KR20180063951A - Solution mixing unit and cleaningexperimental apparatus having thereof - Google Patents

Abstract

A unit for forming a mixed solution according to an embodiment of the present invention includes: a body port member providing a mixed solution; and a contact cover member provided to cover an opened upper end of the body port member and coming in close contact with the side wall of the body port member to operate in upper and lower directions depending on the water level of the mixed solution. In addition, a cleaning experimental apparatus according to another aspect of the present invention is provided with a target material, wherein the cleaning experimental apparatus comprises: a spray chamber unit spraying the mixed solution to the target material; and a mixed solution formation unit connected to the spray chamber unit, supplying the mixed solution to the spray chamber unit and recovering the mixed solution sprayed from the spray chamber unit through a discharge pipe. An object of the present invention is to provide the unit for forming the mixed solution capable of maintaining the concentration of the mixed solution such as a degreasing solution and the like, and the cleaning experimental apparatus comprising the same.

Description

[0001] The present invention relates to a mixed solution forming unit and a cleaning experiment apparatus including the unit,

The present invention relates to a mixed solution forming unit and a cleaning experiment apparatus including the same.

The degreasing process is performed to remove contaminants such as oil adhering to the surface of the material during the phosphate treatment process.

In this degreasing step, a process of heating to maintain the concentration and temperature of the degreasing solution mixed with water and the degreasing material is included.

For example, in order to maintain the uniformity of the degreasing solution by using the open body port member, conventionally, the degreasing solution is supplied to the nozzle member through pump operation and the degreasing solution is recovered by recycling after the degreasing solution is sprayed from the nozzle member. Was stirred.

That is, the degreasing solution is supplied to the nozzle member through the pump circulation in the body port member, and is injected into the target material through the nozzle member.

In this process, the concentration of water in the degreasing solution is frequently changed due to the evaporation of water in the degreasing solution. In the reuse process by the recovery, the degreasing agent is repeatedly or repeatedly moved to the inner wall of the body port member A problem of sticking occurs.

If the degreasing material is repeatedly adhered to or adhered to the inner wall of the body port member, the concentration of the degreasing solution in the body port member is severely changed, resulting in an increase in the cleaning force deviation of the surface of the object.

Such deterioration in the cleaning power of the surface of the target material causes a problem of local failure of the phosphate coating due to defects such as surface contamination of the target material, and it is difficult to ensure reproducibility and reliability of quality evaluation, thereby causing unnecessary repetitive retesting.

Accordingly, there has been a problem in that it takes a lot of manpower and time to remove the degreasing material adhered or fixed to the inner wall of the body port member.

In addition, the problem of evaporation of water in the degreasing solution due to heating and reuse of the degreasing solution is increased, and further, the denitrification solution is scattered to pollute the surrounding facilities and hinder the working environment.

Therefore, it is necessary to study a mixed solution forming unit and a cleaning experiment apparatus including the same to solve the above-mentioned problems.

Korean Application No. 10-1994-0015232

It is an object of the present invention to provide a mixed solution forming unit capable of maintaining a concentration of a mixed solution such as a degreasing solution and the like, and a cleaning experiment apparatus including the same.

The mixed solution forming unit according to an embodiment of the present invention is provided to cover the body port member provided with the mixed solution and the opened upper end of the body port member and is brought into close contact with the side wall of the body port member, And a contact cover member provided so as to be operated up and down according to the operation of the apparatus.

The contact cover member of the mixed solution forming unit according to an embodiment of the present invention may include a sealing plate portion provided to cover the upper end portion of the body port member and an edge portion of the sealing plate portion, And a scraper portion into which the side wall is inserted and fitted.

The scraper portion of the mixing solution forming unit according to an embodiment of the present invention is provided at an edge portion of the sealing plate portion and is coupled to an insertion scraper into which a side wall of the body port member is inserted and a lower end portion of the insertion scraper, And an elastic scraper adhered to the inner wall of the body port member.

In addition, the elastic scraper of the mixed solution forming unit according to an embodiment of the present invention may further include a support step portion coupled to a lower end portion of the insertion scraper, a tapered portion which is in close contact with a side wall of the body port member, And a spring portion which is provided between the supporting end stop and the scraping edge portion and provides an elastic force to closely contact the scraping edge portion with the side wall.

The sealing plate portion of the mixed solution forming unit according to an embodiment of the present invention may be provided with a discharge pipe connected to an injection chamber unit for spraying a mixed solution into a target material.

The mixed solution forming unit according to an embodiment of the present invention may include a stirring member provided at a lower end of the body port member and stirring the mixed solution with a rotational force by an electromagnetic force.

The stirring member of the mixed solution forming unit according to an embodiment of the present invention may include an electromagnet portion which is inserted into a pipe tube provided through a lower end portion of the body port member and receives an alternating current, And a rotating cylinder portion provided on the outer surface and having a plurality of permanent magnets in the circumferential direction.

In addition, the permanent magnet of the mixed solution forming unit according to an embodiment of the present invention may be provided with a polarity different from that of another permanent magnet neighboring in the circumferential direction of the rotating cylinder part.

The electromagnet portion of the mixed solution forming unit according to an embodiment of the present invention includes a plurality of electromagnets in the circumferential direction of the tube, and the electromagnets adjacent to each other in the circumferential direction of the tube form a different polarity And an alternating current is applied.

The stirring member of the mixed solution forming unit according to an embodiment of the present invention may include a stirring blade provided on an outer surface of the rotating cylinder and having a plurality of holes.

In addition, the mixed solution forming unit according to an embodiment of the present invention may include a heat ray member provided at a lower end of the body port member and applying current to radiate heat.

According to another aspect of the present invention, there is provided a cleaning experiment apparatus including a spray chamber unit for spraying a mixed solution into a target material and a spray nozzle for spraying a mixed solution into the spray chamber unit, And a mixed solution forming unit in which the mixed solution injected from the injection chamber unit is collected through a discharge pipe.

The mixed solution forming unit of the present invention and the cleaning experiment apparatus including the same have the advantage that the concentration of the mixed solution can be maintained constant by removing the substance in the mixed solution adhered or fixed to the side wall of the body port member.

Furthermore, evaporation of the mixed solution can be prevented, and the effect of keeping the concentration of the mixed solution constant can be enhanced.

Further, by performing stirring of the mixed solution inside the body port member, it is possible to form a uniform concentration with respect to the entire mixed solution inside the body port member.

Thereby, it is possible to secure the reliability of the effect of washing or the like on the material to be sprayed with the mixed solution.

Particularly, in the cleaning experiment apparatus of the present invention, the reproducibility of the experiment is ensured, and the efficiency and reliability of the experiment can be enhanced.

It should be understood, however, that the various and advantageous advantages and effects of the present invention are not limited to those described above, and may be more readily understood in the course of describing a specific embodiment of the present invention.

1 is a front view showing a cleaning experiment device of the present invention.
2 is a perspective view showing the mixed solution forming unit of the present invention.
3 is a front view showing the mixed solution forming unit of the present invention.
4 is a front view showing an embodiment in which the scraper portion includes an elastic scraper in the mixed solution forming unit of the present invention.
5 is a perspective view showing a stirring member in the mixed solution forming unit of the present invention.
6 is a side view showing a stirring member in the mixed solution forming unit of the present invention.
7 is a side view showing an operating state of the stirring member in the mixed solution forming unit of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

The present invention relates to a mixed solution forming unit (100) and a cleaning experiment apparatus including the same, wherein the mixed solution forming unit (100) removes a substance in a mixed solution adhered or fixed to a side wall of the body port member The concentration of the mixed solution can be kept constant, and further, the evaporation of the mixed solution can be prevented, so that the effect of keeping the concentration of the mixed solution constant can be enhanced.

Accordingly, in the washing apparatus including the mixed solution forming unit 100 of the present invention, the reproducibility of the experiment can be ensured and the efficiency and reliability of the experiment can be improved.

1 is a front view showing a cleaning experiment apparatus according to the present invention. Referring to FIG. 1, the cleaning apparatus according to another embodiment of the present invention includes a target material S, A mixing chamber unit 200 for injecting a mixed solution and a mixed solution supplied to the injection chamber unit 200 in conjunction with the injection chamber unit 200 and a mixed solution injected from the injection chamber unit 200 And the mixed solution forming unit 100 recovered through the discharge pipe 210.

In other words, a structure is shown in which the mixed solution provided by the mixed solution forming unit 100 is injected into the target material S provided in the injection chamber unit 200, thereby performing an experiment on the target material S .

Here, the injection chamber unit 200 is provided with the target material S, and receives the mixed solution from the mixed solution forming unit 100 and injects the mixed solution to the target material S.

For example, the spraying chamber unit 200 receives the degreasing solution from the mixed solution forming unit 100 and injects the degreasing solution onto the target material S to perform a cleaning action. Thereafter, By forming a film, an experiment on the target material S is performed.

For this purpose, the injection chamber unit 200 may include a chamber member 220, a nozzle member 230, a discharge pipe 210, and the like.

The discharge chamber 210 is connected to the lower end of the chamber member 220 and the nozzle member 230 is coupled to the chamber member 220 and serves as a spray chamber having the object material S therein.

For this, the inside of the chamber member 220 may be formed in a closed structure, and the object material S may be fixed to the inside of the chamber member 220.

The nozzle member 230 serves to inject the mixed solution into the target material S. For this, the nozzle member 230 is connected to the mixed solution forming unit 100 for supplying the mixed solution, and the mixed solution is supplied by the pump P.

The nozzle member 230 performs a degreasing cleaning action on the target material S by spraying the mixed solution in a direction in which the target material S is fixed.

The discharge pipe 210 is coupled to the lower end of the chamber member 220 and discharges the mixed solution sprayed from the nozzle member 230 to the mixed solution forming unit 100. In other words, the mixed solution re-supplied to the mixed solution forming unit 100 through the discharge pipe 210 can be mixed with a new mixed solution to be reused.

A stopper 210a may be formed on the discharge pipe 210 to prevent the mixed solution forming unit 100, which will be described later, from being detached.

In other words, the contact cover member 120 of the mixed solution forming unit 100 can be provided through the discharge pipe 210, and even if the contact cover member 120 is floated on the mixed solution, It is preferable that the stopper 210a is formed on the discharge pipe 210 because the upper end of the body port member 110 can not be separated in order to seal the inside of the body port member 110. [

The mixed solution forming unit 100 serves to supply the mixed solution to the injection chamber unit 200 and also collects and reuses the mixed solution injected from the injection chamber unit 200.

Particularly, the mixed solution forming unit 100 can maintain the uniform concentration and temperature of the mixed solution while maintaining the mixed solution at a constant concentration and temperature. A detailed description thereof will be described later with reference to FIG. 2 to FIG.

FIG. 2 is a perspective view showing the mixed solution forming unit 100 of the present invention, and FIG. 3 is a front view showing the mixed solution forming unit 100 of the present invention.

2 and 3, the mixed solution forming unit 100 according to an embodiment of the present invention includes a body port member 110 provided with a mixed solution, and an upper end portion of the body port member 110 And a contact cover member 120 which is closely attached to the side wall of the body port member 110 and is provided to be operated up and down according to the level of the mixed solution.

In other words, the mixed solution forming unit 100 may include a body port member 110, a contact cover member 120, and the like so that the mixed solution can be maintained at a uniform concentration and temperature while maintaining the mixed solution at a constant concentration and temperature. . ≪ / RTI >

The body port member 110 is provided with a mixed solution. The open top end of the body port member 110 is connected to the contact cover member 120 and is connected to the injection chamber unit 200 to be mixed with the injection chamber unit 200. And serves to supply the solution.

The body port member 110 may be provided at a lower end thereof with a pipe tube 111 through which a stirring member 130, which will be described later, may be provided.

The body port member 110 receives the mixed solution connected to the external auxiliary tank unit 300 and recovers the mixed solution injected from the injection chamber unit 200 through the discharge pipe 210 .

Meanwhile, the mixed solution in the body port member 110 may be a degreasing solution, and the degreasing solution may be sprayed to the object material S provided in the ejection chamber unit 200 to perform a cleaning action do.

The contact cover member 120 is provided to cover the opened upper end of the body port member 110 and is disposed in close contact with the side wall of the body port member 110, Of the material.

Particularly, since the contact cover member 120 is floated on the upper surface of the mixed solution provided in the body port member 110, the contact cover member 120 moves up and down according to the level of the mixed solution in the body port member 110 It is not necessary to supply a separate driving force for scraping off the substance in the mixed solution.

For this purpose, the contact cover member 120 may include a sealing plate portion 121 and a scraper portion 122. In other words, the contact cover member 120 of the mixed solution forming unit 100 according to an embodiment of the present invention includes a sealing plate portion 121 provided to cover an upper end portion of the body port member 110, And a scraper portion 122 provided at an edge portion of the plate portion 121 and into which the side wall of the body port member 110 is inserted.

Here, the sealing plate 121 is provided in a shape for covering the opened upper end of the body port member 110, and is provided in a plate shape, for example, to be hermetically closed so as to cover the upper end of the body port member 110 .

The sealing plate 121 may be configured to allow the discharge tube 210 to pass therethrough so that the mixed solution injected from the injection chamber unit 200 can be recovered and reused.

That is, the sealing plate portion 121 of the mixed solution forming unit 100 according to an embodiment of the present invention includes a discharge pipe 210 connected to the injection chamber unit 200 for spraying the mixed solution to the target material S And is provided to be penetrated.

The sealing plate portion 121 is supported by the scraper portion 122 by being engaged with the side wall of the body port member 110 by the scraper portion 122 being coupled to the edge portion of the sealing plate portion 121, .

The scraper part 122 is provided in close contact with the side wall of the body port member 110 to scrape off the substances in the mixed solution fixed to the side wall of the body port member 110.

For this purpose, the scraper portion 122 may be provided in a 'C' shape in which the side wall of the body port member 110 can be inserted and the cross section thereof is opened downward.

In addition, the scraper portion 122 may include an elastic scraper 124 as a modified embodiment, and a detailed description thereof will be given later with reference to FIG.

The driving force for scraping off the substance in the mixed solution fixed to the side wall of the body port member 110 by the scraper portion 122 is such that the sealing plate portion 121 coupled with the scraper portion 122 is moved to the mixing solution And the driving force is caused by the upward and downward movement according to the level of the water. Accordingly, it is possible to prevent the scraper portion 122 from consuming extra energy for scraping off the substance in the mixed solution fixed to the side wall of the body port member 110.

The mixing solution forming unit 100 according to an embodiment of the present invention includes a stirring member 130 provided at a lower end of the body port member 110 and stirring the mixed solution by a rotational force by an electromagnetic force .

The entire mixing solution in the body port member 110 can be maintained at a uniform concentration and temperature by the stirring member 130. Further, after the scraper part 122 is fixed to the side wall of the body port member 110, ) To be mixed with the mixed solution so that the mixed solution can maintain a constant concentration.

For this purpose, the stirring member 130 may include an electromagnetic part 131, a rotating cylinder part 132, a stirring blade 133 and the like, which will be described later in detail with reference to FIGS. 5 to 7 .

In addition, the mixed solution forming unit 100 according to an embodiment of the present invention may include a heat ray member 140 provided at a lower end of the body port member 110 and applying current to dissipate heat.

The heat ray member 140 can maintain the mixed solution in the body port member 110 at a predetermined temperature.

Accordingly, the reliability of the experiment can be improved by making the temperature of the mixed solution, which is an experimental condition for the target material S to which the mixed solution is injected, to be constant.

4 is a front view showing an embodiment in which the scraper portion 122 in the mixed solution forming unit 100 of the present invention includes the elastic scraper 124. Referring to FIG. 4, in the mixed solution forming unit 100 according to the embodiment of the present invention, The scraper portion 122 of the forming unit 100 is provided at an edge portion of the sealing plate portion 121 and has an insertion scraper 123 into which the side wall of the body port member 110 is inserted, And an elastic scraper 124 attached to the inner wall of the body port member 110.

In other words, the scraper portion 122 includes an insertion scraper 123 for scraping off material in the mixed solution adhered to the side wall of the body port member 110, And may include the resilient scraper 124 to enhance the scraping effect of the material in the mixed solution adhered to the side wall of the port member 110.

The insertion scraper 123 may be provided in a 'C' shape having a downwardly opened cross-section, which is a structure in which the side wall of the body port member 110 is closely contacted.

The elastic scraper 124 is attached to the lower end of the insertion scraper 123 and has a supporting step portion 124a and a scraping edge portion 124b, And a spring portion 124c.

That is, the elastic scraper 124 of the mixed solution forming unit 100 according to an embodiment of the present invention includes a supporting step jaw 124a coupled to a lower end of the insertion scraper 123, And is provided between the supporting end step portion 124a and the scraping edge portion 124b so that the scraping edge portion 124b is closely contacted with the side wall 124b, And a spring portion 124c for providing an elastic force to the spring portion 124c.

How the resilient scraper 124 is brought into close contact with the inner sidewall of the body port member 110 will first be described. The supporting step 124a is provided at the lower end of the insertion scraper 123, Is provided inside the member (110). The support stepped portion 124a is provided in a small plate shape parallel to the inner side wall of the body port member 110 while being spaced apart from the inner side wall of the body port member 110 by a predetermined distance.

The scraping blade portion 124b is provided with a guide rod inserted into a hole formed in the support step portion 124a and is formed with a blade shape having a smaller width toward the lower wall of the body port member 110 Is formed.

A spring part 124c as an elastic member is provided between the scraping blade part 124b and the supporting step part 124a so as to press the scraping blade part 124b toward the side wall of the body port member 110, .

The spring portion 124c may be provided in a structure in which the guide bar is inserted, and is configured to impart an expansion elastic force.

5 is a perspective view illustrating a stirring member 130 in the mixed solution forming unit 100 of the present invention. The stirring member 130 of the mixed solution forming unit 100 according to an embodiment of the present invention includes the stirring member 130, An electromagnetic part 131 inserted into a pipe tube 111 provided through the lower end of the body port member 110 and receiving an alternating current and inserted into the pipe tube 111, And a rotating cylinder 132 having a plurality of permanent magnets 132a.

In other words, the stirring member 130 stirs the mixed solution by rotation.

Here, the electromagnetic coil 131 applies an electromagnetic force to rotate the rotating cylinder.

The electromagnet 131 has a plurality of electromagnets 131a therein and the rotating cylinder 132 also has a plurality of permanent magnets 132a so that the electromagnets 131a and the permanent magnets 132a, The rotating cylinder portion 132 can be rotated by the interaction of the attraction force and the repulsive force of the rotary cylinder portion 132a. Such operation will be described later in detail with reference to FIG. 6 and FIG.

The electromagnet part 131 is inserted into the pipe tube 111 provided at the lower end of the body port member 110 so that the contact with the mixed solution provided inside the body port member 110 is removed It is possible to prevent the electromagnetic portion 131 from malfunctioning.

In the case of the rotary cylinder part 132, it is installed inside the body port member 110 by being connected to the outside of the pipe tube 111. For this purpose, the rotary cylinder part 132 is coupled to the pipe tube 111 in a structure in which the pipe tube 111 is inserted.

The agitating member 130 of the mixing solution forming unit 100 according to an embodiment of the present invention includes a stirring blade 133 provided on the outer surface of the rotating cylinder 132 and having a plurality of holes .

By including such a stirring vane 133, the effect of stirring the mixed solution can be enhanced by the rotational force of the rotating cylinder portion 132.

To this end, a plurality of the stirring vanes 133 may be coupled to the outer surface of the rotating cylinder 132.

A plurality of holes may be formed in the stirring vane 133 to prevent a large counterforce due to the mixed solution during the initial rotation of the stirring vane 133.

6 is a side view showing the stirring member 130 in the mixed solution forming unit 100 of the present invention and FIG. 7 is a side view showing the operating state of the stirring member 130 in the mixed solution forming unit 100 of the present invention Side view.

6 and 7, the permanent magnet 132a of the mixed solution forming unit 100 according to an embodiment of the present invention may include another permanent magnet (for example, And 132a are different from each other in polarity.

The electromagnet part 131 of the mixed solution forming unit 100 according to an embodiment of the present invention includes a plurality of electromagnets 131a in the circumferential direction of the tube tube 111, 111 may be characterized in that alternating current is applied so that the electromagnets 131a adjacent to each other in the circumferential direction form different polarities.

By limiting the polarity of the permanent magnet 132a and the electromagnet 131a, the rotating cylinder portion 132 is rotated by the interaction of the attracting force of the electromagnet 131a and the permanent magnet 132a .

7A, the permanent magnet 132a and the electromagnet 131a are stopped in a state in which the polarities of the permanent magnets 132a and the electromagnets 131a are close to each other by the attractive force.

7 (b), when the polarities of the electromagnets 131a are reversed, the same polarity as that of the adjacent permanent magnets 132a is generated and repulsive force is generated between the adjacent permanent magnets 132a, As shown in Fig.

The action of the attraction force and the repulsive force is changed by the rotational force of the rotating cylinder portion 132 by the repeated change of the polarity of the electromagnet 131a. To this end, it is preferable that an alternating current is applied to the electromagnet 131a.

100: Mixed solution forming unit 110: Body port member
111: pipe tube 120: contact cover member
121: sealing plate portion 122: scraper portion
123: insertion scraper 124: elastic scraper
130: stirring member 131: electromagnet
132: rotating cylinder part 133: stirring blade
140: Hot wire member 200: Injection chamber unit
210: discharge pipe 220: chamber member
230: nozzle member 300: auxiliary tank unit

Claims (12)

A body port member provided with a mixed solution; And
A contact cover member provided so as to cover an opened upper end portion of the body port member and closely contact with a side wall of the body port member and to be vertically operated according to a water level of the mixed solution;
The mixed solution forming unit comprising: The method according to claim 1,
The contact cover member
A sealing plate provided to cover an upper end of the body port member; And
A scraper portion provided at an edge portion of the sealing plate portion and inserted into the side wall of the body port member;
The mixed solution forming unit comprising: 3. The method of claim 2,
The scraper portion
An insertion scraper provided at an edge portion of the sealing plate and inserted into the side wall of the body port member; And
An elastic scraper coupled to a lower end of the insertion scraper and closely attached to an inner wall of the body port member;
The mixed solution forming unit comprising: The method of claim 3,
Wherein the elastic scraper comprises:
A supporting step jaw that is coupled to a lower end of the insertion scraper;
A scraping blade portion which is in close contact with a side wall of the body port member and has a lower end formed in a sharp shape; And
A spring portion provided between the supporting end stop and the scraping edge portion to provide an elastic force to closely contact the scraping edge portion with the side wall;
The mixed solution forming unit comprising: 3. The method of claim 2,
In the sealing plate portion,
Wherein a discharge pipe connected to an injection chamber unit for spraying the mixed solution as a target material is provided through the mixed solution forming unit. The method according to claim 1,
An agitator provided at a lower end of the body port member for agitating the mixed solution with a rotational force by an electromagnetic force;
The mixed solution forming unit comprising: The method according to claim 6,
The stirring member
An electromagnet portion inserted into the pipe tube provided through the lower end of the body port member and receiving an alternating current; And
A rotary cylinder part provided with the pipe tube inserted therein and having a plurality of permanent magnets in a circumferential direction on an outer surface thereof;
The mixed solution forming unit comprising: 8. The method of claim 7,
Wherein the permanent magnet is provided in a polarity different from that of another permanent magnet neighboring in the circumferential direction of the rotating cylinder portion. 8. The method of claim 7,
The electromagnet portion
Wherein a plurality of electromagnets are provided in a circumferential direction of the tube, and an alternating current is applied to the electromagnets adjacent in the circumferential direction of the tube to form different polarities. 8. The method of claim 7,
The stirring member
A stirring blade provided on an outer surface of the rotating cylinder and having a plurality of holes;
The mixed solution forming unit comprising: The method according to claim 1,
A heat ray member provided at a lower end of the body port member and adapted to apply a current to dissipate heat;
The mixed solution forming unit comprising: An injection chamber unit provided with a target material and injecting a mixed solution into the target material; And
The mixed solution forming unit according to any one of claims 1 to 11, which is associated with the injection chamber unit and supplies the mixed solution to the injection chamber unit, and the mixed solution injected from the injection chamber unit is recovered through the discharge pipe.
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