mar. 19, 1918.
4 SHEETS-SHEET 4.
11w EN/OR. THEM/75 M/LLWH/PD THOMAS MILLWARD, OF SAN FRANCISCO, CALIFORNIA.
GARBONATING-MACHINE.
1 Specification of Letters Patent; Patented M31, 19, 1918.
Application filed September 13, 1916. Serial No. 119,893.
To all whom it may concern:
Beit known that I, THOMAS ,MILLWARD, a citizen of the United States, residing at San Francisco, in the county of San Fran cisco, State of California, have invented a new and useful Carbonating-Machine, of which the following is a specfication in such full and clear terms as will enable those skilled in the art to construct and use the same.
This invention relates to a machine for carbonating beverages and its object is to produce a machine which will use as little power as possible above that stored in the tanks from which the supply of water and CO under pressure is obtained and is an improvement upon the invention disclosed in Patent No. 1,177,531, granted to me March 28, 1916, in that the present invention dispenses with the snifi valve disclosed in that patent and provides improved operating mechanism.
Another object of the invention is to produce a machine which will be capable of carbonating and discharging a small quantity of water with each operation thereof, the machine being small enough to be adaptable to bars and candy stores where the water is drawn off as it is carbonated.
Another object of the invention is to re duce the number of valves used in the construction of the machine to a minimum thereby reducing the weight and cost of the completed machine.
An embodiment of the invention is shown in the drawing in which the same reference numeral is applied to the same portion throughout, but I am aware that there may be many modifications thereof.
Figure 1 is an end view of the complete machine showing the water supply tank, the gas mixing tank and discharge spout,
Fig. 2 is a side elevation of the machine looking from the left of Fig. 1, s
Fig. 3 is a side elevation of the machine looking from the right of Fig. 1,
Fig. 4 is a plan view of the complete machine,
Fig. 5 is a vertical sectional view of one of the valves and the operating arm therefor, and
Fig. 6 is a vertical sectional view of the check valve.
The numeral 1 indicates the base upon which a cylinder 2 is formed, said cylinder having removable ends 3 and 4. The end 4 is provided with a central boss 5 forming a packing gland with suitable packing 'fixed bearing cap 10. The shaft 9 has two segment gears 11 and 12 mounted thereon at opposite ends of the bearing cap.
The segment gears are mounted to rotate with the shaft 9 as it is oscillated by means of the handle 13, said handlehaving bosses 14 and 15 connected therewith and rigidly connected with said shaft. The boss of the gear 11 has a notch therein with an inclined cam 16, while the gear 12 has a notch with an inclined cam 17 therein facing in the opposite direction from the cam 16. The boss 15 has a lug 18 which projects into the notch adjacent the inclined cam 16 and'the boss 14 has a lug 19 which projects into the notch adjacent the inclined cam 17.
Suitably secured to the cylinder 2 adjacent the center thereof are two arms 20 and 21. The arm 20 carries a double bell crank lever 23 having two arms 24 and 25. The arms 24 and 25 are provided with set screws 26, 27 for the purpose of opening the valves controlled thereby at the proper time as will be later explained. At its upper end the double bell crank lever 23 passes into a notch 28 on one end of the shaft 9. At the other end of the shaft 9 there is a notch 29 to receive the upper end of a bell crank lever 30, which has an arm 31 projecting over a valve 32 for the operation of said valve as will be later explained. The arm 31 is provided with a set screw 33 for the purpose of opening the valve 32 'at the proper time, the adjustment of said set screw providing the means for properly timing the opening of said valve.
The segment gears 11 and 12 are in mesh with two rack bars 36, 37 which are connected to a yoke 38, the latter in turn being connected to the piston rod 7.
The water supply is contained in a suitable receptacle 40 which has a pipe 41 leading therefrom. to a downwardly opening check valve 42. A pipe 43 connects the check valve 42 with a T 44from which T a pipe 45 extends to the downwardly opening valve 46 the branch 44 extending into the cylinder'2. Adjacent the valve 46 is a valve 47, and pipes 48, 49 extend from the two valves last, mentioned into the car bonating receptacle 50, the pipe 49 extending nearly to the bottom of said carbonat- 1 and is connected with a T 55, one branch of which 56 is connected with the cylinder head 3. From the other branch of the T a pipe 57 extends to the outlet valve 82, said valve having a spout 58 thereon to allow the escapeof liquid from the cylinder when achargeis to be withdrawn the efrom. The T 55 has a partition 55 to direct the incoming liquid into the cylinder instead of trapping the airy and gas in the pipe 57.
The operation ofthe carbonating machine is as follows: Assuming the tank 40 to be filled or partially filled with water the operating handle 13 is operated to draw a charge of water into, .the cylinder 2 by moving it to the right, Figs. 3 and 4. lVhen the handle is moved to the right, Figs. 8 and 4, the cam on the segment gear 11 will throw the handle so asto close both of the valves 46, 47 and at the same time the. valve 32 will be opened The movement of the handle continues until it assumes the. position shown in Fig. 3, thereby moving the piston to force any water in the cylinder out through the discharge pipe. As soon as the handle reaches the end of its throw it may he moved to the left (Fig. 3) whereupon the cam 17 will at once cause the handle to move laterally alongits axis or down Fig. 4, the movement of the shaft 9 closing the valve 32 and opening both of the valves 46 and 47 thereby equalizing the pressure at both ends of the cylinder 2 Since there is a downwardly opening check valve 42 below the tank 40 on the water supply pipe the water cannot be blown out of the cylinder. When the pressure has been equalized on both ends of the cylinder 2, the dead water therein may betrans-ferred to the charging cylinder easily by mov-ingthe handle and piston to the reverse position, asupply of charged w-ate 1 takingitsplate on the opposite side of the piston. When the handle is moved to the left hand position opposite to that shown in Fig. 3, the left hand'end of the cylinder has received its charge asabove mentioned and the handle may then be moved to the right to the position shown in Fig. 3. The first result; of the movement to the right will be to move the handle latera ly along its axis by the cam 16, see Fig. 4, the shaft 9 bearing on the bell crank lever 30 and lifting the lever 28 thereby closing both valves 46, 47, and opening the valve 32. As soon the handle starts to move to the right hand position Fig. 3, the valve 32 is opened, tl e air or gas trapped in the cylinder will be blown out and the handle may be moved to the position shown in Fig. 3 thereby delivering a charge of carhonated'water. The cycle of operations may be repeated as often desired;
Having thus described my invention what I claim as new and desire to secure by Letters Patent of the United States, is as follows, express reservation being made of permissible, modifications: I l. A carbonating machine comprising a pump cylinder, a liquid supply receptacle connected with the pump cylinder, at chargin cylinder, connections on opposite ends of the pump cylinder extendingto the charging cylinder, a check valve between the sup-. ply receptacle andpump cylinder, two valves between the charging cylinder and pump. cylinder, a discharge spout having a connection extending therefrom to the top of the pump cylinder, a discharge valve with which said discharge spout is connected, a piston in the pump cylinder, a handle having means connected therewith to operate the piston, means operated by the handle to open the discharge valve when the two valves on the pipes leading from the discharge receptacle are closed, and means to open the two valves on the charging receptacle when the discharge valve isclosed.
2. it carbonating machine comprising a pump cylinder, a liquid supply receptacle connected with the pump cylinder, a check valve in the connection between the supply receptacl' and pump cylinder, a gas charging receptacle, connections between the gas charging receptacle and opposite ends of the pump cylinder, two valves on the connections between the charging receptacle and pump cylinder, a discharge spout having a connection with the upper portion of the pump cylinder, a valve with which said discharge spout is connected, a piston, a pivoted handle, connections between the handle and piston for operating 'the piston, means whereby the discharge valve is opened when the handle is moved in one direction, the valves on the pipes leading from the charging receptacles being then closed, and means to open the valves onthe charging receptacle when he operating handle is moved in the opposite direction.
3. A carbonating machine comprising a pump cylinder, a liquid supply receptacle connectedwith the pump cylinder, a valve on the connection between the pump cylinder and supply receptacle, a charging cylinder, pipe connections from the charg'n'ig cylinder to opposite ends of the pump cylinder, two valves interposed between the pump cylinder and the pipes leading to the charging cylinder, a discharge pipe connected with the top of the pump cylinder at one end thereof, a valve on said discharge pipe, means for supplying CO to the charging cylinder, a piston in the pump cylinder, a handle for operating said piston, means whereby the discharge valve will be opened when the handle is moved in one direction, and means whereby the two valves on the pipes leading from'the charging cylinder will be opened when the operating handle is moved in the opposite direction.
l. A carbonating machine comprising a pump cylinder, a liquid supply receptacle connected with the pump cylinder, a check valve on the connection between the liquid supply receptacle and pump cylinder opening toward the pump cylinder, a charging cylinder having pipe connections with opposite ends of the pump cylinder, a valve on each of the latter pipes,a discharge pipe connected with the top of the end of the cylinder opposite tothe supply pipe, a valve on said discharge pipe, a piston in the pump cylinder, a pivoted operating handle, means whereby the discharge valve may be opened by the operation of the handle, means whereby the two valves on the pipes leading from the charging cylinder may be opened when the discharge valve is closed, and
7 means to supply the charging cylinder with carbon dioxid.
5. A carbonating machine comprising a pump cylinder, a solid piston therein and an operating lever, connections between the piston and operating lever, a liquid supply receptacle, a pipe connection between the liquid supply receptacle and one end of the pump cylinder, a check valve in said pipe connections openingtoward the pump cylinder, a charging cylinder, pipes connecting said charging cylinder with opposite ends of the pump cylinder, a valve for each of the latter pipes, a bell crank lever moved by the operating lever for opening the discharge valve, a double bell crank lever for opening the two valves on the pipes leading to the charging cylinder when the discharge valve is closed, and means to supply the charging cylinder with carbon dioXid under pressure.
6. In a carbonating machine, a pump cylinder, a solid piston therein and an operating lever, connections between the operating lever and piston, a liquid supply receptacle, a pipe connection between the liquid supply receptacle and one end of the pump cylinder, a check valve on the pipe connection between the supply receptacle and pump cylinder and opening toward the pump cylinder, a charging receptacle, two pipes extending from the charging receptacle to opposite of said pipes, a discharge valve, a bell crank lever for operating said discharge valve, a double bell crank lever for operating the two valves on the pipes leading from the charging receptacle, and means whereby the handle will. be shifted laterally to open the discharge valve when moved in one direction and to open the valves on the pipes leading fromthe charging receptacle when moved in the opposite direction.
7. A carbonating machine comprising a pump cylinder, a solid piston therein, an operating lever pivotally connected with the pump cylinder, rack bars connected with the piston, segment gears in mesh with said rack bars, means whereby said segment gears will be operated by the handle for the operation of the piston, a liquid supply receptacle, a pipe connecting the liquid supply receptacle with one end of the pump cylinder, a check valve on said pipe opening toward the pump cylinder, a charging receptacle, pipes lead ing from the charging receptacle to opposite ends of the pump cylinder, a valve on each of said pipes, a discharge pipe leading from the upper portion of one end of the pump cylinder, a valve on said discharge pipe, means whereby the handle may be operated to open the discharge valve when moved in one direction and to open the two valves on the oipes leading from the charging cylinder w hen moved in the opposite direction, and means to supply the charging cylinder with carbon dioXid under pressure.
8. In a carbonating machine, a pump cylinder, a piston therein, an operating lever pivoted on the pump cylinder, rack bars on opposite sides of the pump cylinder connected with the pump cylinder, segment gears in mesh with said rack bars, means whereby the operating lever will be connected with one of said segment gears to move the piston in one direction and with the other of said segment gears to move the piston in the opposite direction, a liquid supply receptacle, a pipe extending from the liquid supply receptacle to one end of the pump cylinder, a check valve on said pipe extending toward the pump cylinder, a charging receptacle, means to supply said charging receptacle with CO under pressure, a pipe leading from the charging receptacle to opposite ends of the pump cylinder, a valve on each of said ,pipes, a discharge pipe connected with the upper portion of the pump cylinder, a discharge valve with which said discharge pipe is connected, means whereby the operating lever will be moved laterally to open the discharge valve when it is moved in one direction, and means whereby it will be moved laterally in the opposite direction to open the valves on the pipes leading from the charging cylinder when moved in the opposite direction.
' ends of the pump cylinder, a valve for each 9. A carbenating machine comprising a pump cylinder, a solid piston therein, an operating lever pivotally supported by the pump cylinder, a pair of rack bars, connec tions between the rack bars and pump pisten for the movement of the latter, a pair of segment gears in mesh With said rack bars, a liquid supply receptacle, a pipe extending from the liquid supply receptacle t0 the pump cylinder a charging cylinder, means to supply said charging cylinder with CO under pressure, pipes leading from the charging cylinder to opposite ends of the pump cylinder, a valve 011 each ,of the latter erally to open the discharge valve or the ttvo valves on the pipes leading from the charging cylinder and to lock said operating lever With said segment gears alternately.
In testimeny whereof I have hereunto set my iand this 19 day of May A. D. 1916.
THOMAS MILLXVARD.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents,
Washington, D. C.
US11989316A 1916-09-13 1916-09-13 Carbonating-machine. Expired - Lifetime US1259894A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US11989316A US1259894A (en) 1916-09-13 1916-09-13 Carbonating-machine.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US11989316A US1259894A (en) 1916-09-13 1916-09-13 Carbonating-machine.

Publications (1)

Publication Number Publication Date
US1259894A true US1259894A (en) 1918-03-19

Family

ID=3327574

Family Applications (1)

Application Number Title Priority Date Filing Date
US11989316A Expired - Lifetime US1259894A (en) 1916-09-13 1916-09-13 Carbonating-machine.

Country Status (1)

Country Link
US (1) US1259894A (en)

Similar Documents

Publication Publication Date Title
US2499715A (en) Water actuated motor
US1259894A (en) Carbonating-machine.
US20070248339A1 (en) Water gravity electric generator
US541773A (en) Gas engine
US1274212A (en) Acetylene-gas generator.
US598066A (en) Pneumatic clock
US377586A (en) Fluid-motor
US555373A (en) henriod-schweizer
US1524989A (en) Hydraulic siphoning machine
US461192A (en) Water-raising apparatus
US1216341A (en) Casting-pot.
US1038191A (en) Machine for carbonating beverages.
US460979A (en) Electric soda-fountain
US504849A (en) Soda-water apparatus
US174860A (en) Improvement in air-compressing apparatus
US161216A (en) Improvement in apparatus for charging a stream of water with carbonic-acid gas
US699054A (en) Apparatus for displaying advertisements.
US445705A (en) Water-motor
US1280168A (en) Chemical fire-extinguishing apparatus.
US591352A (en) The norbis peters co
US264717A (en) libbnub
US1177531A (en) Carbonating-machine.
US442400A (en) scantlebury
US746488A (en) Apparatus for developing and utilizing fluid-pressure.
US1072475A (en) Hydraulic motor.