JP3670781B2 - Frozen dessert production equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a frozen confectionery manufacturing apparatus such as soft cream and shake.
[0002]
[Prior art]
An example of a conventional frozen dessert manufacturing apparatus is shown in FIG.
Around the raw material tank 8 for storing the liquid frozen dessert raw material 24, there is provided a first cooler 21 for cooling it.
A second cooler 3 is provided around the freezer cylinder 1 for cooling the frozen dessert material supplied from the raw material tank 8 while stirring it with the stirrer 2 to produce the frozen dessert.
[0003]
The raw material tank 8 and the freezer cylinder 1 are covered with a heat insulating material 32.
When the frozen confectionery raw material 24 is loaded into the raw material tank 8, a part of the frozen confectionery raw material 24 passes through the carburetor tube 9 from the hole 10 into the freezer cylinder 1 and is filled therein with a predetermined amount.
[0004]
During the cooling operation, the refrigerant gas discharged from the compressor 15 enters the condenser 17 through the four-way valve 16 and is condensed by dissipating heat to the cooling water flowing through the heat transfer pipe 18 as indicated by solid arrows. Liquefaction.
[0005]
This liquid refrigerant branches into two parts, one of which is adiabatically expanded by being throttled by the first electric expansion valve 20, and then evaporated and vaporized in the process of flowing through the first cooler 21, thereby generating the raw material by the latent heat of evaporation. The frozen confectionery raw material 24 in the tank 8 is cooled.
The other is adiabatically expanded by being throttled by the second electric expansion valve 22 and then evaporated and evaporated in the second cooler 3 to cool the frozen dessert material 24 in the freezer cylinder 1 by the latent heat of evaporation.
[0006]
The refrigerant gas evaporated in the first cooler 21 flows through the capillary tube 5, joins with the refrigerant gas evaporated in the second cooler 3, and is sucked into the compressor 15 through the four-way valve 16.
During this time, the frozen dessert material 24 in the freezer cylinder 1 is agitated by a stirrer 2 driven by a motor 7 via a rotating shaft 4.
[0007]
If the cooling operation is continued for a while, the frozen dessert raw material 24 in the freezer cylinder 1 freezes to become a frozen dessert 25.
Thereafter, when the drive torque of the agitator 2 falls below the set torque, the compressor 15 and the agitator motor 7 are driven, and at the same time, the second electric expansion valve 22 is opened, and when the drive torque rises to the set torque, the compressor 15 and the agitator motor 7 is stopped and the second electric expansion valve 22 is closed, and the above operation is repeated to maintain the frozen dessert 25 in the freezer barrel 1 at a temperature of about −6 ° C. so as to have a predetermined hardness.
[0008]
When the temperature of the raw material tank 8 falls below the set temperature, the compressor 15 is driven and at the same time the first electric expansion valve 20 is opened. When the temperature rises to the set temperature, the compressor 15 is stopped and at the same time the first electric expansion valve is opened. By closing 20 and repeating the above, the frozen dessert raw material 24 in the raw material tank 8 is maintained at about 10 ° C.
[0009]
When the take-out lever 11 of the frozen dessert take-out device 26 is lifted upward, the plunger 14 moves upward against the elastic force of the spring 23 via the rod 12, and the take-off switch 13 is closed along with this, and the through hole is opened. 31 is open.
If the compressor 15 is stopped when the take-off switch 13 is closed, the compressor 15 and the agitator 2 are activated by the signal from now on, and the second electric expansion valve 22 is opened.
[0010]
Thus, the frozen dessert 25 in the freezer cylinder 1 is pushed by the stirrer 2 and taken out from the outlet 33 through the through hole 31.
When the extraction lever 11 is lowered, the extraction switch 13 is opened and the through hole 31 is closed.
[0011]
When the removal of the frozen confection 25 is stopped for a long time, prior to this, a heating operation is performed to heat sterilize the frozen confectionery raw material 24 in the raw material tank 8 and the frozen confectionery raw material 24 and the frozen confection 25 in the freezer cylinder 1.
[0012]
During the heating operation, the agitator 2 is driven.
The refrigerant gas discharged from the compressor 15 is branched into two through the four-way valve 16 as shown by the broken line arrow, and one of them flows through the first cooler 21 through the check valve 6. Then, the frozen confectionery material 24 in the material tank 8 is condensed and liquefied by being heated, and then is adiabatic expansion by being throttled by the first electric expansion valve 20.
[0013]
The other enters the second cooler 3 where it is condensed and liquefied by heating the frozen dessert raw material 24 and the frozen dessert 25 in the freezer barrel 1 and then adiabatically expanded by being throttled by the second electric expansion valve 22.
After the refrigerant flowing through the first electric expansion valve 22 and the second electric expansion valve 22 joins and enters the condenser 17, after evaporating and evaporating by absorbing heat from the cooling water flowing through the heat transfer pipe 18. Then, it is sucked into the compressor 15.
[0014]
The time change of the temperature of the frozen confectionery raw material 24 is shown in FIG.
When the sterilization switch is turned on, the heat sterilization operation is started. During the temperature raising process, the confectionery raw material 24 in the raw material tank 8 is heated from 10 ° C. to 68 ° C. The temperature of the frozen confectionery raw material 24 and the frozen confectionery 25 is raised from -6 ° C to 68 ° C.
[0015]
Next, the heat-retaining process is started, and the heating operation is repeated every time the temperature of the raw material tank 8 falls below the set temperature, and the stirrer 2 repeats normal rotation and reverse rotation, whereby the frozen dessert in the raw material tank 8 and the freezer barrel 1 The raw material 24 is maintained at a legal sterilization temperature and time, that is, at 68 ° C. or higher for 30 minutes or longer.
[0016]
When the legal time elapses, the process proceeds to a cooling process, and the temperature of the frozen dessert raw material 24 is lowered to about 10 ° C. by the cooling operation.
Next, the process proceeds to a cooling process, and the compressor 15 and the stirrer 2 are operated intermittently, and the first and second electric expansion valves 22 and 20 are opened and closed intermittently to open the raw material tank 8 and the freezer cylinder 1. The frozen confectionery raw material 24 is maintained at about 10 ° C.
[0017]
When the cooling switch is turned on, the temperature of the frozen confectionery raw material 24 in the freezer cylinder 1 drops to −6 ° C. by the cooling operation, and the frozen confectionery raw material 24 in the raw material tank 8 is maintained at 10 ° C.
[0018]
As shown in FIG. 6, a frozen dessert removing device 26 and an operation panel 31 are provided on the front surface of the main body 30 of the frozen dessert manufacturing apparatus.
Details of the operation panel 31 are shown in FIG. 7, 32 is an LED display window, 33 is a sterilization switch, and when pressed, the sterilization display lamp 41 is turned on and at the same time a heat sterilization operation is started.
34 is a washing switch. When this switch is pressed, the washing display lamp 35 is turned on and the agitator 2 is driven at the same time.
[0019]
Reference numeral 36 denotes a cooling switch. When this switch is pressed, the cooling display lamp 37 is turned on and simultaneously the cooling operation is started.
Reference numeral 38 denotes a stop switch. When this switch is pressed, all operations of the frozen dessert manufacturing apparatus are stopped.
39 is a hardness setting switch for arbitrarily setting the hardness of the frozen dessert 25 in the freezer cylinder 1, and when this is pressed, the hardness setting lamp 40 is turned on and at the same time the set hardness is displayed in the LED display window 32. Is done.
[0020]
[Problems to be solved by the invention]
In the conventional frozen confectionery manufacturing apparatus, when the cooling operation and heating operation are started, the compressor 15 and the stirrer motor 7 are started simultaneously, so that there is a problem that the starting current is large and therefore a power source with a large capacity is required. It was.
[0021]
Further, since the compressor 15 and the stirrer motor 7 are simultaneously stopped when the cooling operation is finished, the frozen dessert 25 in the freezer cylinder 1 is cooled by evaporation of the refrigerant remaining in the second cooler 3 immediately after the stop. To cure.
[0022]
In this state, if the frozen dessert 25 is taken out by the frozen dessert removing device 26 and the agitator motor 7 is started, there is a possibility that the agitator 2 and its drive motor 7 are overloaded and damaged.
[0023]
[Means for Solving the Problems]
The present invention was invented to solve the above problems, it is an gist of the first invention, a raw material tank for storing ice confection material, freezer the ice confection material from the raw material tank Ru is supplied a cylinder, and a cooler for cooling or heating the ice confection material in the freezer in the body, a stirrer for stirring the ice confection material in the freezer in the body, with a, a refrigerator to run through the refrigerant to the cooler In frozen dessert manufacturing equipment,
Comprising a driving controller for controlling the pre-Symbol stirrer motor before and Symbol compressor for a refrigerator, a storage means the operation control device for storing rules start and or stop of the agitator motor and or the compressor, Start / stop determination means for determining start and stop of the agitator motor and / or the compressor according to the input signal and the rules input from the storage means, and based on the start determination of the start / stop determination means, After outputting a start command to the agitator motor, a first start control that outputs a start command to the compressor when a predetermined delay time has passed, or after outputting a start command to the compressor, and a boot priority means for performing the second activation control outputs an activation command to the motor for the agitator when the delay time has elapsed, if the input signal is a signal to eject the ice confection before There first row activation control, when the input signal is a signal for starting the cooling operation or heating operation of the refrigerator is the second activation control to ice confection producing device comprising a row Ukoto .
[0024]
It is an gist of the second invention, the raw material tank for storing ice confection material, a freezer barrel in which the ice confection material from the raw material tank Ru is supplied, a cooler for cooling or heating the ice confection material in the freezer the barrel In a frozen confectionery manufacturing apparatus comprising: a stirrer that stirs the frozen confectionery raw material in the freezer barrel; and a refrigerator that causes the refrigerant to flow through the cooler,
Comprising a driving controller for controlling the motor and the pre-Symbol refrigerator compressor the stirrer, and the storage means the operation control device for storing the start and or stop rules of the agitator motor and or the compressor, the input Start / stop determination means for determining start and stop of the agitator motor and / or the compressor according to the rules input from the signal and the pre-storage means, and the compressor based on the stop determination of the start / stop determination means The first stop control for outputting a stop command to the agitator motor when a predetermined delay time has elapsed after the stop command is output to the compressor, or the stop command is simultaneously output to the compressor and the agitator motor and a stop delay means for performing a second stop control, when the input signal is a signal for stopping the cooling operation of the refrigerator from the sensor the first stop control Performed, if the input signal is a stop signal of the ice confection producing device is in the ice confection producing device which is characterized in that said second stop control.
[0025]
It is an gist of the third invention, the raw material tank for storing ice confection material, a freezer barrel in which the ice confection material from the raw material tank Ru is supplied, a cooler for cooling or heating the ice confection material in the freezer the barrel In a frozen confectionery manufacturing apparatus comprising: a stirrer that stirs the frozen confectionery raw material in the freezer barrel; and a refrigerator that causes the refrigerant to flow through the cooler ,
Comprising a driving controller for controlling the pre-Symbol stirrer motor before and Symbol compressor for a refrigerator, a storage means the operation control device for storing rules start and or stop of the agitator motor and or the compressor, Start / stop determination means for determining start and stop of the agitator motor and / or the compressor according to the input signal and the rules input from the storage means, and based on the start determination of the start / stop determination means, After outputting a start command to the agitator motor, a first start control that outputs a start command to the compressor when a predetermined delay time has passed, or after outputting a start command to the compressor, Start priority means for performing a second start control that outputs a start command to the agitator motor when a delay time has elapsed, and the compressor based on the stop determination of the start / stop determination means A first stop control that outputs a stop command to the agitator motor when a predetermined delay time has elapsed after the stop command is output, or a first stop control that outputs a stop command to the compressor and the agitator motor simultaneously. and a stop delay means for performing a two-stop control, the case where the input signal is a signal to eject the ice confection will have line the first activation control, cooling operation or heating operation of the input signal is the refrigerator When the input signal is a signal for stopping the cooling operation of the refrigerator from the sensor, the first stop control is performed, and the input signal Is a stop signal for the frozen confectionery manufacturing apparatus, the second stop control is performed .
[0026]
DETAILED DESCRIPTION OF THE INVENTION
1 to 3 show a control block diagram, FIG. 2 is a control flowchart, and FIG. 3 is a time chart.
In addition, the structure of the frozen dessert manufacturing apparatus is the same as that of the conventional one shown in FIG.
[0027]
As shown in FIG. 1, when the cooling switch 36, the sterilization switch 33, the washing switch 34, the stop switch 38, and the take-off switch 13 are operated, these operation signals are sent to the operation controller for the agitator motor and the refrigerator compressor 15. This is input to 50 start / stop determination means 51.
[0028]
The detected torque of the torque sensor 41 that detects the drive torque of the agitator 2 is input to the comparison means 52, where it is compared with the set torque input from the torque setting means 53, and this comparison result is also input to the start / stop determination means 51 Is done.
[0029]
Similarly, the detected temperature of the temperature sensor 42 for detecting the temperature of the raw material tank 8 is input to the comparing means 54, where it is compared with the set temperature input from the temperature setting means 55, and this comparison result is also the start / stop determining means 51. Is input.
Further, the output signal from the protective device 43 such as the high pressure switch and the overcurrent detector and the signal that the timer 44 set with the legal sterilization time is counted up is input to the start / stop determination means 51 as it is. .
[0030]
The start / stop determination means 51 determines the start and / or stop of the stirrer motor 7 and / or the refrigerator compressor 15 according to the signal input according to the rules stored in the storage means 56.
When the start / stop determination means 51 determines the start of the stirrer motor 7 and the refrigerator compressor 15, this start signal is input to the start priority means 59.
[0031]
Then, the activation priority means 59 determines that the agitator motor 7 is activated with priority over the refrigerator compressor 15 when the frozen dessert 25 is taken out, that is, when the take-out switch 13 is operated. As shown in FIG. 3 (A), after a start command is output to the stirrer motor 7 and the start command is started, it is output to the compressor 15 for the refrigerator when the delay time t ₁ set in the start timer 57 has elapsed. Start this.
[0032]
When the frozen dessert 25 is not taken out, that is, when the cooling switch 36 or the sterilizing switch 33 is operated, when the agitator torque falls below the set torque, or when the return signal to the normal state is input from the protective device 43, the timer When 44 is counted up, the starting priority means 59 decides to start the compressor 15 for the refrigerator with priority over the motor 7 for the stirrer, and as shown in FIG. 2 and FIG. After the start command is output to the mechanical compressor 15 and started, when the delay time t ₁ set in the start timer 57 elapses, it is output to the stirrer motor 7 and started.
[0033]
At the end of the cooling operation, for example, when the agitator torque exceeds the set torque, or when the raw material tank temperature falls below the set temperature, the start / stop determining means 51 stops the agitator motor 7 and the refrigerator compressor 15 If determined, the stop delay means 60 outputs to the refrigerator compressor 15 to stop it as shown in FIG. 2 and FIG. 3 (C), and then stops the delay time t set in the stop timer 58. _{When 2} has elapsed, it is output to the agitator motor 7 to stop it.
[0034]
Other than at the end of the cooling operation, for example, when the stop switch 38 is operated, or when the protective device 43 is activated, the start / stop determination means 51 determines to stop the agitator motor 7 and the refrigerator compressor 15 The stop delay means 60 outputs simultaneously to the stirrer motor 7 and the refrigerator compressor 15 to stop it.
If the cleaning switch 34 is turned on or off, only the stirrer motor 7 is started or stopped.
[0035]
【The invention's effect】
In the first invention of claim 1, wherein, starting and when the stop determining means has determined the activation of the agitator motor and a compressor for a refrigerator, freezer motor for stirrer if the input signal is taken out signals frozen dessert In order to start the compressor prior to the start of the motor for the stirrer, the input signal is a signal for starting the cooling operation or the heating operation of the refrigerator. The starting current is reduced, and therefore the power supply capacity can be reduced.
[0036]
Accordingly , when the frozen confectionery is taken out , the stirrer motor is activated in preference to the refrigerator compressor, so that the frozen confectionery can be taken out immediately.
Further, since the compressor for a refrigerator is activated in preference to the motor for the stirrer when the cooling operation is started or the heating operation of the refrigerator can be quickly cooled or heated frozen dessert.
[0037]
In the second aspect of the invention, at the end of the cooling operation of the refrigerator, the compressor for the refrigerator is stopped, and then the motor for the stirrer is delayed and stopped, so that the frozen dessert is prevented from being hardened by the refrigerant remaining in the cooler. Therefore, the stirrer and its driving motor can be prevented from being damaged by overload.
[0038]
In the third invention described in claim 3, not only the same effects as those of the first and second inventions can be achieved, but also the durability and reliability of the frozen confectionery manufacturing apparatus can be improved.
[Brief description of the drawings]
FIG. 1 is a control block diagram illustrating an embodiment of the present invention.
FIG. 2 is a control flowchart of the embodiment.
FIGS. 3A, 3B, and 3C are partial time charts of the above embodiment, respectively.
FIG. 4 is a schematic configuration diagram of a conventional frozen confectionery manufacturing apparatus.
FIG. 5 is a diagram showing a temporal change in the temperature of frozen confectionery raw material in a conventional frozen confectionery manufacturing apparatus.
FIG. 6 is a front view of a conventional frozen confectionery manufacturing apparatus.
FIG. 7 is a front view of an operation panel of a conventional frozen confectionery manufacturing apparatus.

Claims (3)

A raw material tank for storing ice confection material, a freezer cylinder from the raw material tank the ice confection material is Ru is supplied, a cooler for cooling or heating the ice confection material in the freezer in the body, the ice confection material in the freezer the barrel In a frozen dessert manufacturing apparatus comprising a stirrer for stirring and a refrigerator for allowing a refrigerant to flow through the cooler ,
Comprising a driving controller for controlling the pre-Symbol stirrer motor before and Symbol compressor for a refrigerator, a storage means the operation control device for storing rules start and or stop of the agitator motor and or the compressor, Start / stop determination means for determining start and stop of the agitator motor and / or the compressor according to the input signal and the rules input from the storage means, and based on the start determination of the start / stop determination means, After outputting a start command to the agitator motor, a first start control that outputs a start command to the compressor when a predetermined delay time has passed, or after outputting a start command to the compressor, and a boot priority means for performing the second activation control outputs an activation command to the motor for the agitator when the delay time has elapsed, if the input signal is a signal to eject the ice confection before There first row activation control, when the input signal is a signal for starting the cooling operation or heating operation of the refrigerator, ice confection producing device, wherein said second activation control line Ukoto. A raw material tank for storing ice confection material, a freezer cylinder from the raw material tank the ice confection material is Ru is supplied, a cooler for cooling or heating the ice confection material in the freezer in the body, the ice confection material in the freezer the barrel In a frozen dessert manufacturing apparatus comprising a stirrer for stirring and a refrigerator for allowing a refrigerant to flow through the cooler,
Comprising a driving controller for controlling the motor and the pre-Symbol refrigerator compressor the stirrer, and the storage means the operation control device for storing the start and or stop rules of the agitator motor and or the compressor, the input Start / stop determination means for determining start and stop of the agitator motor and / or the compressor according to the rules input from the signal and the pre-storage means, and the compressor based on the stop determination of the start / stop determination means The first stop control for outputting a stop command to the agitator motor when a predetermined delay time has elapsed after the stop command is output to the compressor, or the stop command is simultaneously output to the compressor and the agitator motor and a stop delay means for performing a second stop control, when the input signal is a signal for stopping the cooling operation of the refrigerator from the sensor the first stop control Performed, if the input signal is a stop signal of the ice confection producing device ice confection producing device which is characterized in that said second stop control. A raw material tank for storing ice confection material, a freezer cylinder from the raw material tank the ice confection material is Ru is supplied, a cooler for cooling or heating the ice confection material in the freezer in the body, the ice confection material in the freezer the barrel In a frozen dessert manufacturing apparatus comprising a stirrer for stirring and a refrigerator for allowing a refrigerant to flow through the cooler ,
Comprising a driving controller for controlling the pre-Symbol stirrer motor before and Symbol compressor for a refrigerator, a storage means the operation control device for storing rules start and or stop of the agitator motor and or the compressor, Start / stop determination means for determining start and stop of the agitator motor and / or the compressor according to the input signal and the rules input from the storage means, and based on the start determination of the start / stop determination means, After outputting a start command to the agitator motor, a first start control that outputs a start command to the compressor when a predetermined delay time has passed, or after outputting a start command to the compressor, Start priority means for performing a second start control that outputs a start command to the agitator motor when a delay time has elapsed, and the compressor based on the stop determination of the start / stop determination means A first stop control that outputs a stop command to the agitator motor when a predetermined delay time has elapsed after the stop command is output, or a first stop control that outputs a stop command to the compressor and the agitator motor simultaneously. and a stop delay means for performing a two-stop control, the case where the input signal is a signal to eject the ice confection will have line the first activation control, cooling operation or heating operation of the input signal is the refrigerator When the input signal is a signal for stopping the cooling operation of the refrigerator from the sensor, the first stop control is performed, and the input signal Is a stop signal for the frozen dessert manufacturing apparatus, the second stop control is performed .

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