TWI727911B - Soybean milk continuous cooking machine - Google Patents

Abstract

A soybean milk continuous cooking machine is provided, including: a gas storage device , including a first gas container, a second gas container and a third gas container, the second gas container and the third gas container respectively communicated with the first gas container; a heating module, including at least one first steam cooking heater and a plurality of second steam cooking heaters, each first steam cooking heater communicated with the second gas container, each second steam cooking heater communicated with the third gas container; and a plurality of proportional valves, each proportional valve assembled between the third gas container and one of the plurality of second steam cooking heaters; wherein each proportional valve is based on one of a detected soybean milk temperature contained within one of the second steam cooking heater to control the steam volume flowing from the third gas container into one of the second steam cooking heater.

Description

Continuous cooking machine

The invention relates to a continuous cooking machine.

Some liquid foods, such as soy milk, need to be heated to a certain level in order to remove harmful substances to the human body and be cooked and sterilized. The conventional method of boiling hot soy milk is steaming, in which cold soy milk and steam are passed into the cavity of a heater, so that the cold soy milk and steam are mixed to raise the temperature of the soy milk to a predetermined temperature. When the temperature of soy milk is heated to a certain high temperature, and then continue to be heated, the required amount of steam must be accurate.

Therefore, it is necessary to provide a novel and progressive continuous cooking machine to solve the above-mentioned problems.

The main purpose of the present invention is to provide a continuous cooking machine, which can accurately provide the amount of steam when the steam is divided into a plurality of cooking heaters.

To achieve the above object, the present invention provides a continuous cooking machine, including: a gas storage device for communicating with a steam source, the gas storage device includes a first gas storage cylinder, a second gas storage cylinder, and a third gas storage cylinder , The first accumulator is for communicating with the steam source, the second accumulator and the third accumulator are respectively connected with the first accumulator, and the volume of the third accumulator is greater than the volume of the second accumulator; a heating mold A group comprising at least one first cooking heater and a plurality of second cooking heaters, each of the first cooking heaters is connected to the second accumulator, and each of the second cooking heaters is connected to the third accumulator; and plural proportions Valves, each of the proportional valves is installed between the third accumulator and one of the second cooking heaters; wherein, each of the proportional valves is based on the detected slurry in one of the second cooking heaters Temperature to control the amount of steam flowing into one of the second cooking heaters from the third accumulator.

The following examples are only used to illustrate the possible implementation aspects of the present invention, but they are not intended to limit the scope of protection of the present invention, and are described first.

Please refer to FIGS. 1 to 5, which show a preferred embodiment of the present invention. The continuous cooking machine 1 of the present invention includes a gas storage device 10, a heating module 20 and a plurality of proportional valves 30.

The gas storage device 10 is connected to a steam source. The gas storage device 10 includes a first gas storage cylinder 11, a second gas storage cylinder 12 and a third gas storage cylinder 13, and the first gas storage cylinder 11 is connected to the steam source. The second accumulator 12 and the third accumulator 13 are respectively connected to the first accumulator 11, the volume of the third accumulator 13 is greater than the volume of the second accumulator 12; the heating module 20 includes at least one first accumulator A cooking heater 21 and a plurality of second cooking heaters 22, each of the first cooking heaters 21 is connected to the second accumulator 12, and each of the second cooking heaters 22 is connected to the third accumulator 13; each of the proportional valves 30 Installed between the third storage cylinder 13 and one of the second cooking heaters 22; wherein, each of the proportional valves 30 is based on the detected slurry (such as soybean milk) in one of the second cooking heaters 22 A slurry temperature to control the amount of steam flowing from the third accumulator 13 into one of the second cooking heaters 22; accordingly, the steam from the steam source can be partially pressured (flowed) by the first accumulator 11 To the third accumulator 13 and the second accumulator 12 to stably maintain the internal pressure of the gas storage device 10, and can accurately provide each of the first cooking heater 21 and each of the second cooking heater 22 The amount of steam. Specifically, the first accumulator cylinder 11 splits steam to each of the first cooking heaters 21, and the second accumulator cylinder 12 splits steam to the plurality of second cooking heaters 22 (high pressure and to heat the slurry to a high temperature). , Such as 75 degrees or more) is mixed with the slurry, and the amount of steam can be accurately provided to heat the slurry in each of the first cooking heater 21 and each of the second cooking heater 22 to a predetermined high temperature.

Each of the proportional valves 30 is based on the detected slurry temperature of the slurry in one of the second cooking heaters 22 and an amount of slurry in one of the second cooking heaters 22 to control the output from the third storage heater. The amount of steam flowing into one of the second cooking heaters 22 in the cylinder 13, so the accuracy of controlling the output steam amount of the steam is high. Each of the first cooking heaters 21 is set to a first heating temperature that the slurry heated inside is expected to reach, the first heating temperature of each of the first cooking heaters 21 is less than or equal to 80 degrees, and each of the second cooking heaters 22 Set a second heating temperature that the slurry heated inside is expected to reach, the second heating temperature is set to be greater than or equal to 80 degrees; the number of the plurality of second cooking heaters 22 is at least three, and the heating module 20 supplies the slurry to one The first direction L1 flows into each of the first cooking heaters 21 and each of the second cooking heaters 22 in sequence, and the second heating temperature of the plurality of second cooking heaters 22 is gradually higher toward the first direction L1, specifically In other words, the plurality of first cooking heaters 21 and the plurality of second cooking heaters 22 are respectively connected by a slurry conveying pipe 2, and the slurry conveying pipe 2 is provided for transporting by the plurality of first cooking heaters 21 and the A plurality of second cooking heaters 22 flow out the mixed steam and slurry. The second heating temperatures of the plurality of second cooking heaters 22 are 90 degrees, 100 degrees, and 105 degrees in sequence, the number of the at least one first cooking heater 21 is two, and the first of the two first cooking heaters 21 The heating temperature is gradually higher in the first direction L1. Specifically, the first heating temperature of the two first cooking heaters 21 is 60 degrees and 75 degrees in order to accurately provide each of the second cooking heaters 22 With the amount of steam, the slurry can be gradually heated to a predetermined high temperature.

The volume of the first accumulator 11 is greater than the volume of the second accumulator 12 and the volume of the third accumulator 13. The first accumulator 11 can store a larger amount of vapor and divide the pressure to the second accumulator 12 and The third accumulator 13 maintains internal pressure balance.

The height of the first accumulator 11 is lower than the height of the second accumulator 12 and the third accumulator 13, and the vapor in the first accumulator 11 facilitates partial pressure flow to the second accumulator 12 And the third accumulator 13.

Each of the second cooking heaters 22 has a top end 23 and a bottom end 24 on opposite sides. In this embodiment, each of the first and second cooking heaters 21 and 22 are arranged upright, and the third accumulator 13 The discharged steam flows from the top end 23 of each second cooking heater 22 downward toward the bottom end 24 to precisely control the amount of steam flowing into each second cooking heater 22.

The gas storage device 10 further includes a first gas transmission pipe 14, a second gas transmission pipe 15, and a plurality of gas guide pipes 16, and the first gas transmission pipe 14 is connected to the first gas storage cylinder 11 and the second gas storage cylinder 12, the second gas pipeline 15 is connected between the first accumulator 11 and the third accumulator 13, and each of the air guide lines 16 is connected to one of the second cooking heater 22 and the third Between the accumulators 13, the pipe diameter of each of the air guide pipes 16 is smaller than the pipe diameter of the second gas pipeline 15; the first accumulator 11, the second accumulator 12, and the third accumulator 13 are one For the cylinders, the third accumulator 13 is provided with a plurality of connecting portions 131 arranged at intervals in the radial direction; each of the air guide pipes 16 is U-shaped and includes a front pipe section 161, a middle pipe section 162 and a rear pipe section 163. The middle pipe section 162 is connected between the front pipe section 161 and the rear pipe section 163. One end of the front pipe section 161 is connected to one of the connecting portions 131, and one end of the rear pipe section 163 is connected to one of the second cooking heaters 22. The front pipe section 161 extends upwards from the first accumulator 11, and the rear pipe section 163 extends upwards from one of the second accumulators 12, so that the first accumulator 11 can quickly divide the pressure to the second and third accumulators 12, 13 and at the same time, it is possible to accurately give each of the first cooking heater 21 and the second cooking heater 22 an appropriate amount of steam.

The continuous cooking machine 1 further includes an air intake module 40. The air intake module 40 includes a first air intake pipe 41, a first air intake control valve 42, a second air intake pipe 43, and a first air intake pipe. Two intake control valves 44, the first intake pipe 41 is connected between the steam source and the first accumulator 11, and the first intake control valve 42 is provided in the first intake pipe 41, Two ends of the second intake pipe 43 are respectively connected to the first intake pipe 41, and the two ends of the second intake pipe 43 are respectively connected across two opposite sides of the first intake control valve 42 , The second intake control valve 44 is provided in the second intake pipe 43; the first intake control valve 42 can be opened and closed for controlling the flow of steam from the steam source through the first intake pipe 41 into the The amount of steam in the first accumulator 11, the second intake control valve 44 can be opened and closed for controlling the flow of steam from the steam source through the second intake line 43 to the first intake line 41 , And when the first intake control valve 42 is damaged, the steam provided by the steam source can flow into the first accumulator 11 through the second intake pipe 43; in other situations, the steam source can also be switched from the first accumulator. An intake pipe 41 or the second intake pipe 43 flows into the first accumulator 11.

The installation height of the intake module 40 is higher than the installation height of the gas storage device 10, which is beneficial to control the flow rate of the steam provided by the steam source.

The continuous cooking machine 1 further includes a steam water outlet 50 for communicating the first accumulator cylinder 11 with an outside, so that the steam water in the first accumulator cylinder 11 can be discharged.

The continuous cooking machine 1 further includes a pressure recoil part 3, the pressure recoil part 3 and the slurry conveying pipeline 2 are communicated with each other. In this embodiment, the pressure recoil part 3 is provided in the shape of a barrel on the slurry. Between one end of the conveying pipeline 2 and a slurry discharge part (such as a slurry storage barrel) to reduce the impact pressure of the high-temperature slurry in the slurry conveying pipeline 2.

The continuous cooking machine 1 further includes a pressure control valve 4, which is arranged in the slurry conveying pipeline 2 to control and adjust the high-temperature steam and the slurry in the slurry conveying pipeline 2 in the slurry conveying The pressure in the pipeline 2 is maintained at a stable pressure.

The continuous cooking machine 1 further includes a clean discharge pipe 5, which connects each of the first cooking heaters 21 and each of the second cooking heaters 22 and an outside, so that cleaning liquid (such as water but Not limited to this) Each of the first cooking heaters 21 and each of the second cooking heaters 22 is passed through to perform a cleaning operation, and the cleaning liquid can be discharged to the outside through the cleaning discharge pipe 5.

In summary, the continuous cooking machine of the present invention uses the gas storage device to maintain the internal steam pressure and each proportional valve allows the steam to be diverted to a plurality of cooking heaters (the plurality of second cooking heaters) to accurately Provides the amount of steam.

1: Continuous cooking machine 2: Slurry delivery pipeline 3: Pressure recoil department 4: Pressure control valve 5: Clean the discharge line 10: Gas storage device 11: The first accumulator 12: Second accumulator 13: The third accumulator 131: Assembly Department 14: The first gas pipeline 15: The second gas pipeline 16: air duct 161: front pipe section 162: Middle Pipe Section 163: rear pipe section 20: Heating module 21: The first cooking heater 22: The second cooking heater 23: Top part 24: bottom end 30: Proportional valve 40: intake module 41: The first intake line 42: The first intake control valve 43: The second intake line 44: The second intake control valve 50: Steam water outlet L1: first direction

Figure 1 is a perspective view of a preferred embodiment of the present invention. Figure 2 is a front view of a preferred embodiment of the present invention. Figure 3 is a partial perspective view of a preferred embodiment of the present invention. Figure 4 is another partial perspective view of a preferred embodiment of the present invention. Figure 5 is a top view of a preferred embodiment of the present invention.

1: Continuous cooking machine

2: Slurry delivery pipeline

5: Clean the discharge line

10: Gas storage device

11: The first accumulator

12: Second accumulator

13: The third accumulator

20: Heating module

21: The first cooking heater

22: The second cooking heater

30: Proportional valve

40: intake module

Claims (10)

A continuous cooking machine, including: A gas storage device for communicating with a steam source, including a first gas storage cylinder, a second gas storage cylinder and a third gas storage cylinder, the first gas storage cylinder being connected to the steam source, the second gas storage cylinder and the third gas storage cylinder The accumulators respectively communicate with the first accumulator, and the volume of the third accumulator is greater than the volume of the second accumulator; A heating module, including at least one first cooking heater and a plurality of second cooking heaters, each of the first cooking heaters is connected to the second accumulator, and each of the second cooking heaters is connected to the third accumulator; and A plurality of proportional valves, each of the proportional valves is installed between the third accumulator and one of the second cooking heaters; Wherein, each of the proportional valves controls the amount of steam flowing into one of the second cooking heaters from the third accumulator according to a detected slurry temperature of one of the second cooking heaters. The continuous cooking machine according to claim 1, wherein each of the proportional valves is based on the detected slurry temperature of the slurry in one of the second cooking heaters and a temperature in one of the second cooking heaters The amount of slurry is used to control the amount of steam flowing into one of the second cooking heaters from the third accumulator. The continuous cooking machine according to claim 1, wherein each of the first cooking heaters is set to a first heating temperature that the slurry heated inside is expected to reach, and the first heating temperature of each of the first cooking heaters is less than or equal to 80 degrees, each of the second cooking heaters is set to a second heating temperature that the slurry heated inside is expected to reach, and the second heating temperature is set to be greater than or equal to 80 degrees; the number of the plurality of second cooking heaters is at least three, The heating module allows the slurry to flow in a first direction and sequentially flow into each of the first cooking heaters and each of the second cooking heaters, and the second heating temperature of the plurality of second cooking heaters is gradually higher toward the first direction . The continuous cooking machine according to claim 1, wherein the volume of the first accumulator is greater than the volume of the second accumulator and the volume of the third accumulator. The continuous pulp cooking machine according to claim 1, wherein the height of the first accumulator is lower than the height of the second accumulator and the third accumulator. The continuous pulp cooking machine according to claim 1, wherein the gas storage device further includes a first gas transmission pipeline, a second gas transmission pipeline, and a plurality of gas guide pipelines, and the first gas transmission pipeline is connected to the first storage Between the cylinder and the second accumulator, the second gas pipeline is connected between the first accumulator and the third accumulator, and each of the air guide pipelines is connected with one of the second cooking heater and the first Between the three storage cylinders, the pipe diameter of each of the air guide pipes is smaller than the pipe diameter of the second gas transmission pipe. The continuous cooking machine according to claim 1, wherein each of the second cooking heaters has a top end and a bottom end on opposite sides, and the steam discharged from the third accumulator is heated by each of the second cooking heaters The top end of the vessel flows downward toward the bottom end. The continuous pulp cooking machine according to claim 1, further comprising an air intake module, the air intake module including a first air intake pipe, a first air intake control valve, and a second air intake pipe And a second intake control valve, the first intake pipe is connected between the steam source and the first accumulator, the first intake control valve is arranged in the first intake pipe, the first Two ends of the two intake pipes are respectively connected to the first intake pipe, and the two ends of the second intake pipe are respectively connected across two opposite sides of the first intake control valve. The second intake The control valve is arranged in the second air inlet pipe. The continuous pulp cooking machine according to claim 8, wherein the installation height of the air intake module is higher than the installation height of the air storage device. The continuous cooking machine according to claim 9, wherein each of the proportional valves is based on the detected slurry temperature of the slurry in one of the second cooking heaters and a temperature in one of the second cooking heaters The amount of slurry to control the amount of steam flowing into one of the second cooking heaters from the third accumulator; each of the first cooking heaters sets a first heating temperature that the slurry that is heated inside is scheduled to reach, each The first heating temperature of the first cooking heater is less than or equal to 80 degrees, and each of the second cooking heaters is set to a second heating temperature that the slurry heated inside is scheduled to reach, and the second heating temperature is set to be greater than or equal to 80 degrees; The number of the plurality of second cooking heaters is at least three, and the heating module allows the slurry to flow in a first direction and sequentially flow into each of the first cooking heaters and each of the second cooking heaters, and the plurality of second cooking heaters are heated The heating temperature of the device toward the first direction is gradually higher; the volume of the first accumulator is greater than the volume of the second accumulator and the volume of the third accumulator; the height of the first accumulator is lower than that of the second accumulator The height of the gas storage cylinder and the third gas storage cylinder respectively; the gas storage device further includes a first gas transmission pipeline, a second gas transmission pipeline and a plurality of gas guide pipelines, and the first gas transmission pipeline is connected to the first gas transmission pipeline. Between the accumulator and the second accumulator, the second gas pipeline is connected between the first accumulator and the third accumulator, and each of the gas pipelines is connected with one of the second cooking heaters and the Between the third accumulators, the pipe diameter of each of the air guide pipes is smaller than the pipe diameter of the second gas transmission line; the first accumulator, the second accumulator, and the third accumulator are each a sub-cylinder, the The third gas accumulator is provided with a plurality of connecting parts arranged at intervals in the radial direction; each of the air guide pipes is U-shaped, including a front pipe section, a middle pipe section and a rear pipe section. The middle pipe section is connected to the front pipe section and the rear pipe section. Between the pipe sections, one end of the front pipe section is connected to one of the connecting parts, one end of the rear pipe section is connected to one of the second cooking heaters, the front pipe section extends upward from the first accumulator, and the rear pipe section extends from it. A second storage cylinder extends upward; each of the second cooking heaters has a top end and a bottom end on opposite sides, and the steam discharged from the third storage cylinder is from the top of each second cooking heater The portion flows downward toward the bottom end; the continuous boiling machine further includes a steam water outlet for communicating with the first storage cylinder and an outside; the continuous boiling machine further includes a slurry conveying pipeline, The plurality of first cooking heaters and the plurality of second cooking heaters are respectively connected by the slurry conveying pipeline; the continuous cooking machine further includes a pressure backwashing part, the pressure backwashing part and the slurry conveying pipeline are mutually connected Connected; the continuous cooking machine further includes a pressure control valve, the pressure control valve is arranged in the slurry delivery pipeline; the continuous cooking machine further includes a clean discharge pipeline, the clean discharge pipeline is connected to each of the first cooking The heater and each of the second cooking heaters and an outside.

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