CN204342906U - A kind of electroplanting device of tool dual output rectifier - Google Patents

A kind of electroplanting device of tool dual output rectifier Download PDF

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Publication number
CN204342906U
CN204342906U CN201420753096.4U CN201420753096U CN204342906U CN 204342906 U CN204342906 U CN 204342906U CN 201420753096 U CN201420753096 U CN 201420753096U CN 204342906 U CN204342906 U CN 204342906U
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China
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face
rectifier
electrically connected
cable
control enclosure
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CN201420753096.4U
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Chinese (zh)
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赖大彬
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DONGGUAN ZHIHESHENG ELECTRIC APPLIANCE Co Ltd
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DONGGUAN ZHIHESHENG ELECTRIC APPLIANCE Co Ltd
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Abstract

The utility model discloses a kind of electroplanting device of tool dual output rectifier, and available very short cable is connected to plating cylinder anode and cathode two ends respectively, use safety.The utility model comprises plating cylinder, plating cylinder one end is provided with A rectifier, the plating cylinder the other end is provided with B rectifier, one A face plating cylinder 300A anode cable of A rectifier is electrically connected one end of first anode rod, the other end of first anode rod is electrically connected B rectifier through a B face plating cylinder 300A anode cable, 2nd A face plating cylinder 300A anode cable of A rectifier is electrically connected one end of second anode rod, and the other end of second anode rod is electrically connected B rectifier through the 2nd B face plating cylinder 300A anode cable.The utility model reduces the usage quantity of cable, and reduce cable and take up room and maintain easily, reduce electric energy loss, major and minor machine synchronism output, increases current flow uniformity further.

Description

A kind of electroplanting device of tool dual output rectifier
Technical field
The utility model relates to a kind of electroplanting device, specifically, particularly relates to a kind of electroplanting device of energy-saving dual output rectifier.
Background technology
Plating is exactly utilize electrolysis principle on some metallic surface, plate the identical or different metal process of one deck.During plating, coated metal does anode, and be oxidized to positively charged ion and enter in the electroplate liquid of plating cylinder, object to be plated is negative electrode, by electric current between anode cathode, makes electroplate liquid cationic form metal plating at thing surface reduction to be plated.
Traditional PCB (printed circuit board (PCB)) electroplating device schematic diagram refers to (conventional rectifier DC cabling diagram).General PCB need plate two faces simultaneously, is commonly called as A face, B face.The rectifier of electric current is provided also to be referred to as rectifier A and rectifier B by corresponding.The Equipments Setting in two faces is identical with technical process, below describes and chooses the discussion of A face.
In electroplating process, flow through the quality that the size of current of thing to be plated and stability directly affect electrolytic coating, if so require that the consistence of electrolytic coating just must control the uniform current of each plating piece.
Rectifier can only be placed on plating cylinder side from conventional rectifier DC cabling diagram known traditional electrical coating apparatus, uniform current is flow through in order to make PCB to be plated above whole negative electrode, negative electrode and anode two terminations are connected to rectifier negative pole and positive pole by cable, but to be anode or two terminations of negative electrode be all one close to rectifier, one far away, if select cable length according to positional distance, then there will be a short length, because cable internal resistance and two cables are connected to same potential point reason, short-term electric current can be caused to be greater than long-line current, thus impact final plating consistence is bad.So at present also adopt the long cable the same with side far away from side close to rectifier, nearly side hank of cable is around placement.Shortcoming is as follows: waste a lot of cable, high-current cable not only heavily but also expensive: long cable need coil to be put, and takes up space and troublesome maintenance: because cable internal resistance exists, and the electric current flow through can do work heating loss, and electric energy loss reaches 20 ~ 25 ℅.
Utility model content
The purpose of this utility model is the shortcoming overcoming prior art, rectifier A in conventional rectifier DC cabling diagram is redesigned two new rectifiers for power reduces by half, and be placed in plating cylinder both sides, and available very short cable is connected to anode and cathode two ends respectively; Increase control enclosure below indicating meter A to control two machines by signal wire and reach synchronous object; Rectifier B equally completes above work with rectifier A; The A rectifier of plating cylinder both sides and B rectifier are incorporated in the cabinet of both sides respectively, use safety.
For reaching above-mentioned purpose, the electroplanting device of a kind of tool dual output rectifier of the present utility model, adopts following technical scheme:
A kind of electroplanting device of tool dual output rectifier, comprise plating cylinder, cathode bar is provided with in the middle of plating cylinder, cathode bar two ends are respectively provided with one and fly palladium Building V, flying palladium Building V is fixed on plating cylinder, inside plating cylinder, both sides are respectively equipped with second anode rod, first anode rod, cathode bar is hung the printed circuit board (PCB) (PCB) of some electroplateds, cathode bar, second anode rod, first anode rod is parallel to each other, plating cylinder one end is provided with A rectifier, the plating cylinder the other end is provided with B rectifier, A rectifier connects A face rectifier indicating meter by A control enclosure, A rectifier connects external source, A control enclosure is electrically connected A rectifier through an A face control line, B rectifier connects B face rectifier indicating meter by B control enclosure, B rectifier connects external source, B control enclosure is electrically connected B rectifier through a B face control line, A control enclosure is electrically connected B rectifier through the 2nd A face control line, B control enclosure is electrically connected A rectifier through the 2nd B face control line, through A control enclosure, the adjustment of B control enclosure, second anode rod can be made, the uniform current at first anode rod two ends,
One A face plating cylinder 300A anode cable of A rectifier is electrically connected one end of first anode rod, the other end of first anode rod is electrically connected B rectifier through a B face plating cylinder 300A anode cable, 2nd A face plating cylinder 300A anode cable of A rectifier is electrically connected one end of second anode rod, the other end of second anode rod is electrically connected B rectifier through the 2nd B face plating cylinder 300A anode cable, one A face cathode cable of A rectifier, what the 2nd A face cathode cable was electrically connected cathode bar one end flies palladium Building V, one B face cathode cable of B rectifier, another of the 2nd B face cathode cable electric connection cathode bar the other end flies palladium Building V.
In certain embodiments, described A face rectifier indicating meter, B face rectifier indicating meter comprise digital-scroll technique circuit, analog-to-digital conversion module, parameter setting function change-over circuit, DB15 output module, DB15 output module is electrically connected analog-to-digital conversion module, parameter setting function change-over circuit, and analog-to-digital conversion module transmits numerical information to digital-scroll technique circuit; The DB15 output module of A face rectifier indicating meter, B face rectifier indicating meter connects A control enclosure, B control enclosure respectively.
In certain embodiments, described A control enclosure, B control enclosure comprises current/voltage sampling treatmenting circuit, parametric distribution arranges circuit, interface 1, interface 2, DB15 output module connects current/voltage sampling treatmenting circuit, parametric distribution arranges circuit, current/voltage sampling treatmenting circuit, parametric distribution arranges circuit and is electrically connected interface 1, interface 2, the interface 1 of A control enclosure is electrically connected an A face control line, the interface 2 of A control enclosure is electrically connected the 2nd A face control line, the interface 1 of B control enclosure is electrically connected a B face control line, the interface 2 of B control enclosure is electrically connected the 2nd B face control line.
In certain embodiments, described A rectifier, B rectifier comprises power module, A face output module, B face output module, power module connects air switch, power module comprises input protection circuit and electromagnetic interface filter, input rectifying wave filter, accessory power supply, input protection circuit and electromagnetic interface filter input terminus connect air switch, input protection circuit and electromagnetic interface filter output terminal connect input rectifying wave filter, accessory power supply connects input rectifying wave filter, input rectifying filter output connects the A face power switch pipe of A face output module and the B face power switch pipe of high-frequency transformer and B face output module and high-frequency transformer.
In certain embodiments, described A control enclosure is electrically connected A face output module, A face output module comprises A power model, A face PWM controller, A face sampling feedback circuit, A power model comprises A face power switch pipe and high-frequency transformer, A face output rectification filter device, A face power switch pipe and high-frequency transformer input terminus connect the input rectifying wave filter of power module 4, A face power switch pipe and high-frequency transformer output terminal connect A face output rectification filter device, A face PWM controller connects A face output rectification filter device by A face sampling feedback circuit, A face output rectification filter device and A face sampling feedback circuit are connected to by splitter electroplates cylinder circuit loop.
In certain embodiments, described B control enclosure is electrically connected B face output module, B face output module comprises B power model, B face PWM controller, B face sampling feedback circuit, B power model comprises B face power switch pipe and high-frequency transformer, B face output rectification filter device, B face power switch pipe and high-frequency transformer input terminus connect the input rectifying wave filter of power module 4, B face power switch pipe and high-frequency transformer output terminal connect B face output rectification filter device, B face PWM controller connects B face output rectification filter device by B face sampling feedback circuit, B face output rectification filter device and B face sampling feedback circuit are connected to by splitter electroplates cylinder circuit loop.
In certain embodiments, a kind of electroplanting device of tool dual output rectifier comprises plating cylinder, cathode bar is provided with in the middle of plating cylinder, cathode bar two ends are respectively provided with one and fly palladium Building V, flying palladium Building V is fixed on plating cylinder, inside plating cylinder, both sides are respectively equipped with second anode rod, first anode rod, cathode bar is hung the printed circuit board (PCB) (PCB) of some electroplateds, cathode bar, second anode rod, first anode rod is parallel to each other, it is characterized in that, described plating cylinder one end is provided with an A rectifier, B rectifier, the plating cylinder the other end is provided with the 2nd A rectifier, B rectifier, one A rectifier connects A face rectifier indicating meter by A control enclosure, one A rectifier connects external source, A control enclosure is electrically connected an A rectifier through an A face control line, B rectifier connects B face rectifier indicating meter by B control enclosure, B rectifier connects external source, B control enclosure is electrically connected B rectifier through a B face control line, A control enclosure is electrically connected the 2nd A rectifier through the 2nd A face control line, B control enclosure is electrically connected B rectifier through the 2nd B face control line, through A control enclosure, the adjustment of B control enclosure, second anode rod can be made, the uniform current at first anode rod two ends,
One A face 600A anode cable of the one A rectifier is electrically connected one end of first anode rod, the other end of first anode rod is electrically connected the 2nd A rectifier through a B face 600A anode cable, 2nd A face 600A anode cable of B rectifier is electrically connected one end of second anode rod, the other end of second anode rod is electrically connected B rectifier through the 2nd B face 600A anode cable, one A face cathode cable of the one A rectifier, what the 2nd A face cathode cable of B rectifier was electrically connected cathode bar one end flies palladium Building V, one B face cathode cable of the 2nd A rectifier, another of the 2nd B face cathode cable electric connection cathode bar the other end of B rectifier flies palladium Building V.
The utility model reduces the usage quantity of cable; Reduce cable take up room and maintain easily; Reduce electric energy loss; Major and minor machine synchronism output, increases current flow uniformity further.
Accompanying drawing explanation
Figure 1 shows that the structural representation of the utility model embodiment one;
Figure 2 shows that the structural representation of the utility model embodiment two;
Figure 3 shows that the circuit block diagram of the utility model indicating meter, control enclosure;
Figure 4 shows that the schematic circuit of the utility model rectifier.
Description of reference numerals is as follows:
A rectifier 10, one A rectifier 101, 2nd A rectifier 102, A face rectifier indicating meter 11, A control enclosure 12, one A face control line 13, one A face 300A anode cable 14, one A face 600A anode cable 141, 2nd A face 300A anode cable 15, 2nd A face 600A anode cable 151, one A face cathode cable 16, 2nd A face cathode cable 17, 2nd A face control line 18, B rectifier 20, one B rectifier 201, 2nd B rectifier 202, B face rectifier indicating meter 21, B control enclosure 22, one B face control line 23, one B face 300A anode cable 24, one B face 600A anode cable 241, 2nd B face 300A anode cable 25, 2nd B face 600A anode cable 251, one B face cathode cable 26, 2nd B face cathode cable 27, 2nd B face control line 28, plating cylinder 30, cathode bar 31, fly palladium Building V 32, second anode rod 33, first anode rod 34, printed circuit board (PCB) 35, power module 41, input protection circuit and electromagnetic interface filter 42, input rectifying wave filter 43, accessory power supply 44, air switch 45, A face output module 50, A power model 51, A face power switch pipe and high-frequency transformer 52, A face output rectification filter device 53, A face PWM controller 54, A face sampling feedback circuit 55, B face output module 60, B power model 61, B face power switch pipe and high-frequency transformer 62, B face output rectification filter device 63, B face PWM controller 64, B face sampling feedback circuit 65.
Embodiment
For feature of the present utility model, technique means and the specific purposes reached, function can be understood further, resolve advantage of the present utility model and spirit, by below in conjunction with accompanying drawing and embodiment, detailed description of the present utility model is further understood.
Embodiment one, the utility model comprises plating cylinder 30, shown in accompanying drawing 1, cathode bar 31 is provided with in the middle of plating cylinder 30, cathode bar 31 two ends are respectively provided with one and fly palladium Building V 32, flying palladium Building V 32 is fixed on plating cylinder 30, inside plating cylinder 30, both sides are respectively equipped with second anode rod 33, first anode rod 34, cathode bar 31 is hung the printed circuit board (PCB) 35 (PCB) of some electroplateds, cathode bar 31, second anode rod 33, first anode rod 34 is parallel to each other, plating cylinder 30 one end is provided with A rectifier 10, plating cylinder 30 the other end is provided with B rectifier 20, A rectifier 10 connects A face rectifier indicating meter 11 by A control enclosure 12, A rectifier 10 connects external source, A control enclosure 12 is electrically connected A rectifier 10 through an A face control line 13, B rectifier 20 connects B face rectifier indicating meter 21 by B control enclosure 22, B rectifier 20 connects external source, B control enclosure 22 is electrically connected B rectifier 20 through a B face control line 23, A control enclosure 12 is electrically connected B rectifier 20 through the 2nd A face control line 18, B control enclosure 22 is electrically connected A rectifier 10 through the 2nd B face control line 28, through A control enclosure 12, the adjustment of B control enclosure 22, second anode rod 33 can be made, the uniform current at first anode rod 34 two ends.
One A face plating cylinder 300A anode cable 14 of A rectifier 10 is electrically connected one end of first anode rod 34, the other end of first anode rod 34 is electrically connected B rectifier 20 through a B face plating cylinder 300A anode cable 24, 2nd A face plating cylinder 300A anode cable 15 of A rectifier 10 is electrically connected one end of second anode rod 33, the other end of second anode rod 33 is electrically connected B rectifier 20 through the 2nd B face plating cylinder 300A anode cable 25, one A face cathode cable 16 of A rectifier 10, what the 2nd A face cathode cable 17 was electrically connected cathode bar 31 one end flies palladium Building V 32, one B face cathode cable 26 of B rectifier 20, 2nd B face cathode cable 27 be electrically connected cathode bar 31 the other end another fly palladium Building V 32.
A face rectifier indicating meter 11, B face rectifier indicating meter 21 comprise digital-scroll technique circuit, analog-to-digital conversion module, parameter setting function change-over circuit, DB15 output module, DB15 output module is electrically connected analog-to-digital conversion module, parameter setting function change-over circuit, and analog-to-digital conversion module transmits numerical information to digital-scroll technique circuit; The DB15 output module of A face rectifier indicating meter 11, B face rectifier indicating meter 21 connects A control enclosure 12, B control enclosure 22 respectively.
A control enclosure 12, B control enclosure 22 comprises current/voltage sampling treatmenting circuit, parametric distribution arranges circuit, interface 1, interface 2, DB15 output module connects current/voltage sampling treatmenting circuit, parametric distribution arranges circuit, current/voltage sampling treatmenting circuit, parametric distribution arranges circuit and is electrically connected interface 1, interface 2, the interface 1 of A control enclosure 12 is electrically connected an A face control line 13, the interface 2 of A control enclosure 12 is electrically connected the 2nd A face control line 18, the interface 1 of B control enclosure 22 is electrically connected a B face control line 23, the interface 2 of B control enclosure 22 is electrically connected the 2nd B face control line 28.
A rectifier 10, B rectifier 20 comprises power module 41, A face output module 50, B face output module 60, power module 41 connects air switch 45, power module 41 comprises input protection circuit and electromagnetic interface filter 42, input rectifying wave filter 43, accessory power supply 44, input protection circuit and electromagnetic interface filter 42 input terminus connect air switch 45, input protection circuit and electromagnetic interface filter 42 output terminal connect input rectifying wave filter 43, accessory power supply 44 connects input rectifying wave filter 43, input rectifying wave filter 43 output terminal connects B face power switch pipe and the high-frequency transformer 62 of the A face power switch pipe of A face output module 50 and high-frequency transformer 52 and B face output module 60.
A control enclosure 12 is electrically connected A face output module 50, A face output module 50 comprises A power model 51, A face PWM controller 54, A face sampling feedback circuit 55, A power model 51 comprises A face power switch pipe and high-frequency transformer 52, A face output rectification filter device 53, A face power switch pipe and high-frequency transformer 52 input terminus connect the input rectifying wave filter 43 of power module 4, A face power switch pipe and high-frequency transformer 52 output terminal connect A face output rectification filter device 53, A face PWM controller 54 connects A face output rectification filter device 53 by A face sampling feedback circuit 55, A face output rectification filter device 53 and A face sampling feedback circuit 55 are connected to by splitter electroplates cylinder 30 circuit loop.
B control enclosure 22 is electrically connected B face output module 60, B face output module 60 comprises B power model 61, B face PWM controller 64, B face sampling feedback circuit 65, B power model 61 comprises B face power switch pipe and high-frequency transformer 62, B face output rectification filter device 63, B face power switch pipe and high-frequency transformer 62 input terminus connect the input rectifying wave filter 43 of power module 4, B face power switch pipe and high-frequency transformer 62 output terminal connect B face output rectification filter device 63, B face PWM controller 64 connects B face output rectification filter device 63 by B face sampling feedback circuit 65, B face output rectification filter device 63 and B face sampling feedback circuit 65 are connected to by splitter electroplates cylinder 30 circuit loop.
Shown in energy-saving dual output rectifier DC cable wiring accompanying drawing Fig. 1, be applicable to small power rectifier, both sides cable can be shortened with conventional rectifier DC cabling diagram ratio.
Shown in energy-saving dual output rectifier DC cable wiring accompanying drawing Fig. 2, be applicable to power rectifier, both sides cable can be shortened with conventional rectifier DC cabling diagram ratio.
Embodiment two, in another embodiment, shown in accompanying drawing 2, cathode bar 31 is provided with in the middle of plating cylinder 30, cathode bar 31 two ends are respectively provided with one and fly palladium Building V 32, flying palladium Building V 32 is fixed on plating cylinder 30, inside plating cylinder 30, both sides are respectively equipped with second anode rod 33, first anode rod 34, cathode bar 31 is hung the printed circuit board (PCB) 35 (PCB) of some electroplateds, cathode bar 31, second anode rod 33, first anode rod 34 is parallel to each other, plating cylinder 30 one end is provided with an A rectifier 101, B rectifier 201, plating cylinder 30 the other end is provided with the 2nd A rectifier 102, B rectifier 202, one A rectifier 101 connects A face rectifier indicating meter 11 by A control enclosure 12, one A rectifier 101 connects external source, A control enclosure 12 is electrically connected an A rectifier 101 through an A face control line 13, B rectifier 201 connects B face rectifier indicating meter 21 by B control enclosure 22, B rectifier 201 connects external source, B control enclosure 22 is electrically connected B rectifier 201 through a B face control line 23, A control enclosure 12 is electrically connected the 2nd A rectifier 102 through the 2nd A face control line 18, B control enclosure 22 is electrically connected B rectifier 201 through the 2nd B face control line 28, through A control enclosure 12, the adjustment of B control enclosure 22, second anode rod 33 can be made, the uniform current at first anode rod 34 two ends.
One A face 600A anode cable 141 of the one A rectifier 101 is electrically connected one end of first anode rod 34, the other end of first anode rod 34 is electrically connected the 2nd A rectifier 102 through a B face 600A anode cable 241, 2nd A face 600A anode cable 151 of B rectifier 201 is electrically connected one end of second anode rod 33, the other end of second anode rod 33 is electrically connected B rectifier 202 through the 2nd B face 600A anode cable 251, one A face cathode cable 16 of the one A rectifier 101, what the 2nd A face cathode cable 17 of B rectifier 201 was electrically connected cathode bar 31 one end flies palladium Building V 32, one B face cathode cable 26 of the 2nd A rectifier 102, 2nd B face cathode cable 27 of B rectifier 202 be electrically connected cathode bar 31 the other end another fly palladium Building V 32.
The above embodiment only have expressed some embodiments 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 scope.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, protection domain of the present utility model should be as the criterion with claims.

Claims (7)

1. the electroplanting device of a tool dual output rectifier, comprise plating cylinder (30), cathode bar (31) is provided with in the middle of described plating cylinder (30), described cathode bar (31) two ends are respectively provided with one and fly palladium Building V (32), the described palladium Building V (32) that flies is fixed in plating cylinder (30), both sides, described plating cylinder (30) inner side are respectively equipped with second anode rod (33), first anode rod (34), described cathode bar (31), second anode rod (33), first anode rod (34) is parallel to each other, it is characterized in that, described plating cylinder (30) one end is provided with A rectifier (10), described plating cylinder (30) the other end is provided with B rectifier (20), described A rectifier (10) connects A face rectifier indicating meter (11) by A control enclosure (12), described A control enclosure (12) is electrically connected A rectifier (10) through A face control line (13), described B rectifier (20) connects B face rectifier indicating meter (21) by B control enclosure (22), described B control enclosure (22) is electrically connected B rectifier (20) through B face control line (23), described A control enclosure (12) is electrically connected B rectifier (20) through the 2nd A face control line (18), described B control enclosure (22) is electrically connected A rectifier (10) through the 2nd B face control line (28),
One A face plating cylinder 300A anode cable (14) of described A rectifier (10) is electrically connected one end of first anode rod (34), the other end of described first anode rod (34) is electrically connected B rectifier (20) through B face plating cylinder 300A anode cable (24), 2nd A face plating cylinder 300A anode cable (15) of described A rectifier (10) is electrically connected one end of second anode rod (33), the other end of described second anode rod (33) is electrically connected B rectifier (20) through the 2nd B face plating cylinder 300A anode cable (25), one A face cathode cable (16) of described A rectifier (10), 2nd A face cathode cable (17) be electrically connected cathode bar (31) one end fly palladium Building V (32), one B face cathode cable (26) of described B rectifier (20), another of 2nd B face cathode cable (27) electric connection cathode bar (31) the other end flies palladium Building V (32).
2. the electroplanting device of a kind of tool dual output rectifier according to claim 1, it is characterized in that, described A face rectifier indicating meter (11), B face rectifier indicating meter (21) comprise digital-scroll technique circuit, analog-to-digital conversion module, parameter setting function change-over circuit, DB15 output module, described DB15 output module is electrically connected analog-to-digital conversion module, parameter setting function change-over circuit, and described analog-to-digital conversion module transmits numerical information to digital-scroll technique circuit; The DB15 output module in described A face rectifier indicating meter (11), B face rectifier indicating meter (21) connects A control enclosure (12), B control enclosure (22) respectively.
3. the electroplanting device of a kind of tool dual output rectifier according to claim 2, it is characterized in that, described A control enclosure (12), B control enclosure (22) comprises current/voltage sampling treatmenting circuit, parametric distribution arranges circuit, interface 1, interface 2, described DB15 output module connects current/voltage sampling treatmenting circuit, parametric distribution arranges circuit, current/voltage sampling treatmenting circuit, parametric distribution arranges circuit and is electrically connected interface 1, interface 2, the interface 1 of described A control enclosure (12) is electrically connected A face control line (13), the interface 2 of described A control enclosure (12) is electrically connected the 2nd A face control line (18), the interface 1 of described B control enclosure (22) is electrically connected B face control line (23), the interface 2 of described B control enclosure (22) is electrically connected the 2nd B face control line (28).
4. the electroplanting device of a kind of tool dual output rectifier according to claim 1, it is characterized in that, described A rectifier (10), B rectifier (20) comprises power module (41), A face output module (50), B face output module (60), described power module (41) connects air switch (45), described power module (41) comprises input protection circuit and electromagnetic interface filter (42), input rectifying wave filter (43), accessory power supply (44), described input protection circuit and electromagnetic interface filter (42) input terminus connect air switch (45), described input protection circuit and electromagnetic interface filter (42) output terminal connect input rectifying wave filter (43), described accessory power supply (44) connects input rectifying wave filter (43), described input rectifying wave filter (43) output terminal connects A face power switch pipe and the high-frequency transformer (52) in A face output module (50), described input rectifying wave filter (43) output terminal connects B face power switch pipe and the high-frequency transformer (62) in B face output module (60).
5. the electroplanting device of a kind of tool dual output rectifier according to claim 4, it is characterized in that, described A control enclosure (12) is electrically connected A face output module (50), described A face output module (50) comprises A power model (51), A face PWM controller (54), A face sampling feedback circuit (55), described A power model (51) comprises A face power switch pipe and high-frequency transformer (52), A face output rectification filter device (53), described A face power switch pipe and high-frequency transformer (52) input terminus connect the input rectifying wave filter (43) of power module (41), described A face power switch pipe and high-frequency transformer (52) output terminal connect A face output rectification filter device (53), described A face PWM controller (54) connects A face output rectification filter device (53) by A face sampling feedback circuit (55), described A face output rectification filter device (53) and A face sampling feedback circuit (55) are connected to by splitter electroplates cylinder (30) circuit loop.
6. the electroplanting device of a kind of tool dual output rectifier according to claim 4, it is characterized in that, described B control enclosure (22) is electrically connected B face output module (60), described B face output module (60) comprises B power model (61), B face PWM controller (64), B face sampling feedback circuit (65), described B power model (61) comprises B face power switch pipe and high-frequency transformer (62), B face output rectification filter device (63), described B face power switch pipe and high-frequency transformer (62) input terminus connect the input rectifying wave filter (43) of power module (41), described B face power switch pipe and high-frequency transformer (62) output terminal connect B face output rectification filter device (63), described B face PWM controller (64) connects B face output rectification filter device (63) by B face sampling feedback circuit (65), described B face output rectification filter device (63) and B face sampling feedback circuit (65) are connected to by splitter electroplates cylinder (30) circuit loop.
7. the electroplanting device of a tool dual output rectifier, comprise plating cylinder (30), cathode bar (31) is provided with in the middle of described plating cylinder (30), described cathode bar (31) two ends are respectively provided with one and fly palladium Building V (32), the described palladium Building V (32) that flies is fixed in plating cylinder (30), both sides, described plating cylinder (30) inner side are respectively equipped with second anode rod (33), first anode rod (34), described cathode bar (31), second anode rod (33), first anode rod (34) is parallel to each other, it is characterized in that, described plating cylinder (30) one end is provided with an A rectifier (101), B rectifier (201), described plating cylinder (30) the other end is provided with the 2nd A rectifier (102), B rectifier (202), a described A rectifier (101) connects A face rectifier indicating meter (11) by A control enclosure (12), a described A rectifier (101) connects external source, described A control enclosure (12) is electrically connected an A rectifier (101) through A face control line (13), described B rectifier (201) connects B face rectifier indicating meter (21) by B control enclosure (22), described B rectifier (201) connects external source, described B control enclosure (22) is electrically connected B rectifier (201) through B face control line (23), described A control enclosure (12) is electrically connected the 2nd A rectifier (102) through the 2nd A face control line (18), described B control enclosure (22) is electrically connected B rectifier (201) through the 2nd B face control line (28), through A control enclosure (12), the adjustment of B control enclosure (22), second anode rod (33) can be made, the uniform current at first anode rod (34) two ends,
One A face 600A anode cable (141) of a described A rectifier (101) is electrically connected one end of first anode rod (34), the other end of described first anode rod (34) is electrically connected the 2nd A rectifier (102) through B face 600A anode cable (241), 2nd A face 600A anode cable (151) of described B rectifier (201) is electrically connected one end of second anode rod (33), the other end of described second anode rod (33) is electrically connected B rectifier (202) through the 2nd B face 600A anode cable (251), one A face cathode cable (16) of a described A rectifier (101), B rectifier (201) the 2nd A face cathode cable (17) be electrically connected cathode bar (31) one end fly palladium Building V (32), one B face cathode cable (26) of described 2nd A rectifier (102), another of 2nd B face cathode cable (27) electric connection cathode bar (31) the other end of B rectifier (202) flies palladium Building V (32).
CN201420753096.4U 2014-12-03 2014-12-03 A kind of electroplanting device of tool dual output rectifier Withdrawn - After Issue CN204342906U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104404605A (en) * 2014-12-03 2015-03-11 东莞市智和胜电器有限公司 Electroplating device with two output rectifiers
CN108251885A (en) * 2018-01-29 2018-07-06 东莞市鑫弘机械科技有限公司 A kind of mode of connection for improving electroplating evenness
CN108301033A (en) * 2018-02-26 2018-07-20 安徽达胜电子有限公司 A kind of PCB electroplanting devices and application method

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104404605A (en) * 2014-12-03 2015-03-11 东莞市智和胜电器有限公司 Electroplating device with two output rectifiers
CN108251885A (en) * 2018-01-29 2018-07-06 东莞市鑫弘机械科技有限公司 A kind of mode of connection for improving electroplating evenness
CN108251885B (en) * 2018-01-29 2019-08-23 东莞市鑫弘机械科技有限公司 A kind of mode of connection improving electroplating evenness
CN108301033A (en) * 2018-02-26 2018-07-20 安徽达胜电子有限公司 A kind of PCB electroplanting devices and application method

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