CN113355720A

CN113355720A - Synchronous drive type electroplating bath electroplating solution cooling structure

Info

Publication number: CN113355720A
Application number: CN202110715597.8A
Authority: CN
Inventors: 何爱芝; 杨喜云
Original assignee: Jiangsu Aoguang Electronics Co ltd
Current assignee: Jiangsu Aoguang Electronics Co ltd
Priority date: 2021-06-28
Filing date: 2021-06-28
Publication date: 2021-09-07
Anticipated expiration: 2041-06-28
Also published as: CN113355720B

Abstract

The invention discloses a synchronous driving type electroplating bath electroplating solution cooling structure, which comprises a synchronous driving mechanism; the synchronous driving mechanism is additionally arranged, the rotating shaft is driven to rotate forwards and backwards periodically by the control motor, so that the driving gear drives the end gear to rotate forwards and backwards periodically by the connecting crawler belt, and finally the periodic forward and backward rotation of the adjusting screw rod is driven, so that the two sliding blocks on the adjusting screw rod move in a reciprocating manner, the transverse stirring and cooling are realized, the operation is convenient, and the automatic cooling is realized.

Description

Synchronous drive type electroplating bath electroplating solution cooling structure

Technical Field

The invention relates to a synchronous driving type electroplating bath electroplating solution cooling structure.

Background

Electroplating is a process of plating a thin layer of other metals or alloys on the surface of some metals by using the principle of electrolysis, and is a process of attaching a layer of metal film on the surface of a metal or other material workpiece by using the action of electrolysis so as to prevent metal oxidation such as corrosion, and meanwhile, electroplating can improve the effects of wear resistance, conductivity, light reflection, corrosion resistance, beauty enhancement and the like; present, when carrying out electroplating process, because the plating solution need work under the uniform temperature, consequently, need be equipped with the cooling device for electroplating pool, and current cooling structure generally sets up the cooling tube in the cooling bath double-layered wall, the cooling tube lets in the cooling water that circulates and flow through the cooling circulating water machine, so realize the cooling effect, but such mode is slow at the cooling effect, cooling efficiency is low, current plating bath capacity is fixed simultaneously, can not adjust the size of plating bath according to the demand of reality, so make current electroplating structure use not convenient and flexible very, need improve operation convenience and degree of automation in addition.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: the structure for cooling the electroplating solution in the synchronous driving type electroplating bath is convenient to operate, high in cooling efficiency and adjustable in electroplating capacity.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a synchronous driving type electroplating bath electroplating solution cooling structure comprises a base, an electroplating bath, a cooling circulating water machine, a transverse floating cooling mechanism and a synchronous driving mechanism; two sides of the upper end of the base are respectively provided with a cooling circulating water machine; the electroplating bath is arranged in the middle of the upper part of the base; the electroplating bath comprises a bottom connecting plate and an upper end annular plate; the upper end annular plate is arranged at the upper end of the bottom connecting plate; the inner sides of the cooling circulating water machines are respectively connected with a transverse floating cooling mechanism; the cooling circulating water machine is fixedly connected to the side wall of the electroplating bath in a penetrating way through a water inlet pipe and a water outlet pipe respectively; the transverse floating cooling mechanism comprises an adjusting screw rod, a sliding block, a cooling pipe and a telescopic hose; the bottom of the upper end of the bottom connecting plate is provided with a sliding clamping groove; two sliding blocks are respectively installed in the sliding clamping grooves in a sliding clamping mode; the adjusting screw rod is rotationally clamped on the sliding clamping groove, external thread sections with opposite threads are respectively arranged on two sides of the adjusting screw rod, and a sliding block is respectively connected to the external thread sections in a threaded penetrating manner; the upper ends of the sliding blocks are respectively provided with a cooling pipe; two ends of the cooling pipe are respectively connected with the inner ends of a water inlet pipe and a water outlet pipe of the cooling circulating water machine through flexible hoses; one end of the adjusting screw rod extends out of one end of the bottom connecting plate; a synchronous driving mechanism is arranged on the outer side of one end of the adjusting screw rod; the synchronous driving mechanism comprises a control motor, a rotating shaft, a driving gear, a connecting crawler and an end gear; one end of the adjusting screw is provided with an end gear; a control motor is arranged on the outer side of one end of the bottom connecting plate; a rotating shaft is arranged outside the control motor; the control motor drives the rotating shaft to rotate positively and negatively periodically; the outer end of the rotating shaft is provided with a driving gear; and a connecting crawler belt is arranged between the driving gear and the end gear.

Further, the device also comprises a longitudinal floating cooling mechanism; the longitudinal floating cooling mechanism comprises a sealing telescopic layer, a limiting column, an adjusting screw rod and a connecting rod; the lower end of the cooling pipe is provided with a connecting rod; the lower end of the connecting rod is connected to the upper end of the sliding block; the lower end of the upper end annular plate is hermetically provided with a sealed telescopic layer; the outer sides of the periphery of the connecting rod are hermetically connected with the sealed telescopic layer; one side of the lower end of the upper end annular plate is provided with a limiting channel, and the other side of the lower end of the upper end annular plate is provided with a driving thread groove; the upper end of one side of the bottom connecting plate is provided with a limiting column, and the other side of the bottom connecting plate is rotatably clamped and provided with an adjusting screw rod; the bottom connecting plate is upwards inserted into the limiting channel at one side of the lower end of the upper annular plate through the limiting column; and the adjusting screw rod on the other side of the bottom connecting plate is upwards in threaded rotation connection with the driving thread groove on the other side of the lower end of the upper annular plate.

Further, the sealing telescopic layer is made of a telescopic rubber material; and the upper side surface of the sealing telescopic layer is provided with a polytetrafluoroethylene coating.

Further, the cooling pipe is in a structure with a plurality of S-shaped bends.

Furthermore, the two outer sides of the upper end annular plate are fixedly connected to the inner side of the cooling circulating water machine through positioning plates respectively.

Furthermore, the other end of the adjusting screw rod is rotationally clamped at the other end of the bottom connecting plate; the other end of the adjusting screw is provided with a rotary clamping tooth; the other end of the bottom connecting plate is provided with a rotary clamping groove; the adjusting screw is rotationally clamped on the rotary clamping groove at the other end of the bottom connecting plate through the rotary clamping teeth at the other end.

Further, the base is a U-shaped structure.

The invention has the advantages of

1. The synchronous driving mechanism is additionally arranged, the rotating shaft is driven to rotate forwards and backwards periodically by the control motor, so that the driving gear drives the end gear to rotate forwards and backwards periodically by the connecting crawler belt, and finally the periodic forward and backward rotation of the adjusting screw rod is driven, so that the two sliding blocks on the adjusting screw rod move in a reciprocating manner, the transverse stirring and cooling are realized, the operation is convenient, and the automatic cooling is realized.

2. The invention drives the two sliding blocks on the adjusting screw rod to move relatively by rotating the adjusting screw rod, so as to drive the cooling pipe at the upper end of the sliding block to move in the electroplating bath, thereby the liquid in the electroplating bath is cooled by transversely stirring by reciprocating the two cooling pipes in the electroplating bath, in addition, the invention is additionally provided with a longitudinal floating cooling mechanism, the bottom connecting plate can be driven to move up and down below the upper annular plate and the sealing telescopic layer by rotating the adjusting screw rod, thereby the sealing telescopic layer and the cooling pipe are driven to extend up and down, so that the liquid in the electroplating bath is cooled by longitudinally stirring, thereby the longitudinal and transverse stirring cooling are realized, the internal cooling effect of the electroplating bath is greatly improved, after the cooling is finished, the two cooling pipes are moved to the two sides of the electroplating bath to vacate space for electroplating, and simultaneously when the capacity of the electroplating bath needs to be enlarged, can rotate adjusting screw and drive bottom connecting plate downstream, drive sealed flexible layer downstream through the connecting rod, so realize the dilatation, the convenient flexibility of use.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partially enlarged schematic view of the present invention.

FIG. 3 is a side view of the cooling tube of the present invention.

Fig. 4 is an enlarged schematic structural view of the synchronous driving mechanism of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, a structure for cooling plating solution in a synchronous driving type plating bath comprises a base 1, a plating bath 2, a cooling circulating water machine 3, a transverse floating cooling mechanism 4, and a synchronous driving mechanism 6; two sides of the upper end of the base 1 are respectively provided with a cooling circulating water machine 3; the electroplating bath 2 is arranged in the middle of the upper part of the base 1; the plating bath 2 comprises a bottom connecting plate 22 and an upper end annular plate 21; the upper end annular plate 21 is arranged at the upper end of the bottom connecting plate 22; the inner sides of the cooling circulating water machines 3 are respectively connected with a transverse floating cooling mechanism 4; the cooling circulating water machine 3 is fixedly connected to the side wall of the electroplating bath 2 in a penetrating way through a water inlet pipe 31 and a water outlet pipe 32 respectively, namely the water inlet pipe 31 and the water outlet pipe 32 are fixedly connected to the upper end annular plate 21 in a penetrating way; the transverse floating cooling mechanism 4 comprises an adjusting screw rod 41, a sliding block 42, a cooling pipe 43 and a telescopic hose 44; the bottom of the upper end of the bottom connecting plate 22 is provided with a sliding clamping groove 221; two sliding blocks 42 are respectively installed in the sliding clamping grooves 221 in a sliding clamping mode; the adjusting screw rod 41 is rotatably clamped on the sliding clamping groove 221, external thread sections 411 with opposite threads are respectively arranged on two sides of the adjusting screw rod 41, a sliding block 42 is respectively threaded on the external thread sections 411 in a penetrating manner, and a threaded hole 421 is arranged on the sliding block 42 and is matched with the external thread sections 411; the upper ends of the sliding blocks 42 are respectively provided with a cooling pipe 43; two ends of the cooling pipe 43 are respectively connected to the inner ends of the water inlet pipe 31 and the water outlet pipe 32 of the cooling circulating water machine 3 through flexible hoses 44; one end of the adjusting screw rod 41 extends out from one end of the bottom connecting plate 22; a synchronous driving mechanism 6 is arranged on the outer side of one end of the adjusting screw rod 41; the synchronous driving mechanism 6 comprises a control motor 61, a rotating shaft 62, a driving gear 63, a connecting crawler 65 and an end gear 64; one end of the adjusting screw rod 41 is provided with an end gear 64; a control motor 61 is arranged on the outer side of one end of the bottom connecting plate 22; a rotating shaft 62 is arranged outside the control motor 61; the control motor 61 drives the rotating shaft 62 to rotate positively and negatively periodically; the outer end of the rotating shaft 62 is provided with a driving gear 63; a connecting crawler 65 is arranged between the driving gear 63 and the end gear 64.

As shown in fig. 1 to 4, it is further preferable that a longitudinal floating cooling mechanism 5 is further included; the longitudinal floating cooling mechanism 5 comprises a sealing telescopic layer 53, a limiting column 51, an adjusting screw 52 and a connecting rod 54; the lower end of the cooling pipe 43 is provided with a connecting rod 54; the lower end of the connecting rod 54 is connected to the upper end of the sliding block 42; the lower end of the upper end annular plate 21 is hermetically provided with a sealed telescopic layer 53; the outer sides of the periphery of the connecting rod 54 are hermetically connected with the sealed telescopic layer 53; one side of the lower end of the upper end annular plate 21 is provided with a limiting channel 211, and the other side of the lower end is provided with a driving thread groove 212; a limiting column 51 is arranged at the upper end of one side of the bottom connecting plate 22, and an adjusting screw 52 is rotatably clamped and arranged at the other side of the bottom connecting plate 22; the bottom connecting plate 22 is upwards inserted into the limiting channel 211 at one side of the lower end of the upper annular plate 21 through the limiting column 51; the adjusting screw 52 on the other side of the bottom connecting plate 22 is screwed upwards and rotatably connected to the driving screw groove 212 on the other side of the lower end of the upper annular plate 21. Further, the seal stretchable layer 53 is made of a stretchable rubber material; the upper side surface of the sealing telescopic layer 53 is provided with a polytetrafluoroethylene coating. Further, the cooling pipe 43 has a plurality of S-shaped bent structures. Further, both sides of the outside of the upper end annular plate 21 are fixedly connected to the inside of the cooling water circulation machine 3 through positioning plates 33, respectively. Further, the other end of the adjusting screw 41 is rotatably clamped to the other end of the bottom connecting plate 22; the other end of the adjusting screw rod 41 is provided with a rotary clamping tooth; the other end of the bottom connecting plate 22 is provided with a rotary clamping groove; the adjusting screw rod 41 is rotatably clamped in the rotary clamping groove at the other end of the bottom connecting plate 22 through the rotary clamping tooth at the other end. Further, the base 1 is of a U-shaped structure.

The synchronous driving mechanism 6 is additionally arranged, the rotating shaft 62 is driven to rotate forwards and backwards periodically by the control motor 61, so that the driving gear 63 drives the end gear 64 to rotate forwards and backwards periodically by connecting the crawler 65, and finally the periodic forward and reverse rotation of the adjusting screw rod 41 is driven, so that the two sliding blocks 42 on the adjusting screw rod 41 move in a reciprocating manner, the transverse stirring and cooling are realized, the operation is convenient, and the automatic cooling is realized.

The invention drives the two sliding blocks 42 on the adjusting screw rod 41 to move relatively by rotating the adjusting screw rod, so as to drive the cooling pipe 43 at the upper end of the sliding block 42 to move in the electroplating bath 2, so that the liquid in the electroplating bath 2 is cooled by transversely stirring by reciprocating the two cooling pipes 43 in the electroplating bath 2, in addition, the invention is additionally provided with the longitudinal floating cooling mechanism 5, the bottom connecting plate 22 can be driven to move up and down under the upper annular plate 21 and the sealing telescopic layer 53 by rotating the adjusting screw rod 52, so as to drive the sealing telescopic layer 53 and the cooling pipes 43 to extend up and down, so that the liquid in the electroplating bath is cooled by longitudinally stirring, thus the longitudinal and transverse stirring cooling is realized, the cooling effect in the electroplating bath is greatly improved, after the cooling is finished, the two cooling pipes 43 are moved to the two sides of the electroplating bath 2 to vacate space for electroplating, meanwhile, when the capacity of the electroplating bath needs to be expanded, the adjusting screw 52 can be rotated to drive the bottom connecting plate 22 to move downwards, and the connecting rod 54 drives the sealing telescopic layer 53 to move downwards, so that the expansion is realized, and the use is convenient and flexible.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A synchronous driving type electroplating bath electroplating solution cooling structure is characterized by comprising a base, an electroplating bath, a cooling circulating water machine, a transverse floating cooling mechanism and a synchronous driving mechanism; two sides of the upper end of the base are respectively provided with a cooling circulating water machine; the electroplating bath is arranged in the middle of the upper part of the base; the electroplating bath comprises a bottom connecting plate and an upper end annular plate; the upper end annular plate is arranged at the upper end of the bottom connecting plate; the inner sides of the cooling circulating water machines are respectively connected with a transverse floating cooling mechanism; the cooling circulating water machine is fixedly connected to the side wall of the electroplating bath in a penetrating way through a water inlet pipe and a water outlet pipe respectively; the transverse floating cooling mechanism comprises an adjusting screw rod, a sliding block, a cooling pipe and a telescopic hose; the bottom of the upper end of the bottom connecting plate is provided with a sliding clamping groove; two sliding blocks are respectively installed in the sliding clamping grooves in a sliding clamping mode; the adjusting screw rod is rotationally clamped on the sliding clamping groove, external thread sections with opposite threads are respectively arranged on two sides of the adjusting screw rod, and a sliding block is respectively connected to the external thread sections in a threaded penetrating manner; the upper ends of the sliding blocks are respectively provided with a cooling pipe; two ends of the cooling pipe are respectively connected with the inner ends of a water inlet pipe and a water outlet pipe of the cooling circulating water machine through flexible hoses; one end of the adjusting screw rod extends out of one end of the bottom connecting plate; a synchronous driving mechanism is arranged on the outer side of one end of the adjusting screw rod; the synchronous driving mechanism comprises a control motor, a rotating shaft, a driving gear, a connecting crawler and an end gear; one end of the adjusting screw is provided with an end gear; a control motor is arranged on the outer side of one end of the bottom connecting plate; a rotating shaft is arranged outside the control motor; the control motor drives the rotating shaft to rotate positively and negatively periodically; the outer end of the rotating shaft is provided with a driving gear; and a connecting crawler belt is arranged between the driving gear and the end gear.

2. The plating bath cooling structure of the synchronously driven plating bath as recited in claim 1, further comprising a longitudinal floating cooling mechanism; the longitudinal floating cooling mechanism comprises a sealing telescopic layer, a limiting column, an adjusting screw rod and a connecting rod; the lower end of the cooling pipe is provided with a connecting rod; the lower end of the connecting rod is connected to the upper end of the sliding block; the lower end of the upper end annular plate is hermetically provided with a sealed telescopic layer; the outer sides of the periphery of the connecting rod are hermetically connected with the sealed telescopic layer; one side of the lower end of the upper end annular plate is provided with a limiting channel, and the other side of the lower end of the upper end annular plate is provided with a driving thread groove; the upper end of one side of the bottom connecting plate is provided with a limiting column, and the other side of the bottom connecting plate is rotatably clamped and provided with an adjusting screw rod; the bottom connecting plate is upwards inserted into the limiting channel at one side of the lower end of the upper annular plate through the limiting column; and the adjusting screw rod on the other side of the bottom connecting plate is upwards in threaded rotation connection with the driving thread groove on the other side of the lower end of the upper annular plate.

3. The plating bath cooling structure of the synchronously driven plating bath according to claim 2, wherein said sealing stretchable layer is made of a stretchable rubber material; and the upper side surface of the sealing telescopic layer is provided with a polytetrafluoroethylene coating.

4. The plating bath cooling structure as recited in claim 1, wherein said cooling pipe has a plurality of S-shaped bent structures.

5. The plating bath cooling structure of claim 1, wherein both outer sides of the upper annular plate are fixedly connected to the inside of the cooling water circulation machine through positioning plates, respectively.

6. The structure for cooling plating solution in a synchronous drive type plating bath according to claim 1, wherein the other end of the adjusting screw is rotatably clamped to the other end of the bottom connecting plate; the other end of the adjusting screw is provided with a rotary clamping tooth; the other end of the bottom connecting plate is provided with a rotary clamping groove; the adjusting screw is rotationally clamped on the rotary clamping groove at the other end of the bottom connecting plate through the rotary clamping teeth at the other end.

7. The plating bath cooling structure as recited in claim 1, wherein said base is of a U-shaped configuration.