KR102438079B1 - Removing system for metal foreign substances mixed in food powder - Google Patents

Abstract

The present invention relates to a system for removing a food powder metal foreign substance comprising: a powder supply part that supplies a powder; a powder transfer part that transfers the powder supplied from the powder supply part; a powder insert part that inserts the powder transferred through the powder transfer part; and a metal foreign substance removal means that remove metal foreign substances mixed in the powder inserted through the powder insert part. Therefore, the present invention is capable of having an advantage in providing a safer food powder to a consumer.

Description

Food powder metal foreign substances removal system {Removing system for metal foreign substances mixed in food powder}

The present invention relates to a food powder metal foreign material removal system that assists in making a safe food powder by removing the metal foreign material mixed in the powder.

In the case of processed powder, there is a food standard that the content of metal foreign substances should be 10 mg/kg and metal foreign substances larger than 2 mm should not be detected so that consumers can consume it with confidence.

However, in the process of making the processed powder, not only a metal blade is used, but also the device used in the process of transporting and drying food materials is also made of metal. It is a situation in which metal foreign substances above the standard value are detected in the powder produced by being mixed with .

In order to prevent powders with detected metal foreign substances above the standard value from being provided to consumers, the amount of metal foreign substances contained in the distributed food powder is inspected, and when metal foreign substances above the standard value are detected, the powder is disposed of safety management. However, in the case of such safety management, it is only a follow-up measure to prevent a powder with a high content of metal foreign substances from being provided to consumers, and cannot be a fundamental solution.

Therefore, there is a need to develop a technology capable of removing metal foreign substances contained in the powder during the food powder manufacturing process.

Patent Document 1) Domestic Registration Patent Publication No. 2324532 (Name: Rice flour mixed with functional edible insect powder and grains and manufacturing method thereof, Announcement date: November 11, 2021) Patent Document 2) Domestic Patent Publication No. 2063413 (Name: Eco-friendly agricultural and fishery organic processed food manufacturing factory system equipped with complex production facilities including infrared drying device and cascade magnetic sorting device, and powder powder manufacturing method using the same, Announcement date: 2020.01. 07)

The present invention has been devised in order to solve the above-described problems, and an object of the present invention is to provide a metal foreign material removal system capable of removing metal foreign substances mixed in food powder.

Food powder metal foreign matter removal system of the present invention for achieving the object as described above, the powder supply unit 100 for supplying the powder; a powder transfer unit 200 for transferring the powder supplied from the powder supply unit 100; a powder input unit 300 for inputting the powder transferred through the powder transfer unit 200; and a metal foreign material removing means 400 for removing the metal foreign material mixed in the powder injected through the powder input unit 300 .

In addition, the metal foreign material removal means 400 is agglomeration release unit 410 to release and spread the agglomerated powder; and a metal foreign material separation unit 420 for separating the metal foreign material by applying magnetic force to the powder that has passed through the agglomeration releasing unit 410 .

In addition, the agglomeration releasing unit 410 may include an agglomeration releasing housing 411 forming a passage through which the powder passes; agglomeration releasing screen 412 of a porous structure mounted in the aggregation releasing housing 411 passage; It characterized in that it comprises; a first vibration generating means (413) for vibrating the agglomeration release housing (411).

In addition, the metal foreign material separation unit 420 may include a separation unit housing 421 forming a passage through which the powder passing through the agglomeration releasing unit 410 passes; an electromagnet screen 422 provided in the passage of the separation unit housing 421 and having a plurality of powder passage holes 422-1 in the thickness direction; and a magnetic force generating means 423 for transmitting a magnetic force to the electromagnet screen 422 so that the electromagnet screen 422 has a magnetic force.

In addition, the metal foreign material separation unit 420 may include a stirring unit 424 for stirring the powder passing through the electromagnet screen 422 .

In addition, the metal foreign material removal means 400 includes a foreign material removal powder transfer unit 430 for moving the powder that has passed through the metal foreign material separation unit 420;

In addition, the metal foreign material removing means 400 includes a movement path forming unit 440 for forming a path through which the injected powder is moved; a second vibration generating means 450 for moving the powder by vibrating the movement path forming unit 440; and a foreign material removal electromagnet 460 disposed to face the upper surface of the movement path forming unit 440 and having a plurality of electromagnet bars 461 protrude downward.

In addition, the metal foreign material removing means 400 includes a powder passing housing 470 in which a powder input part and a powder discharge part are formed; an idle plate 480 coupled to the powder passage housing 470 to be idle; It is characterized in that it comprises a; a plurality of metal foreign material separation bar 490 coupled to the idle plate 480 to rotate together with the idle plate 480.
In addition, the powder supply unit 100 for supplying the powder; a powder transfer unit 200 for transferring the powder supplied from the powder supply unit 100; a powder input unit 300 for inputting the powder transferred through the powder transfer unit 200; and a metal foreign material removing means 400 for removing the metal foreign material mixed in the powder injected through the powder input unit 300; It includes at least one of B TYPE metal foreign material removal means, C TYPE metal foreign material removal means, A TYPE metal foreign material removal means, B TPYE metal foreign material removal means, and C TYPE metal foreign material removal means, agglomeration releasing unit 410 for releasing and spreading the agglomerated powder, and a metal foreign material separating unit 420 for separating metal foreign substances by applying magnetic force to the powder passing through the agglomeration releasing unit 410; The metal foreign material separation unit 420 is provided in the separation unit housing 421 forming a passage through which the powder passing through the agglomeration release unit 410 passes, and is provided in the passage of the separation unit housing 421 in the thickness direction. An electromagnet screen 422 in which a plurality of powder passage holes 422-1 are formed, and a magnetic force generating means 423 that transmits a magnetic force to the electromagnet screen 422 so that the electromagnet screen 422 has a magnetic force; Including, the separation unit housing 421 is formed with a screen edge fitting groove 421-1 into which the stacked electromagnet screen 422 is fitted, the vertical length of the screen edge fitting groove 421-1 ( L1) is formed to be longer than the vertical length L2 of the stacked electromagnet screen 422, and a separation part forming a fitting groove 421-1 at the uppermost edge and the lowermost edge of the stacked electromagnet screen 422. It is characterized in that a spring connected to the housing 421 is coupled.

The food powder metal foreign material removal system according to the present invention has the advantage of providing safer food powder to consumers because it is possible to remove the metal foreign material mixed in the manufactured food powder.

In addition, since the metal foreign material is removed after loosening the agglomerated powder, there is an advantage that the metal foreign material removal effect can be maximized.

In addition, since the transfer and the removal of metal foreign substances are possible at the same time, there is an advantage that the process can be continuously performed.

In addition, since the metal foreign material is removed by two or more methods, there is an advantage in that the metal foreign material can be more effectively removed.

1 to 2 is a block diagram showing a food powder metal foreign matter removal system according to the present invention.
Figure 3 is a conceptual view showing a metal foreign material removal means coupled to the stirring unit.
Figure 4 is a front view for explaining the aggregation release unit of the metal foreign material removal means.
5 is a conceptual view showing a foreign material removal means coupled to the powder transfer unit.
6 is a conceptual view showing a metal foreign material removal means in which the transfer and the metal foreign material removal are performed at the same time.
7 is a conceptual view showing a metal foreign material removal means using a metal foreign material separation bar.

Advantages and features of embodiments of the present invention, and methods of achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

In describing the embodiments of the present invention, if it is determined that a detailed description of a well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described later are terms defined in consideration of functions in an embodiment of the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

Hereinafter, with reference to the accompanying drawings will be described with respect to the food powder metal foreign matter removal system 1000 according to the present invention.

1 to 2 are block diagrams showing a food powder metal foreign material removal system according to the present invention, FIG. 2 is a conceptual diagram showing a metal foreign material removal means coupled with a stirring part, and FIG. 3 is a front view for explaining the agglomeration releasing unit of the metal foreign material removal means 4 is a conceptual diagram illustrating a foreign material removal means coupled with a foreign material removal powder transfer unit, FIG. 5 is a conceptual diagram illustrating a metal foreign material removal means for transferring and removing metal foreign substances at the same time, and FIG. 6 is a metal foreign material using a metal foreign material separation bar It is a conceptual diagram showing the removal means.

Referring to Figure 1, the present invention food powder metal foreign matter removal system 1000 is a powder supply unit 100 for supplying a powder, a powder transfer unit 200 for transferring the powder supplied from the powder supply unit 100, and the powder A powder input unit 300 for inputting the powder transferred through the transfer unit 200, and a metal foreign material removal means 400 for removing metal foreign substances mixed in the powder injected through the powder input unit 300. can

In detail, when the powder stored in the powder supply unit 100 is transferred from the powder transfer unit 200 to the powder input unit 300 , the powder transferred from the powder input unit 300 is transferred to the metal foreign material removing means 400 . ), so that the metal foreign material mixed in the powder can be removed in the process of the food powder passing through the metal foreign material removal means 400 .

In this case, the powder supply unit 100 may include a powder storage tank in which the powder is stored, a powder manufacturing apparatus in which the powder manufacturing process is performed, and a stirring cart for dissolving the agglomerated powder by stirring the powder.

In addition, the powder transfer unit 200 is connected to the powder supply unit 100 and a vacuum pump 220 for sucking the powder through the vacuum transfer pipe 210 and the powder transfer pipe 210 that form a passage through which the powder is transferred. may include

In addition, the powder input unit 300 may include a hopper coupled with a quantitative supply means for constantly supplying the supplied powder to the metal foreign material removal means 400 .

The metal foreign material removal means 400 includes A TYPE that removes metal foreign substances in the process of passing through a screen having a porous structure, B TYPE that removes metal foreign substances in the process of vibrating the powder, and a rod-shaped metal foreign substance separation bar. It may include a C TYPE that removes metal foreign substances by using it, and each of these types will be described in detail below.

Referring to FIG. 3 , the metal foreign material removal means 400 of TYPE A applies a magnetic force to the powder that has passed through the agglomeration release unit 410 and the agglomeration release unit 410 to release and spread the agglomerated powder to remove the metal foreign material. It may include a metal foreign material separation unit 420 to separate.

In addition, the agglomeration releasing unit 410 includes an agglomeration releasing housing 411 that forms a passage through which the powder passes, and an agglomeration releasing screen 412 having a porous structure mounted in the agglomeration releasing housing 411 passage, and the aggregation A first vibration generating means 413 for vibrating the release housing 411 may be included.

In detail, since there is a problem that metal foreign substances are not pulled by magnetic force when food powder is agglomerated, when the input powder is seated on the agglomeration releasing screen 412, the agglomeration releasing screen 412 is removed from the first vibration generating means 413. By vibrating, the powder can be released while passing through the hole of the agglomeration screen 412 .

In addition, the metal foreign material separation unit 420 is provided in the separation unit housing 421 forming a passage through which the powder passing through the agglomeration release unit 410 passes, and is provided in the passage of the separation unit housing 421 and has a thickness. An electromagnet screen 422 in which a plurality of powder passing holes 422-1 are formed in the direction, and a magnetic force generating means 423 that transmits a magnetic force to the electromagnet screen 422 so that the electromagnet screen 422 has a magnetic force. may include

In detail, by magnetizing the electromagnet screen 422 using the magnetic force generating means 423 , when the powder passes through the electromagnet screen 422 , the metal foreign material mixed in the powder is removed from the electromagnet screen 422 . it was made to be

At this time, a plurality of the electromagnet screens 422 may be disposed to be vertically spaced apart as shown in FIG. 3 , but a plurality of the electromagnet screens 422 may be stacked in a vertical direction as shown in FIG. 4 .

In addition, a screen edge fitting groove 421-1 into which an edge of the electromagnet screen 422 is fitted is formed on the separation unit housing 421, and the vertical length L1 of the screen edge fitting groove 421-1 is formed. is formed to be longer than the vertical length L2 of the stacked electromagnet screen 422, and when vibration is applied to the electromagnet screen 422, the electromagnet screen 422 moves in the vertical direction so that the powder moves the electromagnet screen 422 more easily. It is recommended that you allow it to pass.

Although not shown in the drawing, the device for applying vibration so that the electromagnet screen 422 can move in the vertical direction is not limited because it may include various vibrators, and the uppermost edge and the lowermost edge of the stacked electromagnet screen 422 . A spring connected to the housing 421 of the separation unit forming the fitting groove 421-1 is positioned there, so that the vertical movement of the electromagnet screen 422 by the vibrator can be made more smoothly.

In addition, a center is perforated in the upper and lower portions of the stacked electromagnet screen 422 , and a pair of cases connected to each other by a rod passing through the inner surface of the electromagnet screen 422 are positioned, the stacked electromagnet screen 422 . Separation by this vibration can be prevented.

In addition, the metal foreign material removal means 400 of A TYPE may be provided with a stirring unit 424 for stirring the powder passing through the electromagnet screen 422 at the end of the metal foreign material separation unit 420 as shown in FIG. 3 . have.

In detail, the powder released in the process of passing through the powder passing hole 422-1 formed in the electromagnet screen 422 can be agglomerated again, so that the agglomerated powder can be released by moving the powder in the stirring unit 424. .

In addition, the metal foreign material removal means 400 may further include a foreign material removal powder transfer unit 430 for moving the powder, and this powder transfer unit 430 may transfer the powder by a conveyor, rotation, or vibration method, and The transfer unit 430 provides the powder input from the powder input unit 300 to the agglomeration release unit 410 as shown in FIG. 1 , or the powder discharged from the metal foreign material separator 420 as shown in FIG. 5 . It can be used for transport.

Referring to FIG. 6 , the metal foreign material removing means 400 of TYPE B includes a movement path forming unit 440 that forms a path through which the injected powder moves, and vibrating the movement path forming unit 440 to move the powder. It may include a second vibration generating means 450 and a foreign material removal electromagnet 460 disposed to face the upper surface of the movement path forming part 440 and having a plurality of electromagnet bars 461 protrude downward. .

In detail, the second vibration generating means 450 vibrates the movement path forming unit 440 at a constant frequency so that the powder supported by the movement path forming unit 440 moves along the movement path forming unit 440 . It moves in a certain direction, and the electromagnet bar 461 can pull and remove metal foreign substances mixed in the moving powder by magnetic force.

At this time, the plurality of the electromagnet bars 461 are spaced apart from each other to form a passage through which a metal foreign material moves between the electromagnet bars 461 , and the end of the electromagnet bar 461 has a movement path forming unit 440 and a certain distance. It is recommended to be spaced apart so as not to interfere with the movement path forming unit 440, but the electromagnet bar 461 must be adjacent to the movement path forming unit 440 to effectively remove metal foreign substances, thus forming a movement path A shock absorbing means made of rubber or silicone may be formed at the lower end of the electromagnet bar 461 facing the part 440 , and the electromagnet bar 461 and the movement path forming part 440 may be closely arranged.

And, as shown in (b) of FIG. 6 , the removal of metal foreign substances attached to the electromagnet bar 461 moves the electromagnet bar 461 to the outside of the movement path forming part as shown in FIG. 6(c). After this, the electricity input to the electromagnet bar 461 may be cut off to drop and remove the metal foreign material attached to the electromagnet bar 461 , but various methods may be used in addition to this, so it is not limited thereto.

Referring to FIG. 7 , the C TYPE metal foreign material removal means 400 includes a powder passage housing 470 in which a powder input part and a powder discharge part are formed, and an idle rotation plate rotatably coupled to the powder passage housing 470 ( 480), and a plurality of metal foreign material separation bars 490 coupled to the idle plate 480 to rotate together with the idle plate 480 and have a magnetic force.

In detail, when the motor 481 coupled with the idle plate 480 rotates the idle plate 480 , the powder injected through the powder input unit 471 formed on the upper side of the powder passage housing 470 rotates foreign substances The metal foreign substances that collide with the separation bar 490 and are released and mixed with the released powder are attached to and removed from the foreign substances separation bar 490 .

In addition, referring to FIGS. 1 to 7 , the metal foreign material removal means 400 of the food powder metal foreign material removal system according to the present invention may be any one of A TYBE, B TYPE, and C TYPE described above, but shown in FIG. As shown, two or more different types may be combined and used.

And, when two or more types are used in combination, as shown in FIG. 2 , the powder transfer unit 430 is positioned therebetween to transfer the powder.

The present invention is not limited to the above embodiments, and the scope of application is varied, and anyone with ordinary knowledge in the field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims It goes without saying that various modifications are possible.

100: powder supply unit
200: powder transfer unit
300: powder input unit
400: metal foreign matter removal means 410: aggregation release part
411: agglomeration release housing 412: agglomeration release screen
413: first vibration generating means
420: metal foreign material separation unit 421: separation unit housing
422: electromagnet screen 423: magnetic force generating means
424: stirring part
430: foreign matter removal powder transfer unit 440: movement path forming unit
450: second vibration generating means 460: foreign matter removal electromagnet
470: powder pass housing 480: idle plate
490: foreign material separation bar

Claims (8)

a powder supply unit 100 for supplying powder;
a powder transfer unit 200 for transferring the powder supplied from the powder supply unit 100;
a powder input unit 300 for inputting the powder transferred through the powder transfer unit 200; and
Including;;
The metal foreign material removal means 400 includes A TYPE metal foreign material removal means, B TYPE metal foreign material removal means, A TYPE metal foreign material removal means, B TPYE metal foreign material removal means, and C TYPE metal foreign material removal means among C TYPE metal foreign material removal means Including any one or more of the removal means,
A TYPE metal foreign material removal means includes agglomeration releasing unit 410 for dispersing and dispersing agglomerated powder, and a metal foreign body separating unit 420 that separates metal foreign substances by applying magnetic force to the powder that has passed through the aggregation releasing unit 410 . ;
The metal foreign material separation unit 420 is provided in the separation unit housing 421 forming a passage through which the powder passing through the agglomeration release unit 410 passes, and is provided in the passage of the separation unit housing 421 in the thickness direction. An electromagnet screen 422 in which a plurality of powder passing holes 422-1 are formed, and a magnetic force generating means 423 that transmits a magnetic force to the electromagnet screen 422 so that the electromagnet screen 422 has a magnetic force; including,
The separation unit housing 421 is formed with a screen edge fitting groove 421-1 into which the stacked electromagnet screen 422 is fitted, and the vertical length L1 of the screen edge fitting groove 421-1 is Is formed longer than the vertical length (L2) of the stacked electromagnet screen 422,
A spring connected to the separator housing 421 forming a fitting groove 421-1 on the uppermost edge and the lowermost edge of the stacked electromagnet screen 422 is coupled; characterized in that, food powder metal foreign matter removal system.
delete The method of claim 1,
The agglomeration release unit 410 may include an agglomeration release housing 411 forming a passage through which the powder passes;
agglomeration releasing screen 412 of a porous structure mounted in the aggregation releasing housing 411 passage;
A food powder metal foreign material removal system comprising a; a first vibration generating means (413) for vibrating the agglomeration releasing housing (411).
delete The method of claim 1,
The metal foreign material separation unit 420 is a stirring unit 424 for stirring the powder that has passed through the electromagnet screen 422; Containing, food powder metal foreign material removal system.
The method of claim 1,
The metal foreign material removal means 400 is a foreign material removal powder transfer unit 430 for moving the powder; Containing, food powder metal foreign material removal system.
The method of claim 1,
The B TYPE metal foreign material removal means includes a movement path forming unit 440 for forming a path through which the injected powder is moved;
a second vibration generating means 450 for moving the powder by vibrating the movement path forming unit 440;
A food powder metal foreign material removal system comprising a; is disposed to face the upper surface of the movement path forming part 440 and a plurality of electromagnet bars 461 are formed to protrude downward.
The method of claim 1,
The C TYPE metal foreign material removal means includes a powder passing housing 470 in which a powder input unit and a powder discharge unit are formed;
an idle plate 480 coupled to the powder passage housing 470 to be idle;
It is coupled to the idle plate 480 and rotates together with the idle plate 480 and a plurality of metal foreign material separation bars 490 having a magnetic force; including, a food powder metal foreign material removal system.

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