CN212590107U - Automatic grind and boil all-in-one - Google Patents

Abstract

The utility model discloses an automatic grind and boil all-in-one. Relates to the field of bean product processing. The automatic grinding and boiling integrated machine comprises a grinding mechanism and a pulp boiling mechanism, wherein the grinding mechanism comprises a cylinder body, a filter residue assembly, a grinding assembly, a feeding port, a soybean milk outlet and a soybean dreg outlet; the soybean milk outlet is positioned above the bean dreg outlet, the soybean milk boiling mechanism comprises a hot steam box and at least one heating box, and the hot steam box is connected with the heating box through a first gas conveying pipe and a second gas conveying pipe; the heating box comprises a first spiral heating pipe, a second spiral heating pipe and a U-shaped connecting pipe, and the first spiral heating pipe and the second spiral heating pipe are sleeved outside the heating box in a staggered mode. The utility model discloses to grind thick liquid mechanism and boil thick liquid mechanism collection in an organic whole, improved the production efficiency of bean curd preparation.

Description

Automatic grind and boil all-in-one

Technical Field

The invention belongs to the field of bean product manufacturing, and particularly relates to an automatic grinding and boiling integrated machine.

Background

The bean curd is the most common household dish, is various in preparation, is nutritional and healthy, is one of the bean products which are most frequently eaten by people, and has a plurality of processed products, such as dried bean curd, bean curd bubble, marinating, frying and smoking to form other bean products. However, in the existing bean curd making equipment, the grinding and the boiling are mostly separated, and the continuous making of the grinding and the boiling cannot be realized, so how to design the grinding and boiling integrated machine to realize the continuous making of the grinding and the boiling is a problem to be solved urgently at present.

Disclosure of Invention

In view of the above-mentioned problem of thick liquid, the unable continuous preparation of boiling thick liquid, the utility model provides an automatic grind and boil all-in-one.

The technical scheme of the utility model as follows:

an automatic grinding and boiling integrated machine comprises a grinding mechanism and a pulp boiling mechanism, wherein the grinding mechanism comprises a cylinder body, a filter residue assembly, a grinding assembly, a feeding port, a soybean milk outlet and a bean dreg outlet, the filter residue assembly and the grinding assembly are arranged in the cylinder body, the grinding assembly is positioned below the filter residue assembly,

the grinding component is detachably connected with the cylinder body and is used for grinding the soybeans in the cylinder body into pulp;

the filter residue assembly is connected with the inner wall of the cylinder body in a sliding manner, can move up and down along the inner wall of the cylinder body and is used for separating the ground soybean milk from the soybean dregs;

the feeding port is positioned above the soybean milk outlet and is used for feeding the soybeans and water into the barrel;

the soybean milk outlet is positioned above the bean dreg outlet and used for discharging soybean milk; the bean dreg outlet is used for discharging bean dregs;

the pulp boiling mechanism comprises a hot steam box and at least one heating box, and the hot steam box is connected with the heating box through a first gas pipe and a second gas pipe; the heating cabinet includes first spiral heating pipe, second spiral heating pipe and U type connecting pipe, and the heating cabinet outside is located to crisscross cover of first spiral heating pipe and second spiral heating pipe, and the first end of first spiral heating pipe and the first end of second spiral heating pipe are passed through U type connecting pipe and are connected, and the second end of first spiral heating pipe passes through first gas transmission branch pipe and first gas-supply pipe UNICOM, and the second end of second spiral heating pipe passes through second gas transmission branch pipe and second gas-supply pipe UNICOM.

Optionally, the filter residue assembly comprises a first filter residue assembly and a second filter residue assembly, the first filter residue assembly and the second filter residue assembly are located on the same plane, the first filter residue assembly comprises a first air cylinder and a first filter screen, a driving end of the first air cylinder is connected with the first filter screen, and the first air cylinder is used for driving the first filter screen to move towards or away from the second filter residue assembly;

the second filter residue assembly comprises a second air cylinder and a second filter screen, the driving end of the second air cylinder is connected with the second filter screen, and the second air cylinder is used for driving the second filter screen to move towards or away from the first filter residue assembly.

Optionally, the first filter residue assembly further comprises a first guide rail and first limiting blocks arranged at two ends of the first guide rail, the first cylinder is connected to the first guide rail in a sliding manner, and the first cylinder moves along the first guide rail; the second filter residue assembly further comprises a second guide rail and second limiting blocks arranged at two ends of the second guide rail, a second cylinder is connected to the second guide rail in a sliding mode, and the second cylinder moves along the second guide rail.

Optionally, one side of the first filter screen, which is far away from the first cylinder driving end, is provided with a first magnet, one side of the second filter screen, which is far away from the second cylinder driving end, is provided with a second magnet, and when the first cylinder drives the first filter screen to move towards the second filter residue assembly and the second cylinder drives the second filter screen to move towards the first filter residue assembly, the first filter screen and the second filter screen are attracted to each other through the first magnet and the second magnet.

Optionally, the grinding assembly comprises a mounting plate and at least 1 grinding cutter, the grinding cutter is mounted on the mounting plate through a mounting shaft, the mounting plate is in threaded connection or clamped connection with the barrel, and a sealing ring is arranged between the mounting plate and the barrel.

Optionally, the heating box further comprises a heat insulation layer, and a temperature sensor is arranged on the inner side of the heat insulation layer.

Optionally, the heating box further comprises a heating box cover, and the heating box cover is rotatably or slidably connected with the heating box.

Optionally, the first gas transmission pipe, the first gas transmission branch pipe, the second gas transmission pipe and the second gas transmission branch pipe are provided with a plurality of gas control valves.

Optionally, the pulp boiling mechanism further comprises a jellied bean curd dropping device, the jellied bean curd dropping device comprises a coagulant box, a coagulant steel pipe and a plurality of spray heads, the coagulant steel pipe is connected with the coagulant box, and the spray heads are uniformly distributed below the coagulant steel pipe.

Optionally, the brain-lighting device further comprises a motor and a motor mounting seat, and the motor is fixedly connected or slidably connected to the motor mounting seat.

The utility model discloses to grind thick liquid mechanism and boil thick liquid mechanism collection in an organic whole, when having improved bean curd preparation, grind thick liquid and boil the continuity of thick liquid, improved the production efficiency of bean curd preparation.

Drawings

FIG. 1 is a schematic view of an embodiment of the automatic integrated machine for grinding and cooking soymilk of the present invention;

FIG. 2A is a schematic cross-sectional view of one embodiment of a refining mechanism;

fig. 2B is a first schematic view of the state of the refining mechanism of fig. 2A;

fig. 2C is a schematic view of the state of the refining mechanism of fig. 2A;

fig. 2D is a state diagram three of the refining mechanism of fig. 2A;

FIG. 2E is a schematic view of the grinding assembly of FIG. 2A removed from the refining mechanism;

fig. 2F is a schematic cross-sectional view of another embodiment of the refining mechanism of the present invention;

FIG. 3A is a schematic view of an embodiment of the soymilk boiling mechanism of the present invention;

FIG. 3B is a schematic view of the heating chamber lid of FIG. 3A shown open;

fig. 4 is a schematic view of another embodiment of the soymilk boiling mechanism of the invention.

In the figure: 100. a pulping mechanism; 101. a barrel; 102. a first residue filter assembly; 1021. a first stopper; 1022. a first cylinder; 1023. a first guide rail; 1024. a first filter screen; 1025. a first magnet; 103. a second residue filter assembly; 1031. a second limiting block; 1032. a second cylinder; 1033. a second guide rail; 1034. a second filter screen; 1035. a second magnet; 104. a grinding assembly; 1041. mounting a plate; 1042. grinding the cutter; 105. a feeding port; 106. a soybean milk outlet; 107. an bean dreg outlet;

200. a pulp boiling mechanism; 201. a hot steam box; 2011. a first gas delivery pipe; 2014. a first gas delivery branch pipe; 2012. a second gas delivery pipe; 2015. a second gas delivery branch pipe; 2013. a gas control valve; 202. a heating box; 2021. a first spiral heating pipe; 2022. a second spiral heating pipe; 2023. a U-shaped connecting pipe; 2024. heating the box cover; 203. a heat-insulating layer; 204. a temperature sensor;

300. a brain-lighting device; 305. a coagulant tank; 306. a motor; 307. a motor mounting seat; 308. a coagulant steel tube; 309. and (4) a spray head.

Detailed Description

The invention will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 and fig. 2A, the utility model provides an automatic grinding and boiling integrated machine, the automatic grinding and boiling integrated machine includes the pulping mechanism 100 and boils the thick liquid mechanism 200, the pulping mechanism 100 includes barrel 101, filter residue subassembly, grinding component 104, pan feeding mouth 105, soybean milk export 106 and dregs of beans export 107, filter residue subassembly and grinding component 104 set up inside barrel 101, grinding component 104 is located filter residue subassembly below, grinding component 104 and barrel 101 can be dismantled and be connected (as shown in fig. 2E), be used for grinding the soybean in the barrel 101 into thick liquid; the filter residue subassembly and barrel 101 inner wall sliding connection, and the filter residue subassembly can reciprocate along barrel 101 inner wall for soybean milk and the bean dregs separation after will grinding.

The inlet 105 is positioned above the soybean milk outlet 106 for feeding the soybeans and water into the inside of the tub 101. A soybean milk outlet 106 is positioned above the bean dregs outlet 107, and the soybean milk outlet 106 is used for discharging soybean milk; the okara outlet 107 is used for discharging okara.

As shown in fig. 3A, the soymilk boiling mechanism 200 comprises a hot steam box 201 and at least one heating box 202, wherein the hot steam box 201 is connected with the heating box 202 through a first air pipe 2011 and a second air pipe 2012; the heating box 202 comprises a first spiral heating pipe 2021, a second spiral heating pipe 2022 and a U-shaped connecting pipe 2023, the first spiral heating pipe 2021 and the second spiral heating pipe 2022 are alternately sleeved outside the heating box 202, the first end of the first spiral heating pipe 2021 and the first end of the second spiral heating pipe 2022 are connected through the U-shaped connecting pipe 2023, the second end of the first spiral heating pipe 2021 is communicated with a first air delivery pipe 2011 through a first air delivery branch pipe 2014, and the second end of the second spiral heating pipe 2022 is communicated with a second air delivery pipe 2012 through a second air delivery branch pipe 2015. The utility model discloses a set up filter residue subassembly and grinding component 104 in barrel 101, realize the automation of thick liquid, and collect and grind thick liquid and filter residue in an organic whole, and then improved the production efficiency that the soybean ground was made thick liquid.

It should be noted that, for the number of the heating boxes 202, according to the difference of the processing requirement, the corresponding adjustment can be performed, and the embodiment of the present invention adopts 3 heating boxes 202. The number thereof is not limited to this, and may be different numbers such as 1, 2, 3, 4, and the like. Dispose the heating cabinet 202 of different quantity according to the demand of difference, make the utility model discloses a boil thick liquid mechanism 200's adaptability is stronger, has also improved the efficiency of boiling thick liquid simultaneously.

When the soybean grinding machine is used, cleaned and soaked soybeans can be directly conveyed into the barrel body 101 through the material inlet 105, and then a proper amount of water is conveyed into the barrel body through the material inlet 105 to grind the soybeans. Of course, the cleaned soybeans can also be fed into the barrel 101 through the feeding port 105, and then a proper amount of water is fed into the feeding port 105 to soak the soybeans, after the soaking is completed, the soaking wastewater is discharged through the bean dregs outlet 107, and then a proper amount of water is fed into the feeding port 105 to grind the soybeans.

After the soybean is ground, the soybean milk can be input into the soybean milk boiling mechanism 200 from the soybean milk grinding mechanism 100, the soybean milk in the heating box 202 can be uniformly heated by introducing hot steam into the first spiral heating pipe 2021 and the second spiral heating pipe 2022 which are alternately arranged, and the hot steam circulates in the first spiral heating pipe 2021 and the second spiral heating pipe 2022 in a reciprocating manner, so that the soybean milk is uniformly heated, and the phenomenon that the soybean milk in the heating box 2 cannot be uniformly heated due to thermal convection and is boiled falsely is avoided.

The utility model discloses with grinding mechanism 100 and boiling thick liquid mechanism 200 collection in an organic whole, when having improved bean curd preparation, grind thick liquid and boil the continuity of thick liquid, improved the production efficiency of bean curd preparation.

Optionally, the filter residue assembly includes a first filter residue assembly 102 and a second filter residue assembly 103, the first filter residue assembly 102 and the second filter residue assembly 103 are located on the same plane, the first filter residue assembly 102 includes a first cylinder 1022 and a first filter screen 1024, a driving end of the first cylinder 1022 is connected to the first filter screen 1024, and the first cylinder 1022 is used for driving the first filter screen 1024 to move towards or away from the second filter residue assembly 103. The second residue assembly 103 includes a second cylinder 1032 and a second screen 1034, a driving end of the second cylinder 1032 being connected to the second screen 1034, the second cylinder 1032 being configured to drive the second screen 1034 toward or away from the first residue assembly 102.

As shown in fig. 2B, when feeding soybeans into the barrel 101 through the feeding port 105 is required, the first cylinder 1022 drives the first screen 1024 to move away from the second residue assembly 103, i.e., drives the first screen 1024 to move away from the second screen 1034. The second cylinder 1032 drives the second screen 1034 away from the first screen 102, i.e., drives the second screen 1034 away from the first screen 1024. The first and second sieves 1024 and 1034 are driven by the first and second cylinders 1022 and 1032, respectively, to separate from each other to form a passage for the soybeans to pass through, so that the soybeans reach the working area of the grinding assembly 104 to be ground.

Optionally, as shown in fig. 2A and 2C, the first filter residue assembly 102 further includes a first guide rail 1023, and first stoppers 1021 arranged at two ends of the first guide rail 1023, wherein a first cylinder 1022 is slidably connected to the first guide rail 1023, and the first cylinder 1022 moves along the first guide rail 1023; the second residue filtering assembly 103 further includes a second guide rail 1033 and second stoppers 1031 disposed at two ends of the second guide rail 1033, the second cylinder 1032 is slidably connected to the second guide rail 1033, and the second cylinder 1032 moves along the second guide rail 1033.

By providing the first guide rail 1023 and the second guide rail 1033 on the inner wall of the cylinder 101, the first cylinder 1022 and the second cylinder move up and down along the first guide rail 1023 and the second guide rail 1033, respectively, the stability of the movement of the first cylinder 1022 and the second cylinder 1032 is improved. In addition, the first stoppers 1021 and the second stoppers 1031 are disposed at two ends of the first guide rail 1023 and two ends of the second guide rail 1033, respectively, so as to control the stroke ranges of the first cylinder 1022 and the second cylinder 1032.

Referring to fig. 2A and 2C, in order to improve the bonding strength between the first filter screen 1024 and the second filter screen 1034, a first magnet 1025 is disposed on a side of the first filter screen 1024 away from the driving end of the first cylinder 1022, and a second magnet 1035 is disposed on a side of the second filter screen 1034 away from the driving end of the second cylinder 1032, so that when the first cylinder 1022 drives the first filter screen 1024 to move toward the second filter residue assembly 103 and the second cylinder drives the second filter screen 1034 32 to move toward the first filter residue assembly 102, the first filter screen 1024 and the second filter screen 1034 are attracted by the first magnet 1025 and the second magnet 1035, thereby improving the bonding strength between the first filter screen 1024 and the second filter screen 1034, and further improving the filter residue effect of the assembly.

How to filter the residue of the refining mechanism 100 of the present invention is specifically described below with reference to fig. 2C and 2D:

after grinding of the soybeans to slurry them, the first cylinder 1022 drives the first screen 1024 toward the second screen 1034, and the second cylinder 1032 drives the second screen 1034 toward the first screen 1024. The first filter 1024 and the second filter 1034 are joined by the first magnet 1025 and the second magnet 1035 to form a third filter that is sealed to the bottom surface of the cylinder 101.

Then, the first cylinder 1022 and the second cylinder 1032 are driven to move downwards along the first guide rail 1023 and the second guide rail 1033, respectively, and the soybean milk mixed with the bean dregs is extruded by the third filter screen and is discharged from the soybean milk outlet 106; due to the blocking effect of the third filter screen, the bean dregs are discharged through the bean dregs outlet 107.

The utility model discloses a thick liquid mechanism 100 collects and grinds thick liquid and filter residue in an organic whole to when further having improved the preparation of soyfood, the production efficiency of the thick liquid process of making thick liquid.

Optionally, the grinding assembly 104 includes a mounting plate 1041 and at least 1 grinding blade 1042, the number of the grinding blades 1042 can be selected according to the volume of the barrel 101 and the process requirement, and the number of the grinding blades 1042 can be 1, 2, 3, 4, etc., which is not limited herein. Fig. 2F is a schematic cross-sectional view of an embodiment of the refining mechanism 100 of the present invention using 2 grinding knives.

The grinding tool 1042 is mounted on the mounting plate 1041 by a mounting shaft, and the mounting plate 1041 is in threaded connection or clamped connection with the cylinder 101. In order to improve the sealing property when the mounting plate 1041 is connected to the cylinder 101, a seal ring may be provided between the mounting plate 1041 and the cylinder 101.

Optionally, the heating box 202 further includes an insulating layer 203, and a temperature sensor 204 is disposed inside the insulating layer 203. The heat preservation layer 203 is arranged on the outer side of the heating box 202, so that the heated soybean milk is preserved, and preparation is made for the next process. In addition, a temperature sensor 204 is provided inside the heat insulating layer 203, so that the temperature inside the heating box 202 can be monitored during heating, and the heating time and the amount of hot steam introduced can be controlled.

Optionally, the heating box 202 further includes a heating box cover 024, and the heating box cover 024 is rotatably connected with the heating box 202. The heating box cover 024 and the heating box 202 are connected in a rotating mode, namely a hinged connection mode, so that the heating box cover 024 is convenient to take and place no matter when the soybean milk to be cooked is added into the heating box 202 or the cooked soybean milk is subjected to refreshment.

Optionally, the heating box 202 further includes a heating box cover 024, and the heating box cover 024 is slidably connected with the heating box 202. Similarly, the heater case cover 024 and the heater case 202 are slidably connected, i.e., drawn slidably connected, so that the heater case cover 024 is easy to pick and place.

Optionally, the first gas delivery pipe 2011, the first gas delivery branch 2014, the second gas delivery pipe 2012 and the second gas delivery branch 2015 are provided with a plurality of gas control valves 2013. The number of the gas control valves 2013 is correspondingly adjusted according to the number of the heating boxes 202, and is not particularly limited herein. The gas control valve 2013 is arranged to control the flow of the hot steam flowing through the first spiral heating pipe 2021 and the second spiral heating pipe 2022, so that the temperature in the heating box 202 is better controlled, and the pulp boiling effect is improved.

Referring to fig. 4, optionally, the soymilk boiling mechanism 200 further comprises a jellied bean curd curer device, the jellied bean curd curer device comprises a coagulant box 5, a coagulant steel tube 308 and a plurality of spray heads 309, the coagulant steel tube 308 is connected with the coagulant box 5, and the spray heads 309 are uniformly distributed below the coagulant steel tube 308. The number of the shower heads 309 varies depending on the volume and the number of the heating chambers 202.

Through setting up some brain devices, make the utility model discloses a boil thick liquid mechanism 200 collection and boil thick liquid and some brain in an organic whole, production efficiency when can improving the preparation of soyfood.

Optionally, the brain-lighting device further includes a motor 306 and a motor mounting seat 307, and the motor 306 is fixedly or slidably connected to the motor mounting seat 307. As for the motor installation mode of the brain-lighting device, various optional modes are provided, when the heating box cover 024 is in sliding connection with the heating box 202, the heating box cover 024 does not need to be lifted upwards, only the heating box cover 024 needs to be pulled open in a sliding mode, the setting of the coagulant steel pipe 308 of the brain-lighting device is not influenced, and the motor 306 can be directly fixed on the motor installation seat 307.

When the heating box cover 024 is rotatably connected with the heating box 202, a space is needed because the heating box cover 024 needs to be lifted upwards when being opened, the motor 306 can be slidably arranged on the motor mounting seat 307, and when the user needs to click, the motor 306 is driven to move, so that the coagulant steel pipe 308 is close to or far away from the top of the heating box 202. Of course, in this case, the motor 306 may also be fixedly mounted on the motor mounting seat 307, and at this time, the coagulant steel tube 308 only needs to be set to be capable of ascending and descending, and when the curdling is needed, the heating box cover 024 is firstly opened, and then the coagulant steel tube 308 is driven to descend to perform the curdling; after the brain-lighting is finished, the coagulant steel tube 308 is driven to ascend and reset for the next process.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. The present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only for illustrating the principle of the present invention, and the present invention will have various changes and improvements without departing from the spirit and scope of the present invention, and these changes and improvements all fall into the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An automatic grinding and boiling integrated machine is characterized by comprising a grinding mechanism and a pulp boiling mechanism, wherein the grinding mechanism comprises a cylinder body, a filter residue assembly, a grinding assembly, a feeding port, a soybean milk outlet and a soybean dreg outlet, the filter residue assembly and the grinding assembly are arranged in the cylinder body, the grinding assembly is positioned below the filter residue assembly,

the grinding component is detachably connected with the cylinder body and is used for grinding the soybeans in the cylinder body into pulp;

the filter residue assembly is connected with the inner wall of the cylinder body in a sliding manner, can move up and down along the inner wall of the cylinder body and is used for separating the ground soybean milk from the soybean dregs;

the feeding port is positioned above the soybean milk outlet and used for feeding soybeans and water into the barrel;

the soybean milk outlet is positioned above the bean dreg outlet and is used for discharging soybean milk; the bean dreg outlet is used for discharging bean dregs;

the pulp boiling mechanism comprises a hot steam box and at least one heating box, and the hot steam box is connected with the heating box through a first gas pipe and a second gas pipe; the heating cabinet includes first spiral heating pipe, second spiral heating pipe and U type connecting pipe, first spiral heating pipe with the crisscross cover of second spiral heating pipe is located the heating cabinet is outside, the first end of first spiral heating pipe with the first end of second spiral heating pipe is passed through U type connecting pipe and is connected, the second end of first spiral heating pipe through first gas transmission branch pipe with first gas-supply pipe UNICOM, the second end of second spiral heating pipe through second gas transmission branch pipe with second gas-supply pipe UNICOM.

2. The automatic grinding and boiling all-in-one machine according to claim 1, wherein the filter residue assembly comprises a first filter residue assembly and a second filter residue assembly, the first filter residue assembly and the second filter residue assembly are located on the same plane, the first filter residue assembly comprises a first air cylinder and a first filter screen, the driving end of the first air cylinder is connected with the first filter screen, and the first air cylinder is used for driving the first filter screen to move towards or away from the second filter residue assembly;

the second filter residue subassembly includes second cylinder and second filter screen, the drive end of second cylinder is connected the second filter screen, the second cylinder is used for the drive the second filter screen moves towards or keeps away from first filter residue subassembly motion.

3. The automatic grinding and boiling integrated machine according to claim 2, wherein the first filter residue assembly further comprises a first guide rail and first limiting blocks arranged at two ends of the first guide rail, the first cylinder is connected to the first guide rail in a sliding manner, and moves along the first guide rail; the second filter residue assembly further comprises a second guide rail and second limiting blocks arranged at two ends of the second guide rail, the second cylinder is connected to the second guide rail in a sliding mode, and the second cylinder moves along the second guide rail.

4. The automatic grinding and boiling integrated machine according to claim 2, wherein a first magnet is arranged on one side of the first filter screen, which is far away from the first cylinder driving end, and a second magnet is arranged on one side of the second filter screen, which is far away from the second cylinder driving end, when the first cylinder drives the first filter screen to move towards the second filter residue assembly, and the second cylinder drives the second filter screen to move towards the first filter residue assembly, the first filter screen and the second filter screen are attracted through the first magnet and the second magnet.

5. The automatic grinding and boiling all-in-one machine according to claim 1, wherein the grinding assembly comprises a mounting plate and at least 1 grinding knife, the grinding knife is mounted on the mounting plate through a mounting shaft, the mounting plate is in threaded connection or clamped connection with the barrel body, and a sealing ring is arranged between the mounting plate and the barrel body.

6. The automatic grinding and boiling integrated machine according to claim 1, wherein the heating box further comprises an insulating layer, and a temperature sensor is arranged on the inner side of the insulating layer.

7. The integrated automatic milling and boiling machine according to claim 1, wherein the heating box further comprises a heating box cover, and the heating box cover is rotatably or slidably connected with the heating box.

8. The automatic grinding and boiling integrated machine according to claim 1, wherein a plurality of gas control valves are arranged on the first gas transmission pipe, the first gas transmission branch pipe, the second gas transmission pipe and the second gas transmission branch pipe.

9. The automatic grinding and boiling integrated machine according to any one of claims 1-8, further comprising a jellied bean curd device, wherein the jellied bean curd device comprises a coagulant box, a coagulant steel pipe and a plurality of spray heads, the coagulant steel pipe is connected with the coagulant box, and the spray heads are uniformly distributed below the coagulant steel pipe.

10. The automatic milling and boiling all-in-one machine according to claim 9, wherein the brain-lighting device further comprises a motor and a motor mounting seat, and the motor is fixedly or slidably connected to the motor mounting seat.

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