SU1062740A1 - Apparatus for preparing aerated beverage - Google Patents

Abstract

A DEVICE FOR PREPARING A GASED BEVERAGE, containing an automator, including a piston metering pump with a brush, a beverage dispensing solenoid valve, a fitting and a multi-channel valve, a water pressure switch, a gas pressure switch, a microspeed valve, a water dispensing valve, a solenoid syrup dispensing valve, a solenoid gas supply valve, a microspeedger and an electromagnet of the gate mechanism, signal lamps, and a current source, characterized in that, in order to increase operational reliability and simplify the device, in the automator The metering pump, located inside the water cooler, is made-solid, inside the piston-pump stem of the metering pump is placed a water delivery valve, made in the form of a tube containing a water-gas tube, the solenoid valve for feeding the pelvis is equipped with an additional diamagnetic tube, inside which is placed the core, the multichannel valve is made in the form of a cross-shaped collector, inside which there is an elastic tube, the first output of the current source through the closing contact of the water pressure switch is connected to p the closing and closing contacts of the gas pressure switch, the closing contact of the first microswitch, the first winding terminal of the gas solenoid valve and the first winding terminal of the beverage solenoid valve, the disconnecting gas pressure switch is connected to the first contact of the electromagnetic winding, the second contact of which is connected to the second winding relay of the gas pressure relay connected to the electromagnetic winding, the second contact of the gas pressure switch is connected to the first electromagnetic winding of the electromagnetic valve, the second contact of which is connected to the second pressure switch of the gas pressure switch. current, the closing contact of the first microswitch is connected to a multiposition switch, the closing contact of which is connected to the first m (L output winding solenoid valve issuing syrup, the second output of which is connected to the second output of the current source, the closing contact of the gas pressure switch through the winding of the electromagnet of the automatic valve and signal lamps connected to the current source, the second conclusions of the solenoid windings, gas output valve and solenoid valve dispensing a drink through the make contact of the second micro05 switch is connected to the second drive of the current source. four

Description

The invention relates to vending machines and can be used to prepare and sell sparkling water and other cold drinks. A device for the preparation of a carbonated beverage containing water and gas communications, a water-cooling machine, an autosaturator, a syrup dispenser and a coin mechanism 1 is known. The disadvantages of this device are the design complexity and low reliability in operation, due to the placement of the metering pump , leakage of water, over electrical elements - switches, windings of solenoid valves, etc. The closest to the invention in terms of technical essence is a device containing an auxiliary autosaturator that includes a piston metering pump with a rod, a gas supply solenoid valve, a choke and a multi-channel valve, a water pressure switch, a gas pressure switch, a water solenoid valve, a syrup delivery solenoid valve, a beverage delivery solenoid valve, microswitches, a coin electromagnet mechanism, signal lamps and power supply 2. The disadvantages of the known device are relatively low reliability and complexity of the design, due to the external location of the metering pump, Commercially tend to leak water over electrical elements, switches, solenoid valves windings et al., presence of a large number of intermediate latching relay with a large number of contacts and the instability of the gas pressure switch adjustment. The aim of the invention is to improve the reliability of the device and simplify the design. The goal is achieved by the fact that in a device for preparing a carbonated beverage, there is an automatic attorney, including a piston metering pump with a rod, a solenoid valve for dispensing a beverage, a choke and a multi-channel valve, a water pressure switch, a gas pressure switch, a water dispensing valve, a solenoid valve for dispensing syrup and gas solenoid valve, microswitches and solenoid dampers of the coin mechanism, warning lights and a current source, in the automator, a piston rod of the dosing pump located inside the water-bath The well is made hollow, inside the piston-piston pump rod there is a water delivery valve, made in the form of a tube in which the water-gas tube is placed, the gas supply solenoid valve is equipped with an additional choke with a diamagnetic tube inside which the core is placed, the multi-channel valve is made in the form of a cross-shaped a collector, 1 of which is an elastic tube, the first output of the current source through the closing contact of the water pressure switch is connected to the opening and closing contacts of the pressure switch gas, the closing contact of the first microswitch, the first output winding of the gas solenoid valve and the first output of the solenoid beverage coil, the closing contact of the gas pressure switch is connected to the first contact of the electromagnetic winding, the second contact of which is connected to the second output of the current source, the closing contact of the first microswitch connected to a multi-position switch. the closing contact of which is connected to the first output of the winding of the solenoid valve for dispensing the syrup, the second output of which is connected to the second output of the current source, the closing contact of the pressure switch is the winding of the coin slot machine electromagnet and signal lamps is connected to the current source, the second terminals of the windings of the solenoid valve for dispensing gas and solenoid valve dispensing beverage through the closing contact of the second microswitch connected to the second output of the current source. FIG. 1 shows a functional diagram of the device; in fig. 2 - automatic atomizer with a solenoid valve for dispensing a beverage and a gas pressure switch; in fig. 3 - syrup diaphragm metering unit with solenoid valve and manifold with multichannel valve; in fig. 4 - microswitch coin pipe; in fig. 5 is an electrical circuit of the device. The device contains a water intake unit, including shut-off valves 1 and 2, filter 3, glass-washing mechanism 4, water pressure switch 5, pressure regulator b, pressure gauge 7 and water cooler 8, gas unit including carbon dioxide cylinder 9, pressure regulator 10 and gas pipeline 11, cooling unit, including refrigeration unit 12, coil 13 and cylinder 14, automator, including piston metering pump 15 with piston 16, hollow rod 17, hole 18, water delivery valve 19 with tube, radial hole 20, intermediate cavity 21, threaded hole 22, hole 23, water and gas tube 24, solenoid gas supply 25 with housing 26, core 27, diamagnetic tube 28 and clamp 29, solenoid valve for dispensing beverage 30, dosing cavity 31, gas pressure switch 32 with clamp 33, diaphragm 34, pusher 35, collar 36, springs 37 and 38, intermediate washers 39 and 40, a stopper ring ° 1 and a microswitch 42, a syrup unit, including a membrane metering unit 43 and a solenoid valve for dispensing syrup 44, a mixing unit, including a multi-channel valve 45, in the form of a cross-shaped collector with an elastic tube 46 and a quencher m of pressure 47, a coin mechanism, including a coin pipe 48, with a slit 49, levers 50 and 51, microswitches 52 and 53, a valve 54, an electromagnet 55, a valve mechanism of the coin mechanism, an electromagnet 56, an electrical unit that includes signal lamps 57, a closing contact 58, multi-position switch 59, winding 60 of gas supply solenoid valve 25, winding 61 of beverage solenoid valve 30, winding 62 of solenoid valve issuing syrup 44, winding 63 of electromagnet of valve 54, winding 64 of slot locking 49, closing contacts 65 and 66 of microswitches 53 53, the closing contact 67 of the water pressure switch 5, the closing 68 and the disconnecting 69 contacts of the gas pressure switch 32. The multi-position switch 59 serves to set the position in which the corresponding syrup switches 44 are connected, the closing contacts 70 and 71, the current source 72. The device operates in the following way . In the presence of water, the water pressure switch 5 is activated, turning on its closing contact 67. In the presence of gas, the gas pressure switch 32 is activated, turning on the microswitch 68. After the water pressure switch 5 and the gas pressure switch 32 are activated, an electrical circuit is generated coming from the first output of the current source 72 through the closing contact 67, the winding of the electromagnet 56, the winding 64 of the locking slot 49, the signal lamps 57, the closing contacts 58, 70 and 71 to the second output of the current source 72. As a result of the specified electrical circuit opening, the slot 49 opens EMA coins and signal lamps 57 zagorayuts presence of water, gas and syrup. When a coin is lowered to pay for a carbonated drink without syrup (for example, 1 kopek, the coin passes through the slit 49, through the coin conduit 48 and presses the lever 51, which activates the microswitch 53, closes the closing contact 68, and is detained on the damper 54. The microswitch 53, having triggered, closes the circuit of the winding 61 of the solenoid valve for dispensing the beverage 30 and the winding 60 of the solenoid valve for dispensing the gas 25, which are dispensing

doses of carbonated drink.

Stay construction. When a dose of carbonated beverage is dispensed, the gas pressure behind the gas supply solenoid valve 25 decreases, which causes the gas pressure switch 32 to open and the closing contact 68 de-energizing the electromagnet winding 64 of the gate mechanism 55 and lowering, as a result, the gate 54 passing the coin to the cashier. The lever 51 is then raised, the drive microswitch 53 to its original position. The piston 16 under the pressure of water will go up, the intermediate cavity 21 is filled with water from the water-cooler 8, and the water delivery valve with the pipe 19 is in the upper position. Since the windings 60, 61 of the solenoid valves for dispensing beverage 30 and dispensing gas 25 are de-energized, the core 27 of the solenoid valve for supplying gas 25 lowers the valve for dispensing water with pipe 19 down to allow gas to flow through the water-gas pipe 24 into the dispensing cavity 31. When the pressure in the dispensing cavity 31 will exceed the water pressure in the water cooler 8; the water delivery valve with the tube 19 moves to the lower position and as a result, water from the intermediate cavity 21 simultaneously with the gas through the threaded hole 22 moves into the dosing cavity 31. At the same time, the pressure in the upper cavity is slightly lower than the final one reached at the lowest position of the Porsch 16. When the coin of a larger diameter (for example, 3 kopecks) is lowered, the coin passes through the coin conduit 48, moves both levers 50 and 51, and in addition to the described, microswitch 52, which closes the circuit of the pitaia solenoid valve for dispensing syrup 44, the pressure difference created at pressure suppressor 47 is transmitted to the diaphragm through the solenoid valve for dispensing syrup 44, and the dose of syrup is poured out through the multi-channel valve 45 extending carbonated water, poured into a glass wearer. After the batch dispensing of the carbonated beverage is completed, the device returns to its original position in the manner described. Thanks to the proposed implementation of the autosaturator, in which the brush of the piston-metering pump is located inside the water-cooling unit and has an internal cavity in which the water discharge valve is located, the device has greater reliability in operation and has relatively more

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Claims (1)

A DEVICE FOR PREPARING A CARBON BEVERAGE comprising an autostaturator including a piston metering pump with a stem, a beverage dispensing valve, a nozzle and a multi-channel valve, a water pressure switch, a gas pressure switch, a water dispensing valve, a syrup dispensing valve, a gas solenoid valve, microswitches and an electromagnet of the flap of the coin mechanism, signal lamps and a current source, characterized in that, in order to increase reliability in operation and simplify the device, the piston pump rod The ozator located inside the water cooler is hollow; inside the piston metering pump rod there is a water discharge valve made in the form of a tube in which a water-gas tube is placed; a gas supply solenoid valve is equipped with an additional fitting with a diamagnetic tube inside which a core is placed; a multi-channel valve is made in the form of a cross-shaped collector, inside of which there is an elastic tube, the first output of the current source through the make contact of the water pressure switch is connected to the disconnect and to the contacting contacts of the gas pressure switch, the closing contact of the first microswitch, the first terminal of the winding of the solenoid valve for dispensing gas and the first terminal of the winding of the solenoid valve for dispensing a beverage, the opening contact of the gas pressure switch is connected to the first contact of the coil of the electromagnetic shutter, the second contact of which is connected to the second output of the current source, the make contact of the first microswitch is connected to a multi-position switch, the make contact of which is connected to the first output of the salt a syrup discharge valve, the second output of which is connected to the second output of the current source, the make contact of the gas pressure switch through the winding of the solenoid valve of the coin operated machine and the signal lamps are connected to the current source, the second terminals of the solenoid windings, the gas release valve and the solenoid valve for dispensing the drink through the make contact the second microswitch is connected to the second output of the current source.