KR20100102856A - Iron content removing device for pretreating process - Google Patents

Abstract

PURPOSE: An iron content removing device for a pre-treatment process is provided to prevent the inconvenience of periodically removing iron contents attached to a magnetic rod manually. CONSTITUTION: An iron content removing device(100) for a pre-treatment process comprises a bypass tube(110), a circulating pump(120), an iron collecting unit(130), and a control unit(140). The bypass tube is connected to a liquid bath storage tank for the pre-treatment process. A circulating pump circulates a liquid bath inside the liquid bath storage tank through the bypass tube. The iron collecting unit includes a circulating pipe and an electromagnet tube.

Description

Iron removal device of pretreatment process {IRON CONTENT REMOVING DEVICE FOR PRETREATING PROCESS}

The present invention relates to an iron removal apparatus of a pretreatment process, and more particularly, to an iron removal apparatus of a pretreatment process that has been improved in an automated manner to improve the collection and removal efficiency of iron on a liquid bath.

In general, the painting process of automobiles is to prevent corrosion of the vehicle body and to enhance the beauty by soundproofing and aesthetics after the vehicle body is completed.It completely removes foreign substances or oils attached to the inner and outer panels of the body and at the same time Pretreatment process to form a phosphate film that improves the corrosion resistance of the cotton and adhesion to the electrodeposition paint, and the car body passed through the drying furnace of the pretreatment process is electrolyzed in the electrodeposition paint to uniformly paint not only the outer plate but also the inside of the vehicle body to prevent corrosion and surface The electrodeposition (substrate) process, which is a factor of glossiness, is performed.

Subsequently, after the sealer is applied to the joints, a midway process for providing chipping resistance, smoothness, weather resistance, and the like of the paint is performed, and a top coat process for forming a coating film through a top coat and a clear process that gives an aesthetic appearance. This is done.

As such, when painting is completed on the vehicle body, dust, foreign matter, scratches, etc. on the surface of the coating surface are inspected through visual inspection and appearance inspection through visual inspection. After modification through painting or polishing process such as polishing, it is made to input to the design factory.

In each process of the coating line, the pretreatment process is to remove foreign substances, oil, and iron (IRON CONTENT) from the car body until hot water, pre-degreasing, degreasing, and the first and second washing processes as preparation processes for electrodeposition coating on the vehicle body. Mainly, surface adjustment, chemical coating, and third, fourth and fifth washing processes are chemical treatment processes for preparing electrodeposition coating.

Here, more than 80% of the above quality deterioration factors of the electrodeposition body are pollution due to iron, and how efficiently the iron is removed from the body of the white body state introduced from the body shop in the pretreatment process affects the electrodeposition quality. In addition, due to the characteristics of the painting line, even the middle and upper coats, which are post-processes, affect the production cost due to quality and repainting.

From this point of view, the iron removal device is necessary in this process because the iron content is high in order of pouring, pre-degreasing, degreasing and washing in the order of the vehicle body.

As an example of a conventional iron removing device, a plurality of magnetic rods are installed in a sub-water tank of a liquid bath storage tank for pretreatment, and iron is induced on the surface by magnetic force of the magnetic rod itself while circulating the liquid bath with a circulation pump. Will be removed.

However, while the iron removal device using the magnetic rod as described above has a good collection efficiency of fine iron, etc., if the magnetic rod is contaminated by a certain amount or more of iron, the collection efficiency is lowered. There is a hassle to remove.

In addition, the cyclone is used as an iron removing device other than the magnetic rod, but it is possible to remove only iron of a certain size and weight or more, and thus there is a limit in capturing fine iron.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an iron removing apparatus of a pretreatment process improved in an automated manner so that the collection and removal efficiency of iron on the pretreatment liquid bath can be kept constant at all times. .

In order to achieve the above object, the iron removing device of the pretreatment process according to an aspect of the present invention includes a bypass pipe which is circulated in communication with the liquid bath storage tank for pretreatment so that the liquid bath flows in and out; A circulation pump disposed on the flow path of the bypass pipe to forcibly circulate the liquid bath of the liquid bath storage tank; The circulation pipe is connected to the liquid bath flowing into the bypass pipe to flow in and out through a pair of joint pipes, and both ends are disposed in the circulation pipe to support magnetic force during power supply to selectively collect iron on the liquid bath. An iron distribution unit having at least one electromagnet tube to generate; And a control unit for measuring the pressure of the liquid bath flowing to the circulation pipe inlet / outlet, respectively, and preventing the liquid bath from flowing into the circulation pipe according to the set differential pressure, and changing the flow path to form a flow path to the bypass pipe. do.

Here, the control unit, characterized in that the power supply to the electromagnet tube in accordance with the set differential pressure to drop the iron collected on the surface of the electromagnet tube to the bottom of the circulation pipe.

In addition, when the flow path is formed in the bypass pipe, the iron distribution unit, a pair of washing in communication with the circulation pipe so as to flow the washing water into the circulation pipe to outflow the iron from the bottom of the circulation pipe to the outside. Characterized in that the pipe is further provided.

In addition, the iron distribution unit, a plurality of annular brackets formed with a through hole so that the electromagnet tube is fixed through, a plurality of support bars for integrally supporting the brackets through the plate surface, and both ends of the support bar on one side A pair of support plates, each fixed and having a perforation hole formed therein for insertion of the electromagnet tube, and a pair of sealing plates coupled to the other side of the support plate to seal both sides of the electromagnet tube, are further provided.

In addition, on the bypass pipe, the pair of coupling pipes, and the pair of cleaning pipe paths, a first electronic valve, a second electronic valve, and a third electronic valve for opening and closing a flow path by a control command of the control unit are provided. It is characterized in that each provided.

As described above, according to the iron removing device of the pretreatment process according to the present invention, it is possible to prevent the hassle of periodically removing the iron attached to the magnetic rod by manual work, and to collect the iron on the pretreatment liquid bath And removal efficiency can be kept constant at all times.

Hereinafter, an iron removal apparatus of a pretreatment process according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

1 is a schematic view showing an iron removing apparatus of a pretreatment process according to an embodiment of the present invention showing a state in which iron is collected in an electromagnet tube, and FIG. 2 is an assembly view of the electromagnet tube of FIG. 1.

As shown in FIG. 1, the iron removing device 100 of the pretreatment process according to the exemplary embodiment of the present invention is circulated in communication with a liquid bath storage tank (not shown) for pretreatment so that the liquid bath is flown in and out. Pipe 110, the circulation pump 120 is disposed on the flow path of the bypass pipe 110, the iron distribution unit 130 is arranged side by side on one side of the bypass pipe 110, and the control unit ( 140, and a pressure measuring device 145.

The bypass pipe 110 has a left end connected to the bottom of the liquid bath storage tank to allow the liquid bath to flow therein, and the other end is connected to the side of the liquid bath storage tank to allow the liquid bath to be circulated into the liquid bath storage tank. It is done.

In addition, the circulation pump 120 is forced to circulate the liquid bath of the liquid bath storage tank from the left side to the right side of the bypass pipe 110 during operation.

In addition, the iron distribution unit 130 has a communication port (131a) so that the liquid bath flowing to the bypass pipe 110 as it is shown in Figure 2 can flow in and out through a pair of joint pipe (C) Correspondingly formed circulation pipe 131, and both ends are supported and disposed inside the circulation pipe 131, an electromagnet (not shown) is inserted therein to selectively collect iron on the flowing liquid bath, both sides of the stopper 132a At least one electromagnet tube 132 made of a structure that is sealed with. However, although the electromagnet tube 132 is shown as a single in FIG. 2, it is preferable that a plurality of electromagnet tubes 132 are installed in terms of iron collection efficiency.

Here, the circulation pipe 131 is open at both ends so that the electromagnet tube 132 is inserted and detachable from the circulation pipe 131, and the openings of the circulation pipe 131 are flanges formed at both ends thereof. F is made sealable by the opening and closing cover 138 in the O-ring (O) is opened.

In addition, the electromagnet inserted into the electromagnet tube 132 is a magnetic force is generated when the power supply by the power supply unit (E) of one side of the circulation pipe 131 is collected to collect iron on the surface of the electromagnet tube 132, When the supply is cut off, the magnetic force is lost to drop the iron collected on the surface of the electromagnet tube 132 to the bottom of the circulation pipe 131.

In addition, the iron distribution unit 130 as shown in Figure 2 the circulation pipe to flow out the iron collected by the circulation pipe 131 to the outside by flowing the wash water into the circulation pipe 131 as needed. It further comprises a pair of washing pipe 133 in communication with the 131, it is preferable to further provide an electromagnet tube support means for supporting the electromagnet tube 132.

Specifically, the electromagnet tube support means includes a plurality of annular brackets 134 having a through hole 134a formed therethrough so that the electromagnet tube 132 is fixed therethrough, and a plurality of brackets 134 integrally supporting the brackets 134 through the plate surface. A support bar 135 and a pair of support plates 136 having both ends of the support bar 135 fixed to one side thereof and having a hole 136a formed therein for insertion of the electromagnet tube 132, and the support plate It is composed of a pair of sealing plates 137, which are coupled to the other side of the 136, respectively, to seal both sides of the electromagnet tube 132.

On the bypass pipe 110, the pair of joint pipes C, and the pair of cleaning pipe paths 133 described above, a first electronic type for opening and closing a flow path by a control command of the control unit 140, respectively. The valve V, the second electromagnetic valve V ', and the third electromagnetic valve V "are respectively provided.

According to the iron removing device 100 of the pretreatment process of the present invention configured as described above, as shown in Figure 1 during normal operation, the flow path is formed so that the liquid bath stored in the liquid bath storage tank in the direction of the arrow is bypassed, iron distribution unit The collection of iron through 130 is made.

At this time, the control unit 140 by measuring the pressure of the liquid bath flowing to the inlet and outlet side of the circulation pipe 131 in real time with the pressure measuring device 145, when the differential pressure of the measured value is less than the predetermined value second electronic valve (V) ') In the open state, as well as the first electronic valve (V) and the third electronic valve (V ") continues to control the signal in a closed state through the joint pipe (C) flows into the circulation pipe 131 Iron contained in the liquid bath is continuously collected through the electromagnet tube 132.

If the value of the differential pressure measured in real time by the pressure measuring device 145 is greater than or equal to a predetermined value, it is determined that a predetermined amount or more of iron is collected in the electromagnet tube 132 to generate a flow resistance of the liquid bath. The flow to the 131 is prohibited, and the flow path is changed to form a flow path through the bypass pipe 110 to automatically clean the collected iron.

To this end, the control unit 140 stops the collection of iron by controlling the signal to close the second electronic valve V ', and controlling the signal to open the first electronic valve V so that the liquid bath is liquid bath without collecting iron. It is bypassed directly to the storage tank. If necessary, the control unit 140 may stop the circulation pump 120 to stop the liquid bath from being circulated to the bypass pipe 110.

As such, the collection of the iron is stopped and at the same time, the control unit 140 controls the power supply unit E to cut off the power supply to the electromagnet. At this time, the iron collected on the circumferential surface of the electromagnet tube 132 They fall to the bottom of the inner circumferential surface of the circulation pipe 133, and then the signal control to open the third electronic valve (V ") is forced to flow out the wash water into the circulation pipe 131.

Accordingly, iron powders falling on the bottom of the inner circumferential surface of the circulation pipe 133 are lost in magnetic force and flow out to the outside together with the washing water, and after a predetermined time, the control unit 140 again returns the first electronic valve V and the third electronic valve ( V ″) is closed and the second electromagnetic valve V 'is opened to flow control the liquid bath to the circulation pipe 131. In addition, the control unit 140 supplies power to the electromagnet to provide the circulation pipe 131 The iron in the liquid bath flowing) is again captured by magnetic force.

According to the iron removing device 100 of the pretreatment process of the present invention as described above, the iron is attached to the magnetic rod by a manual operation, improved by an automated method of changing and controlling the electromagnet and the flow path that is ON / OFF by the power source The hassle of having to remove periodically can be prevented, and the efficiency of trapping and removing iron in the pretreatment liquid bath can be kept constant at all times.

On the other hand, when an abnormality occurs in the electromagnet of the present invention, the control unit 140 detects an abnormal signal, so that the second electromagnetic valve V 'is controlled to be closed and the first electromagnetic valve V is opened. By changing the flow path to the bypass pipe 110, the electromagnet tube 132 is removed from the circulation pipe 131 of the iron distribution unit 130, thereby enabling replacement or repair of the electromagnet. Thereafter, after the iron collection unit 130 is returned to its original state by interpolating the electromagnet butte 132, the control unit 140 controls to close the first electromagnetic valve V ′ to enable normal operation for the collection of iron again. And, of course, the second electronic valve (V) is controlled to open.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and it should be understood by those of ordinary skill in the art to which the present invention relates, Of course, various modifications and variations can be made within the equivalent range.

1 is a schematic view showing an iron removing device of a pretreatment process according to an embodiment of the present invention, a view showing an operating state in which iron is collected in an electromagnet tube; and

FIG. 2 is an assembly view of the electromagnet tube of FIG. 1. FIG.

DESCRIPTION OF REFERENCE NUMERALS

100: iron removal device of the pretreatment process 110: bypass pipe

120: circulation pump 130: iron distribution unit

131: circulation pipe 132: electromagnet tube

133: cleaning tube 134: bracket

135: support bar 136: support plate

137: sealing plate 138: opening and closing cover

140: control unit 145: pressure measuring device

V: first electromagnetic valve V ': second electromagnetic valve

V ": Third electromagnetic valve

Claims (5)

Bypass pipe 110 is circulated in communication with the liquid bath storage tank for pretreatment is provided so that the liquid bath flows in and out; A circulation pump 120 disposed on a flow path of the bypass pipe 110 to forcibly circulate the liquid bath of the liquid bath storage tank; The circulation pipe 131 is connected to the liquid bath flowing into the bypass pipe 110 to flow in and out through a pair of joint pipes (C), and both ends are supported and disposed in the circulation pipe 131. An iron collecting unit 130 provided with at least one electromagnet tube 132 for generating a magnetic force when supplying power to selectively collect iron on the phase; And By measuring the pressure of the liquid bath flowing to the inlet and outlet of the circulation pipe 131, the flow of the liquid bath is prevented from flowing into the circulation pipe 131 according to the set differential pressure, and the flow path is changed to form a flow path to the bypass pipe 110. To control unit 140; Iron removal apparatus 100 of the pretreatment process comprising a. The method of claim 1, wherein the control unit 140, Cut off the power supply to the electromagnet tube 132 according to the set differential pressure to remove the iron collected on the surface of the electromagnet tube 132 to the bottom of the circulation pipe 131, the iron removal device of the pretreatment process (100) ). According to claim 2, The iron distribution unit 130, As long as the bypass pipe 110 is in communication with the circulation pipe 131 so that the washing water flows into the circulation pipe 131 to allow the iron in the bottom of the circulation pipe 131 to flow out. Iron removal apparatus 100 of the pretreatment process, characterized in that the pair is further provided with a washing pipe 133. According to claim 1 or 3, wherein the iron distribution unit 130, A plurality of annular brackets 134 having a through hole 134a formed to penetrate and fix the electromagnet tube 132, a plurality of support bars 135 for integrally supporting the brackets 134 through a plate, and the Both ends of the support bar 135 are fixed to one side, respectively, and a pair of support plates 136 having a drilling tool 136a formed therein for insertion of the electromagnet tube 132, and the other side of the support plate 136, respectively. The iron removing device 100 of the pretreatment process, characterized in that the pair is further provided with a pair of sealing plate (137) for sealing both sides of the electromagnet tube (132). The method of claim 3, wherein On the bypass pipe 110, the pair of coupling pipes (C), and the pair of cleaning pipe passages (133), a first electromagnetic valve (V) for opening and closing a flow path by a control command of the control unit (140). ), The second electromagnetic valve (V '), and the third electromagnetic valve (V ") are respectively provided iron removal device 100 of the pretreatment process.

Images