CN113909201A - Surface treatment equipment for improving corrosion resistance of electrolytic copper surface - Google Patents

Abstract

The invention relates to surface treatment equipment, in particular to surface treatment equipment for improving the corrosion resistance of the surface of electrolytic copper. The surface treatment equipment can treat electrolytic copper in batches, has high working efficiency and improves the corrosion resistance of the electrolytic copper surface. A surface treatment device for improving the corrosion resistance of the surface of electrolytic copper comprises a frame, a shell, a vertical rod, a first mounting block and the like; frame top rear side is equipped with the shell, and the left and right sides of frame top left side front side all is equipped with the montant, all is equipped with first installation piece slidingtype on the montant. The staff pours the liquid medicine into and washs the frame in, then puts a plurality of electrolytic copper on the otter board again for electrolytic copper soaks in the liquid medicine, handles the back of accomplishing, washs the frame and moves down and makes the otter board drag for electrolytic copper, then falls electrolytic copper to the swash plate on, dries it through the produced heat of heating pipe, thereby has realized carrying out batch processing's purpose to electrolytic copper, has improved work efficiency.

Description

Surface treatment equipment for improving corrosion resistance of electrolytic copper surface

Technical Field

The invention relates to surface treatment equipment, in particular to surface treatment equipment for improving the corrosion resistance of the surface of electrolytic copper.

Background

Copper belongs to semi-noble metal and is mainly used for manufacturing electrical products, and in order to prolong the service life of electrolytic copper and reduce the loss of oxygen absorption corrosion of the electrolytic copper, the electrolytic copper needs to be soaked in liquid medicine to improve the corrosion resistance of the surface of the electrolytic copper.

Patent grant publication No. CN 211284553U's patent has announced an improve electrolytic copper surface corrosion resistance's surface treatment device, this processing apparatus includes and arranges in proper order and the multistage processing groove of the coincidence of central axis along same direction, all be equipped with circulation transport area in every processing groove, be fixed with the holder that a plurality of intervals set up on the circulation transport area, be equipped with the guide rail directly over the multistage processing groove, the below of guide rail is equipped with a plurality of clamping jaws, every clamping jaw is connected with the slider through the connecting rod that can reciprocate, the slider setting is at the downside of guide rail and with the guide rail cooperation, be equipped with the cylinder that the drive slider was reciprocating motion on the guide rail on the slider, the hookup has the elasticity cylinder on the clamping jaw, the both sides of every slider are equipped with first stopper and second stopper respectively, first stopper and second stopper are used for injecing the home range of slider. The treatment device finishes the purpose of treating the surface of the electrolytic copper by removing impurities, cleaning, soaking in liquid medicine and other processes of the electrolytic copper sequentially through the clamping jaws, but the treatment device cannot operate in batches when treating the surface of the electrolytic copper, so that the treatment efficiency of the surface of the electrolytic copper is low.

Therefore, it is necessary to provide a surface treatment apparatus capable of treating electrolytic copper in a batch manner and improving the corrosion resistance of the electrolytic copper surface with high work efficiency to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the existing treatment equipment cannot be operated in batch and has low working efficiency, the technical problem is as follows: the surface treatment equipment can treat electrolytic copper in batches, has high working efficiency and improves the corrosion resistance of the electrolytic copper surface.

The technical scheme is as follows: a surface treatment device for improving the corrosion resistance of the surface of electrolytic copper comprises a frame, a shell, a vertical rod, a first mounting block, a mounting rod and a first sliding block, cleaning frame, the drain pipe, the solenoid valve, first start button, placement mechanism and stoving mechanism, frame top rear side is equipped with the shell, the left and right sides of frame top left side front side all is equipped with the montant, it is equipped with first installation piece all to slide on the montant, the left and right sides of frame top left side rear side all is equipped with the installation pole, it is equipped with first slider all to slide on the installation pole, be connected with between two first sliders and two first installation pieces and wash the frame, the middle part of wasing frame bottom rear side is equipped with the drain pipe, the drain pipe lower part is equipped with the solenoid valve, the right side of wasing the frame front side is equipped with first start button, be equipped with the placement mechanism who is used for placing electrolytic copper between montant and the installation pole, be equipped with the stoving mechanism that is used for drying electrolytic copper in the frame.

Further, the placing mechanism is equipped with the otter board including otter board, L type pole and arc guide, and the rotary type is equipped with the otter board between controlling two installation pole upper portions, and the otter board is located and washs the frame, and the left and right sides of otter board top front side all is equipped with L type pole, and montant upper portion all is equipped with arc guide, and L type pole all is connected with the arc guide slidingtype of homonymy.

Further, the drying mechanism comprises transverse rods, a mounting frame, a reset spring, an inclined plate, a mounting frame, a speed reducing motor, blades, a heating pipe, a square plate, a first sliding rod, a fixed pulley, a stay wire and a first elastic part, wherein the transverse rods are arranged on the left side and the right side of the left front side of the top of the rack, the two transverse rods are arranged between two vertical rods, the mounting frame is arranged between the left transverse rods and the right transverse rods in a sliding mode, the reset spring is wound and connected between the mounting frame and the transverse rods, the inclined plate is arranged at the top of the mounting frame, the mounting frame is arranged at the lower part in the mounting frame, the speed reducing motor is arranged at the lower part of the mounting frame, the blades are arranged on an output shaft of the speed reducing motor, the heating pipe is arranged at the bottom of the inclined plate, the square plate is arranged in the middle of the rear side of the inclined plate, the first sliding rods are arranged on the left side and the right side of the left front side of the top of the rack in a sliding mode, the first sliding rods are arranged on the outer sides of the cleaning frame, the downward movement and are contacted with the first sliding rods, the fixed pulley in a rotating mode, the fixed pulley is located first slide bar front side, and first slide bar lower part all is equipped with acts as go-between, and the tail end of acting as go-between all walks around the fixed pulley of homonymy and is connected with the installing frame, all is connected with first elastic component between first slide bar and the frame.

Further, still including being used for carrying out spacing stop gear to L type pole, stop gear is including the second installation piece, the second slide bar, the second elastic component, limiting plate and wedge, arc guide rail lower part rear side is equipped with the second installation piece, equal slidingtype is equipped with the second slide bar on the second installation piece, it has the second elastic component all to have wound around between second slide bar and the close second installation piece, second slide bar top all is equipped with the limiting plate, the limiting plate all contacts with the L type pole of homonymy, it all is equipped with the wedge to wash the frame upper portion left and right sides, the wedge moves down all contacts with close second slide bar.

Further, still including being used for the drive to wash the pushing mechanism that the frame reciprocated, pushing mechanism is including changeing the board, the second slider, electric putter, second start button and connecting block, the left middle part rotary type in frame top is equipped with changes the board, it is equipped with the second slider to change the board rear side sliding type, the right front side of bottom is equipped with electric putter in the shell, electric putter's extension end passes the shell and is connected with second slider rotary type, the right side of wasing the frame front side is equipped with second start button, second start button is located first start button left side, it is equipped with the connecting block to wash frame bottom right side, the connecting block is connected with changeing the board slidingtype.

Further, the electrolytic copper cleaning device comprises a discharging mechanism for placing electrolytic copper into the cleaning frame, the discharging mechanism comprises a stop block, a third slide block, a square frame, a partition plate, a third installation block, an N-shaped rod, an installation plate, contact blocks, push blocks, baffles, a contact plate and a third elastic piece, the stop block is arranged on the right side of the upper portion of the front side of the cleaning frame, the third slide block is arranged on the upper left portion of the shell in a sliding mode, the square frame is arranged on the front side of the third slide block, nine partition plates are evenly arranged in the square frame at intervals, the third installation blocks are arranged on the left side and the right side of the front side of the square frame, the N-shaped rod is arranged between the left installation block and the right installation block in a sliding mode, the installation plate is arranged at the bottom of the N-shaped rod, the contact blocks are arranged on the right side of the bottom of the installation plate, the contact blocks move leftwards to be in contact with the stop block, the ten push blocks are evenly arranged at intervals at the top of the installation plate, the ten baffle plates are arranged at even intervals in a rotating mode at the bottom of the square frame, and torsion springs are wound between the baffle plates and the square frame, the front side of the baffle is provided with a contact plate which is contacted with the adjacent pushing block, the torsion spring is in a stretching state at the moment, a third elastic piece is connected between the N-shaped rod and the third mounting block on the right side in a winding manner, and the third elastic piece is in a stretching state.

Further, still including the slewing mechanism who removes about drive drop feed mechanism, slewing mechanism is including servo motor, sector gear, the apparatus further comprises a rotating shaft, the cylindricality gear, the bar board, fourth slider and photoelectric sensor, upper right portion is equipped with servo motor in the shell, be equipped with sector gear on servo motor's the output shaft, upper right portion rotary type of shell is equipped with the pivot, the pivot lower part is located the shell, the pivot lower part is equipped with the cylindricality gear, cylindricality gear and sector gear cooperation, pivot upper portion is equipped with the bar board, the front side on square frame right side is equipped with the fourth slider, fourth slider and bar board sliding type are connected, the upper left portion of shell front side is equipped with photoelectric sensor.

The electrolytic copper surface treatment device further comprises a circuit box, the circuit box is arranged on the right front side of the top of the rack, a switching power supply, a control module and a power supply module are arranged in the circuit box, the switching power supply supplies power for surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the first starting button, the second starting button, the photoelectric sensor and the control module are electrically connected, and the electromagnetic valve, the speed reducing motor, the heating pipe, the electric push rod, the servo motor and the control module are connected through peripheral circuits.

The beneficial effects are that: 1. the staff pours the liquid medicine into and washs the frame in, then puts a plurality of electrolytic copper on the otter board again for electrolytic copper soaks in the liquid medicine, handles the back of accomplishing, washs the frame and moves down and makes the otter board drag for electrolytic copper, then falls electrolytic copper to the swash plate on, dries it through the produced heat of heating pipe, thereby has realized handling the purpose to electrolytic copper in batches, has improved the efficiency to electrolytic copper surface treatment.

2. The limiting plate is in contact with the L-shaped rod to support the L-shaped rod, when the cleaning frame drives the wedge block to move downwards to be in contact with the second sliding rod, the limiting plate moves forwards along with the wedge block to be separated from the L-shaped rod, and therefore the electrolytic copper can be poured out by automatically enabling the front side of the screen plate to rotate downwards after the cleaning frame moves downwards to a proper position.

3. Electric putter's extension end shortens and makes the washing frame remove downwards, and electric putter's extension end makes the washing frame rebound to reset, so, can make the washing frame reciprocate as required automatically, no longer need promote through the manual work, more makes things convenient for people to use.

4. Servo motor's output shaft rotates and makes square frame move right and feed, and servo motor's output shaft reversal makes square frame move left and puts into the washing frame with the electrolytic copper, so, can avoid the staff when directly losing the electrolytic copper in the washing frame, the liquid medicine spill to lead to the staff injured.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of the placement mechanism of the present invention.

Fig. 5 is a schematic perspective view of a portion of the placement mechanism of the present invention.

Fig. 6 is a schematic perspective view of the drying mechanism of the present invention.

Fig. 7 is a schematic view of a partial sectional structure of the drying mechanism of the present invention.

Fig. 8 is a schematic perspective view of a part of the drying mechanism of the present invention.

Fig. 9 is a schematic perspective view of the limiting mechanism of the present invention.

Fig. 10 is a schematic partial perspective view of the spacing mechanism of the present invention.

Fig. 11 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 12 is a schematic perspective view of a part of the pushing mechanism of the present invention.

Fig. 13 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 14 is a schematic view of a first partially separated body structure of the discharge mechanism of the present invention.

FIG. 15 is a schematic view of a second partially separated body structure of the discharge mechanism of the present invention.

Fig. 16 is a schematic view of a first partial structure of the rotating mechanism of the present invention.

Fig. 17 is a schematic view of a second partial structure of the rotating mechanism of the present invention.

Fig. 18 is a circuit block diagram of the present invention.

Fig. 19 is a circuit schematic of the present invention.

Part names and serial numbers in the figure: 1_ rack, 2_ circuit box, 3_ shell, 4_ vertical rod, 5_ first mounting block, 6_ mounting rod, 7_ first sliding block, 8_ cleaning frame, 81_ liquid outlet pipe, 82_ electromagnetic valve, 83_ first start button, 9_ placing mechanism, 91_ screen plate, 92_ L-shaped rod, 93_ arc guide rail, 10_ drying mechanism, 101_ horizontal rod, 102_ mounting frame, 1021_ reset spring, 103_ inclined plate, 104_ mounting frame, 105_ speed reducing motor, 106_ blade, 107_ heating pipe, 108_ square plate, 109_ first sliding rod, 1010_ fixed pulley, 1011_ stay wire, 1012_ first elastic piece, 11_ limit mechanism, 111_ second mounting block, 112_ second sliding rod, 113_ second elastic piece, 114_ limit plate, 115_ wedge block, 12_ pushing mechanism, 121_ rotating plate, 122_ second sliding block, 123_ electric push rod, 124_ second start button, 125_ connecting block, 13_ discharging mechanism, 131_ stopper, 132_ third slider, 133_ square frame, 134_ clapboard, 135_ third mounting block, 136_ N-type rod, 137_ mounting plate, 138_ contact block, 139_ push block, 1391_ baffle, 1392_ contact plate, 1393_ third elastic piece, 14_ rotating mechanism, 141_ servo motor, 142_ sector gear, 143_ rotating shaft, 144_ cylindrical gear, 145_ strip plate, 146_ fourth slider and 147_ photoelectric sensor.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

A surface treatment device for improving the corrosion resistance of the surface of electrolytic copper is disclosed, as shown in figures 1-8, and comprises a frame 1, a shell 3, a vertical rod 4, a first mounting block 5, a mounting rod 6, a first slide block 7, a cleaning frame 8, a liquid outlet pipe 81, a solenoid valve 82, a first start button 83, a placing mechanism 9 and a drying mechanism 10, wherein the shell 3 is welded on the rear side of the top of the frame 1, the vertical rod 4 is welded on the left and right sides of the left front side of the top of the frame 1, the vertical rod 4 is L-shaped, the first mounting block 5 is arranged on the vertical rod 4 in a sliding manner, the mounting rod 6 is welded on the left and right sides of the left rear side of the top of the frame 1, the first slide block 7 is arranged on the mounting rod 6 in a sliding manner, the cleaning frame 8 is fixedly connected between the two first slide blocks 7 and the two first mounting blocks 5 through bolts, the liquid outlet pipe 81 is arranged in the middle of the rear side of the bottom of the cleaning frame 8, the solenoid valve 82 is arranged on the lower portion of the liquid outlet pipe 81, the right side of wasing 8 front sides of frame is equipped with first start button 83, and first start button 83 is used for controlling solenoid valve 82 to open and close, is equipped with placement mechanism 9 between montant 4 and the installation pole 6, and placement mechanism 9 can place the electrolytic copper, is equipped with drying mechanism 10 in the frame 1, and drying mechanism 10 can dry the surperficial moisture of electrolytic copper.

When the device is used, a worker presses a power supply main switch to electrify the equipment, then fixes the position of the cleaning frame 8 through a tool, then pours the liquid medicine into the cleaning frame 8, after the liquid medicine is poured, the worker places a plurality of electrolytic copper on the placing mechanism 9, at the moment, the electrolytic copper is positioned in the liquid medicine in the cleaning frame 8 for treatment, after the treatment is finished, the worker loosens the cleaning frame 8, the cleaning frame 8 moves downwards along with the liquid medicine under the action of gravity, the cleaning frame 8 moves downwards to drive the first mounting block 5 to slide downwards on the vertical rod 4, the first sliding block 7 slides downwards on the mounting rod 6 along with the cleaning frame, after the cleaning frame 8 moves downwards, the parts of the placing mechanism 9 are separated from the cleaning frame 8, the electrolytic copper of the placing mechanism 9 is fished out along with the electrolytic copper, then the worker pours the electrolytic copper of the placing mechanism 9 to the drying mechanism 10 to dry the moisture on the surface, after electrolytic copper treatment is completed, a worker can press a first starting key 83, the first starting key 83 sends a signal, the control module receives the signal and then opens the control electromagnetic valve 82, liquid medicine in the cleaning frame 8 is discharged through the liquid outlet pipe 81, after the liquid medicine is discharged, the worker presses the first starting key 83 again, the first starting key 83 sends a signal, the control module receives the signal and then closes the control electromagnetic valve 82, then the worker pushes the cleaning frame 8 to move upwards for resetting, and after the equipment is used, the worker presses the power master switch again to power off the equipment.

Placing mechanism 9 is equipped with otter board 91 including otter board 91, L type pole 92 and arc guide 93 about, the rotary type between 6 upper portions of two installation poles, and otter board 91 is used for placing electrolytic copper, and otter board 91 is located and washs frame 8, and L type pole 92 has all been welded to the left and right sides of otter board 91 top front side, and arc guide 93 has all been welded on 4 upper portions of montant, and L type pole 92 all is connected with the arc guide 93 slidingtype of homonymy.

When the device is used, a worker fixes the L-shaped rod 92 on the upper part of the arc-shaped guide rail 93 by using a tool, when electrolytic copper is processed, the worker puts the electrolytic copper on the screen plate 91, because the screen plate 91 is positioned in the cleaning frame 8, the electrolytic copper is immersed in the liquid medicine, after the electrolytic copper is processed, the worker pushes the cleaning frame 8 to move downwards, at the moment, because the L-shaped rod 92 is fixed, the screen plate 91 cannot move downwards along with the cleaning frame 8, when the cleaning frame 8 moves downwards to be separated from the screen plate 91, the electrolytic copper immersed in the liquid medicine is fished out, at the moment, the worker loosens the L-shaped rod 92, under the action of gravity, the front side of the screen plate 91 rotates downwards and inclines, after the front side of the screen plate 91 rotates downwards and inclines, the processed electrolytic copper slides down to the drying mechanism 10 from the inclined screen plate 91, after the electrolytic copper on the screen plate 91 is poured out, when the cleaning frame 8 moves upwards to be contacted with the L-shaped rod 92, promote L type pole 92 upwards to slide in arc guide rail 93 when wasing frame 8 and upwards moving, L type pole 92 upwards slides and drives otter board 91 front side and upwards rotate and reset, so, can place the electrolytic copper, conveniently handle its surface, simultaneously, also make things convenient for the staff to drag for it after handling the completion.

The drying mechanism 10 comprises a cross rod 101, a mounting frame 102, a return spring 1021, an inclined plate 103, a mounting frame 104, a speed reduction motor 105, blades 106, a heating pipe 107, a square plate 108, a first slide rod 109, a fixed pulley 1010, a pull wire 1011 and a first elastic part 1012, the left side and the right side of the left front side of the top of the rack 1 are fixedly connected with the cross rod 101 through bolts, the two cross rods 101 are positioned between the two vertical rods 4, the mounting frame 102 is arranged between the left cross rod 101 and the right cross rod 101 in a sliding manner, the return spring 1021 is wound between the mounting frame 102 and the cross rod 101, the inclined plate 103 is arranged at the top of the mounting frame 102, the mounting frame 104 is welded at the inner lower part of the mounting frame 102, the speed reduction motor 105 is arranged at the lower part of the mounting frame 104, the blades 106 are arranged on an output shaft of the speed reduction motor 105, the heating pipe 107 is arranged at the bottom of the inclined plate 103, the heating pipe 107 is used for providing heat to dry electrolytic copper, the square plate 108 is welded at the middle part of the rear side of the inclined plate 103, the left and right sides of 1 top left front side of frame all slidingtype is equipped with first slide bar 109, first slide bar 109 is located the horizontal pole 101 outside, wash frame 8 downstream and the contact of first slide bar 109, the equal rotary type in the left and right sides of 1 top left front side of frame is equipped with fixed pulley 1010, fixed pulley 1010 is located first slide bar 109 front side, first slide bar 109 lower part all is equipped with the 1011 of acting as go-between, the tail end of the 1011 of acting as go-between all walks around the fixed pulley 1010 and be connected with the installing frame 102 of homonymy, all be connected with first elastic component 1012 between first slide bar 109 and the frame 1, first elastic component 1012 is compression spring.

When the device is used, the equipment is electrified to start the speed reducing motor 105 and the heating pipe 107, the output shaft of the speed reducing motor 105 rotates to drive the blades 106 to rotate, the blades 106 rotate to blow hot air generated by the heating pipe 107 upwards, when the cleaning frame 8 moves downwards to be in contact with the first slide bar 109, the cleaning frame 8 moves downwards to press the first slide bar 109 to slide downwards, the first elastic piece 1012 deforms, the first slide bar 109 slides downwards to pull the mounting frame 102 to slide backwards through the pull wire 1011, the return spring 1021 deforms, the mounting frame 102 slides backwards to drive the square plate 108 to move backwards through the inclined plate 103, the square plate 108 moves backwards and is positioned below the front side of the screen plate 91, when the front side of the screen plate 91 rotates downwards, the front side of the screen plate 91 is just lapped on the square plate 108, electrolytic copper on the screen plate 91 slides onto the inclined plate 103 to be dried, when the cleaning frame 8 moves upwards, under the action of the return of the first elastic piece 1012, the first sliding rod 109 slides upwards along with the first sliding rod, the pull wire 1011 is loosened, at this time, under the action of the reset spring 1021, the mounting frame 102 slides forwards along with the first sliding rod, the mounting frame 102 slides forwards to drive the square plate 108 to move forwards through the inclined plate 103, the square plate 108 is prevented from blocking the cleaning frame 8, after the equipment is powered off, the speed reducing motor 105 and the heating pipe 107 are closed along with the second sliding rod, and therefore moisture on the surface of the electrolytic copper can be dried.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18 and 19, the cleaning frame further comprises a limiting mechanism 11, wherein the limiting mechanism 11 is capable of limiting the L-shaped rod 92, the limiting mechanism 11 comprises a second mounting block 111, a second sliding rod 112, a second elastic member 113, a limiting plate 114 and a wedge block 115, the second mounting block 111 is welded on the rear side of the lower portion of the arc-shaped guide rail 93, the second mounting block 111 is provided with a second sliding rod 112 in a sliding manner, the second sliding rod 112 is L-shaped, the second elastic member 113 is wound between the second sliding rod 112 and the adjacent second mounting block 111, the second elastic member 113 is a compression spring, the top of the second sliding rod 112 is welded with the limiting plate 114, the limiting plate 114 is in contact with the L-shaped rod 92 on the same side, the left side and the right side of the upper portion of the cleaning frame 8 are fixedly connected with the wedge block 115 through screws, the wedge blocks 115 are all moved downwards into contact with the adjacent second slide bar 112.

When the device is used, the limiting plate 114 contacts with the L-shaped rod 92 to support the L-shaped rod 92, so that the L-shaped rod 92 is fixed on the upper portion of the arc-shaped guide rail 93, when the cleaning frame 8 moves downwards, the wedge block 115 moves downwards along with the downward movement, when the wedge block 115 moves downwards to be in contact with the second sliding rod 112, the wedge block 115 continues to move downwards to press the second sliding rod 112 to slide forwards, the second elastic member 113 is deformed, the second sliding rod 112 slides forwards to drive the limiting plate 114 to move forwards to be separated from the L-shaped rod 92, at this time, the front side of the mesh plate 91 rotates downwards to pour out the electrolytic copper, when the wedge block 115 moves downwards to be separated from the second sliding rod 112, under the action of the reset of the second elastic member 113, the second sliding rod 112 drives the limiting plate 114 to move backwards to reset, when the cleaning frame 8 needs to move upwards, a worker pulls the second sliding rod 112 to slide forwards, and the second elastic member 113 deforms, the second sliding rod 112 slides forwards to drive the limiting plate 114 to move forwards, after the cleaning frame 8 moves upwards to drive the L-shaped rod 92 to move upwards for resetting, the worker loosens the second sliding rod 112, under the action of resetting of the second elastic piece 113, the second sliding rod 112 drives the limiting plate 114 to move backwards for resetting, at this time, the limiting plate 114 is located below the L-shaped rod 92 again to support the L-shaped rod 92, so that the L-shaped rod 92 can be automatically fixed on the upper portion of the arc-shaped guide rail 93, and meanwhile, after the cleaning frame 8 moves downwards to a proper position, the front side of the screen plate 91 automatically rotates downwards to pour out electrolytic copper.

Still including pushing mechanism 12, pushing mechanism 12 can drive and wash frame 8 and reciprocate, pushing mechanism 12 is including changeing board 121, second slider 122, electric putter 123, second start button 124 and connecting block 125, frame 1 top left middle part rotary type is equipped with changeing board 121, it is equipped with second slider 122 to change board 121 rear side sliding type, the right front side of bottom has electric putter 123 through the bolt rigid coupling in shell 3, the extension end of electric putter 123 passes shell 3 and is connected with second slider 122 rotary type, the right side of washing frame 8 front side is equipped with second start button 124, second start button 124 is used for controlling electric putter 123's extension end extension and shortens, second start button 124 is located first start button 83 left side, it has connecting block 125 to wash frame 8 bottom right side welding, connecting block 125 and commentaries on classics board 121 sliding type connection.

When the device is used, the rotating plate 121 fixes the cleaning frame 8 at an upper position through the connecting block 125, when the cleaning frame 8 needs to be controlled to move downwards, a worker presses the second starting button 124, the second starting button 124 sends a signal, the control module receives the signal and controls the extending end of the electric push rod 123 to shorten for three seconds and stop operating, the extending end of the electric push rod 123 shortens and drives the rotating plate 121 to rotate downwards through the second slider 122, the rotating plate 121 rotates downwards and pulls the cleaning frame 8 to move downwards through the connecting block 125, when the cleaning frame 8 needs to be controlled to move upwards, the worker presses the second starting button 124 again and sends a signal through the second starting button 124, the control module receives the signal and controls the extending end of the electric push rod 123 to extend for three seconds and stop operating, the extending end of the electric push rod 123 extends and drives the rotating plate 121 to rotate upwards through the second slider 122, the rotating plate 121 rotates upwards and pushes the cleaning frame 8 to move upwards through the connecting block 125 to reset, so, can make washing frame 8 reciprocate as required automatically, no longer need promote through the manual work, more make things convenient for people to use.

The electrolytic copper cleaning device further comprises a discharging mechanism 13 used for placing electrolytic copper into the cleaning frame 8, the discharging mechanism 13 comprises a stop block 131, a third sliding block 132, a square frame 133, a partition plate 134, a third mounting block 135, an N-shaped rod 136, a mounting plate 137, a contact block 138, a push block 139, a baffle 1391, a contact plate 1392 and a third elastic part 1393, the stop block 131 is arranged on the right side of the upper part of the front side of the cleaning frame 8, the third sliding block 132 is arranged on the left upper part of the shell 3 in a sliding mode, the square frame 133 is welded on the front side of the third sliding block 132, nine partition plates 134 are welded in the square frame 133 at uniform intervals, the third mounting block 135 is fixedly connected on the left side and the right side of the front side of the square frame 133 through bolts, the N-shaped rod 136 is arranged between the left third mounting block 135 and the right third mounting block 135 in a sliding mode, the mounting plate 137 is welded at the bottom of the N-shaped rod 136, the contact block 138 is arranged on the right side of the bottom of the mounting plate 137, the contact block 138 moves leftwards and contacts the stop block 131, the ten push blocks 139 are arranged at uniform intervals on the top of the mounting plate 137, ten baffles 1391 are uniformly and rotatably arranged at the bottom of the square frame 133 at intervals, torsion springs are wound between the baffles 1391 and the square frame 133, contact plates 1392 are arranged on the front sides of the baffles 1391, the contact plates 1392 are in contact with the adjacent push blocks 139, the torsion springs are in a stretching state at the moment, third elastic pieces 1393 are wound between the N-shaped rod 136 and the third mounting block 135 on the right side, the third elastic pieces 1393 are stretching springs, and the third elastic pieces 1393 are in a stretching state.

The automatic feeding device also comprises a rotating mechanism 14, the rotating mechanism 14 can drive the feeding mechanism 13 to move left and right, the rotating mechanism 14 comprises a servo motor 141, a sector gear 142 and a rotating shaft 143, cylindrical gear 144, bar 145, fourth slider 146 and photoelectric sensor 147, upper right portion has servo motor 141 through the bolt rigid coupling in the shell 3, be equipped with sector gear 142 on servo motor 141's the output shaft, the upper right portion rotary type of shell 3 is equipped with pivot 143, pivot 143 lower part is located shell 3, pivot 143 lower part key-type is connected with cylindrical gear 144, cylindrical gear 144 and sector gear 142 cooperate, pivot 143 upper portion welding has bar 145, the front side welding on square frame 133 right side has fourth slider 146, fourth slider 146 and bar 145 sliding connection, the upper left portion of shell 3 front side has photoelectric sensor 147 through the screw rigid coupling, photoelectric sensor 147 is used for controlling servo motor 141 and rotates.

When the device is used, after the photoelectric sensor 147 senses that the cleaning frame 8 moves downwards and then moves upwards for resetting, the photoelectric sensor 147 sends a signal, the control module receives the signal and controls the output shaft of the servo motor 141 to rotate for one circle and stay for one minute, then the control module rotates for one circle for resetting, the output shaft of the servo motor 141 rotates for one circle to drive the sector gear 142 to rotate for one circle, the sector gear 142 rotates for one circle to drive the cylindrical gear 144 to rotate for 45 degrees, the cylindrical gear 144 rotates for 45 degrees and drives the strip plate 145 to swing rightwards for 45 degrees through the rotating shaft 143, the strip plate 145 swings rightwards to pull the square frame 133 to move rightwards through the fourth slider 146, the square frame 133 moves rightwards to reset the third elastic piece 1393, the square frame 133 moves rightwards while driving the contact plate 1392 to move rightwards to be separated from the push block 139 through the baffle 1391, and at the baffle 1391 rotates upwards along with the reset of the spring, when the third elastic member 1393 is reset, the square frame 133 continues to move rightwards, the third mounting block 135 drives the N-shaped rod 136 to move rightwards, the mounting plate 137 drives the contact block 138 to move rightwards to be separated from the stop block 131, when the output shaft of the servo motor 141 stops rotating, an operator places electrolytic copper in the square frame 133, the electrolytic copper is separated by the partition plate 134, after one minute, the output shaft of the servo motor 141 rotates reversely for one circle and then is closed, the output shaft of the servo motor 141 rotates reversely for one circle and drives the sector gear 142 to rotate reversely, the sector gear 142 rotates reversely for one circle and drives the cylindrical gear 144 to rotate reversely for 45 degrees, so that the square frame 133 moves leftwards, the mounting plate 137 drives the contact block 138 to move leftwards, when the contact block 138 moves leftwards to be in contact with the stop block 131, the stop block 131 blocks 138, so as to fix the positions of the mounting plate 137 and the push block 139, at this time, the square frame 133 continues to move leftwards so that the third mounting block 135 slides leftwards on the N-shaped rod 136, deformation takes place for third elastic component 1393, square frame 133 drives contact plate 1392 through baffle 1391 when continuing to move left, move left to when contacting with ejector pad 139 when contact plate 1392, contact plate 1392 continues to move left and is extruded upper right side and rotate, and baffle 1391 then rotates downwards and opens, torsion spring takes place deformation, baffle 1391 rotates downwards and opens the back, the electrolytic copper in the square frame 133 drops thereupon to washing frame 8 in, so, can put into washing frame 8 with electrolytic copper automatically, when avoiding the staff directly to throw into washing frame 8 with electrolytic copper, the liquid medicine spills, thereby lead to the staff injured.

The electrolytic copper surface corrosion-resistant power supply is characterized by further comprising a circuit box 2, the circuit box 2 is fixedly connected to the right front side of the top of the rack 1 through bolts, a switching power supply, a control module and a power module are arranged in the circuit box 2, the switching power supply supplies power for surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface, the output end of the switching power supply is electrically connected with the power module, the power module is connected with a power main switch through a circuit, the control module is electrically connected with the power module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the first start button 83, the second start button 124, the photoelectric sensor 147 and the control module are electrically connected, and the electromagnetic valve 82, the speed reducing motor 105, the heating pipe 107, the electric push rod 123, the servo motor 141 and the control module are connected through peripheral circuits.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. The utility model provides an improve electrolytic copper surface corrosion resistance's surface treatment equipment, which comprises a frame (1), shell (3), montant (4), first installation piece (5), installation pole (6), first slider (7), wash frame (8) and drain pipe (81), frame (1) top rear side is equipped with shell (3), the left and right sides of frame (1) top left side front side all is equipped with montant (4), all slidingtype is equipped with first installation piece (5) on montant (4), the left and right sides of frame (1) top left side rear side all is equipped with installation pole (6), all slidingtype is equipped with first slider (7) on installation pole (6), be connected with between two first slider (7) and two first installation pieces (5) and wash frame (8), the middle part of wasing frame (8) bottom rear side is equipped with drain pipe (81), a serial communication port, the surface treatment equipment is characterized in that still including solenoid valve (82), First start button (83), placement mechanism (9) and stoving mechanism (10), drain pipe (81) lower part is equipped with solenoid valve (82), and the right side of wasing frame (8) front side is equipped with first start button (83), is equipped with placement mechanism (9) that are used for placing the electrolytic copper between montant (4) and installation pole (6), is equipped with stoving mechanism (10) that are used for drying the electrolytic copper on frame (1).

2. The surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface according to claim 1, wherein the placing mechanism (9) comprises a screen plate (91), L-shaped rods (92) and arc-shaped guide rails (93), the screen plate (91) is rotatably arranged between the upper parts of the left and right mounting rods (6), the screen plate (91) is positioned in the cleaning frame (8), the L-shaped rods (92) are respectively arranged on the left and right sides of the front side of the top of the screen plate (91), the arc-shaped guide rails (93) are respectively arranged on the upper parts of the vertical rods (4), and the L-shaped rods (92) are respectively connected with the arc-shaped guide rails (93) on the same side in a sliding manner.

3. The surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface according to claim 2, wherein the drying mechanism (10) comprises a cross rod (101), a mounting frame (102), a return spring (1021), a sloping plate (103), a mounting frame (104), a speed reduction motor (105), blades (106), a heating pipe (107), a square plate (108), a first slide rod (109), a fixed pulley (1010), a stay wire (1011) and a first elastic part (1012), the cross rod (101) is arranged on the left side and the right side of the left front side of the top of the rack (1), the two cross rods (101) are positioned between the two vertical rods (4), the mounting frame (102) is arranged between the left cross rod and the right cross rod (101) in a sliding manner, the return spring (1021) is connected between the mounting frame (102) and the cross rod (101) in a winding manner, the sloping plate (103) is arranged on the top of the mounting frame (102), the mounting frame (104) is arranged on the inner lower portion of the mounting frame (102), mounting bracket (104) lower part is equipped with gear motor (105), be equipped with blade (106) on the output shaft of gear motor (105), swash plate (103) bottom is equipped with heating pipe (107), the middle part of swash plate (103) rear side is equipped with square board (108), the equal slidingtype in the left and right sides of frame (1) top left front side is equipped with first slide bar (109), first slide bar (109) are located horizontal pole (101) outside, wash frame (8) downstream and first slide bar (109) contact, the equal rotary type in the left and right sides of frame (1) top left front side is equipped with fixed pulley (1010), fixed pulley (1010) are located first slide bar (109) front side, first slide bar (109) lower part all is equipped with act as go-between (1011), fixed pulley (1010) and mounting frame (102) of homonymy are all walked around to the tail end of acting as go-between first slide bar (109) and frame (1) are connected with first elastic component (1012).

4. The surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface according to claim 3, the device is characterized by further comprising a limiting mechanism (11) used for limiting the L-shaped rod (92), wherein the limiting mechanism (11) comprises a second mounting block (111), a second sliding rod (112), a second elastic piece (113), a limiting plate (114) and a wedge block (115), the second mounting block (111) is arranged on the rear side of the lower portion of the arc-shaped guide rail (93), the second sliding rod (112) is arranged on the second mounting block (111) in an all-sliding mode, the second elastic piece (113) is wound between the second sliding rod (112) and the adjacent second mounting block (111), the limiting plate (114) is arranged at the top of the second sliding rod (112), the limiting plate (114) is in contact with the L-shaped rod (92) on the same side, the wedge block (115) is arranged on the left side and the right side of the upper portion of the cleaning frame (8), and the wedge block (115) moves downwards and is in contact with the adjacent second sliding rod (112).

5. The surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface according to claim 4, further comprising a pushing mechanism (12) for driving the cleaning frame (8) to move up and down, wherein the pushing mechanism (12) comprises a rotating plate (121), a second sliding block (122), an electric push rod (123), a second starting key (124) and a connecting block (125), the rotating plate (121) is rotatably arranged in the middle of the left side of the top of the frame (1), the second sliding block (122) is rotatably arranged behind the rotating plate (121), the electric push rod (123) is arranged on the right front side of the bottom in the housing (3), the extending end of the electric push rod (123) penetrates through the housing (3) to be rotatably connected with the second sliding block (122), the second starting key (124) is arranged on the right side of the front side of the cleaning frame (8), and the second starting key (124) is arranged on the left side of the first starting key (83), the right side of the bottom of the cleaning frame (8) is provided with a connecting block (125), and the connecting block (125) is connected with the rotating plate (121) in a sliding way.

6. The surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface according to claim 5, further comprising a discharging mechanism (13) for placing the electrolytic copper into the cleaning frame (8), wherein the discharging mechanism (13) comprises a stop block (131), a third slide block (132), a square frame (133), a partition plate (134), a third mounting block (135), an N-shaped rod (136), a mounting plate (137), a contact block (138), a push block (139), a baffle plate (1391), a contact plate (1392) and a third elastic member (1393), the stop block (131) is arranged on the right side of the upper front side of the cleaning frame (8), the third slide block (132) is arranged on the upper left side of the shell (3) in a sliding manner, the square frame (133) is arranged on the front side of the third slide block (132), nine partition plates (134) are uniformly arranged in the square frame (133) at intervals, the third mounting blocks (135) are arranged on the left side and the right side of the front side of the square frame (133), it is equipped with N type pole (136) to control slidingtype between two third installation pieces (135), N type pole (136) bottom is equipped with mounting panel (137), mounting panel (137) bottom right side is equipped with contact block (138) partially, contact block (138) move left and contact with dog (131), mounting panel (137) top is evenly spaced and is equipped with ten ejector pad (139), square frame (133) bottom is evenly spaced the rotary type and is equipped with ten baffle (1391), all around being connected with torsion spring between baffle (1391) and square frame (133), baffle (1391) front side all is equipped with contact plate (1392), contact plate (1392) all contact with close ejector pad (139), torsion spring is in tensile state this moment, third elastic component (1393) have been around being connected between N type pole (136) and the third installation piece (135) on right side, third elastic component (1393) are in tensile state.

7. The surface treatment equipment for improving the corrosion resistance of the electrolytic copper surface according to claim 6, further comprising a rotating mechanism (14) for driving the discharging mechanism (13) to move left and right, wherein the rotating mechanism (14) comprises a servo motor (141), a sector gear (142), a rotating shaft (143), a cylindrical gear (144), a strip-shaped plate (145), a fourth slider (146) and a photoelectric sensor (147), the servo motor (141) is arranged at the upper right part in the shell (3), the sector gear (142) is arranged on an output shaft of the servo motor (141), the rotating shaft (143) is rotatably arranged at the upper right part of the shell (3), the lower part of the rotating shaft (143) is positioned in the shell (3), the cylindrical gear (144) is arranged at the lower part of the rotating shaft (143), the cylindrical gear (144) is matched with the sector gear (142), the strip-shaped plate (145) is arranged at the upper part of the rotating shaft (143), the front side on the right side of the square frame (133) is provided with a fourth sliding block (146), the fourth sliding block (146) is connected with the strip-shaped plate (145) in a sliding mode, and the upper left part of the front side of the shell (3) is provided with a photoelectric sensor (147).

8. The surface treatment equipment for improving the corrosion resistance of the surface of the electrolytic copper according to claim 7, further comprising a circuit box (2), wherein the circuit box (2) is arranged on the right front side of the top of the rack (1), a switching power supply, a control module and a power supply module are arranged in the circuit box (2), the switching power supply supplies power to the surface treatment equipment for improving the corrosion resistance of the surface of the electrolytic copper, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the first starting button (83), the second starting button (124), the photoelectric sensor (147) and the control module are electrically connected, and the electromagnetic valve (82), the speed reducing motor (105), the heating pipe (107), the electric push rod (123), the servo motor (141) and the control module are connected through peripheral circuits.

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