CN110344087B - Manufacturing device for all-copper black chromium plate core solar thermal collector - Google Patents

Abstract

The invention provides a manufacturing device of an all-copper black-chromium plate core solar thermal collector, which comprises a solar panel core made of aluminum, a centralized electroplating pool used for carrying out centralized chromium plating on the solar panel core, a plate core moving electroplating mechanism used for moving the plate core and limiting the position of the solar panel core, and a movable electroplating mechanism used for providing chromium ions, wherein the plate core moving electroplating mechanism and the movable electroplating mechanism are both arranged on the centralized electroplating pool, and the manufacturing device relates to the field of solar panels. This full copper black chromium board core solar collector manufacturing installation can make the solar panel core utilize rivers to promote the evenly distributed of nano particle when electroplating, and can utilize inertial effect to electroplate the regional quick electroplating of weak current on the board core nearby in rivers to the effectual general solar panel core of having solved electroplates black chromium in-process, receives the influence of board core shape and black chromium nature, and it is limited to electroplate the volume, and nano particle distributes unevenly when electroplating, and it is long to electroplate time, the problem of inefficiency.

Description

Manufacturing device for all-copper black chromium plate core solar thermal collector

Technical Field

The invention relates to the technical field of solar panels, in particular to a manufacturing device of a solar heat collector with an all-copper black chromium plate core.

Background

The black chromium plated on the solar panel core can improve the absorptivity of solar radiation, most solar panels are rectangular, the current density of black chromium plating is higher, the black chromium plating is usually required to be performed in a small plating tank for density improvement during the plating of the solar panel core at present, and in the plating process, the problems that nano particles are easy to agglomerate and have poor macroscopic uniformity are solved by adopting a stirring or ultrasonic vibration mode at present, the stirring and the ultrasonic vibration are not suitable for being used in a large container, on one hand, the energy consumption is high, on the other hand, the ultrasonic vibration in the container is not comprehensive, the stirring is hindered by a plated object to be stirred unevenly, so that a small plating tank is mainly adopted in the process of plating chromium on the solar panel core, and the uniform distribution of the nano particles is promoted by the stirring mode or the ultrasonic vibration mode on the inner wall of the small plating tank, the mode inevitably leads to lower efficiency, most of the solar panel cores are rectangular and have a certain area, the volume of a small electroplating bath is limited, so that the movement of nano particles is facilitated, the single electroplating quantity is lower, the current distribution of the rectangular solar panel cores is extremely uneven, the uniformity of an electroplating electric field and a flow field is not easy to control, the local electroplating time of the solar panel cores is long, the general solar panel cores are influenced by the shapes and the properties of the solar panel cores in the black chromium electroplating process, the electroplating volume is limited, the nano particles are unevenly distributed in the electroplating process, the electroplating time is long, and the efficiency is low, so that the manufacturing device of the all-copper black chromium plate core solar collector is needed.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a manufacturing device of a full-copper black chromium plate core solar thermal collector, which solves the problems that the general solar panel core is influenced by the shape and the property of the plate core in the black chromium electroplating process, the electroplating volume is limited, the nano particles are not uniformly distributed in the electroplating process, the electroplating time is long, and the efficiency is low.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an all copper black chromium plate core solar collector manufacturing installation, includes the solar panel core of aluminium material, is used for concentrating the concentrated electroplating pool of chromium plating with the solar panel core, is used for the activity plate core and restricts the plate core removal electroplating mechanism of solar panel core position and is used for providing the activity electroplating mechanism of chromium ion, plate core removal electroplating mechanism and activity electroplating mechanism all set up on concentrating the electroplating pool.

Concentrate the outside fixed mounting of electroplating bath have the battery the anodal electricity of battery is connected with anodal conductor wire, the negative pole electricity of battery is connected with the negative pole conductor wire, concentrate the bottom fixedly connected with backup pad of electroplating bath, concentrate the interior diapire fixed mounting of electroplating bath and have the electrical heating stick, the input of electrical heating stick is connected with the output electricity of anodal conductor wire, sets up the electrical heating stick and is in order to play the effect of electroplating with higher speed.

Preferably, the plate core moving electroplating mechanism comprises a plurality of electroplating baths, a plurality of cathode conducting rods, a capping rubber film, a movable hanging rod and a plurality of movable clamps, wherein the electroplating baths are in one-to-one correspondence with the solar panel cores, the cathode conducting rods are in one-to-one correspondence with the electroplating baths, the capping rubber film, the movable hanging rod and the movable clamps are fixedly connected to the inner bottom wall of the centralized electroplating pool, the solar panel cores are lapped inside the electroplating baths, the input ends of the cathode conducting rods are electrically connected with the output ends of the electroplating baths, the output ends of the cathode conducting rods are electrically connected with the input ends of the cathode conducting wires, the tops of the solar panel cores are clamped with the movable clamps, two connecting ropes with different lengths are fixedly connected to the surfaces of the movable clamps, one ends of the connecting ropes are fixedly connected with the lower surface of the capping rubber film, insulating, set up the activity and press from both sides in order to live the upper portion control of solar panel core, thereby it is limited to make the solar panel core range of motion, two different in size's on the activity clamp connection rope make the solar panel core remain the direction of slope all the time, when rivers were stirred towards a direction, the resilience resets under the slope trend of solar panel core, thereby guarantee the solar panel core swing back and forth all the time, it is the effect in order to play the protection solar panel core to set up the rubber ball on the one hand, wearing and tearing when avoiding the swing, on the other hand is limiting displacement, make its bottom block inside the plating bath when the swing all the time.

Preferably, a plurality of spout has been seted up on the surface of concentrated electroplating pool, the lower surface of activity peg and the inner wall sliding connection of spout, the inner wall of spout is inlayed and is had the ball, the fixed surface of activity peg is connected with the stopper, the spread groove has been seted up on the surface of activity peg, the inner wall ligature of spread groove has the elasticity stretching strap, the surface of elasticity stretching strap and the last fixed surface of capping rubber membrane are connected, set up the activity peg, on the one hand the activity peg can play the effect of hoisting the capping rubber membrane in the top of concentrated electroplating pool and capping rubber membrane connection, avoids the capping rubber membrane part sunken, simultaneously, also can artificially come left and right sides control capping rubber membrane swing through the activity peg to conveniently control solar panel core wobbling frequency.

Preferably, a row of bleeder vent has been seted up on the surface of capping rubber membrane, the bleeder vent is close to the one side of concentrating the electroplating bath, sets up the exhaust hole for the gas emission that the pond inside produced of conveniently concentrating the electroplating bath, becomes one row on one side with the exhaust hole setting, is on the one hand for make gas move towards a direction to the production is dialled the power of water towards a direction, and on the other hand exhaust position is concentrated, makes things convenient for follow-up environmental protection work to the collection of waste gas.

Preferably, the movable electroplating mechanism comprises a plurality of rubber fixing rings, a rubber vertical rod, a chromium rod and an anode conducting rod, the rubber fixing rings and the electroplating bath are distributed in a staggered manner, the rubber vertical rod is sleeved inside the rubber fixing rings, the chromium rod is sleeved on the rubber vertical rod, the conducting rod is embedded inside the rubber vertical rod, the input end of the anode conducting rod is electrically connected with the output end of the anode conducting wire, the output end of the anode conducting rod is electrically connected with the input end of the conducting rod, the input end of the chromium rod is electrically connected with the output end of the conducting rod leaked inside the fixing rings, the rubber fixing rings and the electroplating bath are distributed in a staggered manner, so that the solar panel cores can be uniformly distributed with equal distances between the chromium rods, all the solar panel cores are very close to the contact density of chromium ions in the centralized electroplating bath, and the rubber vertical rod is arranged for, on the other hand, the chromium rod is fixed, so that when the solar panel core swings and liquid flows, the position of the chromium rod is always kept unchanged, and the chromium ions around the chromium rod are conveniently and quickly separated.

Preferably, the top of the rubber vertical rod and the surface of the rubber fixing ring are both sleeved with a rubber ring, the inside of the rubber ring is inlaid with a conductive ring, the input end of the conductive ring is electrically connected with the output end of a conductive rod, the conductive rings on two longitudinally adjacent rubber vertical rods and two longitudinally adjacent rubber fixing rings are electrically connected with a branching conductive wire, the surface of the branching conductive wire is fixedly connected with a corrugated rubber pipe, the inside of the corrugated rubber pipe is sleeved with an elastic conductive wire, the output end of the wire core inside the branching conductive wire is electrically connected with the input end of the elastic conductive wire, the surface of the corrugated rubber pipe is sleeved with a plurality of net bags, the inside of the net bags is provided with chromium balls, the output end of the elastic conductive wire is electrically connected with the input end of the chromium balls, and the front surface and the back surface of each solar panel core are provided with a plurality of chromium balls, the swinging direction of the solar panel core is opposite to the swinging direction of the chromium balls, the solar panel core is not in contact with the chromium balls within the maximum swinging range, the corrugated rubber tube is arranged for connecting the chromium balls on one hand, and is always electrically connected with the chromium balls when the chromium balls move on the other hand, and the net bag is arranged for placing the chromium balls at a certain position.

Preferably, the inner bottom wall of the centralized electroplating pool is arc-shaped, the inner bottom wall of the centralized electroplating pool is provided with two symmetrically-distributed silt gathering grooves, the surface of the centralized electroplating pool is sealed and inserted with a sealing inserted rod, one end of the sealing inserted rod penetrates and extends to the inside of the silt gathering grooves, and the arc-shaped bottom of the centralized electroplating pool is arranged so that impurities generated at the bottom of the fluid swing process can be pushed by a fluid to be close to the two sides of the inner wall of the centralized electroplating pool after the impurities are precipitated, so that the impurities can be conveniently collected in the silt gathering grooves.

(III) advantageous effects

(1) When the solar cell is used, the solar panel cores swing in respective small ranges by shifting the electrolyte during heating, the solar panel cores are more concentrated, and the solar panel cores swing towards the left direction and the right direction in the same container asynchronously, so that the migration and uniform distribution of nano particles in the electrolyte can be promoted, the energy consumption is completely saved in the second aspect compared with the existing stirring and ultrasonic vibration, the migration and distribution of the nano particles are promoted more comprehensively, the third aspect can be suitable for a large container, compared with the existing electroplating container, the solar cell is not influenced by volume, the electroplating container can be enlarged, the number of the plated plate cores at one time is increased, and the working efficiency is improved.

(2) When the solar panel is used, the chromium rods are uniformly distributed, and the chromium balls are stirred at the positions, close to the position with weak current, of the solar panel core on the front side and the rear side of the solar panel core all the time under the influence of inertia and water flow delay in stirred water, so that chromium ions are conveniently electroplated at the position with weak current of the solar panel core nearby, a large amount of electroplating time is saved, and the overall electroplating efficiency is improved.

(3) According to the invention, the capping rubber film is arranged, so that gas and water flow fluctuation generated by electroplating can drive the capping rubber film to shift, the capping rubber film can drive the solar panel core to shift within a certain range, and the top of the centralized electroplating pool can be capped, so that interference of external environment on electroplating work is reduced.

(4) The invention can ensure that the solar panel core utilizes water flow to promote the uniform distribution of nano particles during electroplating, and can utilize the inertia effect to quickly electroplate the weak current area on the panel core nearby in the water flow, thereby effectively solving the problems of limited electroplating volume, non-uniform nano particle distribution during electroplating, long electroplating time and low efficiency caused by the influence of the shape and the property of the panel core in the black chromium electroplating process of the common solar panel core.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of a solar panel core structure of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

FIG. 4 is a front view of the movable plating mechanism of the present invention;

FIG. 5 is a cross-sectional view of the rubber vertical bar structure of the present invention;

FIG. 6 is a front view of the structure of a chromium ball of the present invention.

The solar panel comprises a solar panel core 1, a concentrated electroplating pool 2, a plate core moving electroplating mechanism 3, an electroplating bath 31, a cathode conducting rod 32, a capping rubber film 33, a movable hanging rod 34, a movable clamp 35, a connecting rope 36, a sliding chute 37, a limiting block 38, a connecting groove 39, an elastic pull belt 310, a vent hole 311, a movable electroplating mechanism 4, a rubber fixing ring 41, a rubber vertical rod 42, a chromium rod 43, an anode conducting rod 44, a conducting rod 45, a rubber ring 46, a conductive ring 47, a branching conductive wire 48, a corrugated rubber pipe 49, an elastic conductive wire 410, a string bag 411, a chromium ball 412, a silt collecting groove 5, a sealing inserted rod 6, a storage battery 7, an anode conductive wire 8, a cathode conductive wire 9, a support plate 10 and an electric heating rod 11.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-6, an embodiment of the present invention provides a manufacturing apparatus for an all-copper black-chromium plate core solar thermal collector, including a solar panel core 1 made of aluminum, a centralized electroplating tank 2 for centralized chromium plating of the solar panel core 1, a plate core moving electroplating mechanism 3 for moving the plate core and limiting the position of the solar panel core 1, and a movable electroplating mechanism 4 for providing chromium ions, where the plate core moving electroplating mechanism 3 and the movable electroplating mechanism 4 are both disposed on the centralized electroplating tank 2, an inner bottom wall of the centralized electroplating tank 2 is arc-shaped, an inner bottom wall of the centralized electroplating tank 2 is provided with two symmetrically-distributed siltation collecting grooves 5, a sealing insertion rod 6 is inserted into a surface of the centralized electroplating tank 2 in a sealing manner, and one end of the sealing insertion rod 6 penetrates and extends into the siltation grooves 5.

The external fixed mounting of concentrated electroplating pond 2 has battery 7, and the anodal electricity of battery 7 is connected with anodal conductor wire 8, and the negative pole electricity of battery 7 is connected with negative pole conductor wire 9, and the bottom fixedly connected with backup pad 10 of concentrated electroplating pond 2, the interior diapire fixed mounting of concentrated electroplating pond 2 have electrical heating rod 11, and electrical heating rod 11's input is connected with anodal conductor wire 8's output electricity.

The plate core moving electroplating mechanism 3 comprises a plurality of electroplating baths 31 corresponding to the solar panel cores 1 one by one, a plurality of cathode conducting rods 32 corresponding to the electroplating baths 31 one by one, a capping rubber film 33, a movable hanging rod 34 and a plurality of movable clamps 35, wherein the electroplating baths 31 are fixedly connected to the inner bottom wall of the centralized electroplating pool 2, the solar panel cores 1 are arranged in the electroplating baths 31, the input ends of the cathode conducting rods 32 are electrically connected with the output ends of the electroplating baths 31, the output ends of the cathode conducting rods 32 are electrically connected with the input ends of the cathode conducting wires 9, the top of the solar panel cores 1 are clamped with the movable clamps 35, the surface of the movable clamps 35 is fixedly connected with two connecting ropes 36 with different lengths, one end of each connecting rope 36 is fixedly connected with the lower surface of the capping rubber film 33, the contact parts of the movable clamps 35 and the solar panel cores 1 are provided with insulating rubber, a plurality of chute 37 has been seted up on the surface of concentrated electroplating pool 2, the lower surface of activity peg 34 and the inner wall sliding connection of chute 37, the ball has been inlayed to the inner wall of chute 37, the fixed surface of activity peg 34 is connected with stopper 38, spread groove 39 has been seted up on the surface of activity peg 34, the inner wall ligature of spread groove 39 has elasticity stretching strap 310, the surface of elasticity stretching strap 310 and the last fixed surface of capping rubber membrane 33 are connected, one row of bleeder vent 311 has been seted up on the surface of capping rubber membrane 33, bleeder vent 311 is close to one side of concentrated electroplating pool 2.

The movable electroplating mechanism 4 comprises a plurality of rubber fixing rings 41, rubber vertical rods 42, chromium rods 43 and anode conducting rods 44, the rubber fixing rings 41 and the electroplating bath 31 are distributed in a staggered manner, the rubber vertical rods 42 are sleeved inside the rubber fixing rings 41, the chromium rods 43 are sleeved on the rubber vertical rods 42, the conducting rods 45 are embedded inside the rubber vertical rods 42, the input ends of the anode conducting rods 44 are electrically connected with the output ends of the anode conducting wires 8, the output ends of the anode conducting rods 44 are electrically connected with the input ends of the conducting rods 45, the input ends of the chromium rods 43 are electrically connected with the output ends of the conducting rods 45 leaked inside the fixing rings, rubber rings 46 are sleeved on the top of the rubber vertical rods 42 and the surfaces of the rubber fixing rings 41, conducting rings 47 are embedded inside the rubber rings 46, the input ends of the conducting rings 47 are electrically connected with the output ends of the conducting rods 45, branching conducting wires 48 are electrically connected between the conducting rings 47 on two longitudinally adjacent rubber vertical rods 42 and two longitudinally adjacent rubber, the surface fixed connection of separated time conductor wire 48 has ripple rubber tube 49, the elasticity conductor wire 410 has been cup jointed to the inside of ripple rubber tube 49, the output of the inside sinle silk of separated time conductor wire 48 is connected with the input electricity of elasticity conductor wire 410, the surface of ripple rubber tube 49 has been cup jointed a plurality of string bag 411, chromium ball 412 has been set up to the inside of string bag 411, the output of elasticity conductor wire 410 is connected with chromium ball 412's input electricity, the front and the back of each solar panel core 1 all are provided with a plurality of chromium ball 412, the wobbling direction of solar panel core 1 wobbling is opposite with chromium ball 412's swing direction, and do not contact at the biggest swing within range between solar panel core 1 and the chromium ball 412.

When the solar panel is used, the solar panel core 1 is placed in the electroplating bath 31, the top edge of the solar panel core 1 is clamped with the movable clamp 35 closest to the bottom of the capping rubber film 33, the chromium rods 43 are sleeved on the rubber vertical rods 42, the chromium balls 412 are placed in the string bag 411, the electrolyte containing chromium ions is injected into the centralized electroplating pool 2 until the electrolyte is flush with the capping rubber film 33, a power supply is connected, the chromium ions on the chromium rods 43 and the chromium balls 412 are migrated and electroplated on the surface of each solar panel core 1 during electroplating, the electric heating rod 11 generates heat waves during heating, gas generated during electrolysis also rises and moves towards the air holes 311 along with the capping rubber film 33 in a wave shape, at the moment, the electrolyte is stirred and drives the solar panel core 1 to swing left and right, the solar panel core 1 swinging left and right asynchronously swings so that the migrated chromium ions in the electrolyte are uniformly stirred in a large range, when the solar panel core 1 swings left and right, one chromium ball 412 on the two sides of the solar panel core 1 is always close to the position with weaker current at the middle part of the solar panel core 1 under the action of inertia, so that the electroplating process of the whole manufacturing device of the full-copper black chromium plate core solar collector is completed.

Claims (3)

1. The use method of the manufacturing device of the all-copper black chromium plate core solar thermal collector is characterized in that: the manufacturing device of the all-copper black-chromium plate core solar thermal collector comprises a solar panel core (1) made of aluminum materials, a concentrated electroplating pool (2) used for carrying out concentrated chromium plating on the solar panel core (1), a plate core moving electroplating mechanism (3) used for moving the plate core and limiting the position of the solar panel core (1), and a movable electroplating mechanism (4) used for providing chromium ions, wherein the plate core moving electroplating mechanism (3) and the movable electroplating mechanism (4) are both arranged on the concentrated electroplating pool (2); a storage battery (7) is fixedly mounted outside the centralized electroplating pool (2), a positive electrode of the storage battery (7) is electrically connected with a positive electrode conductive wire (8), a negative electrode of the storage battery (7) is electrically connected with a negative electrode conductive wire (9), the bottom of the centralized electroplating pool (2) is fixedly connected with a supporting plate (10), an electric heating rod (11) is fixedly mounted on the inner bottom wall of the centralized electroplating pool (2), and the input end of the electric heating rod (11) is electrically connected with the output end of the positive electrode conductive wire (8); the plate core moving electroplating mechanism (3) comprises a plurality of electroplating baths (31) which correspond to solar panel cores (1) one by one, a plurality of cathode conducting rods (32) which correspond to the electroplating baths (31) one by one, a capping rubber film (33), a movable hanging rod (34) and a plurality of movable clamps (35), wherein the electroplating baths (31) are fixedly connected to the inner bottom wall of the centralized electroplating pool (2), the solar panel cores (1) are arranged in the electroplating baths (31), the input ends of the cathode conducting rods (32) are electrically connected with the output ends of the electroplating baths (31), the output ends of the cathode conducting rods (32) are electrically connected with the input end of a cathode conducting wire (9), the top of each solar panel core (1) is clamped with the movable clamps (35), two connecting ropes (36) with different lengths are fixedly connected to the surface of each movable clamp (35), one end of each connecting rope (36) is fixedly connected with the lower surface of the capping rubber film (33), the contact part of the movable clamp (35) and the solar panel core (1) is provided with insulating rubber, and the inner wall of the electroplating bath (31) is embedded with a rubber ball; the surface of the centralized electroplating pool (2) is provided with a plurality of sliding grooves (37), the lower surface of the movable hanging rod (34) is in sliding connection with the inner walls of the sliding grooves (37), balls are embedded in the inner walls of the sliding grooves (37), the surface of the movable hanging rod (34) is fixedly connected with a limiting block (38), the surface of the movable hanging rod (34) is provided with a connecting groove (39), an elastic pull belt (310) is bound and connected to the inner wall of the connecting groove (39), and the surface of the elastic pull belt (310) is fixedly connected with the upper surface of the capping rubber film (33); the movable electroplating mechanism (4) comprises a plurality of rubber fixing rings (41), rubber vertical rods (42), a chromium rod (43) and an anode conducting rod (44), the rubber fixing rings (41) and the electroplating bath (31) are distributed in a staggered mode, the rubber vertical rods (42) are sleeved in the rubber fixing rings (41), the chromium rod (43) is sleeved on the rubber vertical rods (42), the conducting rods (45) are embedded in the rubber vertical rods (42), the input end of the anode conducting rod (44) is electrically connected with the output end of the anode conducting wire (8), the output end of the anode conducting rod (44) is electrically connected with the input end of the conducting rod (45), and the input end of the chromium rod (43) is electrically connected with the output end of the conducting rod (45) leaked from the inside of the fixing rings; the top of rubber montant (42) and the surface of rubber retainer plate (41) have all been cup jointed rubber ring (46), the inside of rubber ring (46) is inlayed and is had conductive loop (47), the input of conductive loop (47) is connected with the output electricity of conducting rod (45), be connected with separated time conductor wire (48) between conductive loop (47) on vertical two adjacent rubber montants (42) and vertical two adjacent rubber retainer plates (41), the fixed surface of separated time conductor wire (48) is connected with ripple rubber tube (49), flexible conductor wire (410) is cup jointed to the inside of ripple rubber tube (49), the output of the inside sinle silk of separated time conductor wire (48) is connected with the input electricity of elasticity conductor wire (410), a plurality of string bag (411) has been cup jointed on the surface of ripple rubber tube (49), chromium ball (412) has been lapped to the inside of string bag (411), the output end of the elastic conductive wire (410) is electrically connected with the input end of the chromium balls (412), the front and the back of each solar panel core (1) are respectively provided with a plurality of chromium balls (412), the swinging direction of the solar panel core (1) is opposite to the swinging direction of the chromium balls (412), and the solar panel core (1) is not in contact with the chromium balls (412) within the maximum swinging range; when the solar energy heat collecting device is used, the solar panel core (1) is placed in the electroplating bath (31), the top edge of the solar panel core (1) is clamped with the movable clamp (35) closest to the bottom of the capping rubber film (33), the chromium rod (43) is sleeved on each rubber vertical rod (42), the chromium ball (412) is placed in the string bag (411), electrolyte containing chromium ions is injected into the centralized electroplating pool (2) until the electrolyte is flush with the capping rubber film (33), a power supply is connected, the chromium ions on the chromium rod (43) and the chromium ball (412) move and are electroplated on the surface of each solar panel core (1) during electroplating, the electric heating rod (11) generates heat waves during heating, gas generated during electrolysis also rises and moves towards the air vent (311) along with the wave-shaped capping rubber film (33), and the electrolyte is stirred to drive the solar panel core (1) to swing left and right, the solar panel core (1) which swings leftwards and rightwards asynchronously enables chromium ions moving in electrolyte to be uniformly stirred in a large range, and when the solar panel core (1) swings leftwards and rightwards, chromium balls (412) on two sides of the solar panel core (1) are always close to the position, with weaker current, of the middle part of the solar panel core (1) under the action of inertia, so that the electroplating process of the whole manufacturing device of the all-copper black chromium plate core solar collector is completed.

2. The use method of the manufacturing device of the all-copper black chromium plate core solar thermal collector according to claim 1, is characterized in that: the inner bottom wall of the centralized electroplating pool (2) is arc-shaped, the inner bottom wall of the centralized electroplating pool (2) is provided with two symmetrically-distributed silt gathering grooves (5), the surface of the centralized electroplating pool (2) is sealed and plugged with a sealing inserted bar (6), and one end of the sealing inserted bar (6) penetrates through and extends to the inside of the silt gathering grooves (5).

3. The use method of the manufacturing device of the all-copper black chromium plate core solar thermal collector according to claim 1, is characterized in that: the surface of the top sealing rubber film (33) is provided with a row of air holes (311), and the air holes (311) are close to one side of the centralized electroplating pool (2).

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