KR20220122283A - Salt making system - Google Patents

Abstract

Disclosed is a snowflake salt manufacturing system. The snowflake salt manufacturing system of the present invention comprises: a saltwater-producing unit using surface water from seawater and producing saltwater through mud flats and salt farms; a saltwater supplying unit receiving the saltwater produced in the saltwater-producing unit and supplying the saltwater; and a saltwater air spray instant determination device provided on one side of the saltwater supplying unit, spraying saltwater supplied from the saltwater supplying unit through air supplied from one side, and instantly crystallizing saltwater sprayed in the air by applying hot air from a hot air blower to produce snowflake salt.

Description

Snow flower salt manufacturing system {SALT MAKING SYSTEM}

An embodiment according to the concept of the present invention relates to a snowflake salt manufacturing system, and more particularly, to a snowflake salt manufacturing system capable of manufacturing snowflake salt containing all salts by recovering various minerals contained in seawater without loss.

Salt has the longest history among the seasonings used by mankind, and is considered to play a large role in our lives even today.

Salt not only seasons food, but also has the characteristic that it is almost impossible to replace it with other substances nutritionally and physiologically. Salt that enters our body becomes sodium and chlorine, enters blood, tissue fluid, and digestive juice, and is involved in osmotic pressure and acidity control, and neuromuscular excitability.

These salts can be classified into sea salt, flower salt, refined salt, magnetic salt, rock salt, etc. according to the manufacturing method or processing method.

Among them, sea salt, which is considered to be of excellent quality, refers to coarse, translucent hexagonal crystals made by drawing seawater to a salt farm and evaporating harmful components along with moisture with wind and sunlight.

Since sea salt contains a lot of minerals and moisture such as calcium, magnesium, zinc, potassium, and iron, it is good for pickling vegetables and fish, and is mainly used for making kimchi or making soy sauce and soybean paste.

However, sea salt is not easy to manufacture because the manufacturing process is rather complicated and takes a long time. In particular, considering that various minerals contained in seawater may be lost during manufacturing, a new concept snow salt manufacturing system that breaks away from the existing method There is a need for

Korean Intellectual Property Office Application No. 10-2017-0144390 Korean Intellectual Property Office Application No. 10-2003-0099511

The technical problem to be achieved by the present invention is to provide a snowflake salt manufacturing system capable of manufacturing snowflake salt containing all salts by recovering various minerals contained in seawater without loss.

The above object is, a hydrous production unit that uses surface water of seawater and produces hydrous through tidal flat salt fields; a function supply unit receiving the function produced by the function production unit and supplying the function; And provided on one side of the water supply unit, spraying the water supplied from the water supply unit through the air supplied from one side, and instantaneously crystallizing the water sprayed in the air by applying the hot air of a hot air blower to produce snowflake salt It is achieved by a snowflake salt manufacturing system, characterized in that it includes a water vapor spray instantaneous device.

The instantaneous water spray spraying device may include: an air inlet duct having an air inlet through which air is introduced; an air inlet motor provided in the air inlet duct and introducing air through the air inlet; a mixing flow pipe provided on the other side of the air inlet duct from the opposite side of the air inlet and formed to be narrower in width than the air inlet duct, the water and the air are mixed and flowed; a function transfer line having one end disposed in the mixing flow pipe and the other end disposed outside the mixing flow pipe and connected to the water supply unit, and transferring the function supplied from the water supply unit to the mixing flow pipe; a guide outer duct that communicates with the mixing flow pipe and guides the mixed water in which the air transmitted from the mixing flow pipe is mixed; a guide inner duct disposed in the guide outer duct and providing a space in which the air mixed with the air flows between the guide outer duct and the inner guide duct; an impeller motor coupled to one side of the guide inner duct; It is connected to the impeller motor and rotates by the power of the impeller motor, and while rotating in the space between the guide outer duct and the guide inner duct, the air mixed with the air is split into fine particles and transmitted. unit; a speed increasing guide pipe connected to one side of the guide outer duct and increasing the flow rate of the water in which the air transmitted through the space between the guide outer duct and the guide inner duct is mixed; and a water-containing air spray instantaneous crystal duct connected to the speed increase guide pipe, one side of which is supplied with hot air from the hot air, and the other side of which the moisture evaporated snowflake salt is discharged.

The function transfer line may include: a horizontal section having one end connected to the water supply unit and disposed to cross a longitudinal direction of the mixing flow pipe; a vertical section disposed in a center region within the mixing flow pipe and coaxially disposed with the mixing flow pipe; And it is connected in the form of an arc between the horizontal section and the vertical section, it may include an arc section for a function guide for guiding the flow of the function.

The motor direct-coupled impeller unit includes: a unit main body in which a shaft coupling hole to which a motor shaft of the impeller motor is coupled is formed in the center and a stepped flange is formed at an end thereof; a plurality of function dispersion type ribs in the form of an arc arranged radially based on the shaft coupling hole in the unit main body and dispersing the function while rotating; and a unit sub-body disposed on the opposite side of the unit main body with the function dispersion type rib interposed therebetween, the area being smaller than the unit main body, and guiding the function to flow between the unit main body and the unit sub-body. can do.

The instantaneous water spray spray duct includes: a duct central pipe portion to which the end of the speed increase guide pipe communicates with each other; a hot air guide tube portion extending from one side of the central tube portion of the duct toward the hot air fan and arranged horizontally to guide the hot air; and a salt discharge guide pipe arranged on the opposite side of the hot air guide pipe part with the duct center pipe part therebetween to guide the dried snowflake salt to be discharged by the hot air.

The end of the speed increase guide pipe is disposed to protrude from the inside of the duct central pipe part, and the hot air guide pipe part and the salt discharge guide pipe part may be symmetrically arranged in the same shape.

a setting unit for setting input conditions for the manufacture of snowflake salt; and a system controller for controlling operations of the air inlet motor, the impeller motor, and the hot air fan based on the signal of the setting unit.

According to the present invention, there is an effect of recovering various minerals contained in seawater without loss to prepare a snowflake salt containing all of the salts.

In particular, according to the present invention, unlike so-called Nuchimas salt, which uses deep seawater, surface water of seawater is used, while brine is produced through tidal flat salt fields, so that facility and labor costs can be greatly reduced and very effective in salt production. Since it is a method of instantaneous crystallization of water by air spraying by hot air, various minerals contained in seawater can be recovered without loss, and since it can be produced 24 hours a year, it has the effect of manufacturing and supplying tasty and high-quality products at a low cost. .

1 is a schematic system configuration diagram of a snow salt manufacturing system according to an embodiment of the present invention.
Figure 2 is a perspective view of the air spray instantaneous determining device applied to Figure 1.
3 is a view showing FIG. 2 from another angle.
FIG. 4 is a perspective view of a half cross-sectional cut-away view of FIG. 2 in a state in which the motor is removed.
FIG. 5 is a cross-sectional view of FIG. 2 .
6 is an enlarged view of the main part of FIG. 5 .
7 is an enlarged perspective view of a motor direct-coupled impeller unit.
FIG. 8 is an internal structural diagram of FIG. 7 .
9 is a control block diagram for the snowflake salt manufacturing system of FIG.
Figure 10 is a cross-sectional view of the instantaneous water spray air spray in the snowflake salt manufacturing system according to another embodiment of the present invention.

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in this specification are only exemplified for the purpose of describing the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may take various forms. It can be implemented with the above and is not limited to the embodiments described herein.

Since the embodiment according to the concept of the present invention may have various changes and may have various forms, the embodiment will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to specific disclosed forms, and includes all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

Terms such as first or second may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one element from another, for example, without departing from the scope of the inventive concept, a first element may be termed a second element and similarly a second element A component may also be referred to as a first component.

When a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but it should be understood that other components may exist in between. will be. On the other hand, when it is mentioned that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle. Other expressions describing the relationship between elements, such as "between" and "immediately between" or "neighboring to" and "directly adjacent to", should be interpreted similarly.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described herein is present, but one or more other features It is to be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in the dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and are not to be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic system configuration diagram of a snowflake salt manufacturing system according to an embodiment of the present invention, FIG. 2 is a perspective view of an air spray instantaneous determining device applied to FIG. 1, FIG. 3 is a view of FIG. 2 from another angle Figure 4 is a perspective view of a half-section cut-away in Figure 2, in a state in which the motor is removed, Figure 5 is a cross-sectional view of Figure 2, Figure 6 is an enlarged view of the main part of Figure 5, Figure 7 is an enlarged perspective view of a motor direct-connected impeller unit, Figure 8 is an internal structural diagram of Figure 7, Figure 9 is a control block diagram for the snow salt manufacturing system of Figure 1.

Referring to these drawings, according to the snowflake salt manufacturing system according to the present embodiment, various minerals contained in seawater can be recovered without loss, thereby manufacturing snowflake salt containing all of the salts.

Snow salt manufacturing system according to the present embodiment that can provide such an effect may include a water-containing water production unit 101, a water-containing water supply unit 102, a water-containing air spray instantaneous determination device 110 as shown in FIG.

The brine production unit 101 uses surface water of seawater and produces brine through tidal flat salt fields. Therefore, unlike the so-called Nuchimas salt, which uses deep seawater, surface water from seawater is used, and because brine is produced through tidal flat salt fields, facility and labor costs can be greatly reduced, and it is very effective for salt production, Since it is an air spray instantaneous crystallization method of water, it is possible to recover various minerals contained in seawater without loss, and it can be produced 24 hours a year, so delicious and high-quality products can be manufactured and supplied at a low cost.

The function supply unit 102 serves to receive the function produced by the function production unit 101 and supply the function to the function air spray instantaneous determination device 110 . It may be desirable to configure the feeding of the function to the function airspray instantaneous determination device 110 in an automatic manner.

On the other hand, the function air spray moment determining device 110 is the most essential configuration in the present system. This water-containing air spray instantaneous determining device 110 is provided on one side of the water-containing unit 102, and sprays the water supplied from the water-containing unit 102 through the air supplied from one side as a medium of the hot air blower 105. It plays the role of instantaneously crystallizing water sprayed in the air by applying hot air to produce snowflake salt.

In other words, the instantaneous water spray spraying device 110 uses centrifugal force to split water into fine particles and sprays the fine particles in the air, while at the same time vaporizes moisture to determine the minerals in the air, and the fallen minerals are like snow. piled up so that salt can be made.

As shown in detail in Figs. 2 to 8, the air spray moment determining device 110 is an air inlet duct 120, a mixing flow pipe 124, a function delivery line 130, guide external and internal ducts 141 and 143, and a motor. It may include a direct-coupled impeller unit 150 , a speed increase guide pipe 160 , and a water-containing air spray instantaneous crystal duct 170 .

The air inlet duct 120 forms a place through which air (Air) is introduced. An air inlet 121 is formed at one side of the air inlet duct 120 to introduce air.

In addition, an air inlet motor 122 is provided in the air inlet duct 120 to suck in external air by power. The air inlet motor 122 is provided in the air inlet duct 120 and provides power for introducing air through the air inlet 121 .

The mixing flow pipe 124 is provided on the other side of the air inlet duct 120 from the opposite side of the air inlet 121 to form a place where water and air are mixed and flowed. Accordingly, the mixing flow pipe 124 is formed to be narrower than the air inlet duct 120 . Then, the function transfer line 130 is connected to the mixing flow pipe 124 .

The function transfer line 130 has one end disposed in the mixing flow pipe 124 and the other end disposed outside the mixing flow pipe 124 , connected to the function supply unit 102 , and mixing the function supplied from the function supply unit 102 . It serves to transfer to the flow pipe (124).

Since the water is transferred to the mixing flow tube 124 through the water transfer line 130, and air is transferred to the mixing flow tube 124 through the air inlet duct 120 in the lower region of the mixing flow tube 124, the mixing flow tube ( 124) in the water and air can be mixed (mixing) and flow.

At this time, for efficient supply of the function, the function transfer line 130 has one end connected to the function supply unit 102 , a horizontal section 131 disposed to cross the longitudinal direction of the mixing flow pipe 124 , and a mixing flow pipe 124 . ) disposed in the center region, the mixing flow pipe 124 and the vertical section 132 coaxially arranged, and the horizontal section 131 and the vertical section 132 is connected in the form of an arc, , and a function guide arc section 133 for guiding the flow of the function. In particular, since the arc section 133 for the water guide is formed, the water can be effectively transferred to the mixing flow pipe 124 without a vortex phenomenon.

The guide outer duct 141 communicates with the mixing flow pipe 124 and serves to guide the function in which the air transmitted from the mixing flow pipe 124 is mixed, and the guide inner duct 143 is disposed in the guide outer duct 141 . However, between the guide outer duct 141 and the air mixed function provides a space to flow. In other words, the air is mixed with the water flow in the space between the guide outer and inner ducts (141, 143) toward the instantaneous water spray air spray crystal duct (170) side.

An impeller motor 146 is coupled to one side of the guide inner duct 143 . The impeller motor 146 serves to break the inflow function while rotating the direct motor impeller unit 150 and guide it upward.

The motor direct impeller unit 150 is connected to the impeller motor 146 and rotates with the power of the impeller motor 146, and the air is mixed while rotating in the space between the guide outer duct 141 and the guide inner duct 143. It plays a role in splitting and scattering the used water into fine particles and transferring it to the speed increase guide tube 160 .

The motor direct-coupled impeller unit 150 has a structure including a unit main body 151 , a plurality of function dispersion ribs 152 , and a unit sub-body 153 .

The unit main body 151 is a disk-shaped structure in which a shaft coupling hole 151a to which the motor shaft of the impeller motor 146 is coupled is formed in the center and a stepped flange 151b is formed at the end thereof.

The plurality of function dispersion type ribs 152 are radially disposed based on the shaft coupling hole 151a in the unit main body 151 and serve to disperse the function while rotating. The water distribution type rib 152 is made in the form of an arc in order to split it into small pieces as well as to disperse the water roll. Therefore, the efficiency is high.

The unit sub-body 153 is disposed on the opposite side of the unit main body 151 with the function dispersion rib 152 interposed therebetween and has a smaller area than the unit main body 151 , and is formed between the unit main body 151 and the unit main body 151 . It plays a role in guiding the flow of the function.

As a result, the function may be divided into small pieces by the action of the function dispersion ribs 152 rotating between the unit main body 151 and the unit sub-body 153 and guided upward.

The speed increase guide pipe 160 is connected to one side of the guide outer duct 141, and the air transmitted through the space between the guide outer duct 141 and the guide inner duct 143 increases the flow rate of the mixed function. play a role In other words, as the function provided in the wide space between the guide outer and inner ducts 141 and 143 passes through the narrower speed increase guide pipe 160, the negative pressure is formed and the speed increases, the water spray instantaneous crystal duct 170 can be supplied with Therefore, productivity improvement can be contributed.

The water-containing air spray instantaneous crystal duct 170 is connected to the speed increase guide pipe 160, one side of which is supplied with hot air from the hot air fan 105, and the other side serves to discharge the snowflake salt from which moisture is evaporated by the hot air. .

This water-containing air spray instantaneous crystal duct 170 extends toward the hot air fan 105 from one side of the duct central pipe part 171 to which the ends of the speed increasing guide pipe 160 communicate with each other, and the duct central pipe part 171. The hot air guide pipe part 172 for guiding the hot air and the hot air guide pipe part 172 with the duct center pipe part 171 interposed therebetween are arranged on the opposite side of the hot air guide pipe part 172, which guides the dried snowflake salt to be discharged by the hot air. It includes a salt discharge guide pipe portion (173). The hot air guide pipe part 172 and the salt discharge guide pipe part 173 may be symmetrically arranged in the same shape.

In this embodiment, the end of the speed increase guide pipe 160 is disposed to protrude from the inside of the duct center pipe part 171 . Therefore, the water passing through the speed increase guide pipe 160 can be easily merged into the water vapor spray instantaneous crystal duct 170 without accumulation or vortex.

On the other hand, the snow salt manufacturing system according to this embodiment is further equipped with a setting unit 190 and a system controller 180 for efficient control of the snow salt.

The setting unit 190 serves to set input conditions for the manufacture of snowflake salt. It may be a remote control type or a button type.

The system controller 180 controls the operations of the air inlet motor 122 , the impeller motor 146 , and the hot air fan 105 based on the signal of the setting unit 190 . The system controller 180 performing this role may include a central processing unit 181 (CPU), a memory 182 (MEMORY), and a support circuit 183 (SUPPORT CIRCUIT).

The central processing unit 181 is a variety of industrially applicable to control the operation of the air inlet motor 122, the impeller motor 146 and the hot air fan 105 based on the signal of the setting unit 190 in this embodiment. It may be one of the computer processors.

The memory 182 (MEMORY) is connected to the central processing unit (181). The memory 182 is a computer-readable recording medium, which may be installed locally or remotely, and may be easily available such as, for example, random access memory (RAM), ROM, floppy disk, hard disk, or any digital storage form. It may be at least one memory.

The support circuit 183 (SUPPORT CIRCUIT) is coupled with the central processing unit 181 to support typical operation of the processor. The support circuit 183 may include a cache, a power supply, a clock circuit, an input/output circuit, a subsystem, and the like.

In this embodiment, the system controller 180 controls the operations of the air inlet motor 122, the impeller motor 146 and the hot air fan 105 based on the signal of the setting unit 190, and such a series of control processes are It may be stored in the memory 182 . Typically, software routines may be stored in memory 182 . Software routines may also be stored or executed by other central processing units (not shown).

Although the process according to the present invention has been described as being executed by a software routine, it is also possible that at least some of the processes of the present invention are performed by hardware. As such, the processes of the present invention may be implemented in software executed on a computer system, implemented in hardware such as an integrated circuit, or implemented by a combination of software and hardware.

Accordingly, while the air inlet motor 122, the impeller motor 146, and the hot air fan 105 are operating, the function is supplied from the function supply unit 102 to the function air spray instantaneous determining device 110, while the function air spray instantaneous determining device When air is supplied from 110, the water and air are mixed, and then transferred to the water-containing air spray instantaneous crystal duct 170, and then as the water is dried by hot air, it is converted into snowflake salt through the salt discharge guide pipe 173. can be made

In other words, the instantaneous water spray air spray determining device 110 of this embodiment uses centrifugal force to split water into fine particles and sprays the fine particles in the air, while at the same time vaporizes the moisture to determine the minerals in the air, and the dropped minerals It piles up like snow so that salt can be made.

According to this embodiment, which operates based on the structure as described above, it is possible to manufacture snowflake salts containing all salts by recovering various minerals contained in seawater without loss.

In particular, according to this embodiment, unlike the so-called Nuchimas salt that uses deep seawater, surface water of seawater is used, while brine is produced through tidal flat salt fields, so that facility and labor costs can be greatly reduced, and it is very useful for salt production. Since it is an effective and instantaneous crystallization method of air spraying of water by hot air, various minerals contained in seawater can be recovered without loss, and it can be produced 24 hours a year, making it possible to manufacture and supply tasty and high-quality products at a low cost.

Figure 10 is a cross-sectional view of the instantaneous water spray air spray in the snowflake salt manufacturing system according to another embodiment of the present invention.

Referring to this figure, the air spray instantaneous determining device 210 applied to this embodiment is also an air inlet duct 120 , a mixing flow pipe 124 , a function delivery line 130 , guide external and internal ducts 141 and 143 . ), it may include a motor direct impeller unit 150, a speed increase guide pipe 160 and a water-containing air spray instantaneous crystal duct 270.

And, the water-containing air spray instantaneous crystal duct 270 may also include a duct center pipe part 171 , a hot air guide pipe part 172 and a salt discharge guide pipe part 173 .

On the other hand, in this structure, the first and second unit detachable parts 274 and 275 may be further provided on the inner wall of the hot air guide pipe part 172 , and the blowing fan 206 to the first unit detachable part 274 , the second unit The heater 205 may be selectively coupled to the detachable part 275 . The blowing fan 206 and the heater 205 may be selectively inserted into the first and second unit detachable parts 274 and 275 , and the blowing fan 206 and the heater 205 are coupled to the hot air guide pipe part 172 as shown in the drawing. In this case, the structure can be simplified.

In addition, an additional heating element 277 is provided on the outer wall of the salt discharge guide pipe portion 173 . The additional heating element 277 may be applied as a nichrome wire, a planar heating element, or the like. Due to this additional heating element 277, it may be advantageous to allow the moisture of the water passing through the salt discharge guide pipe 173 to be completely removed.

Even if this embodiment is applied, it is possible to prepare a snowflake salt containing all the salts by recovering various minerals contained in seawater without loss.

As such, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such modifications or variations shall fall within the scope of the claims of the present invention.

101: function production unit 102: function supply unit
105: hot air blower 110: function air spray instantaneous determination device
120: air inlet duct 121: air inlet
122: air inlet motor 124: mixing flow pipe
130: function transfer line 131: horizontal section
132: vertical section 133: arc section for function guide
141: guide outer duct 143: guide inner duct
146: impeller motor 150: motor direct impeller unit
151: unit main body 151a: shaft coupling hole
151b: stepped flange 152: function distributed rib
153: unit sub-body 160: speed increase guide tube
170: water-based air spray instantaneous crystal duct 171: duct central pipe part
172: hot air guide pipe part 173: salt discharge guide pipe part
180: system controller 190: setting unit

Claims (5)

Seawater Production Department, which uses surface water from seawater and produces brine through tidal flat salt fields;
a function supply unit receiving the function produced by the function production unit and supplying the function; and
A function that is provided on one side of the water supply unit, sprays the water supplied from the water supply unit through air supplied from one side, and instantaneously crystallizes the water sprayed in the air by applying hot air from a hot air blower to produce snowflake salt. Snowflake salt manufacturing system including an airspray instantaneous crystallizer. According to claim 1,
The function air spray moment determining device,
an air inlet duct having an air inlet through which air is introduced;
an air inlet motor provided in the air inlet duct and introducing air through the air inlet;
a mixing flow pipe provided on the other side of the air inlet duct from the opposite side of the air inlet and formed to be narrower in width than the air inlet duct, the water and the air are mixed and flowed;
a function transfer line having one end disposed in the mixing flow pipe and the other end disposed outside the mixing flow pipe and connected to the water supply unit, and transferring the function supplied from the water supply unit to the mixing flow pipe;
a guide outer duct that communicates with the mixing flow pipe and guides the mixed water in which the air transmitted from the mixing flow pipe is mixed;
a guide inner duct disposed in the guide outer duct and providing a space in which the air mixed with the air flows between the guide outer duct and the inner guide duct;
an impeller motor coupled to one side of the guide inner duct;
It is connected to the impeller motor and rotates by the power of the impeller motor, and while rotating in the space between the guide outer duct and the guide inner duct, the air mixed with the air is split into fine particles and transmitted. unit;
a speed increasing guide pipe connected to one side of the guide outer duct and increasing the flow rate of the water in which the air transmitted through the space between the guide outer duct and the guide inner duct is mixed; and
A snowflake salt manufacturing system comprising a water-containing air spray instantaneous crystal duct connected to the speed increasing guide pipe, one side of which is supplied with hot air from the hot air blower, and the other side of which the moisture evaporated by the hot air is discharged. 3. The method of claim 2,
The function transfer line is
a horizontal section having one end connected to the water supply unit and disposed to cross the longitudinal direction of the mixing flow pipe;
a vertical section disposed in a center region within the mixing flow pipe and coaxially disposed with the mixing flow pipe; and
A snowflake salt manufacturing system including an arc section for a function guide that is connected in the form of an arc between the horizontal section and the vertical section, and guides the flow of the water. 3. The method of claim 2,
The motor direct-coupled impeller unit,
a unit main body in which a shaft coupling hole to which the motor shaft of the impeller motor is coupled is formed in the center and a stepped flange is formed at an end thereof;
a plurality of function dispersion type ribs in the form of an arc arranged radially based on the shaft coupling hole in the unit main body and dispersing the function while rotating; and
A unit sub-body disposed on the other side of the unit main body with the function dispersion rib interposed therebetween, the area being smaller than the unit main body, and guiding the function to flow between the unit main body and the unit sub-body. Snowflake Salt Manufacturing System. 3. The method of claim 2,
The function air spray instantaneous crystal duct,
Duct center pipe portion coupled to the end of the speed increase guide pipe in communication;
a hot air guide tube portion extending from one side of the central tube portion of the duct toward the hot air fan and arranged horizontally to guide the hot air; and
Snow flower salt manufacturing system including a salt discharge guide pipe disposed on the opposite side of the hot air guide pipe part with the duct center pipe part therebetween to guide the dried snowflake salt to be discharged by the hot air.

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