KR100591562B1 - Clip-type work hanger for electroplating device - Google Patents

Abstract

It is a clip-type work hanger which supports the flat-shaped workpiece | work W in suspension state, This work hanger attaches the some clamping clip 4 to the board | substrate 3 elongated in the horizontal direction, A movable side contact 8 is formed on an opposing surface of the movable body 13, and the movable body is configured to rotate in the up and down direction at a rotation angle at which the movable side contact is in surface contact with the work surface through the support shaft 14. Also, the contact was surely in surface contact with the workpiece having a different thickness. Moreover, the movable side clamping lever 6 which has the movable side contact 8 in the lower end part, and the said longitudinally long board | substrate are conductively connected through the conductive wire 25, and the electricity supply efficiency from a movable side contact to a workpiece is improved. did. In addition, the lower side of the clamping clip is detachably coated with a silicone rubber insulating cap 20 except for each contact, and reliably insulated except a contact with a work, and the replacement of the insulating cap is easy. Let it go.

Description

Clip-type WORK HANGER FOR ELECTROPLATING DEVICE}

The present invention relates to a clip-type work hanger in an electroplating apparatus, improves the current carrying efficiency from the negative electrode bar to the work, and prevents poor contact of the contact portion for clamping the work so as to ensure reliable current conduction. The present invention relates to a work hanger capable of stably energizing and supporting a change in the thickness of a substantially flat workpiece.

The work hanger used in the electroplating apparatus supports the workpiece | work put in the plating liquid and is plated, and energizes an electric current from the cathode bar to the said workpiece | work. As a work hanger for use in a substantially flat plate-like work such as a printed board, the present applicant has conventionally been provided with a supporting member having a supporting function suspended freely on the negative electrode bar and a contact function electrically connected to the negative electrode bar, A transversely long substrate which is integrally formed with the support member at the lower part of the support member or fixed to a surface contact state to be conductively connected to the lower part of the support member, and extends along the transverse long side direction of the workpiece; What consists of several clamping clips attached to this lateral direction board | substrate each, clamping the upper part of the said workpiece | work, and hanging this support in the suspended state is used.

In addition, as the clamping clip, the present applicant has conventionally fixed the clamping side clamping lever which is fixed in the surface contact state so that the upper part is electrically conductively connected to the substrate extending in the transverse direction, and the fixed side contact point is provided at the lower part, A movable side clamping lever pivotally attached to the intermediate portion of the clamping lever via an axis pin; a movable side contact opposed to the fixed side contact is provided below the movable clamping lever, and the fixed side An elastic member such as a coil spring is provided between the upper side of the clamping lever and the upper side of the movable-side clamping lever, and the movable side contact is fixed by the elastic pin elasticity as the support point. The upper part of the workpiece can be held in a suspended state between the movable side contact, which is pressed against the side contact and closed against the fixed side contact. I'm using the one configured so that I can

The clip-type work hanger mentioned above which the applicant has already used, as shown in FIG. 9, the lower side of the clamping clip put in the plating liquid A with the substantially flat-shaped workpiece | work W That is, a non-conductive material made of vinyl chloride resin except for the respective contact points (fixed side contact 7 and movable side contact 8) of each lower side of the fixed side gripping lever 5 and the movable side gripping lever 6. It is covered with the layer 30, and each contact point 7 and 8 protrudes slightly from the said nonelectroconductive layer 30, or is formed in substantially the same height as the surface of the said nonelectroconductive layer 30. As shown in FIG. In addition, in the clip-type work hanger shown in FIG. 9, so-called both contacts are provided in which both of the contacts 7 and 8 are fixed to both the fixed-side gripping lever 5 and the movable-side gripping lever 6 in a fixed manner. It is fixed type.

Since the so-called clip-type work hanger of the two-contact fixed type described in the prior art is set so as to be in surface contact when the thickness of the workpiece to be clamped is constant, when the thickness of the flat-shaped workpiece is changed, By this, the movable side contact 8 of the movable side gripping lever 6, in which the clamping position is displaced, is in line contact or point contact without being in surface contact with the work surface of the work W. Therefore, when the workpiece is changed to a thickness other than the setting, the workpiece cannot be reliably gripped and cannot be stably supported, and in addition, when the current is energized through the clamping clip from the cathode bar, the workpiece surface Through the fixed side contact in the contact state, it is mainly energized to the work, and from the movable side contact in the line contact or point contact state with respect to the work surface, it is not very energized to the work. This was to fall. In view of such a situation, the first object of the present invention is to ensure that the movable contact is reliably in surface contact with the workpiece surface even when the substantially flat workpiece is replaced with a workpiece having a thickness other than the setting. Provides a clip-type work hanger that enables the workpiece to be firmly gripped between the workpieces, and efficiently energizes the workpieces from the movable contact point side, thereby increasing the conductivity efficiency from the clamping clip to the workpiece as a whole. It is.

In addition, the clip-type work hanger described in the prior art passes through the surface contact portion of the conductive member (a supporting member or a longitudinally long substrate) from the cathode bar when the current flows from the cathode bar to the workpiece via the clamping clip. The electric current supplied from the movable side clamping lever 6 which is mainly energized to the workpiece through the fixed side clamping lever 5 fixed to the conductive member in the surface contact state and is not in the surface contact state with the conductive member. The current was not so much energized by the work, and the efficiency of power supply from the clamping clip to the work was inferior as a whole. In view of the above situation, the second object of the present invention is to provide a clip-type work hanger which increases the current carrying efficiency from the movable side clamping lever 6 to the work and increases the current carrying efficiency from the clamping clip to the work. It is.

In addition, the clip-type work hanger described in the prior art has a lower side of the clamping clip which is put into the plating liquid together with the work, that is, each lower side of the fixed side clamping lever 5 and the movable side clamping lever 6. Except for each contact (fixed side contact 7 and movable side contact 8), the non-conductive layer 30 made of vinyl chloride resin is covered, and each of the contacts 7 and 8 is covered with the non-conductive layer 30. It protrudes slightly from, or is formed in substantially the same height as the surface of the said non-conductive layer 30. For this reason, as shown in FIG. 9, between the said workpiece | work W surface and the said nonelectroconductive layer 30 by each contact 7 and 8 which protruded slightly from the said nonelectroconductive layer 30, The gap which exposed the circumferential wall of the contact 7 and 8 generate | occur | produces, the plating liquid invades not only the circumferential wall of each contact which is not insulated from this gap, but also each contact 7 and 8 which contacted the workpiece surface, There was a problem in which a shell-shaped plated mass P was formed and attached to the contact and the peripheral wall of each contact. For this reason, the contact defect with the workpiece | work generate | occur | produced by the shell-shaped plating mass P attached to each contact and the circumferential wall of each contact, and there existed a bad thing which caused the electricity supply failure. In addition, it is necessary to perform the operation of removing the shell-shaped plating mass P from each contact point and the peripheral wall of each contact point. The shell-shaped plating mass P is firmly attached to each contact point and the peripheral wall of each contact point. The removal work was extremely difficult because of the attachment. Moreover, although the coating body (the said non-conductive layer 30) deteriorated by the use of long-term use was replaced by the cycle of about 6 months, replacement work was difficult in the coating body which consists of vinyl chloride resins with insufficient elasticity. In view of this situation, the third object of the present invention is to insulate the lower side of the clamping clip put into the plating liquid without any contact with the work, so that each contact and the It eliminates the harmful effects of the formation of shell-shaped plated lumps on the peripheral wall of each contact point, prevents poor contact of each contact point that clamps the work, and ensures energized power. It provides a clip-type walk hanger that can be changed.

The clip-type work hanger in the electroplating apparatus according to the present invention supports the substantially flat plate-shaped workpiece W to be plated in the plating liquid A in a suspended state, and the current is supplied from the cathode bar B to the workpiece. A work hanger 1 in an electroplating apparatus that energizes the work hanger, the work hanger comprising: a support member 2 having a support function suspended from the cathode bar so as to move horizontally and a contact function electrically connected to the cathode bar; A transversely long substrate which is integrally formed with the support member at the lower part of the support member or fixed in surface contact such that it is conductively connected to the lower part of the support member, and which extends along the transverse long side direction of the workpiece ( 3) and a plurality of clamping clips 4 attached to the laterally long substrate and holding the upper part of the work, and hanging the work in the suspended state. The support member being the respective constituent parts of the work hanger such that a current is supplied from the cathode bar to the support member, the laterally elongated substrate, and the clamping clip to the workpiece from the clamping clip. And the clamping clip formed of a conductive material, and the clamping clip 4 is fixed in a surface contact state so as to be electrically connected to a substrate that is long in the transverse direction, and a fixed side contact is provided in the lower portion. A fixed-side clamping lever 5 provided with (7) and a movable-side clamping lever 6 pivotally attached to an intermediate portion of the fixed-side clamping lever via a shaft pin 10; The movable side contact 8 which faces the said fixed side contact point is provided in the lower part of this movable side gripping lever, and elasticity, such as a coil spring, between the upper side of the said fixed side gripping lever, and the upper side of the said movable side gripping lever, The movable side closed with respect to the fixed side contact by providing the ash 11 and pressing the movable side contact in the direction of closing with respect to the fixed side contact with the shaft pin as a support point by the elasticity of the elastic member. The upper part of the said workpiece | work can be pinched | interposed with a contact, Especially, in order to solve said 1st subject, the protrusion which protruded the said fixed side contact from the lower side of the said fixed side clamping lever toward the opposite direction ( 12), the movable side contact is formed on the opposing face of the movable body 13 attached to the lower part of the movable side holding lever, and the opposing face of the movable body, that is, the movable side contact, is formed on the movable side. The movable body is provided so as to protrude in the opposite direction from the pinching lever, and the movable surface is opposite to the movable surface of the movable body with respect to the fixed side contact. The support surface 14 is axially supported so as to be displaceable at an angle facing each other through the support shaft 14 so that the opposite surface of the movable body, that is, the movable side contact, is rotated in the up and down direction, and the movable body is opposed. The fixed side clamping lever which is placed in a plating solution together with the workpiece, wherein the movable side contact is configured to cope with a change in the thickness of the workpiece so that the workpiece can be clamped at a rotational angle in surface contact with the workpiece surface of the workpiece. And an insulating cap 20 for freely covering respective lower sides of the movable side gripping levers, wherein the insulating caps are formed of a non-conductive material having elasticity, and the fixed side contacts and the movable side contacts are prevented. It is a tool which formed the opening part 21 which exposes only these contacts in abdomen.

Moreover, in order to solve said 2nd subject, the clip-type work hanger in the electroplating apparatus which concerns on this invention is the upper side of the movable side clamping lever 6 of each clamping clip 4, and the said transverse direction. The long substrate 3 is electrically connected to each other via the conductive lines 25.

Moreover, in order to solve the said 3rd subject, the said clip-type work hanger in the electroplating apparatus which concerns on this invention is formed with the rubber material which is a non-conductive substance with elasticity, and this rubber | gum The protruding edge portion 22 surrounding the opening portion 21 is integrally formed in the insulating cap, and the protruding edge portion is in close contact with the circumferential wall of the protruding portion 12 or the protruding portion of the movable body. It is formed, and is formed by slightly protruding from the protruding position of each contact point. In addition, the insulating cap 20 is formed of silicone rubber which is a non-conductive material having elasticity.

1 is a partial longitudinal side view of the present invention.

2 is a front view of the present invention.

Fig. 3 is an enlarged side view of the clamping clip portion of the present invention showing the sandwiching state of the thin board-shaped workpiece.

4 is an enlarged side view of the clamping clip portion of the present invention showing the sandwiching state of a thick plate-shaped workpiece.

Fig. 5 is an enlarged exploded front view of the clamping clip portion of the present invention separated on the fixed side and the movable side and viewed from the sandwiching direction, respectively.

It is a side view which expands and shows the lower side of a movable side clamping lever.

7 is an enlarged front view of the lower side of the movable-side gripping lever seen in the gripping direction.

Fig. 8 is a side view illustrating a state in which an insulating cap is attached to the lower side of the movable side holding lever.

9 is an enlarged vertical side view illustrating a contact portion of a conventional work hanger.

An embodiment of the present invention will be described with reference to the drawings of FIGS. 1 to 8.

In the figure, reference numeral 1 denotes a work hanger used in an electroplating apparatus, and the work hanger 1 is placed in a plating solution A and placed in a suspended state in a substantially flat plate-like work W such as a printed board. It supports and energizes the said workpiece | work W from the cathode bar B. The work hanger 1 includes a support member 2 having a support function suspended from the cathode bar B so as to move horizontally and a contact function electrically connected to the cathode bar B, and the support member. The substrate 3 is fixed in the surface contact state by the fixing bolt C1 so as to be electrically connected to the lower part of (2), and extends along the transverse long side direction of the workpiece W in the transversely long direction of the substrate 3. It is attached to the board | substrate 3 which is long in this transverse direction, respectively, arrange | positioned at intervals in the transverse direction of the board | substrate 3 which is long in this transverse direction, respectively, and clamps the upper part of the said workpiece | work W, It consists of a plurality of clamping clips 4 (four in figure) which hang and support (W) in suspension state. Current is passed from the cathode bar B to the support member 2, the substrate 3 extending in the lateral direction, and the clamping clip 4 to the workpiece W from each clamping clip 4. Each component part of the said work hanger 1 (the said support member 2, the said board | substrate 3 elongate in the said lateral direction, and the said clamping clip 4) is formed of an electroconductive material so that an electricity may be supplied. Specifically, in consideration of conductivity and tensile strength, the support member 2 and the clamping clip 4 are made of stainless steel, and the transversely long substrate 3 is made of copper or brass.

The clamping clip 4 is fixed by the fixing bolt C2 in a surface contact state so that the upper portion is electrically connected to the substrate 3 that is elongated in the transverse direction, and the fixed side contact 7 is provided at the lower portion. The fixed side clamping lever 5 and the movable side clamping lever 6 which pivotally attached the intermediate part to the bracket 9 fixed to the intermediate part of this fixed side clamping lever 5 via the shaft pin 10 were made. It is provided, and the movable side contact 8 which opposes the said fixed side contact 7 is provided in the lower part of this movable side clamping lever 6. Furthermore, an elastic member 11 made of a coil spring is provided between an upper side of the fixed side gripping lever 5 and an upper side of the movable side gripping lever 6, and this elastic member (coil spring) 11 is provided. The movable side contact 8 is pressed in the direction of closing with respect to the fixed side contact 7 with the shaft pin 10 as a supporting point by the elasticity of the closed state. It is comprised so that the upper part of the said workpiece | work W can be clamped in suspension state between the movable side contacts 8. When the upper side of the movable side gripping lever 6 is pressed toward the upper side of the fixed side gripping lever 5 against the elasticity of the elastic member (coil spring) 11, the movable side contact 8 Is moved in a direction away from the fixed side contact point 7, and each contact point is opened. In addition, when attaching or detaching the workpiece W to the clamping clip 4, the upper side of the movable side clamping lever 6 of each clamping clip 4 is moved to the elastic member (coil spring) 11. At the same time, pressure is applied to resist elasticity, which is performed using a mechanical forcing force not shown in the drawing.

The fixed side contact 7 is formed as an opposing surface (normal surface) of the protruding portion 12 which protrudes from the lower side of the fixed side clamping lever 5 toward the opposite direction. This opposing surface (normal part surface), that is, the fixed side contact 7 is formed in a rectangular rectangular contact having a rectangular contact surface as shown in Fig. 5A. In the embodiment shown as the formation means of the said projection part 12 (the said fixed side contact point 7), the lower part of the opposite surface side of the stainless steel plate body which consists of the said fixed side clamping lever 5 of the said projection part 12 It cuts leaving a form, and the said fixed side clamping lever 5 and the said projection part 12 (the said fixed side contact 7) are integrally formed. Thus, since the protrusion part 12 (the said fixed side contact point 7) is integrally formed from the said fixed side clamping lever 5, the electricity supply efficiency to a work is structurally inherent compared with the said movable clamping lever 6. The electricity supply efficiency from the said high fixed side clamping lever 5 side can further be improved. In addition, the protrusion width of the protrusion part 12 shown in the figure is formed to about 3mm.

The movable side contact 8 is formed on an opposing surface of the movable body 13 attached to the lower portion of the movable side gripping lever 6, and an opposing surface of the movable body 13, that is, the movable side contact 8. Is arranged so as to protrude from the movable side clamping lever 6 toward the opposite direction. In this installation state, the movable body 13 displaces the opposing surface of the movable body 13, that is, the movable side contact 8 at an angle in which mutual contact surfaces face the front with respect to the fixed side contact 7. An opposing surface of the movable body 13, i.e., the movable side contact 8, is rotated in the up and down direction through the support shaft 14 at the lower part of the movable side clamping lever 6 so as to enable it (illustrated by arrows in FIG. 6). At a rotational angle at which the opposite surface of the movable body 13, i.e., the movable side contact 8, is in surface contact with the workpiece surface of the workpiece W, corresponding to a change in the thickness of the workpiece W. It is comprised so that the workpiece | work W can be pinched.

The movable body 13, that is, the movable side contact 8 will be described in more detail based on the illustrated embodiment. The movable body 13 is formed in a rectangular shape, and has one surface of the movable body 13 functioning as the movable side contact 8. This movable side contact 8 is formed in the rectangular contact which made the contact surface rectangular shape, as shown to FIG. 5 (b) and FIG. The lower end of the movable side holding lever 6 is formed with a groove 15 having a cross-sectional opposite reverse concave portion facing in the opposite direction. The movable body 13 is arranged in the groove 15 so that the movable side contact 8 of the movable body 13 protrudes from the groove 15 in the opposite direction, and in this arrangement installation state. The movable support body 14 is installed in the groove portion 15 in a direction orthogonal to the groove portion 15 and fixed to the shaft through the through hole 16 formed in the movable body 13. The movable side contact 8 of (13) is configured to rotate in an up and down direction (shown by an arrow in FIG. 6) about the support shaft 14. The inner surface of the through hole 16 is configured to slide around the support shaft 14 in the rotational direction, and the movable body 13 has both sidewalls of the movable body 13 of the groove 15. It is configured to rotate while sliding along the opposite side wall. As described above, the movable body 13 is slidably rotated to prevent a decrease in the conductivity efficiency of the movable body 13. The rotation of the movable body is allowed between the top surface of the groove portion 15 and the top surface of the movable body, and the range of rotation of the movable side contact 8 is directed in the direction of the fixed side contact 7. A gap 17 is regulated in the upper and lower ranges. In addition, the protruding width of the movable body 13 shown in the drawing is formed to about 3 mm.

Insulating cap 20 is installed to freely cover each fixed side of the fixed side gripping lever 5 and the movable side gripping lever 6 to be put in the plating liquid A together with the work W. These insulating caps 20 are formed of a non-conductive material having elasticity, and an opening 21 for exposing only these contacts is formed in the covering portions of the fixed side contact 7 and the movable side contact 8. The insulating cap 20 is formed of a rubber material (silicon rubber), which is a non-conductive material having elasticity, and has a protruding edge portion 22 surrounding the opening 21 in the insulating cap 20 made of silicone rubber. It is formed integrally. The protruding edge portion 22 is formed so as to cover the circumferential wall of the protruding portion 12 or the circumferential wall of the protruding portion of the movable body 13 in close contact with each other, and from the protruding positions of the respective contacts 7 and 8. It is formed by slightly protruding. The protruding edge portion 22 is formed by slightly protruding from the protruding positions of the contacts 7 and 8, but in a state of protruding from the contacts 7 and 8 in a state where the contacts 7 and 8 are opened. In the state in which each of the contacts 7 and 8 is closed, the work W is sandwiched so that each of the contacts 7 and 8 is press-contacted. In this way, each lower side of the fixed side gripping lever 5 and the movable side gripping lever 6 put together in the plating liquid A together with the work W is removed except the respective contacts 7 and 8. The insulating cap 20 is reliably separated from the plating liquid A to insulate it securely. Moreover, since the said cap 20 made from silicone rubber has especially excellent elasticity, as shown in FIG. 8, when it attaches and detaches easily, it is easy to respond to the protrusion form of each contact 7 and 8, respectively. Since it is deformed, attachment to the clamping clip or detachment from the clamping clip is easy, and the replacement work of the insulating coating (insulation cap) can be performed easily.

In FIG. 1 and FIG. 2, reference numeral 25 denotes a conductive line, and a substrate long in the transverse direction with the upper side of each of the movable side clamping levers 6 of the clamping clip 4 via the conductive line 25. In FIG. (3) is electrically connected to each other. The conductive wire 25 is coated with, for example, copper wire with a vinyl chloride resin, and the connecting end of the conductive wire 25 is formed of the substrate 3 or the movable side clamping lever which is laterally extended through the fixing bolt. It is fixed to the upper side of 6). From the negative electrode bar B by electrically connecting the upper side of each movable side clamping lever 6 of the clamping clip 4 and the transversely long substrate 3 via the conductive line 25, respectively. In the case where an electric current is passed through the workpiece W via the clamping clip 4, the surface contact portion of the conductive member (the support member 2 or the laterally long substrate 3) is removed from the cathode bar B. The electric current passed through is supplied with electricity to the work W via the fixed side clamping lever 5 fixed to the conductive member in a surface contact state, and also from the movable side clamping lever 6. It is energized efficiently, and the electricity supply efficiency from the said clamping clip 4 to the workpiece | work W as a whole can be improved, and the electricity supply efficiency from the cathode bar B to the workpiece | work W can be improved.

According to the clip-type work hanger in the electroplating apparatus which concerns on this invention (as described in Claims 1 and 2), the protrusion which protruded the said fixed side contact from the lower part of the said fixed side clamp lever toward the opposite direction. (12), the movable side contact is formed on the opposing face of the movable body (13) attached to the lower part of the movable side holding lever, and the opposing face of the movable body (i.e., the movable side contact) is movable. The movable body is arranged so as to protrude in the opposite direction from the side clamping lever, so that the movable body is capable of displacing the opposite surface of the movable body, that is, the movable side contact with the fixed side contact at an angle in which the mutually contacting surfaces face each other. It is supported by the support shaft 14 in the lower part of the said movable side clamping lever so that the opposing surface of this movable body, ie, a movable side contact, may be rotated in an up-down direction, and the opposing surface of the movable body, ie By configuring the movable-side contact to correspond to a change in the thickness of the workpiece so that the workpiece can be held at a rotational angle in surface contact with the workpiece surface of the workpiece, the substantially flat-shaped workpiece is replaced with a workpiece having a thickness other than a setting. Even in this case, the movable side contact is securely in surface contact with the work surface, and the workpiece can be reliably sandwiched between the fixed side contact and the energized work efficiently from the movable side contact side as a whole. The conductivity from the clip to the workpiece can be increased, and the conductivity from the cathode bar to the workpiece can be increased.

Moreover, according to the clip-type work hanger in the electroplating apparatus which concerns on this invention (as described in Claim 4), the upper side of each movable side clamping lever 6 of the said clamping clip 4, and the said transverse When electrically conducting a current from the negative electrode bar to the workpiece through the clamping clip by electrically connecting the substrates 3 extending in the direction through the conductive lines 25, the conductive members (the support member or the transverse side) are connected to the negative electrode bars. Current passing through the surface contacting portion of the substrate long in the direction is energized to the workpiece W through the fixed clamping lever of the clamping clip fixed to the conductive member in a surface contact state, and the clamping clip The work side W can be efficiently energized from the movable side clamping lever of the same, and as a whole, the power supply efficiency from the clamping clip to the work can be improved, and the power supply efficiency from the negative electrode bar to the work W can be increased. Can.

Moreover, according to the clip-type work hanger in the electroplating apparatus which concerns on this invention (as described in Claim 5, Claim 6), each contact (at the lower side of the clamping clip put into a plating liquid with a workpiece | work) The fixed side contact point and the movable side contact point are in surface contact with the work surface reliably, and each of the lower side of the fixed side gripping lever and the movable side gripping lever, except for the respective contacts, is a non-conductive material having elasticity. By covering with the insulating cap 20 formed of the ash (preferably the silicone rubber which has the outstanding elasticity), the lower side of the clamping clip containing each contact can be reliably dropped from a plating liquid, and can insulate reliably. Therefore, according to the present invention, it is possible to solve the problem that the shell-shaped plated lumps are formed and attached around the contact including the contact as in the conventional work hanger, and to prevent the poor contact of the contact clamping the work, so as to conduct electricity. To make it possible. Furthermore, according to the insulating cap formed of silicone rubber, since it has particularly excellent elasticity, it is easily deformed to correspond to the protruding form of each contact point at the time of its desorption, so that it can be easily attached to the clamping clip or the clamping clip. Desorption is easy, and the replacement work of the insulating coating (insulation cap) can be performed easily.

Claims (7)

It is the work hanger 1 in the electroplating apparatus which supports the substantially W-shaped workpiece | work W put in the plating liquid A and to be plated, and electric current is supplied from the cathode bar B to the said workpiece | work, The work hanger is composed of a support member 2 having a support function which is hung freely laterally to the cathode bar and a contact function that is conductively connected to the cathode bar, and is integrally formed with the support member at the bottom of the support member. Or it is fixed by surface contact so that it may be electrically connected to the lower part of the said support member, and is attached to the board | substrate 3 extended in the horizontal direction extended along the horizontal side of the said workpiece, and the board | substrate long in this horizontal direction, respectively, It consists of the several clamping clip 4 which clamps the upper part of the said workpiece | work, and hangs this workpiece in suspension state, and an electric current is sent from the said cathode bar to the said support member, the said lateral direction The support member, the transversely long substrate, and the clamping clip, which are the respective constituent parts of the work hanger, are formed of a conductive material so as to conduct electricity from the clamping clip to the workpiece via the elongated substrate and the clamping clip. And the clamping clip 4 is fixed to a clamping lever 5 having an upper portion fixed in a surface contact state so as to be conductively connected to a substrate elongated in the transverse direction and provided with a fixed side contact 7 at a lower portion thereof; A movable side gripping lever 6 which pivotally attaches the intermediate part via the shaft pin 10 in the middle part of this fixed side clamping lever, and is movable in the lower part of this movable side clamping lever facing the said fixed side contact. A side contact 8 is provided, and an elastic member 11 such as a coil spring is provided between an upper side of the fixed side gripping lever and an upper side of the movable side gripping lever. Shaft pin The movable side contact point is pressed in the direction of closing with respect to the fixed side contact point as a point, and the upper part of the work can be pinched between the movable side contact point closed with respect to the fixed side contact point. The fixed side contact is formed on the opposing surface of the protrusion 12 protruding toward the opposite direction from the lower side of the fixed side clamping lever, and the movable side contact of the movable body 13 attached to the lower portion of the movable side clamping lever. It is formed on the opposing surface, Arranged so that the opposing surface of the said movable body, ie, a movable side contact, may protrude toward the opposing direction from the said movable side clamping lever, The said movable body may make the opposing surface of this movable body, ie, said movable side contact, said Through the support shaft 14 in the lower part of the movable side holding lever so that the contact surfaces of each other with respect to the fixed side contacts are displaceable at an angle facing each other in front. Rotation which is axially supported so that the opposite surface of the movable body, that is, the movable side contact, is rotated in the up and down direction, and the surface facing the workpiece surface of the workpiece while the opposite surface of the movable body, that is, the movable side contact corresponds to the change in thickness of the workpiece The insulating cap 20 is provided so that a workpiece | work can be clamped at an angle, and it detachably coats each lower side of the said fixed side clamping lever and the movable side clamping lever which are put in the plating liquid with the said workpiece, and these The insulating cap is formed of a non-conductive material having elasticity, and an opening 21 is formed in the cover portion of the fixed side contact and the movable side contact so as to expose only these contacts. Walk hanger. The movable body 13 is formed in a rectangular shape, and one surface of the movable body functions as the movable side contact 8, and the opposite direction to the lower end of the movable side clamping lever 6 is applied. A groove 15 having a cross-sectional reverse concave portion facing toward the groove is formed, and the movable body is arranged in this groove such that the movable side contact of the movable body protrudes from the groove toward the opposite direction. In this state, the movable side contact of the movable body is supported by passing through the through hole 16 formed in the movable body the support shaft 14 that is temporarily installed in the groove orthogonal to the groove. The movable body is configured to rotate in an up and down direction about an axis, and the movable body is configured to rotate while both sidewalls of the movable body slide along opposite sidewalls of the groove, A clip-type work hanger in an electroplating apparatus, comprising a gap (17) for allowing rotation of the movable body and restricting a rotation range between the top surface of the movable body. The said fixed side contact point 7 cut | disconnects the lower part of the opposing surface side of the board | plate-shaped member used as the said fixed side clamping lever 5, leaving the form of the said projection part 12, and the top part of the projection part. A clip-type work hanger in an electroplating apparatus, characterized in that the surface is formed as a fixed side contact point (7). It is a work hanger 1 in the electroplating apparatus which supports the substantially flat plate-shaped workpiece W put in the plating liquid A and is plated, and energizes the said workpiece from the cathode bar B, The work hanger is composed of a support member 2 having a support function which is hung freely and laterally supported by the cathode bar and a contact function that is conductively connected to the cathode bar, and is integrally formed with the support member at the bottom of the support member. Or secured in a surface contact state so as to be conductively connected to a lower portion of the support member, and attached to a transversely long substrate 3 extending along the transverse long side direction of the workpiece, and to the transversely long substrate, respectively. It consists of the several clamping clip 4 which clamps the upper part of the said workpiece | work, and hangs this workpiece | work in suspension state, and an electric current is sent from the said cathode bar to the said support member, the said transverse direction The support member, the transversely long substrate, and the clamping clip, which are the respective constituent parts of the work hanger, are formed of a conductive material so as to conduct electricity from the clamping clip to the workpiece via the elongated substrate and the clamping clip. The clamping clip 4 includes a fixed side clamping lever 5 which is fixed in a surface contact state so that an upper portion thereof is conductively connected to a substrate that is long in the transverse direction, and a fixed side contact 7 is provided at a lower portion thereof; A movable side gripping lever 6 which pivotally attaches the intermediate part via the shaft pin 10 in the middle part of this fixed side clamping lever, and is movable in the lower part of this movable side clamping lever facing the said fixed side contact. A side contact 8 is provided, and an elastic member 11 such as a coil spring is provided between an upper side of the fixed side gripping lever and an upper side of the movable side gripping lever. Supporting shaft pin Each of the narrowings is configured to press the movable side contact point in the closing direction with respect to the fixed side contact point, and to sandwich the upper portion of the workpiece with the movable side contact point closed with respect to the fixed side contact point. The clip type in the electroplating apparatus characterized by electrically connecting the upper side of the movable side clamping lever 6 of the paper clip 4 and the said board | substrate 3 elongated in the said transverse direction via the conductive wire 25, respectively. Walk hanger. It is a work hanger 1 in the electroplating apparatus which supports the substantially flat plate-shaped workpiece W put in the plating liquid A and is plated, and energizes the said workpiece from the cathode bar B, This work hanger is comprised integrally with the support member 2 at the lower part of this support member, and the support member 2 which has a support function which is hung freely by the said cathode bar, and the contact function conductively connected to this cathode bar, Or secured in a surface contact state so as to be conductively connected to a lower portion of the support member, and attached to a transversely long substrate 3 extending along the transverse long side direction of the workpiece, and to the transversely long substrate, respectively. It consists of the several clamping clip 4 which clamps the upper part of the said workpiece | work, and hangs this workpiece | work in suspension state, and an electric current is sent from the said cathode bar to the said support member, the said transverse direction The support member which is each said component part of the said work hanger, the said board | substrate long in the said transverse direction, and the said clip for clamping are formed of an electroconductive material so that it may be energized from each clamping clip to the said workpiece via an elongate board | substrate and the said clip for clamping, The clamping clip 4 includes a fixed side clamping lever 5 which is fixed in a surface contact state so that an upper portion thereof is conductively connected to a substrate that is long in the transverse direction, and a fixed side contact 7 is provided at a lower portion thereof; A movable side gripping lever 6 which pivotally attaches the intermediate part via the shaft pin 10 in the middle part of this fixed side clamping lever, and is movable in the lower part of this movable side clamping lever facing the said fixed side contact. A side contact 8 is provided, and an elastic member 11 such as a coil spring is provided between an upper side of the fixed side gripping lever and an upper side of the movable side gripping lever. Support shaft pin The upper side of the workpiece is configured to be pressurized in the direction in which the movable side contact is closed with respect to the fixed side contact and between the movable side contact closed with respect to the fixed side contact. The contact and the movable side contact are formed to protrude toward the opposite direction, the insulating cap 20 for freely covering each of the fixed side gripping lever and the lower side of the movable gripping lever which are put into the plating liquid together with the workpiece. These insulating caps are formed of a non-conductive material having elasticity, and form an opening 21 for exposing each contact point to the insulating cap, and at the same time integrally projecting edge portions 22 surrounding the opening. And the protruding edge portion is formed so as to closely cover the circumferential wall of each protruding contact, and further, Clip-type work hanger in the electroplating apparatus characterized by protruding slightly. 6. The clip-type hanger of claim 1 or 5, wherein the insulating cap (20) is made of silicone rubber which is a non-conductive material having elasticity. The clip type according to claim 1, 2, 3 or 5, wherein the fixed side contact 7 and the movable side contact 8 are formed in a rectangular contact. Walk hanger.

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