CN213835608U - Vibration shaking device on PCB chemical copper deposition production line slot - Google Patents

Abstract

A vibration shaking device on a PCB chemical copper deposition production line slot belongs to the technical field of advanced manufacturing process and equipment, and comprises a plating bath, a flying bar device, two vibration and shaking devices which are symmetrically arranged, a PCB hanging basket and a group of PCB printed circuit boards; the vibration and shaking device comprises a turbine vibrator, a shaking air cylinder, an upper fixing plate, a lower fixing plate, a first PE horse seat, a second PE horse seat and a swinging square tube, wherein the turbine vibrator, the first PE horse seat and the second PE horse seat are fixedly arranged on the upper fixing plate. The heavy copper production wire casing of PCB chemistry on vibrations shake device, install pneumatic turbine electromagnetic shaker on the PE horse seat fixed plate, shake the cylinder about PE horse seat below is installed, shake and shake device combination together can be quick effectual get rid of impurity and liquid medicine in the pore in the PCB base plate, it remains to get rid of liquid medicine, avoid the production of broken hole and defective products to lead to scrapping of PCB board, and can practice thrift liquid medicine raw and other materials cost in a large number, safer than traditional operation, the environmental protection.

Description

Vibration shaking device on PCB chemical copper deposition production line slot

Technical Field

The utility model belongs to the technical field of advanced manufacturing process and equipment, specifically, relate to a vibrations shake device on PCB chemical copper deposition production wire casing.

Background

The PCB circuit board is also called as a printed circuit board, is a provider for electrical connection of electronic components, and has the main advantages of greatly reducing errors of wiring and assembly and improving the automation level and the production labor rate; in the production and processing process of the PCB, the PCB needs to be subjected to surface treatment processes, such as pickling, full-board copper electroplating, pattern transfer, acid degreasing, secondary countercurrent rinsing, micro-etching, secondary pickling, tin plating, secondary countercurrent rinsing, gold acid, pattern copper electroplating, secondary countercurrent rinsing, nickel plating, secondary washing, citric acid leaching, gold plating, recovery, 2-3 grade pure washing, drying and the like, and for the PCB, the electroplating quality directly influences the quality of the PCB.

Electroplating is an important process in the production process of the PCB, and is a process for forming a coating on a substrate by deposition through an electrolytic method.

When the existing PCB is electroplated, the PCB is usually suspended on a hanger and is dragged by the hanger to move in an electroplating bath, but a hole breaking phenomenon exists in surface electroplating of a product of the PCB, pore medicine water and impurities of the product are excessively brought into a subsequent station, so that the quality of the product is unstable, the hole breaking phenomenon exists, and the reject ratio is high. Traditional operation mode can only be through ordinary rocking the liquid medicine of taking out in the downthehole, and this kind of mode operating efficiency is low, and downthehole liquid medicine and impurity get rid of unclean.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a vibrations shake device on heavy copper production wire casing of PCB chemistry prevents that the butterfly-shaped optical cable from leading into the optical cable because of exogenic action (pull etc.) causes the butterfly-shaped disconnected fine, has solved among the prior art PCB and has electroplated the in-process, and remaining liquid medicine, bubble, impurity etc. of PCB inboard hole cause the problem of PCB board product quality decline.

The technical scheme is as follows: the utility model provides a vibration and shaking device on a PCB chemical copper deposition production line slot, which comprises a plating bath, a flying bar device, two symmetrically arranged vibration and shaking devices, a PCB hanging basket and a group of PCB printed circuit boards, wherein two ends of the flying bar device are respectively connected with the two symmetrically arranged vibration and shaking devices, and the PCB hanging basket is connected with the flying bar device; the PCB hanging basket can be immersed in the electroplating bath, the group of PCB printed circuit boards are arranged in the PCB hanging basket in parallel, and the two symmetrically arranged vibration and shaking devices are positioned on two sides of the electroplating bath; the utility model discloses a shaking and trembling device, including the turbine electromagnetic shaker, shake cylinder, upper fixed plate, bottom plate, PE horse seat one, PE horse seat two and sway the square tube, the bottom plate with sway the square tube and connect, the shake cylinder is fixed to be set up on the bottom plate to the piston rod and the upper fixed plate of shaking the cylinder are connected, the upper fixed plate is located the top of bottom plate, turbine electromagnetic shaker, PE horse seat one and PE horse seat two are all fixed to be set up on the upper fixed plate, and PE horse seat is two in and trembles the cylinder directly over.

Further, the vibration shaking device on the PCB chemical copper deposition production line slot is characterized in that at least one spring damping component is arranged between the upper fixing plate and the lower fixing plate.

Further, the vibrations shake device on the heavy copper production wire casing of foretell PCB chemistry, spring shock attenuation subassembly includes spring one, spring two and guide post, the guide post passes upper fixed plate and bottom plate, the upper end of guide post stretches out the upper fixed plate, the bottom plate is stretched out to the lower tip of guide post, the spring is one set to be established at the upper end that the guide post stretches out the upper fixed plate, the spring second is established on the guide post to spring two are located between upper fixed plate and the bottom plate.

Further, the vibrations shake device on the heavy copper production wire casing of foretell PCB chemistry, spring shock absorber subassembly still includes lock nut one, bush one and lock nut two, lock nut one is connected with the upper end of guide post, bush one sets up on the fixed plate, guide post and bush one sliding connection, the lower tip of lock nut two and guide post is connected.

Further, the vibration shaking device on the PCB chemical copper deposition production line slot is characterized in that the lower fixing plate is provided with a U-shaped bolt and two third locking nuts, the swing square tube is connected with the lower fixing plate through the U-shaped bolt, and the two third locking nuts are in threaded connection with two end parts of the U-shaped bolt.

Further, the vibrations shake device on the heavy copper production wire casing of foretell PCB chemistry, PE horse seat one and PE horse seat two all include rectangle fixed plate and the PE horse seat body that two symmetries set up, the up end fixed connection of the rectangle fixed plate that two symmetries set up and upper fixed plate, PE horse seat body passes through bolt and nut locking on the rectangle fixed plate that two symmetries set up to the lower tip of PE horse seat body is located between the rectangle fixed plate that two symmetries set up, the upper end of PE horse seat body is equipped with V style of calligraphy recess.

Further, vibrations shake device on the heavy copper production wire casing of foretell PCB chemistry, the device of flying to the crust includes horizontal beam, the vertical support column that two symmetries set up, the horizontal connecting rod that two symmetries set up and the supporting component that two symmetries set up, horizontal beam's both ends respectively with the lower tip fixed connection of the vertical support column that two symmetries set up to horizontal beam and the vertical support column that two symmetries set up constitute U style of calligraphy structure, the horizontal connecting rod that two symmetries set up and the supporting component one-to-one setting that two symmetries set up to the one end of horizontal connecting rod and the upper end of vertical support column are connected, supporting component's one end and vertical support column fixed connection to supporting component is located below the horizontal position of horizontal connecting rod one.

Further, the vibrations shake device on the heavy copper production wire casing of foretell PCB chemistry, supporting component includes horizontal support plate, flies a connecting block one and flies a connecting block two, horizontal support plate's one end and vertical support post fixed connection, fly a connecting block one and fly two fixed settings of connecting block on the tip that vertical support post was kept away from to horizontal support plate, fly a connecting block one and set up in the V style of calligraphy recess of PE horse seat one, it sets up in the V style of calligraphy recess of PE horse seat two to fly two settings of connecting block.

Further, the vibrations shake device on the heavy copper production wire casing of foretell PCB chemistry, the both sides of PCB string basket upper end all are equipped with and hang the basket connecting plate, it is equipped with U type couple to hang the basket connecting plate and keep away from the tip that PCB hung the basket, U type couple cover is established on horizontal beam.

Further, the vibration shaking device on the PCB chemical copper deposition production line slot is characterized in that the end part, far away from the hanging basket connecting plate, of the U-shaped hook is provided with a pressing gasket, a stud and a locking knob, the stud is in threaded connection with the U-shaped hook, the end part, close to the hanging basket connecting plate, of the stud is abutted against the pressing gasket, and the end part, far away from the hanging basket connecting plate, of the locking knob and the stud is connected.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: the heavy copper production wire casing of PCB chemistry on vibrations shake device, this device is suitable for the electroplating surface treatment trade of electron trade PCB, installs pneumatic turbine electromagnetic shaker on the PE horse seat fixed plate, shake the cylinder about PE horse seat below is installed, shake and shake device combination together can be quick effectual get rid of impurity and liquid medicine in the pore in the PCB base plate, it remains to get rid of liquid medicine, avoid the production of broken hole and defective products to lead to scrapping of PCB board. Being fixed with damping spring all around can effectually avoid vibrations to cause the harm of components and parts. The quality of the subsequent process is ensured, the cost of the raw materials of the liquid medicine can be greatly saved, and the operation is safer and more environment-friendly than the traditional operation.

Drawings

Fig. 1 is a front view of a vibration shaking device on a PCB chemical copper deposition production line slot of the utility model;

fig. 2 is a right side view of the vibration shaking device on the PCB electroless copper plating production line slot of the present invention;

FIG. 3 is a front view of the vibration and shaking apparatus of the present invention;

fig. 4 is a right side view of the vibration and shaking device of the present invention;

fig. 5 is a bottom view of the vibration and shaking device of the present invention;

fig. 6 is a partially enlarged view of fig. 1 according to the present invention;

fig. 7 is a schematic structural view of the flying bar device of the present invention;

fig. 8 is the structural schematic diagram of the PCB hanging basket of the present invention.

In the figure: the device comprises an electroplating bath 101, a flying bar device 102, a vibration and shaking device 103, a PCB hanging basket 104, a PCB printed circuit board 105, a turbine vibrator 106, a shaking cylinder 107, an upper fixing plate 108, a lower fixing plate 109, a first PE saddle 110, a second PE saddle 111, a swinging square tube 112, a spring shock-absorbing assembly 113, a first spring 114, a second spring 115, a guide column 116, a first locking nut 117, a first bushing 118, a second locking nut 119, a U-shaped bolt 120, a third two locking nuts 121, a rectangular fixing plate 122, a PE saddle body 123, a V-shaped groove 124, a horizontal cross beam 125, a vertical support column 126, a first horizontal connecting rod 127, a support assembly 128, a horizontal support plate 129, a first flying bar connecting block 130, a second flying bar connecting block 131, a hanging basket connecting plate 132, a U-shaped hook 133, a pressing gasket 134, a stud 135 and a locking knob 136.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example one

The vibration shaking device on the production line slot of the PCB electroless copper plating shown in fig. 1 and 2 comprises an electroplating bath 101, a flying bar device 102, two symmetrically arranged vibration and shaking devices 103, a PCB hanging basket 104 and a group of PCB printed circuit boards 105, wherein two ends of the flying bar device 102 are respectively connected with the two symmetrically arranged vibration and shaking devices 103, and the PCB hanging basket 104 is connected with the flying bar device 102; the PCB hanging basket 104 can be immersed in the electroplating bath 101, the group of PCB printed circuit boards 105 are arranged in the PCB hanging basket 104 in parallel, and the two symmetrically arranged vibration and shaking devices 103 are positioned on two sides of the electroplating bath 101; the vibration and shaking device 103 shown in fig. 3-5 includes a turbine vibrator 106, a shaking cylinder 107, an upper fixing plate 108, a lower fixing plate 109, a first PE horse seat 110, a second PE horse seat 111 and a shaking square tube 112, wherein the lower fixing plate 109 is connected with the shaking square tube 112, the shaking cylinder 107 is fixedly disposed on the lower fixing plate 109, a piston rod of the shaking cylinder 107 is connected with the upper fixing plate 108, the upper fixing plate 108 is disposed above the lower fixing plate 109, the turbine vibrator 106, the first PE horse seat 110 and the second PE horse seat 111 are all fixedly disposed on the upper fixing plate 108, and the second PE horse seat 111 is disposed directly above the shaking cylinder 107.

In addition, at least one spring damper assembly 113 is disposed between the upper fixing plate 108 and the lower fixing plate 109. The spring shock absorption assembly 113 comprises a first spring 114, a second spring 115 and a guide post 116, the guide post 116 penetrates through the upper fixing plate 108 and the lower fixing plate 109, the upper end of the guide post 116 extends out of the upper fixing plate 108, the lower end of the guide post 116 extends out of the lower fixing plate 109, the first spring 114 is sleeved on the upper end of the guide post 116 extending out of the upper fixing plate 108, the second spring 115 is sleeved on the guide post 116, and the second spring 115 is located between the upper fixing plate 108 and the lower fixing plate 109.

In addition, the spring damper assembly 113 further includes a first lock nut 117, a first bushing 118 and a second lock nut 119, the first lock nut 117 is connected to the upper end of the guide post 116, the first bushing 118 is disposed on the upper fixing plate 108, the guide post 116 is slidably connected to the first bushing 118, and the second lock nut 119 is connected to the lower end of the guide post 116. The lower fixing plate 109 is provided with a U-shaped bolt 120 and two locking nuts three 121, the swing square tube 112 is connected with the lower fixing plate 109 through the U-shaped bolt 120, and the two locking nuts three 121 are in threaded connection with two end parts of the U-shaped bolt 120.

In the above structure, the first PE horse seat 110 and the second PE horse seat 111 both include two symmetrically arranged rectangular fixing plates 122 and a PE horse seat body 123, the two symmetrically arranged rectangular fixing plates 122 are fixedly connected to the upper end face of the upper fixing plate 108, the PE horse seat body 123 is locked on the two symmetrically arranged rectangular fixing plates 122 by bolts and nuts, the lower end portion of the PE horse seat body 123 is located between the two symmetrically arranged rectangular fixing plates 122, and the upper end portion of the PE horse seat body 123 is provided with a V-shaped groove 124.

Example two

Based on the structure of the embodiment, the flying bar device 102 shown in fig. 6 and 7 comprises a horizontal cross beam 125, two symmetrically arranged vertical support columns 126, two symmetrically arranged horizontal connecting rods 127 and two symmetrically arranged support assemblies 128, the two ends of the horizontal beam 125 are respectively fixedly connected with the lower ends of two symmetrically arranged vertical supporting columns 126, and the horizontal beam 125 and the two symmetrically arranged vertical support columns 126 form a U-shaped structure, the two symmetrically arranged vertical support columns 126, the two symmetrically arranged horizontal connecting rods one 127 and the two symmetrically arranged support assemblies 128 are arranged in one-to-one correspondence, and one end of the first horizontal connecting rod 127 is connected with the upper end of the vertical supporting column 126, one end of the supporting component 128 is fixedly connected with the vertical supporting column 126, and the supporting component 128 is positioned below the horizontal position of the first horizontal connecting rod 127.

The support assembly 128 comprises a horizontal support plate 129, a first flying bar connecting block 130 and a second flying bar connecting block 131, one end of the horizontal support plate 129 is fixedly connected with the vertical support column 126, the first flying bar connecting block 130 and the second flying bar connecting block 131 are fixedly arranged at the end portion, far away from the vertical support column 126, of the horizontal support plate 129, the first flying bar connecting block 130 is arranged in the V-shaped groove 124 of the first PE saddle 110, and the second flying bar connecting block 131 is arranged in the V-shaped groove 124 of the second PE saddle 111.

EXAMPLE III

Based on the structure of the second embodiment, as shown in fig. 8, basket connecting plates 132 are respectively disposed on two sides of the upper end of the PCB hanging basket 104, a U-shaped hook 133 is disposed at the end of the basket connecting plate 132 far away from the PCB hanging basket 104, and the U-shaped hook 133 is sleeved on the horizontal beam 125. The end part of the U-shaped hook 133, which is far away from the hanging basket connecting plate 132, is provided with a pressing gasket 134, a stud 135 and a locking knob 136, the stud 135 is in threaded connection with the U-shaped hook 133, the end part of the stud 135, which is close to the hanging basket connecting plate 132, is abutted against the pressing gasket 134, and the locking knob 136 is connected with the end part of the stud 135, which is far away from the hanging basket connecting plate 132.

The utility model discloses a vibrations shake device on PCB chemical copper deposition production wire casing, including the plating bath, the plating bath in be equipped with the plating solution, the both sides respectively are equipped with a vibrations and shake device about the plating bath, PCB production line is put on the vibrations shake device of cell body top through the automatic longmen driving crane location of getting the feiba device through control system, be fixed with PCB rubber coating string basket on the feiba, place a plurality of PCB base plates in the basket, the PCB board soaks in the plating solution, pneumatic turbine electromagnetic shaker on the upper fixed plate makes the vibrating wheel produce unbalanced torque through high-pressure air and produces the vibrational force, the impact that the vibrator output can effectively be eliminated to the spring shock absorber, play the guard action to each part, the lower fixed plate passes through U type screw fixation on swaing square tube, be fixed with upper and lower shake cylinder on, the upper and lower jacking PE horse seat makes the PCB base plate of feiba string basket do the up and down action, the pneumatic vibration and shaking device can completely eliminate residual liquid medicine, bubbles, impurities and the like in the inner hole of the PCB, and after the structure is adopted, not only can resources be saved, but also the working efficiency can be improved, the service life of the vibration motor is prolonged, the noise of the vibration motor is reduced, and the vibration amplitude is increased.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a vibrations shake device on heavy copper production wire casing of PCB chemistry which characterized in that: the device comprises an electroplating bath (101), a flying bar device (102), two symmetrically arranged vibration and shaking devices (103), a PCB hanging basket (104) and a group of PCB printed circuit boards (105), wherein two ends of the flying bar device (102) are respectively connected with the two symmetrically arranged vibration and shaking devices (103), and the PCB hanging basket (104) is connected with the flying bar device (102); the PCB hanging basket (104) can be immersed in the electroplating bath (101), the group of PCB printed circuit boards (105) are arranged in the PCB hanging basket (104) in parallel, and the two symmetrically arranged vibration and shaking devices (103) are positioned on two sides of the electroplating bath (101);

the shaking and shaking device (103) comprises a turbine shaker (106), a shaking cylinder (107), an upper fixing plate (108), a lower fixing plate (109), a first PE horse seat (110), a second PE horse seat (111) and a swinging square tube (112), wherein the lower fixing plate (109) is connected with the swinging square tube (112), the shaking cylinder (107) is fixedly arranged on the lower fixing plate (109), a piston rod of the shaking cylinder (107) is connected with the upper fixing plate (108), the upper fixing plate (108) is positioned above the lower fixing plate (109), the turbine shaker (106), the first PE horse seat (110) and the second PE horse seat (111) are fixedly arranged on the upper fixing plate (108), and the second PE horse seat (111) is positioned right above the shaking cylinder (107).

2. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 1, wherein: at least one spring shock-absorbing assembly (113) is arranged between the upper fixing plate (108) and the lower fixing plate (109).

3. The vibration and shaking device on the PCB chemical copper deposition production line groove of claim 2, wherein: spring damper (113) is including spring (114), spring two (115) and guide post (116), upper fixed plate (108) and bottom plate (109) are passed to guide post (116), upper fixed plate (108) are stretched out to the upper end of guide post (116), bottom plate (109) are stretched out to the lower tip of guide post (116), the upper end that upper fixed plate (108) are stretched out to guide post (116) is established in spring one (114) cover, spring two (115) cover is established on guide post (116) to spring two (115) are located between upper fixed plate (108) and bottom plate (109).

4. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 3, wherein: spring damper unit (113) still includes lock nut (117), bush (118) and lock nut (119), the upper end of lock nut (117) and guide post (116) is connected, bush (118) set up on upper fixed plate (108), guide post (116) and bush (118) sliding connection, the lower tip of lock nut (119) and guide post (116) is connected.

5. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 1, wherein: the lower fixing plate (109) is provided with a U-shaped bolt (120) and two locking nuts III (121), the swing square tube (112) is connected with the lower fixing plate (109) through the U-shaped bolt (120), and the two locking nuts III (121) are in threaded connection with two end parts of the U-shaped bolt (120).

6. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 1, wherein: PE horse seat one (110) and PE horse seat two (111) all include rectangle fixed plate (122) and PE horse seat body (123) that two symmetries set up, the up end fixed connection of rectangle fixed plate (122) and upper fixed plate (108) that two symmetries set up, PE horse seat body (123) are locked on rectangle fixed plate (122) that two symmetries set up through bolt and nut to the lower tip of PE horse seat body (123) is located between rectangle fixed plate (122) that two symmetries set up, the upper end of PE horse seat body (123) is equipped with V style of calligraphy recess (124).

7. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 6, wherein: the flying bar device (102) comprises a horizontal cross beam (125), two symmetrically arranged vertical supporting columns (126), two symmetrically arranged horizontal connecting rods I (127) and two symmetrically arranged supporting components (128), two ends of the horizontal cross beam (125) are respectively and fixedly connected with the lower ends of two symmetrically arranged vertical supporting columns (126), and the horizontal beam (125) and two symmetrically arranged vertical supporting columns (126) form a U-shaped structure, the two symmetrically arranged vertical supporting columns (126), the two symmetrically arranged horizontal connecting rods I (127) and the two symmetrically arranged supporting components (128) are arranged in a one-to-one correspondence way, one end of the horizontal connecting rod I (127) is connected with the upper end part of the vertical supporting column (126), one end of the supporting component (128) is fixedly connected with the vertical supporting column (126), and the support assembly (128) is located below the horizontal position of the horizontal connecting rod one (127).

8. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 7, wherein: the supporting component (128) comprises a horizontal supporting plate (129), a first flying bar connecting block (130) and a second flying bar connecting block (131), one end of the horizontal supporting plate (129) is fixedly connected with the vertical supporting column (126), the first flying bar connecting block (130) and the second flying bar connecting block (131) are fixedly arranged on the end portion, far away from the vertical supporting column (126), of the horizontal supporting plate (129), the first flying bar connecting block (130) is arranged in a V-shaped groove (124) of the first PE saddle (110), and the second flying bar connecting block (131) is arranged in a V-shaped groove (124) of the second PE saddle (111).

9. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 7, wherein: both sides of PCB string basket (104) upper end all are equipped with string basket connecting plate (132), the tip of hanging basket connecting plate (132) and keeping away from PCB string basket (104) is equipped with U type couple (133), U type couple (133) cover is established on horizontal beam (125).

10. The vibration and shaking device on a PCB chemical copper deposition production line groove of claim 9, wherein: the end part of the U-shaped hook (133) far away from the hanging basket connecting plate (132) is provided with a pressing gasket (134), a stud (135) and a locking knob (136), the stud (135) is in threaded connection with the U-shaped hook (133), the end part of the stud (135) close to the hanging basket connecting plate (132) is abutted against the pressing gasket (134), and the end part of the hanging basket connecting plate (132) far away from the locking knob (136) and the stud (135) is connected.

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