CN204298497U - Vertical continuous electroplanting device - Google Patents

Abstract

A kind of vertical continuous electroplanting device is used for carrying out vertical continuous plating or cleaning to circuit card.Vertical continuous electroplanting device comprises initiatively wheels, driven wheels, the first travelling belt, the second travelling belt, conductive guide, hanger guide rail, multiple first conduction suspension member, the second conduction suspension member, flexible cable and hanger head.Initiatively wheels and driven wheels are in transmission connection by the first travelling belt and the second travelling belt.First conduction suspension member and second conducts electricity suspension member and realizes being electrically connected by flexible cable.First travelling belt and the second travelling belt drive, and the first conduction suspension member is moved along conductive guide, and the second conduction suspension member is along hanger guide rail movement.Hanger head second conducts electricity one end of suspension member, and hanger head is used for connecting circuit board.Above-mentioned vertical continuous electroplanting device, by conductive guide and hanger guide rail two guide rails separated, time circuit card is vibrated, conductive guide can not vibrate, and avoids conductive guide to come in contact the problems such as bad, improves electroplating effect.

Description

Vertical continuous electroplanting device

Technical field

The utility model relates to a kind of electroplanting device, particularly relates to a kind of vertical continuous electroplanting device.

Background technology

At present, because printed circuit board (PCB) is provided with perforate, therefore, when electroplating printed circuit board (PCB), in perforate, easily there is bubble, and affects electroplating effect.In traditional vertical continuous electroplating process, conductive guide alives, and hanger head hang on conductive guide, and hanger head is electrically connected with conductive guide.Hanger head is used for being connected with circuit card, and is electrically connected with circuit card.In electroplating process, if want, by vibrating circuit plate, to reach the object of the bubble removed on circuit card, then hanger head can be caused to vibrate.Hanger head vibrates, and the joint gap of the circuit of conductive guide can be caused to beat, easily cause the poor electric contact of conductive guide, affect electroplating effect.

Utility model content

Based on this, be necessary to provide a kind of vertical continuous electroplanting device that can improve electroplating printed circuit board effect.

A kind of vertical continuous electroplanting device, for electroplating circuit board, comprise initiatively wheels, driven wheels, the first travelling belt, the second travelling belt, multiple first conduction suspension member, multiple second conduction suspension member, multiple first joggle piece, multiple second joggle piece, conductive guide, hanger guide rail, multiple flexible cable and hanger head;

Described active wheels and described driven wheels are oppositely arranged, described active wheels comprise the first motion-work wheel, the second motion-work wheel and main drive shaft, described main drive shaft passes the center of circle of described first motion-work wheel and the second motion-work wheel, and be rotatably connected with described first motion-work wheel and the second motion-work wheel, described driven wheels comprise the first follow-up pulley, the second follow-up pulley and driven shaft, described driven shaft passes the center of circle of described first follow-up pulley and the second follow-up pulley, and is rotatably connected with described first follow-up pulley and the second follow-up pulley;

Described first travelling belt is in transmission connection described first motion-work wheel and described first follow-up pulley, and described second travelling belt is in transmission connection described second motion-work wheel and described second follow-up pulley;

Described first motion-work wheel and described first follow-up pulley are between two described conductive guides be oppositely arranged, and described second motion-work wheel and the second follow-up pulley are between two described hanger guide rails be oppositely arranged;

Described first conduction suspension member is slidably located on described conductive guide, first conduction suspension member described in each is all fixedly installed described first joggle piece, described first conduction suspension member is electrically connected with described conductive guide, described first joggle piece engages with described first motion-work wheel, and described first travelling belt drives described first conduction suspension member to move along described conductive guide;

Described second conduction suspension member is slidably located on described hanger guide rail, second conduction suspension member described in each is all fixedly installed described second joggle piece, described second conduction suspension member is electrically connected with described hanger guide rail, described second joggle piece engages with described second motion-work wheel, and described second travelling belt drives described second conduction suspension member along described hanger guide rail movement;

One first conduction suspension member corresponding to each flexible cable electrical connection conducts electricity suspension member with corresponding one second, and first, second of correspondence conducts electricity suspension member is synchronized with the movement;

Described hanger head is fixedly connected with described second joggle piece, and described hanger head is for connecting described circuit card, and to make described circuit card with described second joggle piece motion, described circuit card is electrically connected with described second joggle piece.

Wherein in an embodiment, go back involving vibrations device, described vibrator is fixed on described hanger guide rail.

Wherein in an embodiment, described vibrator is that electricity shakes motor or pneumatic motor.

Wherein in an embodiment, the equal diameters of described first motion-work wheel and the second motion-work wheel, the equal diameters of described first follow-up pulley and the second follow-up pulley.

Wherein in an embodiment, the equal diameters of described first motion-work wheel, the second motion-work wheel, the first follow-up pulley and the second follow-up pulley.

Wherein in an embodiment, described conductive guide and hanger guide rail include insulation layer and the conductive layer stacked with described insulation layer, described insulation layer is used for being connected with extraneous upholder, and described first conduction suspension member and described second conduction suspension member are electrically connected with described conductive layer.

Wherein in an embodiment, described first conduction suspension member offers groove, and described conductive guide is contained in described groove.

Wherein in an embodiment, described second conduction suspension member is T-shaped, and described second conduction suspension member comprises stub end and little head end, and described hanger head is located at described little head end, and described circuit card is held on described hanger head.

Wherein in an embodiment, also comprise multiple insulation covering be sheathed on described first travelling belt and the second travelling belt, described insulation covering is located between two described second joggle pieces between two described first joggle pieces on same described first conduction suspension member and on same described second conduction suspension member.

Wherein in an embodiment, the two ends of described flexible cable are equipped with pin, and the pin and described first of one end of described flexible cable conducts electricity suspension member and is electrically connected, and the pin and described second of the other end conducts electricity suspension member and is electrically connected.

Above-mentioned vertical continuous electroplanting device, by conductive guide and hanger guide rail two guide rails separated, and by flexible cable, makes to realize between conductive guide with the circuit card on hanger head being electrically connected.Because hanger guide rail is not directly fixedly connected with between conductive guide, therefore in time vibrating the circuit card on hanger head, conductive guide can not vibrate, and avoids conductive guide to come in contact the problems such as bad, improves electroplating effect.

Further, by arranging vibrator on hanger guide rail, hanger guide rail can be made to drive circuit card vibration, thus can discharge, to strengthen the effect of plating by the bubble in the perforate of circuit card.Vibrator convenient disassembly, is convenient to safeguard.

Further, above-mentioned vertical continuous electroplanting device can also be used for cleaning circuit plate.In the process that tradition is cleaned circuit card, the cylinder impact hanger head in rinse bath, makes circuit card vibrate, to reach the object improving cleaning effect, because cylinder is precision components, adds the cost of manufacture of device.And above-mentioned vertical continuous electroplanting device replaces cylinder by using vibrator, because this reducing cost of manufacture.

Accompanying drawing explanation

Fig. 1 is the three-dimensional structure diagram of the vertical continuous electroplanting device of present embodiment;

Fig. 2 is the partial enlarged drawing of the part A of the vertical continuous electroplanting device shown in Fig. 1.

Embodiment

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.Better embodiment of the present utility model is given in accompanying drawing.But the utility model can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make to disclosure of the present utility model understand more thorough comprehensively.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement just for illustrative purposes, do not represent it is unique embodiment.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in specification sheets of the present utility model herein just in order to describe concrete embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Refer to Fig. 1, the vertical continuous electroplanting device of present embodiment is used for carrying out vertical continuous plating or cleaning to circuit card.Vertical continuous electroplanting device 100 comprises initiatively wheels 110, driven wheels 120, first travelling belt 131, second travelling belt 132, conductive guide 141, hanger guide rail 142, multiple first conduction suspension member 151, second conduction suspension member 152, multiple first joggle piece 161, multiple second joggle piece 162, flexible cable 170 and hanger head 180.Initiatively wheels 110 and driven wheels 120 are in transmission connection by the first travelling belt 131 and the second travelling belt 132.The both sides of initiatively wheels 110 and driven wheels 120 are located at by conductive guide 141 and hanger guide rail 142, and are positioned at two planes.Multiple first conduction suspension member 151 is located on conductive guide 141.First joggle piece 161 is located on the first conduction suspension member 151.Multiple second conduction suspension member 152 is located on hanger guide rail 142.Second joggle piece 162 is located on the second conduction suspension member 152.First conduction suspension member 151 and second conducts electricity suspension member 152 to be passed through flexible cable 170 and realizes being electrically connected.First joggle piece 161 and the second joggle piece 162 engage with active wheels 110, and are driven by the first travelling belt 131 and the second travelling belt 132, and the first conduction suspension member 151 is moved along conductive guide 141, and the second conduction suspension member 152 moves along hanger guide rail 142.One end of hanger head 180 second conduction suspension member 152, hanger head 180 is for connecting circuit board.

Initiatively wheels 110 comprise the first motion-work wheel 111, second motion-work wheel 112 and main drive shaft 113.Main drive shaft 113 passes the center of circle of the first motion-work wheel 111 and the second motion-work wheel 112, and is rotatably connected with the first motion-work wheel 111 and the second motion-work wheel 112.Specifically in the present embodiment, the equal diameters of the first motion-work wheel 111 and the second motion-work wheel 112.Then the first motion-work wheel 111 and the second motion-work wheel 112 are with identical rotational speed, and the first motion-work wheel 111 is identical with the linear velocity at the second motion-work wheel 112 edge.

Driven wheels 120 comprise the first follow-up pulley 121, second follow-up pulley 122 and driven shaft 123.Driven shaft 123 passes the center of circle of the first follow-up pulley 121 and the second follow-up pulley 122, and is rotatably connected with the first follow-up pulley 121 and the second follow-up pulley 122.Specifically in the present embodiment, the equal diameters of the first follow-up pulley 121 and the second follow-up pulley 122.Then the first follow-up pulley 121 and the second follow-up pulley 122 are with identical rotational speed, and the first follow-up pulley 121 is identical with the linear velocity at the second follow-up pulley 122 edge.

First motion-work wheel 111 and the first follow-up pulley 121 are in transmission connection by the first travelling belt 131.Second motion-work wheel 112 and the second follow-up pulley 122 are in transmission connection by the second travelling belt 132.First travelling belt 131 is equal with the length of the second travelling belt 132.Due to the equal diameters of the first motion-work wheel 111 and the second motion-work wheel 112, the equal diameters of the first follow-up pulley 121 and the second follow-up pulley 122, then the first travelling belt 131 travelling speed is identical with the travelling speed of the second travelling belt 132.First travelling belt 131 and the second travelling belt 132 are synchronized with the movement.

Be appreciated that the diameter of the first motion-work wheel 111, second motion-work wheel 112, first follow-up pulley 121 and the second motion-work wheel 112 is all equal, the easy to process of initiatively wheels 110 and driven wheels 120 can be made.

Conductive guide 141 is two long strip shape guide rails.Article two, conductive guide 141 is oppositely arranged.First motion-work wheel 111 and the first follow-up pulley 121 are between two conductive guides be oppositely arranged 141.

Hanger guide rail 142 is two long strip shape guide rails.Article two, hanger guide rail 142 is oppositely arranged.Second motion-work wheel 112 and the second follow-up pulley 122 are between two hanger guide rails 142 be oppositely arranged.Refer to Fig. 2, conductive guide 141 and hanger guide rail 142 include insulation layer 143 and the conductive layer 144 stacked with insulation layer 143.Insulation layer 143 is fixedly connected with extraneous upholder.

First conduction suspension member 151 is slidably located on conductive guide 141, and the first conduction suspension member 151 is electrically connected with the conductive layer 144 of conductive guide 141.First conduction suspension member 151 offers groove, and conductive guide 141 is contained in groove.

Second conduction suspension member 152 is slidably located at hanger guide rail 142.Second conduction suspension member 152 is electrically connected with the conductive layer 144 of hanger guide rail 142.Second conduction suspension member 152 is T-shaped, and the second conduction suspension member 152 comprises stub end 153 and little head end 154, and hanger head 180 is located at little head end, and circuit card is held on hanger head 180.Contact surface between stub end and hanger guide rail 142 is thrust surface, increases thrust surface, the circuit card due to clamping can be prevented overweight, hanger guide rail 142 is deformed.

Each first conduction suspension member 151 is fixed with the first joggle piece 161.First joggle piece 161 engages with the first motion-work wheel 111, and the first travelling belt 131 drives the first conduction suspension member 151 to move along conductive guide 141.Each second conduction suspension member 152 is fixed with the second joggle piece 162.Second joggle piece 162 engages with the second motion-work wheel 112.Second travelling belt 132 drives the second conduction suspension member 152 to move along hanger guide rail 142.

Particularly, each first conduction suspension member 151 is relatively set with two the first joggle pieces 161, each second conduction suspension member 152 is relatively set with two the second joggle pieces 162.First joggle piece 161 and the second joggle piece 162 are isolator.First travelling belt 131 passes the second joggle piece 162 through the first joggle piece 161, second travelling belt 132.

Above-mentioned vertical continuous electroplanting device 100 also comprises multiple insulation covering 133 be sheathed on described first travelling belt 131 and the second travelling belt 132.Insulation covering 133 be located at same first conduction suspension member 151 two the first joggle pieces 161 between and same second conduction suspension member 152 two the second joggle pieces 162 between.Initiatively wheels 110 and driven wheels 120 offer respectively and the first joggle piece 161 and the suitable groove of the second joggle piece 162, be meshed with active wheels 110 and driven wheels 120 to make the first joggle piece 161 and the second joggle piece 162.

First conduction suspension member 151 and second is conducted electricity between suspension member 152 and is electrically connected by flexible cable 170.Each flexible cable 170 is electrically connected one first corresponding conduction suspension member 151 and conducts electricity suspension member 152 with corresponding one second, and first of correspondence conducts electricity suspension member 151, second conduction suspension member 152 and be synchronized with the movement.The two ends of flexible cable 170 are equipped with pin 171, and the pin 171 and first of one end of flexible cable 170 conducts electricity suspension member 151 and is electrically connected, and the pin 171 and second of the other end conducts electricity suspension member 152 and is electrically connected.

Because the first travelling belt 131 is identical with the movement velocity of the second travelling belt 132, then the first conduction suspension member 151 and second conducts electricity suspension member 152 and keeps being synchronized with the movement, and maintenance is electrically connected well.

Hanger head 180 is fixedly connected with the second joggle piece 162, and hanger head 180 makes circuit card move with the second joggle piece 162, and circuit card is electrically connected with the second joggle piece 162.

Above-mentioned vertical continuous electroplanting device 100 goes back involving vibrations device 190 and vibration glue code (not shown).Vibrator 190 is fixed on hanger guide rail 142.Vibrator 190 vibrates, and drives the hanger guide rail 142 be connected with vibrator 190 to vibrate.Vibration glue code is fixedly mounted on hanger guide rail 142, and hanger guide rail 142 is fixedly connected with extraneous upholder by vibration glue code, alleviates the vibration between hanger guide rail 142 and extraneous upholder.

Vibrator 190 to shake motor or pneumatic motor for electricity.Vibrator 190 is compared to cylinder, and cost reduces.

Above-mentioned vertical continuous electroplanting device 100 by conductive guide 141 and hanger guide rail 142 two guide rails separated, and by flexible cable 170, makes to realize between conductive guide 141 with the circuit card on hanger head 180 being electrically connected.Owing to not directly being fixedly connected with between hanger guide rail 142 with conductive guide 141, therefore when the circuit card on hanger head 180 is vibrated time, conductive guide 141 can not vibrate, and avoids conductive guide 141 to come in contact the problems such as bad, improves electroplating effect.

Further, by arranging vibrator on hanger guide rail 142, hanger guide rail 142 can be made to drive circuit card to vibrate, thus can discharge, to strengthen the effect of plating by the bubble in the perforate of circuit card.Vibrator convenient disassembly, is convenient to safeguard.

Further, above-mentioned vertical continuous electroplanting device 100 can also be used for cleaning step, for cleaning circuit plate.In the process that tradition is cleaned circuit card, the cylinder impact hanger head 180 in rinse bath, circuit card is vibrated, and to reach the object improving cleaning effect, because cylinder is precision components, the cost of manufacture of device is higher.And above-mentioned vertical continuous electroplanting device 100 is by using vibrator 190, reduce cost of manufacture.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. a vertical continuous electroplanting device, for electroplating circuit board, it is characterized in that, comprise initiatively wheels, driven wheels, the first travelling belt, the second travelling belt, multiple first conduction suspension member, multiple second conduction suspension member, multiple first joggle piece, multiple second joggle piece, conductive guide, hanger guide rail, multiple flexible cable and hanger head;

Described active wheels and described driven wheels are oppositely arranged, described active wheels comprise the first motion-work wheel, the second motion-work wheel and main drive shaft, described main drive shaft passes the center of circle of described first motion-work wheel and the second motion-work wheel, and be rotatably connected with described first motion-work wheel and the second motion-work wheel, described driven wheels comprise the first follow-up pulley, the second follow-up pulley and driven shaft, described driven shaft passes the center of circle of described first follow-up pulley and the second follow-up pulley, and is rotatably connected with described first follow-up pulley and the second follow-up pulley;

Described first travelling belt is in transmission connection described first motion-work wheel and described first follow-up pulley, and described second travelling belt is in transmission connection described second motion-work wheel and described second follow-up pulley;

Described first motion-work wheel and described first follow-up pulley are between two described conductive guides be oppositely arranged, and described second motion-work wheel and the second follow-up pulley are between two described hanger guide rails be oppositely arranged;

Described first conduction suspension member is slidably located on described conductive guide, first conduction suspension member described in each is all fixedly installed described first joggle piece, described first conduction suspension member is electrically connected with described conductive guide, described first joggle piece engages with described first motion-work wheel, and described first travelling belt drives described first conduction suspension member to move along described conductive guide;

Described second conduction suspension member is slidably located on described hanger guide rail, second conduction suspension member described in each is all fixedly installed described second joggle piece, described second conduction suspension member is electrically connected with described hanger guide rail, described second joggle piece engages with described second motion-work wheel, and described second travelling belt drives described second conduction suspension member along described hanger guide rail movement;

One first conduction suspension member corresponding to each flexible cable electrical connection conducts electricity suspension member with corresponding one second, and first, second of correspondence conducts electricity suspension member is synchronized with the movement;

Described hanger head is fixedly connected with described second joggle piece, and described hanger head is for connecting described circuit card, and to make described circuit card with described second joggle piece motion, described circuit card is electrically connected with described second joggle piece.

2. vertical continuous electroplanting device according to claim 1, is characterized in that, goes back involving vibrations device, and described vibrator is fixed on described hanger guide rail.

3. vertical continuous electroplanting device according to claim 2, is characterized in that, described vibrator is that electricity shakes motor or pneumatic motor.

4. vertical continuous electroplanting device according to claim 1, is characterized in that, the equal diameters of described first motion-work wheel and the second motion-work wheel, the equal diameters of described first follow-up pulley and the second follow-up pulley.

5. vertical continuous electroplanting device according to claim 4, is characterized in that, the equal diameters of described first motion-work wheel, the second motion-work wheel, the first follow-up pulley and the second follow-up pulley.

6. vertical continuous electroplanting device according to claim 1, it is characterized in that, described conductive guide and hanger guide rail include insulation layer and the conductive layer stacked with described insulation layer, described insulation layer is used for being connected with extraneous upholder, and described first conduction suspension member and described second conduction suspension member are electrically connected with described conductive layer.

7. vertical continuous electroplanting device according to claim 1, is characterized in that, described first conduction suspension member offers groove, and described conductive guide is contained in described groove.

8. vertical continuous electroplanting device according to claim 1, it is characterized in that, described second conduction suspension member is T-shaped, and described second conduction suspension member comprises stub end and little head end, described hanger head is located at described little head end, and described circuit card is held on described hanger head.

9. vertical continuous electroplanting device according to claim 1, it is characterized in that, also comprise multiple insulation covering be sheathed on described first travelling belt and the second travelling belt, described insulation covering is located between two described second joggle pieces between two described first joggle pieces on same described first conduction suspension member and on same described second conduction suspension member.

10. vertical continuous electroplanting device according to claim 1, it is characterized in that, the two ends of described flexible cable are equipped with pin, and the pin and described first of one end of described flexible cable conducts electricity suspension member and is electrically connected, and the pin and described second of the other end conducts electricity suspension member and is electrically connected.