Utility model content
Technical problem to be solved in the utility model is to provide a kind of ice cream maker of easy to clean, and it automation can carry out cleaning and sterilizing, cleans up, time saving and energy saving.
For achieving the above object, the technical scheme that the utility model is taked is:
A kind of ice cream maker of easy to clean, comprise body, accumulator is provided with in body, refrigerating cylinder and control system, accumulator discharging opening is connected with refrigerating cylinder charging aperture by peristaltic pump, described refrigerating cylinder is provided with ice cream discharging opening, ice cream discharge outlet is provided with control valve, cleaning and sterilizing mechanism is also provided with in described body, described peristaltic pump import is connected with triple valve I, triple valve I mono-interface is connected with accumulator discharging opening by the first pipeline, another interface of triple valve I is connected with cleaning and sterilizing mechanism by second pipe, described peristaltic pump outlet is connected with triple valve II, triple valve II mono-interface is connected with refrigerating cylinder charging aperture by the 3rd pipeline, another interface of triple valve II is connected with accumulator feedback outlet by the 4th pipeline, during cleaning and sterilizing, first pipeline is pulled out from accumulator discharging opening and again this end of the first pipeline is connected with ice cream discharging opening, 4th pipeline is pulled out from accumulator feedback outlet and again the 4th this end of pipeline is connected blow-off line, now peristaltic pump can by cleaning disinfection liquid suction refrigerating cylinder, then peristaltic pump and refrigerating cylinder are by the first pipeline, 3rd pipeline forms a closed loop can carry out wash cycles sterilization, after cleaning and sterilizing, waste liquid is discharged by the 4th pipeline and blow-off line through peristaltic pump, described triple valve I, triple valve II, peristaltic pump, cleaning and sterilizing mechanism all with control system control connection.
Described cleaning and sterilizing mechanism comprises alkali tank, sour tank, dioxygen water pot and water tank, described alkali tank, sour tank, dioxygen water pot and water tank are connected on second pipe respectively by the first magnetic valve, the second magnetic valve, the 3rd magnetic valve, the 4th magnetic valve, second pipe is also connected with jet chimney, jet chimney is provided with steam valve, second pipe is positioned on rear side of jet chimney and is also provided with temperature sensor, the first magnetic valve, the second magnetic valve, the 3rd magnetic valve, the 4th magnetic valve, steam valve and temperature sensor all with control system control connection.
Described alkali tank, sour tank, dioxygen water pot and water tank are arranged on organism bottom, and organism bottom is also provided with tool box.
The utility model is provided with cleaning and sterilizing mechanism in body, when making ice cream, control system controls triple valve I and is communicated with peristaltic pump import and accumulator discharging opening, control system controls triple valve II and is communicated with peristaltic pump outlet and refrigerating cylinder charging aperture, and the ice cream now made by ice cream discharging opening out, when wanting cleaning and sterilizing, first pipeline is pulled out from accumulator discharging opening and then this end of the first pipeline is connected with ice cream discharging opening, 4th pipeline is pulled out from accumulator feedback outlet and then the 4th this end of pipeline is connected blow-off line, control system controls triple valve I and is communicated with cleaning and sterilizing mechanism and peristaltic pump import, control system controls triple valve II and is communicated with peristaltic pump outlet and refrigerating cylinder charging aperture, cleaning disinfection liquid is pumped in refrigerating cylinder by peristaltic pump, then control system controls triple valve I connection ice cream discharging opening and peristaltic pump import, now peristaltic pump and refrigerating cylinder form a closed loop and can carry out cleaning and sterilizing, after cleaning and sterilizing terminates, control system controls triple valve II and is communicated with peristaltic pump outlet and the 4th pipeline, waste liquid is through the 4th pipeline, blow-off line is discharged, whole process can complete by Automated condtrol, easy to clean, time saving and energy saving, save cost.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model embodiment.
Fig. 2 is that the present embodiment makes ice cream flow chart.
Fig. 3 is the present embodiment cleaning and sterilizing flow chart.
Accompanying drawing identifies: 1-body, 2-triple valve I, 3-triple valve II, 4-peristaltic pump, 5-ice cream discharging opening, 6-first pipeline, 7-second pipe, 8-the 3rd pipeline, 9-the 4th pipeline, 10-control valve, 11-blow-off line, 12-alkali tank, 13-acid tank, 14-dioxygen water pot, 15-water tank, 16-temperature sensor, 17-tool box, 18-first magnetic valve, 19-second magnetic valve, 20-the 3rd magnetic valve, 21-the 4th magnetic valve, 22-accumulator, 23-refrigerating cylinder, 24-jet chimney.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail.
As shown in Figure 1-Figure 3, a kind of ice cream maker of easy to clean, comprise body 1, accumulator 22, refrigerating cylinder 23 and control system is provided with in body 1, accumulator 22 discharging opening is connected with refrigerating cylinder 23 charging aperture by peristaltic pump 4, described refrigerating cylinder 23 is provided with ice cream discharging opening 5, and ice cream discharging opening 5 place is provided with control valve 10.Cleaning and sterilizing mechanism is also provided with in body, peristaltic pump 4 import is connected with triple valve I2, triple valve I2 mono-interface is connected with accumulator 22 discharging opening by the first pipeline 6, another interface of triple valve I2 is connected with cleaning and sterilizing mechanism by second pipe 7, peristaltic pump 4 outlet is connected with triple valve II3, triple valve II3 mono-interface is connected with refrigerating cylinder 23 charging aperture by the 3rd pipeline 8, another interface of triple valve II3 is connected with accumulator 22 feedback outlet by the 4th pipeline 9, during cleaning and sterilizing, first pipeline 6 is pulled out from accumulator 22 discharging opening and then this end of the first pipeline is connected with ice cream discharging opening 5, 4th pipeline 9 is pulled out from accumulator 22 feedback outlet and then the 4th this end of pipeline is connected blow-off line 11, now peristaltic pump 4 can by cleaning disinfection liquid suction refrigerating cylinder 23, then peristaltic pump 4 and refrigerating cylinder 23 are by the first pipeline 6, 3rd pipeline 8 forms a closed loop can carry out wash cycles sterilization, after cleaning and sterilizing, waste liquid is discharged by the 4th pipeline 9 and blow-off line 11 through peristaltic pump, described triple valve I2, triple valve II3, peristaltic pump 4, cleaning and sterilizing mechanism all with control system control connection.
Cleaning and sterilizing mechanism comprises alkali tank 12, acid tank 13, dioxygen water pot 14 and water tank 15, described alkali tank 12, acid tank 13, dioxygen water pot 14 and water tank 15 are respectively by the first magnetic valve 18, second magnetic valve 19, 3rd magnetic valve 20, 4th magnetic valve 21 is connected on second pipe 7, alkali tank 12, acid tank 13, dioxygen water pot 14 and water tank 15 are connected in parallel on second pipe 7 by pipeline, second pipe 7 is also connected with jet chimney 24, jet chimney 24 can heat the liquid flowing through second pipe 7, jet chimney is provided with steam valve, the size of the adjustable steam flow of steam valve, and then control the heating-up temperature of liquid, second pipe 7 is positioned on rear side of jet chimney and is also provided with temperature sensor 16, temperature sensor 16 is for monitoring the temperature of the liquid after heating, guarantee that fluid temperature reaches setting value, first magnetic valve, second magnetic valve, 3rd magnetic valve, 4th magnetic valve, steam valve and temperature sensor all with control system control connection.
Alkali tank 12, sour tank 13, dioxygen water pot 14 and water tank 15 are arranged on organism bottom, and organism bottom is also provided with tool box 17, and tool box can be used for depositing maintenance tool, easy to maintenance.
When the utility model makes ice cream, control system controls triple valve I2 and is communicated with peristaltic pump 4 import and accumulator 22 discharging opening, control triple valve II3 and be communicated with peristaltic pump 4 outlet and refrigerating cylinder 23 charging aperture, now open control valve, the ice cream of making by ice cream discharging opening 5 out.In order to avoid affecting mouthfeel because the material resting period grows existing precipitation, the utility model can mix material, control system controls triple valve I2 and is communicated with peristaltic pump 4 import and accumulator 22 discharging opening, control the outlet of triple valve II3 connection peristaltic pump 4 to be communicated with accumulator 22 feedback outlet, now peristaltic pump 4 and accumulator 22 form a closed loop, and ice cream material is constantly extracted out in accumulator 22 by peristaltic pump 4, suction is carried out circulating thus mixed by material.When wanting cleaning and sterilizing, if also have ice cream material in refrigerating cylinder 23, now can control refrigerating cylinder 23 heating and make the material in refrigerating cylinder be warmed up to about 4 degree, now expect to melt completely, can control peristaltic pump 4 to reverse and be withdrawn in accumulator 22 by material, cleaning material fast and easy is clean.First pipeline 6 is pulled out from accumulator 22 discharging opening and then this end of the first pipeline is connected with ice cream discharging opening 5,4th pipeline 9 is pulled out from accumulator 22 feedback outlet and then the 4th this end of pipeline is connected blow-off line 11, control system controls triple valve I2 and is communicated with second pipe 7 and peristaltic pump 4 import, and control system controls triple valve II3 connection peristaltic pump 4 and exports and refrigerating cylinder 23 charging aperture.Control system control the 4th magnetic valve 21 is opened and is communicated with water tank 15 by peristaltic pump 4, control system controls peristaltic pump 4 by water suction refrigerating cylinder, steam valve is opened simultaneously, to the water heating flowed through, generally water temperature is controlled at 45 degree, when in refrigerating cylinder, water fills, control system controls the 4th magnetic valve 21 and closes, control system controls triple valve I2 and is communicated with peristaltic pump 4 import and ice cream discharging opening 5, now peristaltic pump 4 and refrigerating cylinder 23 are by the first pipeline 6, 3rd pipeline 8 forms a closed loop, water flows through triple valve I2 successively by peristaltic pump 4, first pipeline 6, refrigerating cylinder 23, ice cream discharging opening 5, 3rd pipeline 8, triple valve II3, peristaltic pump 4 forms closed loop, constantly refrigerating cylinder and peristaltic pump are cleaned, after cleaning certain hour, control system controls triple valve II3 and is communicated with peristaltic pump 4 outlet and the 4th pipeline 9, waste water is through peristaltic pump, 4th pipeline and blow-off line are discharged, after waste water is drained, control system controls triple valve I2 by second pipe 7 and peristaltic pump inlet communication, control system controls triple valve II3 and is communicated with peristaltic pump 4 outlet and refrigerating cylinder 23 charging aperture, control system control the 4th magnetic valve 21 is opened and is communicated with water tank 15 by peristaltic pump 4, repeat aforesaid operations, carry out the cleaning of second time water.After the cleaning of second time water terminates, carry out alkali cleaning, control system controls triple valve I2 by second pipe 7 and peristaltic pump 4 inlet communication, peristaltic pump 4 exports and is communicated with refrigerating cylinder 23 charging aperture by control system control triple valve II3, control system controls the first magnetic valve 18 and opens and be communicated with alkali tank 12 by peristaltic pump 4, control system control peristaltic pump 4 is taken out alkali lye and is entered refrigerating cylinder, steam valve is opened simultaneously, to the alkali lye heating flowed through, general by alkali lye temperature control at 75 degree, when in refrigerating cylinder, alkali lye fills, control system controls the first magnetic valve 18 and closes, control system controls triple valve I2 and is communicated with peristaltic pump 4 and ice cream discharging opening 5, now peristaltic pump 4 and refrigerating cylinder 23 form a closed loop, alkali lye flows through triple valve I2 successively by peristaltic pump 4, first pipeline 6, refrigerating cylinder 23, ice cream discharging opening 5, 3rd pipeline 8, triple valve II3, peristaltic pump 4 forms closed loop, constantly cleaning and sterilizing is carried out to refrigerating cylinder 23, after cleaning and sterilizing certain hour, control system controls triple valve II3 and is communicated with peristaltic pump 4 outlet and the 4th pipeline 9, waste liquid is through peristaltic pump 4, 4th pipeline 9 and blow-off line are discharged.After alkali cleaning terminates, more once wash, this time washing temperature controls at 65 degree, to be washed by residual alkali.Pickling is carried out after washing terminates, control system controls triple valve I2 by second pipe 7 and peristaltic pump 4 inlet communication, peristaltic pump 4 exports and is communicated with refrigerating cylinder 23 charging aperture by control system control triple valve II3, control system controls the second magnetic valve 19 and opens and be communicated with sour tank 13 by peristaltic pump 4, control system control peristaltic pump 4 is taken out acid solution and is entered refrigerating cylinder, steam valve is opened simultaneously, to the pickle heating flowed through, general by acid solution temperature control at 55 degree, once washing after pickling terminates, this time washing temperature controls at 45 degree, residual acid solution to be washed off.Hydrogen peroxide sterilization is carried out after washing terminates, control system controls triple valve I2 by second pipe 7 and peristaltic pump 4 inlet communication, control system controls triple valve II3 and peristaltic pump outlet is communicated with refrigerating cylinder charging aperture, control system control the 3rd magnetic valve 20 is opened and is communicated with dioxygen water pot 14 by peristaltic pump 4, control system control peristaltic pump 4 is taken out hydrogen peroxide and is entered refrigerating cylinder, steam valve is opened simultaneously, to the hydrogen peroxide heating flowed through, generally hydrogen peroxide warm is controlled at 65 degree, carry out again washing once after hydrogen peroxide sterilization terminates, this time washing temperature controls at 35 degree, hydrogen peroxide is cleaned up.The whole cleaning and sterilizing automatic process control system of the utility model, time saving and energy saving, cleaning and sterilizing is thoroughly clean, provides safeguard for manufacturing healthy and safe ice cream.