KR102416229B1 - A filter reactor capable of implementing complex functions - Google Patents

Abstract

The present invention relates to a filter reactor for implementing a complex function. The filter reactor for implementing a complex function by the present invention comprises: a cylindrical reaction case; a complex function unit; and an opening/closing valve. The cylindrical reaction case provides a space and an environment to allow various raw materials introduced from the outside to react. The complex function unit is arranged in a lower side of the reaction case, and is bonded through a flange unit facing a flange unit of the reaction case. The complex function unit includes: a filter unit which remains particulate crystals generated by a reaction and passes a liquid by-product; and a lower cover which is arranged at intervals in a lower side of the filter unit, and temporarily accommodates the liquid by-product passing through the filter unit. The filter unit and the lower cover are formed in a cone shape in which a penetrating hole is formed in each center. The particulate crystals are discharged to the outside through the penetrating hole formed in the filter unit. The liquid by-product is discharged to the outside through the lower cover. The opening/closing valve is installed in the penetrating hole of the complex function unit. The present invention reduces manufacturing costs of a product.

Description

A filter reactor capable of implementing complex functions

The present invention relates to a filter reactor capable of implementing multiple functions, and more particularly, a filtering function for filtering particulate crystals (solid state or viscous gel state) generated by a reaction between raw materials through a filter, and the It relates to a filter reactor capable of realizing a complex function with an improved structure so that a collection function of collecting crystals and a reaction by-product discharge function of discharging a liquid reaction by-product that has passed through a filter can be simultaneously implemented.

In general, a reaction reactor is configured to generate particle-like crystals by causing a chemical reaction according to temperature and pressure conditions in a state in which various liquid raw materials are input, and to discharge reaction by-products to the outside.

However, according to the reaction reactor according to the prior art, in order to collect the crystals generated in the reaction reactor, the operator periodically opens the cover of the reaction reactor and manually moves the crystals to another collection tank using a tool. Therefore, there was a problem in that the efficiency of collecting the crystals was inhibited and the labor cost increased, as well as the mass production efficiency was lowered due to the lack of continuity of the process.

Republic of Korea Patent Publication Registration No. 10-2198045

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a filtering function to filter out granular crystals generated by the reaction between raw materials, a collecting function to collect the filtered crystals, and a reaction by-product to the outside. It is intended to provide a filter reactor capable of realizing a complex function that can simultaneously implement the function of discharging reaction by-products to be discharged to the furnace.

In order to achieve the above object, a filter reactor capable of implementing a complex function according to the present invention includes: a tubular reaction case that provides a space and environment in which various raw materials input from the outside can react; and a filter unit disposed on the lower side of the reaction case and binding through a flange portion facing the flange portion of the reaction case, the particulate crystals generated by the reaction remaining and liquid by-products passing through; and a lower cover disposed at a distance on the lower side of the filter unit to temporarily accommodate liquid by-products that have passed through the filter unit, and the filter unit and the lower cover are formed in a cone shape with a through hole in the center, respectively. a complex functional unit for discharging the granular crystals to the outside through a through hole formed in the filter unit and discharging the liquid by-products to the outside through the lower cover; and an on/off valve installed in the through hole of the multifunctional unit.

The present invention includes a rotating blade that is rotatably installed inside the reaction case to smoothly induce a reaction between the various raw materials by the rotation operation thereof, wherein the lower surface of the rotating blade has the cone shape during rotational motion. It is preferably formed in a spiral shape along the cone shape forming angle of the filter unit so that it can be arranged in parallel without interfering with the filter unit.

The present invention is disposed between the filter unit and the lower cover, each arranged radially along the circumferential direction to prevent sagging of the filter, the upper surface is connected to the filter unit and the lower surface is supported by the lower cover. It is preferable to include prevention ribs.

The upper surface of the anti-sag rib includes a groove-shaped non-contact part that does not come into contact with the contact part that comes into contact with the filter unit, so that the liquid by-product that has passed through the filter unit is smoothly discharged to the lower cover side via the non-contact part. It is desirable to be able to

The present invention is a motor for rotating the rotating blade; a load sensor for detecting a load applied to the motor through the rotating blade according to the degree of reaction progress in the reaction case; and a controller for controlling the rotation speed of the motor based on the signal transmitted from the load detection sensor.

The controller may be configured to apply a control signal for opening and closing the on/off valve based on a signal transmitted from the load sensor in addition to controlling the rotation speed of the motor.

The filter reactor capable of realizing a complex function according to the present invention having the configuration as described above includes a filtering function of filtering particulate crystals as a reaction product through a filter unit installed inside the reaction case, A collection function that allows selective collection by opening/closing operation and a discharge function that allows reaction by-products that have passed through the filter unit to be accommodated in the space between the filter unit and the lower cover and then discharged can all be implemented in one product By being configured, there is no need to manually collect the reaction product filtered by the filter as in the prior art, and as separate equipment for implementing the filtering function, collection function and discharge function is not required, the manufacturing cost of the product is reduced Of course, it has the effect of improving the mass productivity of the product.

1 is a partially cut-away cross-sectional view of a filter reactor capable of implementing a complex function according to an embodiment of the present invention.
2 is an exploded perspective view of a multifunctional unit employed in an embodiment of the present invention;
3 is an exploded perspective view showing the multifunctional unit shown in FIG. 2 from the bottom;
4 is a cross-sectional view illustrating a movement path of a by-product that has passed through a filter unit as shown in isolation of some components employed in an embodiment of the present invention.
5 is an enlarged view of part V of FIG. 1;
6 is an enlarged view of part VI of FIG. 5 showing the movement path of the particulate crystals filtered by the filter unit employed in an embodiment of the present invention and the by-products passing through the filter unit.
7 is a block diagram for controlling an operation according to a load acting on a motor (providing rotational power of a rotating blade) employed in an embodiment of the present invention.

In order to clarify the understanding of the present invention in the following description, descriptions of well-known techniques for the features of the present invention will be omitted. The following examples are detailed descriptions to help the understanding of the present invention, and it will be of course not to limit the scope of the present invention. Accordingly, equivalent inventions performing the same functions as the present invention will also fall within the scope of the present invention.

In addition, in the following description, the same identification symbols mean the same configuration, and unnecessary redundant descriptions and descriptions of well-known technologies will be omitted. In addition, the description of each embodiment of the present invention that overlaps with the description of the technology that is the background of the invention will also be omitted.

Hereinafter, it will be described in detail with reference to a filter reactor capable of implementing a complex function according to an embodiment of the present invention.

1 is a partially cut-away cross-sectional view of a filter reactor capable of implementing a complex function according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a complex functional unit employed in an embodiment of the present invention, and FIG. 3 is shown in FIG. It is an exploded perspective view showing the multifunctional unit of the present invention from the bottom, and FIG. 4 is a cross-sectional view showing the movement path of by-products passing through the filter unit by separating some components employed in an embodiment of the present invention, and FIG. Part V is an enlarged view, and FIG. 6 is an enlarged view of part VI of FIG. 5, showing the movement path of the particulate crystals filtered by the filter unit employed in an embodiment of the present invention and the by-products passing through the filter unit. 7 is a block diagram for controlling an operation according to a load acting on a motor (providing rotational power of a rotating blade) employed in an embodiment of the present invention.

As shown in these drawings, the filter reactor capable of implementing complex functions according to an embodiment of the present invention is, for example, by inputting various viscous liquid raw materials to produce a cosmetic composition according to temperature and pressure conditions. , collectively refers to a reaction tank that generates a granular crystal (A) (solid state or viscous gel state) and a liquid reaction by-product by reaction between various raw materials, the reaction case (1) and the complex functional unit (2) ) and the on/off valve (4). Here, the liquid raw material is not limited to the cosmetic composition, and may be, for example, a drug or a chemical that generates particle-like crystals by reaction.

1 and 5, the reaction case 1 has a known reaction tank structure, is formed in a cylindrical shape to accommodate various raw materials, and an environment (ex. temperature and pressure conditions).

This reaction case (1) is organically combined with the complex functional unit (2) and the on/off valve (4) employed in the present invention, and a filtering function to filter out the particulate crystals (A) generated by the reaction between raw materials and It makes it possible to simultaneously implement a collection function to collect the filtered crystals and a reaction byproduct discharge function to discharge the reaction by-products to the outside.

The multifunctional unit (2) is disposed on the lower side of the reaction case (1) and is coupled through a flange portion facing the flange portion of the reaction case (1), and the filter unit (21) and the lower cover (22) ) is included.

2 and 3, the filter unit 21 allows the particulate crystal A generated by the reaction to remain and to pass the liquid by-product, but may be implemented in various structures, In this embodiment, a plurality of mesh members 211 and 212 are cross-arranged to form a dense void.

That is, the filter unit 21 employed in this embodiment supports the first network member 211 of a general network structure, the second network member 212 of a network structure including a wire mesh, and the first and second network members. It is made to include a punch plate 213 for giving. Here, the punch plate 213 is made of a porous structure so as not to interfere with the discharge of reaction by-products in the liquid phase.

As well shown in FIG. 4 , the lower cover is disposed at an interval on the lower side of the filter unit 21 so that the liquid by-product that has passed through the filter unit 21 is temporarily accommodated.

The filter unit 21 and the lower cover 22 employed in this embodiment have a cone shape with a through hole formed in the center, respectively, as shown in FIG. 3 , and as shown in FIGS. 4 and 6 , granular crystals (A) is to be discharged to the outside through the through-hole formed in the filter unit 21, and the liquid by-product is discharged to the outside through the lower cover (22).

The opening/closing valve 4 is installed in the through hole of the multifunctional unit 2 to selectively collect the granular crystal A.

The filter reactor capable of implementing a complex function according to an embodiment of the present invention having such a configuration includes a filtering function of filtering out particulate crystals as a reaction product through the filter unit 21 installed inside the reaction case 1, the filtered A collection function that allows the particulate crystals to be selectively collected by the opening/closing operation by the on/off valve 4, and the reaction by-products that have passed through the filter unit 21 are accommodated in the space between the filter unit 21 and the lower cover. By being configured to implement the discharge function to be discharged afterward by one product, there is no need to manually collect the reaction product filtered by the filter as in the prior art, and to implement the filtering function, collection function and discharge function As separate equipment is not required for this purpose, it is possible to expect the advantages of improving the mass productivity of the product as well as reducing the manufacturing cost of the product.

This embodiment is made to include a rotating blade (3) rotatably installed inside the reaction case (1).

The rotary blade 3 serves to smoothly induce a reaction between the various raw materials by its rotational operation, and in this embodiment, as shown in FIG. It is spirally formed along the shape forming angle so that it can be arranged in parallel without interfering with the cone-shaped filter unit 21 during rotation.

And, as shown in FIG. 3 , this embodiment includes a plurality of anti-sag ribs 213a disposed between the filter unit 21 and the lower cover 22 .

Each of the anti-sag ribs 213a is radially arranged along the circumferential direction to prevent the filter from sagging, and the upper surface is connected to the filter and the lower surface is supported by the lower cover 22, so that the filter unit 21 is attached to the filter unit 21. It serves to suppress sagging by the placed reaction products.

The upper surface of the anti-sag rib 213a includes a groove-shaped non-contact part 213c that does not come into contact with the contact part 213b that comes into contact with the filter, so that the liquid by-product that has passed through the filter is not in contact with the non-contact part 213c. ) to allow it to be smoothly discharged to the lower cover 22 side.

On the other hand, this embodiment prevents a load from occurring on the rotating blade 3 due to a reaction product that is a granular crystal A generated in the reaction case 1, and the speed of the motor 5 according to the load As a means for enabling control, a motor 5, a load sensing sensor 61, and a controller 62 are employed, as well shown in FIG. 7 .

That is, in the present embodiment, when the load sensed by the load sensor 61 is relatively smaller than the reference value, the motor 5 is rotated at a relatively high speed based on the control command of the controller 62 to remove the raw materials. The reaction between the liver is made smoothly, and on the contrary, when the detected decay is greater than or equal to the reference value, the motor 5 is rotated at a low speed to facilitate the filtration of the particulate crystal A by the filter unit 21 rather than the reaction between the raw materials. it was designed to be done.

And, in addition to controlling the rotation speed of the motor 5, the controller 62 applies a control signal for opening and closing the on/off valve 4 based on the signal transmitted from the load detection sensor 61 It is also possible to be configured to do so.

This embodiment having such a configuration is configured to detect the load acting on the rotating blade 3 and discharge and collect the reaction product to the outside in a timely manner according to the load, so that the generated in the reaction case 1 is As the reaction product is accumulated on the filter unit 21 without being discharged, it is possible to prevent a phenomenon in which a load is applied to the rotating blade 3 and the function is not smoothly exhibited, and eventually in the reaction case 1 It makes it possible to further improve the reaction efficiency.

Although various embodiments of the present invention have been described above, this embodiment and the drawings attached to this specification only clearly show a part of the technical idea included in the present invention, and the drawings included in the specification and drawings of the present invention It will be apparent that all modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical spirit are included in the scope of the present invention.

1: Reaction case 2: Complex function unit
21: filter unit 211: first mesh member
212: second mesh member 213: punch plate
213a: anti-sag rib 213b: contact
213c: non-contact portion 22: lower cover
3: Rotating blade 4: On-off valve
5: Motor 61: Load sensor
62: controller A: granular crystal

Claims (6)

a tubular reaction case that provides a space and environment for various raw materials input from the outside to react;
A filter unit disposed on the lower side of the reaction case and binding is made through a flange portion facing the flange portion of the reaction case, the particulate crystal generated by the reaction remains and the liquid by-product passes through, and the filter; and a lower cover disposed at a distance on the lower side of the unit to temporarily accommodate liquid by-products that have passed through the filter unit, wherein the filter unit and the lower cover are formed in a cone shape with a through hole in the center, respectively. a complex functional unit for discharging particulate crystals to the outside through a through hole formed in the filter unit and discharging a liquid by-product to the outside through the lower cover; and
and an on/off valve installed in the through hole of the multifunctional unit;
It is disposed between the filter unit and the lower cover, each radially arranged along the circumferential direction to prevent sagging of the filter, the upper surface is connected to the filter unit and the lower surface is a plurality of anti-sag ribs supported by the lower cover made including,
The upper surface of the anti-sag rib includes a groove-shaped non-contact part that does not come into contact with the contact part that comes into contact with the filter unit, so that the liquid by-product that has passed through the filter unit is smoothly discharged to the lower cover side via the non-contact part. make it possible,
The filter unit comprises a first network member having a mesh structure, a second network member having a mesh structure including a wire mesh, and a punch plate supporting the first and second network members and having a porous structure,
The contact portion is in contact with the punch plate, the end opposite to the through hole is made to be inclined along the inclined direction of the punch plate,
The non-contact portion is a filter reactor capable of implementing a complex function, characterized in that it is formed in plurality at intervals along the longitudinal direction of the sagging rib. According to claim 1,
A rotating blade that is rotatably installed inside the reaction case to smoothly induce a reaction between the various raw materials by its rotational operation; including,
The lower surface of the rotating blade is capable of implementing a complex function, characterized in that it is spirally formed along the cone-shaped formation angle of the filter unit so that it can be arranged in parallel without interfering with the cone-shaped filter unit during rotational motion. filter reactor. delete delete 3. The method of claim 2,
a motor for rotating the rotating blade;
a load sensor for detecting a load applied to the motor through the rotating blade according to the degree of reaction progress in the reaction case; and
and a controller for controlling the rotation speed of the motor based on the signal transmitted from the load sensor. 6. The method of claim 5,
wherein the controller is configured to apply a control signal for opening and closing the on-off valve based on the signal transmitted from the load detection sensor.

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