JP2020147823A - Transport hanger device for electrodeposition coating - Google Patents

Abstract

To provide a transport hanger device for electrodeposition coating in which a treatment facility for each process in common can be shared and used even when a type of a to-be-coated component is changed or a part of an electrodeposition coating process is changed.SOLUTION: A caster 7 of a transport hanger A at least comprises: a hanger body 1 arranged at the upper side of the caster 7; a fitting bracket 2 arranged at the lower side of the hanger body 1 through an insulator 3; an elastic contact piece 4 arranged in the middle of the fitting bracket 2; and a hanger member 5 arranged at the lower side of the fitting bracket 2. The casters are hung on at least two transport rails 8 set in parallel. In addition, the two transport rails 8 are adjacent to each other, one of which has a bypass forming a bent portion in the middle.SELECTED DRAWING: Figure 1

Description

The present invention relates to a transfer hanger device for electrodeposition coating, and more particularly to a transfer hanger device for cationic electrodeposition coating capable of continuously coating a plurality of parts to be coated having different coating conditions.

In the conventional electrodeposition coating line, a transport hanger is hung on one transport rail for transport. For this reason, it is necessary to set the setting conditions for electrodeposition coating every time the parts to be coated are changed, which causes a problem in workability.
Further, in the conventional electrodeposition coating line, a separate electrodeposition coating facility is newly installed for each different electrodeposition coating process for transporting the parts to be coated, and one line is used for the equipment of the different dedicated process. I went by the transport rail.

Further, in Patent Document 1, two hooks (hanger members) are provided on both sides of one transport hanger body (see FIGS. 1 and 3), and in Patent Document 2, the transport hanger is provided as shown in FIG. Proposed ones with multiple hooks arranged.

Japanese Unexamined Patent Publication No. 2011-184716 Utility Model Registration No. 3203224

However, in Patent Document 1 and Patent Document 2, two or a large number of parts of the same type are transported to one processing tank for electrodeposition coating, and other types of parts are subjected to the same processing tank. There was no idea of transporting the parts to the electrode coating, and there was no idea that the parts hung on one of the transport hangers moved to another part of the process during the transport and returned to the process again.

According to the present invention, even if the type of the part to be painted changes, the processing equipment of each common process can be shared and used, and the part to be painted can be continuously flowed without stopping the line. An object of the present invention is to provide a transport hanger device for coating.

Another object of the present invention is to provide a transport hanger device for electrodeposition coating that can be shared and used by processing equipment of each common process even if a part of the electrodeposition coating process is changed.

The present invention has been made in view of the above situation, that is, at least between a hanger body having casters on the upper part, a mounting bracket provided on the lower part of the hanger body via an insulator, and the mounting bracket. The casters of the transport hanger, which is composed of the elastic sliding contact piece provided in the above, the hanger member provided in the lower part of the mounting bracket, and the caster of the transport hanger, are hung on at least two parallel transport rails. Further, two transport rails may be adjacent to each other, and one of the transport rails may be formed with a bent portion that detours in the middle. Further, the elastic sliding contact piece is provided with a stopper means for holding the pressing force, and the stopper means includes a stopper material hanging from the center of the two transport rails, and insulating bands provided on both sides of the stopper material. It is composed of a guide caster provided on the mounting bracket on the opposite side of the elastic sliding contact piece, and the central part of the mounting bracket is formed in a U shape, and the elastic sliding contact piece is fixed to the convex side of the central part. It is preferable to provide a guide caster on the concave side of the central portion, and it is preferable to provide a dust receiver below the insulating band.

As in claim 1, at least a hanger body (1) provided with casters (7) at the top, and a mounting bracket (2) provided at the bottom of the hanger body (1) via an insulator (3). The caster (7) of the transport hanger (A) composed of the elastic sliding contact piece (4) provided in the middle of the mounting bracket (2), the hanger member (5) provided in the lower part of the mounting bracket (2), and the caster (7) of the transport hanger (A). By hanging on at least two parallel transport rails (8), even if the type of parts to be coated changes, the common processing equipment for each process can be shared and used, and the line can be used without stopping. It becomes possible to continuously flow the parts to be painted.

By adjoining the transport rails (8) as in claim 2, it is possible to deal with it by increasing the size of the processing tank a little, so one turnover for 3 months (the coating liquid is used up in 3 months and new coating is performed). When (adding liquid), the amount of cationic electrodeposition coating liquid needs to be slightly increased compared to the case of one line, and the increase in maintenance cost can be suppressed.

As shown in claim 3, by forming a bent portion (81) that bypasses in the middle of one of the transport rails (8), a new process is added in the middle of the process or the paint is changed to another paint. Therefore, even if a line dedicated to the additional process or a separate coating as in the past is not provided, after performing the additional process, the original runy can be returned to (see FIGS. 4 and 5), or Even if part of the electrodeposition coating process changes, the common processing equipment for each process can be shared and used. Therefore, it is possible to combine the two lines into approximately one line and carry out the process of the two lines, which makes it possible to effectively use the electrodeposition coating equipment and reduce the maintenance cost.

As shown in claim 4, the elastic sliding contact piece (4) is provided with a stopper means (6) for holding the pressing force, and the stopper means (6) is provided from the center of the two transport rails (8). The hanging stopper material (61), the insulating bands (62) provided on both sides of the stopper material (61), and the guide casters (63) provided on the mounting bracket (2) opposite to the elastic sliding contact piece (4). ), And the central portion (21) of the mounting bracket (2) is formed in a U shape, and the elastic sliding contact piece (4) is fixed to the convex side of the central portion (21). By providing the guide caster (63) on the concave side of the central portion (21), the elastic sliding contact piece (4) can maintain a stable pressing force and the width between the mounting brackets (2) can be narrowed. It can be made smaller than the size of the treatment tank in the state of claim 1, and the amount of cationic electrodeposition coating liquid at the time of one turnover for three months can be reduced, and the increase in maintenance cost can be further suppressed.

By providing the dust receiver (9) below the insulating band (62) as in claim 5, dust and the like generated when the guide caster (63) abuts on the insulating band (62) and travels can be collected from the treatment tank. There is no risk of falling into.

It is a front view which shows the embodiment of this invention. It is a side view of the transport hanger which shows the embodiment of this invention. It is a perspective view which shows the main part of the transport hanger of this invention. It is a block diagram which shows the state which the electrodeposition coating process is performed using the product of this invention. It is a block diagram which shows the state which another electrodeposition coating process is performed using the product of this invention.

An embodiment of the present invention will be described with reference to FIGS. 1 to 3. (A) is a transport hanger for moving a part to be coated to perform electrodeposition coating, and the transport hanger (A) is hung on each of two adjacent transport rails (8) in parallel. The two transport hangers (A) are hung back to back (one of them faces in the opposite direction), but the central portion (21) of the mounting bracket (2), which will be described later, is not formed in a U shape and is flat. Is hung so that the direction of the hook at the bottom of the hanger member (5), which will be described later, is back to back as shown in FIG.

(1) is a hanger main body, and the hanger main body (1) has a pair of connecting rods (11) suspended from casters (7) and a plate (12) to which the connecting rods (11) are fixed to both ends. And there is. The hanger body (1) is hung on two transport rails (8) via respective casters (7).

(2) is a mounting bracket provided on the lower part of the hanger main body (1) via an insulator (3) described later, and the mounting bracket (2) is separated from the hanger main body (1) and the hanger main body (1) is separated. ) Is in a non-dentsu state. Further, the central portion (21) of the mounting bracket (2) is formed in a U shape. The central portion (21) does not necessarily have to be formed in a U shape, and may remain flat as long as there is a space between the mounting brackets (2).

(3) is a bakelite insulator fixed to both sides of the plate (12) of the hanger body (1) with the end of the mounting bracket (2) sandwiched between them. The insulator (3) is not limited to the one made of bakelite.

(4) is an elastic sliding contact piece fixed to the convex side of the central portion (21) of the mounting bracket (2), and the elastic sliding contact piece (4) has a substantially square shape as shown in FIG. There is a bent plate-shaped push spring (41) and a carbon feeding slide connector (42) attached to the tip of the push spring (41).
Reference numeral (5) is a hanger member provided in the lower part of the mounting bracket (2), and the lower end portion of the hanger member (5) is formed in a hook shape.

(6) is a stopper means provided on the elastic sliding contact piece (4) to hold the pressing force, and the stopper means (6) is a stopper material hanging from the center of the two transport rails (8). There are (61), insulating bands (62) provided on both sides of the stopper material (61), and guide casters (63) provided on the concave side of the central portion (21) of the mounting bracket (2). Further, the elastic sliding contact piece (4) is fixed to the convex side of the central portion (21) of the mounting bracket (2), and the guide caster (63) is provided on the concave side of the central portion (21). Further, the insulating band (62) is provided in parallel with an electrode of a cationic electrodeposition tank (not shown), and the insulating band (62) is provided so as to be in contact with a guide caster (63). Duracon resin is preferable as the material of the insulating band (62), but the material is not limited thereto.

(7) is a pair of casters provided on the upper part of the hanger main body (1).
As shown in FIG. 1, (8) is a transport rail in which two rails are arranged side by side in parallel, and the transport rails (8) are fixed adjacent to each other when passing through the processing equipment of each shared process. As shown in the B line shown in FIGS. 4 and 5, a bent portion (81) is formed to bypass the middle of one of the transport rails (8). An additional step, a color cation electrodeposition step, or a cation electrodeposition step of another component is performed via the bent portion (81). Further, the bent portion (81) is not limited to the positions shown in FIGS. 4 and 5, and is appropriately formed between steps according to the types of additional steps and selection steps.
Reference numeral (9) is a dust receiver provided below the stopper material (61) and the insulating band (62).

Next, using the product of the present invention, the flow of the parts to be coated when the two transport rails (8) are fixed adjacent to each other without the bent portion (81) shown in FIG. 4 will be described. At this time, although not shown, first, parts to be painted (not shown) are sequentially hung and flowed on the hanger member (5) of one line. After the hanging work of one line is completed, different types of parts to be painted are sequentially hung and flowed on the hanger member (5) of the other line. At this time, the transport speed is set so that the transport speed of one line and the transport speed of the other line have a processing time that matches each part to be coated. Then, the cationic electrodeposition coating process is sequentially performed through each processing process. Even with such different painted parts, if the transport speed of one line and the transport speed of the other line are set in advance, different painted parts can be continuously hung and flowed without stopping the line. It becomes possible. The hanging order in this case is not limited to the above order. For example, if there are two hanging workers, the parts to be painted may be alternately hung and flowed to each line.

Next, the flow of the parts to be painted in the case of the A line shown in FIG. 4 and the B line forming the bent portion (81) will be described. First, when the parts to be painted are sequentially hung on the hanger member (5) of the A line and flowed, the parts to be painted suspended on the A line are first subjected to a degreasing step and then a surface adjustment step. After that, a chemical conversion film step, a cationic electrodeposition step, and a drying step are performed to complete the process. After that, when another part to be painted is sequentially hung on the hanger member (5) of the B line and flowed, the degreasing process is first performed in the same manner as the A line, and then the addition is performed via the bent portion (81). Perform the process and return to the A line side. As additional steps at this time, for example, a slag removing step, a water washing step, and the like are performed, and then a surface adjusting step, a chemical conversion film step, a cation electrodeposition step, and a drying step are carried out in the same manner as in the A line, and the process is completed.

Further, the flow of the parts to be painted in the case of the A line shown in FIG. 5 and the B line forming the bent portion (81) will be described. The flow of the part to be painted suspended on the A line is the same as in FIG. 4, and the flow of another part to be painted suspended on the hanger member (5) of the B line is first subjected to a degreasing step and then the surface. The adjustment step and the chemical conversion film step are performed, and before the cation electrodeposition step, a color cation electrodeposition step, a cation electrodeposition step of other components, or an additional step is performed via the bent portion (81). After performing the color cation electrodeposition step and the like, the process returns to the A-line side and the drying step is performed.

In this way, by forming the bent portion (81) in the B line in particular, it becomes possible to perform an additional step, a color cation electrodeposition step, a cation electrodeposition step of other components, and the like, and the A line is processed. By sharing the tank, it becomes possible to perform the electrodeposition coating process of two types of parts to be coated.

A Transport hanger 1 Hanger body 2 Mounting bracket 3 Insulator 4 Elastic sliding contact piece 5 Hanger member 6 Stopper means
61 Stopper material
62 Insulation zone
63 Guide casters 7 Caster 8 Transport rails 9 Dust catcher

Claims (5)

At least, a hanger body (1) having casters (7) on the upper part, a mounting bracket (2) provided on the lower part of the hanger body (1) via an insulator (3), and the mounting bracket (2). The caster (7) of the transport hanger (A) composed of the elastic sliding contact piece (4) provided in the middle of the above, the hanger member (5) provided at the lower part of the mounting bracket (2), and the caster (7) of the transport hanger (A) are parallel to each other. A transport hanger device for electrodeposition coating, characterized in that it is hooked on two transport rails (8). The transport hanger device for electrodeposition coating according to claim 1, wherein two transport rails (8) are adjacent to each other. The transport hanger device for electrodeposition coating according to claim 1 or 2, wherein a bent portion (81) that detours in the middle is formed on one of the transport rails (8). The elastic sliding contact piece (4) is provided with a stopper means (6) for holding a pressing force, and the stopper means (6) is a stopper material (6) hanging from the center of the two transport rails (8). 61), insulating bands (62) provided on both sides of the stopper material (61), and guide casters (63) provided on the mounting bracket (2) opposite to the elastic sliding contact piece (4). The elastic sliding contact piece (4) is fixed to the convex side of the central portion (21) by forming the central portion (21) of the mounting bracket (2) in a U shape. The transport hanger device for electrodeposition coating according to claim 1, wherein the guide caster (63) is provided on the concave side of the central portion (21). The transport hanger device for electrodeposition coating according to claim 4, wherein a dust receiver (9) is provided below the insulating band (62).