KR101141325B1 - Arrangements for removal of fluid bubble - Google Patents

Abstract

PURPOSE: An apparatus for removing fluid bubbles is provided to control second foaming by discharging a rinse solution from which bubbles are eliminated to a tank after the bubbles are inhaled and destroyed in a bubble removing case. CONSTITUTION: A suction impeller(120) revolves in a specific direction along with a rotary shaft. A fixing plate(130) is installed in a lower portion of a drive motor(110) and combined with a tank. A bubble removing case(140) is installed to surround the suction impeller and includes a defoaming chamber(141) and a discharging port. A suction plate(150) is combined with a lower opening portion of the bubble removing case and includes a suction port(151) connected with the defoaming chamber. An air discharging flow path(A) is formed between an inner upper portion bubble of the removing case and the suction impeller to discharge air.

Description

Arrangements for removal of fluid bubble

The present invention relates to a cleaning liquid defoaming machine for removing bubbles generated on the water surface of a chemical cleaning liquid used as a cleaning agent for semiconductor components and printed circuit boards. And it is easy to transport, storage and the like, and a low failure rate relates to a cleaning liquid defoaming machine of high reliability.

For example, the manufacture of a printed circuit board is completed by attaching a film to the substrate, exposing it, and performing a developing process, a corrosion process, and a peeling process. In the above process, since a large amount of bubbles are generated when the developer or the stripping solution is sprayed onto the substrate in the developing step and the stripping step, in the past, a defoamer (bubble removing agent) was introduced into the tank to remove bubbles.

However, it has been pointed out that the method of using the antifoaming agent, as well as the cost of purchasing the antifoaming agent, needs to neutralize the antifoaming agent before discharging the wastewater containing the antifoaming agent, and the wastewater treatment cost is very expensive.

In order to improve this, a defoaming machine for removing bubbles without using an antifoaming agent has been proposed.

For example, according to Korean Patent Registration No. 10-745213 (prior art), the substrates are moved on a conveyor mounted on the upper side of the tank, and the tip of the supply pipe coupled to the outlet side of the pump connected to the tank is moved. The nozzles are combined to inject the solution into the substrate, the overflow tube is connected to one side of the tank, the inside of the tank is equipped with an open top container, the top of the container is formed higher than the water level bubbles Introduced into the container, the brush is coupled to the rotating shaft of the motor mounted on the upper surface of the tank is located in the interior of the container, it is configured to destroy the air bubbles introduced into the interior of the container while the brush is rotated. Such a defoaming machine installs a container in a tank, and destroys the foam | bubble guide | induced to the inside of a container by a brush by a brush.

However, the defoaming machine of the prior document is not easy to install, because the container must be installed separately, and the brush mounted on the motor shaft functions to destroy the air bubbles, but rather produces additional air bubbles by stirring the washing liquid by the rotational force of the brush. It is also possible to play a role, which is pointed out that the bubble removal effect is very poor.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, the main object of the present invention is the defoaming efficiency is good despite the simple configuration, the volume is small, easy to remove and transport, storage, etc., failure rate It is this low to provide a cleaning liquid defoamer with high reliability of the product.

To provide a cleaning liquid defoaming machine for solving the above technical problem.

Embodiments of the present invention, installed in the upper portion of the washing liquid tank, washing liquid defoaming machine for removing bubbles generated on the surface of the washing liquid; A drive motor having a rotating shaft; A suction impeller installed on the rotating shaft and rotating in one direction together with the rotating shaft; A fixed plate installed at the lower side of the drive motor and coupled to the tank; A lower open parcel case installed around the suction impeller, having a bubble removing chamber formed therein, and having a discharge port at a side thereof; And a suction plate coupled to an open lower portion of the bubble removing chamber and having a suction port communicating with the bubble removing chamber at a bottom surface thereof.

In one embodiment, the discharge port may be formed to be gradually inclined downward toward the outside from the inside of the parcel case.

In one embodiment, the bubble breaking chamber is formed on the inner wall of the bubble removing chamber, the bubble breaking recess may be formed in the vertical direction.

In one embodiment, the air discharge passage for discharging the air is formed between the inner upper side of the parcel case and the suction impeller, the uneven portion is formed in the parcel case and the suction impeller of the air discharge passage to form an air discharge passage The air discharge hole communicating with the air discharge passage may be formed in the labyrinth and above the parcel case.

In one embodiment, the bottom of the fixing plate is formed with a through hole through which the hub of the impeller is formed, a carbon seal is installed in the through hole, the rubber seal is installed on the outer peripheral surface of the hub of the impeller facing the carbon seal Can be.

Washing liquid defoaming machine according to the present invention, since the foam is sucked and destroyed in the closed-type parcel case, the second foam is generated by repeating the process of discharging the washing liquid is removed to the tank again to remove the foam Of course, the foam removal efficiency is excellent.

1 is a state diagram of the cleaning solution defoaming machine according to the present invention.
2 is an enlarged cross-sectional view of the washing liquid defoaming machine according to the present invention.
3 is an operating state diagram of the washing liquid defoaming machine according to the present invention.
4 is a cross-sectional view taken along the line AA of FIG. 2.
5 is a cross-sectional view taken along line BB of FIG. 2.
6 is a cross-sectional view taken along line CC of FIG. 2.

Hereinafter, a washing liquid defoaming machine according to embodiments of the present invention will be described. The described embodiments are provided so that those skilled in the art can easily understand the spirit of the present invention, and the present invention is not limited thereto. Embodiments of the invention may be modified in other forms within the spirit and scope of the invention. As used herein, the term " and / or " is used to include at least one of the preceding and following elements. "On" other elements herein means that other elements are directly located on one element and that the third element is further located on the one element . Although each element or portion of the specification is referred to by using the expressions of the first and second expressions, it is not limited thereto. The thicknesses and relative thicknesses of the components shown in the figures may be exaggerated to clearly illustrate the embodiments of the present invention. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

The washing liquid defoaming machine according to the present invention will be described with reference to FIGS. 1 to 6.

1 is an installation state of the washing liquid defoaming machine according to the invention, Figure 2 is an enlarged cross-sectional view of the washing liquid defoaming machine according to the invention, Figure 3 is an operating state diagram of the washing liquid defoaming machine according to the invention, Figure 4 AA is sectional drawing, FIG. 5 is BB sectional drawing of FIG. 2, and FIG. 6 is CC sectional drawing of FIG.

As shown in FIG. 1 attached above, the washing liquid defoaming machine 100 according to the present invention is installed on the upper portion of the washing liquid tank 1 to guide bubbles generated on the water surface of the washing liquid 2 into a closed space. After defragmentation, the process of defoaming is repeated while it is discharged back into the tank.

The cleaning liquid defoaming machine 100 includes a drive motor 110, a suction impeller 120, a fixing plate 130, a parcel case 140, and a suction plate 150.

The drive motor 110 is a driving body for providing a rotational force to the suction impeller 120, so that the motor shaft 111 on the upper surface of the tank 1 while being coupled with the fixed plate 130 is directed downward It is seated and installed.

The suction impeller 120 is coupled to an end of the motor shaft 111 and is installed to be located inside the tank 1. The suction impeller 120 serves to suck the cleaning liquid by generating a suction force while rotating in the forward and / or forward and reverse directions by the power of the driving motor 110.

The fixed plate 130 serves to mount the drive motor 110 on the upper surface of the tank 1, the flange 112 and the fixed plate 130 of the fixed plate 130 and the drive motor 110. ) And the tank 1 are fastened by bolts b, respectively.

The defoaming case 140 has a bubble removing chamber 141 formed therein, and a through hole 142 through which the hub 121 of the suction impeller 120 penetrates is formed at an upper side thereof, and a lower portion thereof is opened. It is.

In addition, an inner circumferential surface (inner wall) of the parcel case 140 is formed with a bubble breaking recessed portion 143 as shown in FIG. 4. At this time, the bubble breaking concave-convex portion 143 may be formed in the vertical direction, it may be formed differently in the circumferential direction of the inner circumferential surface of the parcel case 140, of course.

In addition, since the bubble breaking concave-convex portion 143 must act to burst bubbles due to the impact of bubbles, the tip portion is preferably sharply formed. On the other hand, although not shown in detail in the drawing, the distal end portion of the bubble breaking concave-convex portion 143 is formed to be inclined in a reverse direction to be opposed to the rotational direction of the suction impeller 120 while receiving the centrifugal force by the suction impeller 120 This form may also be included in the scope of the present invention as it will be able to more effectively destroy the bubbles colliding with (143).

In addition, a discharge port 144 is formed at a sidewall of the parcel case 140 to discharge the cleaning liquid 2 from which the foam is removed and is removed from the bubble removing chamber 141 to the tank 1 again. The discharge port 144 is preferably located lower than the suction impeller 120, it is more preferably formed to gradually downwardly downward from the inside of the parcel case 140 toward the outside.

The reason why the discharge port 144 is formed to be inclined downwardly is that the washing liquid 2 is naturally discharged into the tank 1 when the washing liquid 2 is discharged from the defoaming port 141, and the washing liquid from which the foam is removed ( 2) to the far away and there is two to collect the bubbles far away from the parcel case 140 by the water flow of the washing liquid discharged far away into the parcel case.

Here, the discharge port 144 is formed to be inclined in a direction similar to the rotational direction of the suction impeller 120 when the discharge port 144 in a plan view for more efficient discharge, the washing liquid 2 is subjected to centrifugal force more The discharge port 144 may be discharged smoothly, and the discharge port 144 may have a smaller pore size at the outlet than the inlet, such as a nozzle, so that the flow rate may be faster to ensure smooth discharge.

The suction plate 150 has a bolt (b) is coupled to the open lower portion of the parcel case 140, and has a suction port 151 in communication with the bubble removing chamber 141 on the bottom surface.

The suction port 151 may be formed at the center and the edge of the bottom surface of the suction plate 150 as shown in FIG.

On the other hand, an air discharge passage A for discharging air is formed between the inner upper side of the parcel case 140 and the suction impeller 120. At this time, the parcel case 140 and the suction impeller 120 of the air discharge passage A are formed with uneven portions 145 and 122 which are opposed to each other, thereby sucking the air discharge passage A by maze. The washing solution 2 sucked by the impeller 120 was prevented from entering the drive motor 110.

In addition, an air discharge hole (H) communicating with the air discharge passage (A) is formed on the upper side of the parcel case 140 to discharge the gas discharged from the cleaning liquid (2) to the outside.

On the other hand, the fixing plate 130 has a carbon seal 161 having a good quality resistance is installed in the through hole 142 through which the hub 121 of the suction impeller 120 penetrates, and the suction impeller ( The rubber seal 162 may be installed on the outer circumferential surface of the hub 121 of the 120 to face the carbon seal 161.

The carbon seal 161 and the rubber seal 162 together with the uneven parts 145 and 122 serve to completely block the inflow of the driving motor 110 of the cleaning liquid 2.

The embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art having various ordinary knowledge of the present invention may make various modifications, changes, and additions within the spirit and scope of the present invention. Additions should be considered to be within the scope of the claims.

1. Tank 2. Washing liquid
100. Washing liquid defoaming machine 110. Drive motor
111. Motor shaft 112. Flange
120. Suction impeller 121. Hub
122. Uneven portion 130. Fixed plate
140. Parcel Case 141. Bubble Removal Chamber
142. Through hole 143. Uneven portion for foam breakage
144. Outlet port 145. Unevenness
150. Suction Plate 151. Suction Pot
161.Carbon Seal 162.Rubber Seal
A. Air exhaust path H. Air exhaust hole

Claims (5)

A washing liquid defoaming machine installed at an upper portion of the washing liquid tank to remove bubbles generated on the surface of the washing liquid;
A drive motor having a rotating shaft;
A suction impeller installed on the rotating shaft and rotating in one direction together with the rotating shaft;
A fixed plate installed at the lower side of the drive motor and coupled to the tank;
A lower open parcel case installed around the suction impeller, having a bubble removing chamber formed therein, and having a discharge port at a side thereof; And
A suction plate coupled to an open lower portion of the parcel case and having a suction port communicating with the bubble removing chamber at a bottom surface thereof;
An air discharge passage for discharging air is formed between the inner upper side of the parcel case and the suction impeller. The parcel case and the suction impeller of the air discharge passage are formed with opposing irregularities to maze the air discharge passage.
Washer defoaming machine, characterized in that formed on the upper side of the air discharge hole in communication with the air discharge passage. The method of claim 1,
The discharge port, the washing machine defoaming, characterized in that formed gradually inclined downward toward the outside from the inside of the parcel case. The method of claim 1,
The inner wall of the bubble removing chamber is formed with a bubble breaking concave-convex portion, the bubble breaker concave-convex portion characterized in that formed in the vertical direction. delete The method of claim 1,
The bottom surface of the fixing plate is formed with a through hole through which the hub of the suction impeller is formed, the carbon seal is installed in the through hole,
Washer defoaming machine, characterized in that the rubber seal is installed on the outer peripheral surface of the hub of the suction impeller facing the carbon seal.

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