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1. 发明专利

DE2308746A1 Carbonator for cooled carbonated water - which feeds taps via closed loop, with pump and fresh water inlet 未知
公开(公告)号：DE2308746A1
公开(公告)日：1974-09-05
申请号：DE2308746
申请日：1973-02-22
申请人： BOOTH JACK JOHNSON
发明人： BOOTH JACK JOHNSON
IPC分类号： B01F3/04 , C02D1/04
摘要： A carbonator with a float-controlled inlet is connected by a closed loop with a pump to a dispensing device. Fresh water is added between the pump and a restrictor in the loop, and a pressure regulator keeps the fresh water pressure below that of the carbonator when the dispensing device is opened.

2. 发明专利

CA473713A MOLDING PLASTIC SHOES 未知
公开(公告)号：CA473713A
公开(公告)日：1951-05-22
申请号：CA473713D
申请人： BOOTH JACK JOHNSON
发明人： BOOTH JACK JOHNSON

3. 发明专利

GB1072955A Carbonator for drink-dispensing machine 未知
公开(公告)号：GB1072955A
公开(公告)日：1967-06-21
申请号：GB5746266
申请日：1964-06-01
申请人： JACK JOHNSON BOOTH , WILLIAM CURTIS BRANCH
IPC分类号： B01F3/04 , B01F15/06
摘要： The description is the same as that of Specification 1,072,954 but the claims are different.

4. 发明专利

DE1182549B 未知
公开(公告)号：DE1182549B
公开(公告)日：1964-11-26
申请号：DEB0070343
申请日：1963-01-16
申请人： JACK JOHNSON BOOTH , WILLIAM CURTIS BRANCH
发明人： BOOTH JACK JOHNSON , BRANCH WILLIAM CURTIS
IPC分类号： B67D1/00

5. 发明专利

GB742411A Machine for vending beverage in cups 未知
公开(公告)号：GB742411A
公开(公告)日：1955-12-30
申请号：GB1081853
申请日：1953-04-20
申请人： JACK JOHNSON BOOTH
IPC分类号： B67D1/00 , G07F13/10
摘要： 742,411. Dispensing liquids. BOOTH, J. J. April 20, 1953, No. 10818/53. Class 116. A mixed drink dispersing machine comprises means connecting a water chamber to a source of gas under pressure to deliver gas to the chamber below the level of water therein means connecting the chamber to a mixing and dispensing valve to deliver water to the valve from the chamber and means connecting the water chamber to a syrup tank to deliver gas from the chamber to the tank when the pressure difference between the chamber and the tank exceeds a predetermined value. The apparatus, Fig. 1, comprises a cabinet containing a tank 26 for carbonated water, a tank 27 for syrup, a gas cylinder 29 and a hinged door 11 mounting an operating handle extending from a controlling shaft 17 for the delivery of water and syrup for a predetermined time to a projected cup. The water tank, Fig. 14, is surrounded by a water coil 32 and a syrup coil 33 cooled by a gas, freon, from a refrigerator 44, circulating on the outside. The water inlet is controlled by a stop valve 58, and a float 60 pivoted to the top of the container. Carbon dioxide is introduced into a tube 68 and bubbles through a cylinder 69 in the water. The cooled carbonated water is withdrawn by a tube 61 and the cooled syrup is simultaneously withdrawn from the coil 33 both under the pressure of the gas. A valve housing connected to the top of the water tank and communicating therewith is also connected to the gas supply, with the water tank inlet pipe 68 or the syrup inlet pipe 90. The valve has two ball valves by means of which, as the pressure in the syrup tank is reduced on delivering syrup, a ball valve unseats to allow gas from the carbonator to flow to the syrup tank; if the pressure is greatly reduced in the syrup tank the gas flows directly from the gas cylinder to the tank by unseating a second ball valve which has a stronger spring. The syrup and water flow to a valve 25 operated by a timing device 24 and thence to an outlet 30. The liquids flow to a mixing chamber closed by a ball valve which is unseated by movement of a rod 111. Both liquid passages have non- return valves and the syrup passage has an adjustable needle valve. The rod 111 is operated to release the ball valve to deliver the liquid to the outlet 30 by movement of a sleeve 116 on a rod 115 which is moved longitudinally by operating the control shaft 17. On movement of the rod 115 the sleeve 116 engages a stop 117 which is controlled in its vertical and horizontal movement by springs 121 and 126 attached to the stop and valve housing. The stop has a slot through which passes a shaft 120 secured to the housing, the movement of the stop against the rod 111 causes the valve to unseat. The position of the sleeve on the shaft is adjustable to vary the length of time the valve is open. The shaft 115 extends into a conventional dash pot with hydraulic fluid, spring 136, piston 139 and tubular opening 152. Simultaneously with the opening of the valve a plate 200, Fig. 8, is operated to release a cup from one of two stacks. The cups 20 are in stacks, Fig. 1, over two openings 194, 195 in a plate 192 large enough to allow the cups to pass through, but are retained by the plate 200 having an elongated slot with semi-circular ends 204, 205 and projecting member 198, 199. The lowest cup in the stack over aperture 194 has a flange retained by the edge 204 of the plate 200 and the member 199 supports the lowest cup of the stack over the aperture 195. When the plate 200 is moved to the left the lowest cup of the stack 194 descends to the outlet shoot and member 198 retains the next lowest cup of the stack, the cup released by members 199 is retained by the edge 205 until the plate 200 is moved to the right. To release a cup which may be firmly fixed in the stack bent springs 211, 212 connected to the plate 200 and engaging cams on the fixed plate, are released to detach a cup. The machine may be coin freed and have an external lever for operating the shaft 17 which rotates a pinion 176 through a right angle. The pinion has spaced projections which are engaged by a projection 169 on a shaft slidable in a block 167 and having a rod carrying a pair of ears 162, 163 which engage the rod 115 between stops 164 and 165. The pinion is rotated by means of a pin slidably mounted in a bore in a block on the shaft 17. The pinion is retained for counter-clockwise movement only by means of a pawl, as the lever is returned to its original position the slidable pin retracts against spring pressure to pass beneath the projecting pin on the pinion 176. Should the block 169 not return to its original position after a drink is dispensed, the pinion 176 is locked against movement by a spring-urged slidable pin in the block 167. The movement of the pinion 176 on the operating shaft 17 also operates the cup dispensing device. A gear 224 engages the pinion 176 and has a projection 227 engaging in a slot 228 in a pivoted lever connected by suitable linkage to the slidable plate 200 which is reciprocated thereby and delivers the cups. The apparatus is equipped with usual coin feed mechanism.

6. 发明专利

GB662950A Moulding a plastic shoe 未知
公开(公告)号：GB662950A
公开(公告)日：1951-12-12
申请号：GB426849
申请日：1949-02-16
申请人： JACK JOHNSON BOOTH
IPC分类号： B29D35/00
摘要： 662,950. Moulding shoes. BOOTH, J. J. Feb. 16, 1949, No. 4268/49. Class 87(ii) The subject-matter of this Specification is substantially the same as that of Specification 640,921 by the same applicant, but the claims differ. Figs. 1, 2 and 3 of the present Specification are included within the drawing of the prior Specification but an additional Figure, Fig. 4 (not shown), is a side elevation of the mould core per se. The invention claimed is a method of forming a shoe having an integral sole, heel and upper, consists of introducing into a mould at separate points quantities of plastic materials possessing different characteristics, such as texture, plasticity and porosity, but possessing the common property of uniting together and of moulding the plastic into a unitary shoe structure including the heel, sole and upper; and forming holes in the upper at predetermined points during the moulding operation. Materials such as the vinyls with or without lint fillers and nylon microfibres, rubber &c. are referred to, which may be introduced in different colours into the parts of the mould cavity.

7. 发明专利

CA473712A MOLDS FOR FORMING ALL PLASTIC SHOES 未知
公开(公告)号：CA473712A
公开(公告)日：1951-05-22
申请号：CA473712D
申请人： BOOTH JACK JOHNSON
发明人： BOOTH JACK JOHNSON

8. 发明专利

GB640921A Mould for forming all-plastic shoes 未知
公开(公告)号：GB640921A
公开(公告)日：1950-08-02
申请号：GB1211647
申请日：1947-05-05
申请人： JACK JOHNSON BOOTH
IPC分类号： B29D35/00
摘要： 640,921. Moulding shoes. BOOTH, J. J. May 5, 1947, No. 12116. [Class 87 (ii)] [Also in Group VII] A mould 13 for forming all-plastic shoes has two outer mould parts, Fig. 1, interengaged by means of guide pins 15 received in slots 16, one of which outer parts is supported by a support 14, and a core 18 positioned in moulding relationship to the outer parts by retaining pins 22a received in openings in the core shank 19. The core 18 is provided with an extension 20 which is slidable relatively to the mould on studs 22 passing through slots 21. The mould is closed, e.g. by a hydraulic ram (not shown) which also causes the mould to be brought into operating relationship with an injection apparatus 10 of known design. To further facilitate manipulation of the parts, compression springs 23 are positioned between support 14 and extension 20 so as to be compressed during the closure of the mould and positioning thereof against the injection nozzle and thereby effect separation of the parts of the mould 13, as the moulding cycle is completed. Passages 24 in the outer mould parts are provided for the circulation of heating media, and the plastic material is injected into the mould cavity 17 through a plurality of nozzles 11 and feeding ports 12. Auxiliary openings 26 are provided to assist the escape of entrapped air and the flow of plastic material. The core 18 may be provided with spaced projections (25, Fig. 3, not shown), for forming perforated designs in the shoe-upper and for effecting spacing of the mould members. On completion of the moulding cycle the pressure on the outer mould parts is released and the compression springs 23 urge the core 18 and an outer part of the mould away from the other outer part, thus exposing a portion of the moulded shoe. The remaining portion of the mould 13 is then removed and the finished shoe manipulated off the core 18. The perforations in the shoe upper, together with grooves formed to extend laterally and longitudinally across the inner face of the insole, provide ventilation to the foot. Reinforcements or inserts may be placed in the mould for incorporation into the shoe, and a collapsable core or retractable projections 25 may be used to facilitate the removal of the moulded product. Variations in temperature, pressure and the number and location of injection points &c. may also be made.

9. 发明专利

ES63641A1 Un procedimiento de propaganda por medio de muebles especiales. 未知
公开(公告)号：ES63641A1
公开(公告)日：1917-02-01
申请号：ES63641
申请日：1916-12-22
申请人： JACK JOHNSON Y COMPANIA

10. 发明专利

GB1060171A Insulated beverage carbonator 未知
公开(公告)号：GB1060171A
公开(公告)日：1967-03-01
申请号：GB269965
申请日：1965-01-21
申请人： JACK JOHNSON BOOTH , WILLIAM CURTIS BRANCH
IPC分类号： B67D1/04
摘要： A carbonator comprises a stainless steel tank wound externally with a cooling coil, and a water coil and at least one (as described, four) syrup coil(s) on top of the cooling coil, the whole being enclosed in a unitary body of polyurethane foam. The cooled water is sprayed into the CO2 atmosphere in the tank and CO2 is also bubbled through the water in the tank, and is used to pressurize the syrup supply tanks to discharge them. A control valve enables plain or carbonated water to be dispensed alone or mixed with a selected syrup.

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