CN114921818A - Nickel plating equipment is used in nickel screen production - Google Patents

Abstract

The invention discloses nickel plating equipment for nickel screen production, which belongs to the technical field of metal plating equipment and comprises a rack, a driving assembly, a nickel plating assembly, a sliding assembly and an action assembly; the driving component is arranged on the frame in a sliding way; the frame is placed on the ground or a working platform; the action assembly is arranged on the driving assembly and is driven by the driving assembly to clamp and lift the nickel screen; the nickel plating component is arranged below the frame; the rack is also fixedly provided with a sliding assembly, the sliding assembly is used for driving the driving assembly to slide on the rack, and the driving assembly is driven by a single power source to realize nickel plating action.

Description

Nickel plating equipment is used in nickel screen production

Technical Field

The invention relates to the technical field of metal coating equipment, in particular to nickel plating equipment for nickel screen production.

Background

The utility model discloses a Chinese utility model with publication number CN203999862U, which comprises an inner tank and an outer tank, wherein the inner tank is arranged in the outer tank, the tank liquid in the inner tank overflows to the outer tank after being filled, the outer tank is externally connected with a hydraulic pump which is respectively connected with the inner tank and the outer tank and pumps the tank liquid in the outer tank into the inner tank; the internal surface of inside groove covers there is the one deck cotton flannel, is equipped with a plurality of cotton flannel bags between cotton flannel and the inside groove, has placed the nickel pearl in the cotton flannel bag, and this prior art can solve the problem of the different length nickel plating of nickel net, but the in-process manual handling of nickel plating can lead to the fact the harm to the quality of nickel plating, leads to the increase of rejection rate easily, and manual operation efficiency is lower simultaneously to the waste gas that produces when the nickel plating can exert an influence to the environment, is unfavorable for environmental protection.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the device can realize full-automatic nickel plating and simultaneously ensure the nickel plating quality.

Aiming at the technical problems, the technical scheme adopted by the invention is as follows: a nickel plating device for nickel screen production comprises a frame, a driving component, a nickel plating component, a sliding component and an action component; the driving component is arranged on the frame in a sliding way; the action assembly is arranged on the driving assembly and is driven by the driving assembly to realize the clamping and lifting movement of the nickel screen; the nickel plating assembly is arranged below the rack; the rack is also fixedly provided with a sliding assembly, and the sliding assembly is used for driving the driving assembly to slide on the rack.

The action assembly comprises a fixed rod, at least one group of first hinged rod and at least one group of second hinged rod are rotatably mounted on the fixed rod, clamping plates used for clamping the nickel mesh tube are arranged below the first hinged rod and the second hinged rod, the fixed rod is slidably mounted on the driving assembly, and the driving assembly is used for driving the first hinged rod and the second hinged rod to rotate on the fixed rod and simultaneously driving the fixed rod to slide on the driving assembly.

Furthermore, the fixed rod on fixed mounting have the first end of a plurality of bracing pieces, it is a plurality of the bracing piece on rotate and install the bull stick, the bull stick on coaxial fixed mounting have at least a set of first gear and second gear, first gear and second gear respectively with first arc rack and second arc rack formation gear drive, first arc rack and second arc rack be located the both sides of bull stick respectively, first arc rack and second arc rack fixed mounting respectively on second hinge bar and first hinge bar, the coaxial fixed mounting in tip of bull stick have transmission bevel gear, transmission bevel gear and drive assembly form gear drive.

Further, the drive assembly include the first slide rail of slidable mounting in the frame, first slide rail on fixed mounting have the first end of two fixed plates, two the second of fixed plate end on fixed mounting have the second mounting panel, the second mounting panel on rotate and install the pivot, the inside slidable mounting of pivot have the telescopic shaft, the coaxial fixed mounting of tip of telescopic shaft have drive bevel gear, drive bevel gear and drive bevel gear form gear drive, the telescopic shaft rotate and install on rotating the seat, rotating seat fixed mounting on the action subassembly.

Further, first slide rail on fixed mounting have first mounting panel, first mounting panel on rotate and install first lead screw, first lead screw on the cover be equipped with the third slider, first lead screw and third slider form screw-thread fit, third slider slidable mounting is on first slide rail, the first end of dead lever pass through connecting plate fixed mounting on the connecting rod, the second end slidable mounting of dead lever inside the second slide rail, second slide rail slidable mounting in the frame.

Furthermore, a rotating frame is slidably mounted between the two fixing plates, a first driven bevel gear and a second driven bevel gear are respectively rotatably mounted at two ends of the rotating frame, which are coaxial with the rotating shaft and the first lead screw, spline shafts are respectively arranged on the first driven bevel gear and the second driven bevel gear, a second turntable and a first turntable are respectively and fixedly mounted at one ends of the rotating shaft and the first lead screw, which are close to the rotating frame, coaxially, respectively, spline grooves matched with the spline shafts on the first driven bevel gear and the second driven bevel gear in shape are respectively arranged on the second turntable and the first turntable, the first driven bevel gear and the second driven bevel gear simultaneously form bevel gear transmission with a driving bevel gear rotatably mounted on the rotating frame, and the driving bevel gear rotates under the driving of the motor base.

Further, first mounting panel and second mounting panel be the iron material, rotating turret fixed mounting on the magnet block, the magnet block pass through the spring and be connected with first mounting panel and second mounting panel respectively.

Furthermore, the tip of first hinge bar and second hinge bar fixed mounting respectively have an installation pole, the installation pole on rotate and install splint, on the dead lever still fixed mounting have a third slide rail, the third slide rail on slidable mounting have a slide bar, the tip of slide bar rotate and install the first end of consolidating the connecting rod, the second end of consolidating the connecting rod rotate and install on splint, the slide bar under the drive of pneumatic cylinder slidable mounting on the third slide rail.

Furthermore, the nickel plating assembly comprises a nickel plating tank for nickel plating, a sliding cover is slidably mounted above the nickel plating tank, and an exhaust port for collecting gas is arranged on the sliding cover.

Compared with the prior art, the invention has the beneficial effects that: (1) the driving assembly can simultaneously drive the clamping and moving of the nickel mesh pipe, has a smart structure, saves energy, reduces the production cost and reduces the volume of the device; (2) the action assembly arranged in the invention can realize a full-automatic nickel plating process, so that the labor is saved and the nickel plating quality is ensured; (3) the nickel plating assembly provided by the invention is used for plating nickel in a closed environment, so that the pollution to the environment is prevented, and the environment is protected.

Drawings

Fig. 1 is a schematic view (first angle) of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention (second angle).

Fig. 3 is a schematic structural view (first angle) of the driving assembly and the actuating assembly of the present invention.

Fig. 4 is an enlarged view of a portion of a structure in fig. 3.

Fig. 5 is a schematic structural view (second angle) of the driving assembly and the actuating assembly of the present invention.

FIG. 6 is a schematic view of a driving assembly according to the present invention.

Fig. 7 is a schematic structural view (third angle) of the driving assembly and the actuating assembly of the present invention.

Reference numeral 1-a frame; 2-a drive assembly; 201-a first slider; 202-a first slide rail; 203-a first mounting plate; 204-a first carousel; 205-a fixed plate; 206-a spring; 207-electromagnet block; 208-a second mounting plate; 209-a second carousel; 210 — a first driven bevel gear; 211-a turret; 212-drive bevel gear; 213-a motor base; 214-a motor; 215-a second driven bevel gear; 216-a second slide rail; 217-a second slider; 218-a connecting plate; 219-connecting rod; 220-a first lead screw; 221-a third slider; 222-a shaft; 223-a telescopic shaft; 224-a rotating seat; 225-drive bevel gear; 3-nickel plating assembly; 301-nickel plating bath; 302-a slider; 303-an exhaust port; 304-a hydraulic cylinder; 4-a sliding assembly; 401-a first link; 402-a slide plate; 403-second lead screw; 404-a push rod; 405-a hinged block; 406-a second link; 5-an action component; 501-fixing an upper plate; 502-a rotating rod; 503-a first arc-shaped rack; 504-a first gear; 505-a second gear; 506-a second arc-shaped rack; 507-a sliding seat; 508-a first articulation bar; 509-a second hinge lever; 510-a fixing bar; 511-splint; 512-baffle ring; 513-mounting rods; 514-drive bevel gear; 515-a support bar; 516-a third slide rail; 517-sliding rod; 518-reinforcing connecting rod.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and not for the purpose of limiting the same, the same is shown by way of illustration only and not in the form of limitation; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, a nickel plating apparatus for nickel screen production comprises a frame 1, a driving assembly 2, a nickel plating assembly 3, a sliding assembly 4 and an action assembly 5; the driving component 2 is slidably mounted on the frame 1; the frame 1 is placed on the ground or a working platform; the action assembly 5 is arranged on the driving assembly 2, and the action assembly 5 is driven by the driving assembly 2 to realize clamping and lifting movement of the nickel screen; the nickel plating component 3 is arranged below the frame 1; the frame 1 is also fixedly provided with a sliding assembly 4, and the sliding assembly 4 is used for driving the driving assembly 2 to slide on the frame 1.

As shown in fig. 1 and fig. 2, the nickel plating assembly 3 includes a nickel plating tank 301, a sliding cover 302, an exhaust port 303 and a hydraulic cylinder 304, the nickel plating tank 301 is placed on the ground or a working platform, the sliding cover 302 is slidably mounted above the nickel plating tank 301, the sliding cover 302 is fixedly mounted on a movable end of the hydraulic cylinder 304, and the hydraulic cylinder 304 is fixedly mounted on the rack 1.

As shown in fig. 1, 3 and 7, the actuating assembly 5 includes a fixed upper plate 501, a rotating rod 502, a first arc-shaped rack 503, a first gear 504, a second gear 505, a second arc-shaped rack 506, a sliding seat 507, a first hinge rod 508, a second hinge rod 509, a fixing rod 510, a clamping plate 511, a baffle ring 512, a mounting rod 513, a transmission bevel gear 514, a support rod 515, a third sliding rail 516, a sliding rod 517 and a reinforcing link 518, wherein the first hinge rod 508 and the second hinge rod 509 are in a group, in this embodiment, two groups of the first hinge rod 508 and the second hinge rod 509 are included, the middle portions of the first hinge rod 508 and the second hinge rod 509 are rotatably mounted on the fixing rod 510, first ends of a plurality of the support rods 515 are fixedly mounted on the fixing rod 510, second ends of the plurality of the support rods 515 are fixedly mounted on the fixing plate 501, rotating rods 502 are rotatably mounted on the plurality of the support rods 515, two groups of the first gear 504 and the second gear 505 are coaxially and fixedly mounted on the rotating rod 502, a first gear 504 and a second gear 505 are a group, the first gear 504 and the first arc rack 503 in each group form a gear transmission, the second gear 505 and the second arc rack 506 in each group form a gear transmission, the first arc rack 503 is fixedly arranged at the first end of the second hinge rod 509, the second arc rack 506 is fixedly arranged at the first end of the first hinge rod 508, the second arc rack 506 and the first arc rack 503 are arranged at two sides of the rotary rod 502, the tooth-shaped structures on the first arc rack 503 and the second arc rack 506 are respectively arranged at one surface close to the first gear 504 and the second gear 505, a sliding seat 507 is fixedly arranged on the fixed upper plate 501, the second arc rack 506 is slidably arranged on the sliding seat 507, the first arc rack 503 is slidably arranged on the fixed upper plate 501, the second ends of the first hinge rod 508 and the second hinge rod 509 are respectively fixedly arranged on the mounting rod 513, the two ends of the clamping plate 511 are rotatably installed on the installation rod 513, a stop ring 512 is fixedly installed on the installation rod 513, the stop ring 512 is used for limiting the clamping plate 511, a transmission bevel gear 514 is coaxially and fixedly installed at the end part of the rotating rod 502, the transmission bevel gear 514 and the driving component 2 form gear transmission, a third sliding rail 516 is fixedly installed on the fixed rod 510, a sliding rod 517 is slidably installed on the third sliding rail 516, a first end of a reinforcing connecting rod 518 is rotatably installed below the sliding rod 517, a second end of the reinforcing connecting rod 518 is rotatably installed on the clamping plate 511, the sliding rod 517 slides on the third sliding rail 516 under the driving of a hydraulic cylinder, and the axis of the hydraulic cylinder driving the sliding rod 517 is parallel to the third sliding rail 516.

As shown in fig. 3, 4, 5 and 6, the driving assembly 2 includes a first sliding block 201, a first sliding rail 202, a first mounting plate 203, a first rotating disc 204, a fixing plate 205, a spring 206, an electromagnet block 207, a second mounting plate 208, a second rotating disc 209, a first driven bevel gear 210, a rotating frame 211, a driving bevel gear 212, a motor base 213, a motor 214, a second driven bevel gear 215, a second sliding rail 216, a second sliding block 217, a connecting plate 218, a connecting rod 219, a first lead screw 220, a third sliding block 221, a rotating shaft 222, a telescopic shaft 223, a rotating base 224 and a driving bevel gear 225, the first sliding block 201 is fixedly mounted on the first sliding rail 202, the first sliding block 201 and the first sliding rail 202 are simultaneously slidably mounted on the machine frame 1, the first mounting plate 203 is fixedly mounted above the first sliding rail 202, two fixing plates 205 are fixedly mounted on the first mounting plate 203, the second mounting plate 208 is fixedly mounted above the two fixing plates 205, the first mounting plate 203 and the second mounting plate 208 are both made of iron materials, the electromagnet block 207 is slidably mounted between the two mounting plates 205, the electromagnet block 207 is a double-layer structure formed by stacking two electromagnets, two sides of the electromagnet block 207 are fixedly connected with the first mounting plate 203 and the second mounting plate 208 through springs 206 respectively, the electromagnet block 207 is fixedly provided with a rotating frame 211, the rotating frame 211 is rotatably provided with a first driven bevel gear 210 and a second driven bevel gear 215 in the direction coaxial with the rotating shaft 222 and the first lead screw 220 respectively, spline shafts are arranged on the first driven bevel gear 210 and the second driven bevel gear 215, the first driven bevel gear 210 and the second driven bevel gear 215 form bevel gear transmission with the driving bevel gear 212, the driving bevel gear 212 is coaxially and fixedly mounted on an output shaft of the motor 214, the motor 214 is fixedly mounted on the motor base 213, the motor base 213 is slidably mounted on the first mounting plate 203 and the second mounting plate 208, a first lead screw 220 is rotatably mounted on the first mounting plate 203, a third slider 221 is sleeved on the first lead screw 220, the first lead screw 220 and the third slider 221 form a threaded fit, the third slider 221 is slidably mounted on the first slide rail 202, a first end of a connecting rod 219 is fixedly mounted on the third slider 221, a second end of the connecting rod 219 is fixedly mounted at a first end of a connecting plate 218, a second end of the connecting plate 218 is fixedly connected with a first end of a fixed rod 510, a rotating shaft 222 is rotatably mounted on the second mounting plate 208, a telescopic shaft 223 is slidably mounted in the rotating shaft 222, a driving bevel gear 225 is coaxially and fixedly mounted at the upper end of the telescopic shaft 223, the driving bevel gear 225 and the driving bevel gear 514 form a bevel gear transmission, the telescopic shaft 223 is rotatably mounted on a rotating seat 224, the rotating seat 224 is fixedly mounted on a sliding seat 507, a second rotary disc 209 and a first rotary disc 204 are coaxially and fixedly mounted at one end of the rotating shaft 222 and the first lead screw 220 close to the rotating frame 211 respectively, spline grooves matched with the spline shafts on the first driven bevel gear 210 and the second driven bevel gear 215 in shape are arranged on the second rotary table 209 and the first rotary table 204, the second end of the fixing rod 510 is slidably mounted on the second sliding rail 216, the second sliding block 217 is fixedly mounted on the second sliding rail 216, and the second sliding rail 216 and the second sliding block 217 are simultaneously slidably mounted on the machine frame 1.

As shown in fig. 1 and fig. 2, the sliding assembly 4 includes a first connecting rod 401, a sliding plate 402, a second lead screw 403, push rods 404, an articulated block 405 and a second connecting rod 406, two ends of the sliding plate 402 are simultaneously slidably mounted on the rack 1, the second lead screw 403 is rotatably mounted between two ends of the sliding plate 402, a driving block is slidably mounted on the sliding plate 402, the driving block and the second lead screw 403 form a threaded fit, a first end of the first connecting rod 401 is rotatably mounted on the driving block, a second end of the first connecting rod 401 is rotatably mounted on the rack 1, a first end of the second connecting rod 406 is rotatably mounted on the driving block, a second end of the second connecting rod 406 is rotatably mounted on the articulated block 405, two ends of the articulated block 405 are respectively fixedly mounted at one end of the two push rods 404, and the other ends of the two push rods 404 are fixedly mounted on the first sliding rail 202 and the second sliding rail 216.

The invention discloses a nickel plating device for nickel screen production, which has the working principle that: when the electromagnetic iron block is used, different parts of the electromagnetic iron block 207 are firstly controlled to be electrified, when the electromagnetic iron block close to the upper part is electrified, the electromagnetic iron block 207 drives the rotating frame 211 to slide upwards, at the moment, the first driven bevel gear 210 and the second rotating disc 209 form spline fit, under the driving of the motor 214 and the driving bevel gear 212, the first driven bevel gear 210 drives the rotating shaft 222 to rotate, the rotating shaft 222 drives the telescopic shaft 223 to rotate, the telescopic shaft 223 drives the transmission bevel gear 514 to rotate through the driving bevel gear 225, the transmission bevel gear 514 drives the rotating rod 502 to rotate, the rotating rod 502 drives the first gear 504 and the second gear 505 thereon to rotate, the first gear 504 and the second gear 505 respectively form gear transmission with the first arc-shaped rack 503 and the second arc-shaped rack 506, therefore, under the driving of the first gear 504 and the second gear 505, the first arc-shaped rack 503 and the second arc-shaped rack 506 drive the second articulated rod 509 and the first articulated rod 508 to rotate on the fixed rod 510, the friction force of the first hinge rod 508 and the second hinge rod 509 rotating on the fixing rod 510 is larger than the acting force of the first hinge rod 508 and the second hinge rod 509 on the fixing rod 510 when the clamping plate 511 clamps the nickel mesh pipe, and the first hinge rod 508 and the second hinge rod 509 rotate to realize the opening and closing of the clamping plate 511, namely to realize the clamping and the putting down of the nickel mesh pipe.

When an electromagnet below the clamping plate 511 is powered on, the electromagnet block 207 drives the rotating frame 211 to slide downwards, at the moment, the second driven bevel gear 215 and the first rotating disc 204 form spline fit, the second driven bevel gear 215 rotates to drive the first lead screw 220 to synchronously rotate, the third sliding block 221 is driven to slide in the first sliding rail 202, and therefore the height adjustment of the clamping plate 511 is achieved, and the third sliding rail 516, the sliding rod 517 and the reinforcing connecting rod 518 are used for adjusting the working state of the clamping plate 511.

The second lead screw 403 in the sliding assembly 4 is driven by a power source to rotate, the driving block slides on the sliding plate 402, and the driving assembly 2 is driven by the first connecting rod 401 and the second connecting rod 406 to slide on the rack 1 while sliding, so that the movement process of the nickel mesh pipe is realized, and the sliding cover 302 and the exhaust port 303 arranged above the nickel plating tank 301 in the nickel plating assembly 3 are used for preventing the overflow of toxic gases and facilitating the collection of harmful gases.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims (8)

1. A nickel plating equipment for nickel screen production is characterized in that: comprises a frame (1), a driving component (2), a nickel plating component (3), a sliding component (4) and an action component (5); the driving component (2) is arranged on the frame (1) in a sliding manner; the action assembly (5) is arranged on the driving assembly (2), and the action assembly (5) is driven by the driving assembly (2) to clamp and lift the nickel screen; the nickel plating component (3) is arranged below the rack (1); the rack (1) is also fixedly provided with a sliding assembly (4), and the sliding assembly (4) is used for driving the driving assembly (2) to slide on the rack (1);

the action component (5) comprises a fixing rod (510), at least one group of first hinged rod (508) and second hinged rod (509) are rotatably mounted on the fixing rod (510), clamping plates (511) used for clamping nickel mesh pipes are arranged below the first hinged rod (508) and the second hinged rod (509), the fixing rod (510) is slidably mounted on a driving component (2), the driving component (2) is used for driving the first hinged rod (508) and the second hinged rod (509) to rotate on the fixing rod (510), and meanwhile the driving fixing rod (510) slides on the driving component (2).

2. A nickel plating apparatus for nickel mesh production according to claim 1, characterized in that: the first ends of a plurality of support rods (515) are fixedly arranged on the fixed rod (510), the plurality of support rods (515) are rotatably provided with rotating rods (502), at least one group of first gear (504) and second gear (505) are coaxially and fixedly arranged on the rotating rod (502), the first gear (504) and the second gear (505) respectively form gear transmission with the first arc-shaped rack (503) and the second arc-shaped rack (506), the first arc-shaped rack (503) and the second arc-shaped rack (506) are respectively positioned at two sides of the rotating rod (502), the first arc-shaped rack (503) and the second arc-shaped rack (506) are respectively and fixedly arranged on the second hinge rod (509) and the first hinge rod (508), the end part of the rotating rod (502) is coaxially and fixedly provided with a transmission bevel gear (514), the transmission bevel gear (514) and the driving component (2) form gear transmission.

3. A nickel plating apparatus for nickel mesh production according to claim 2, characterized in that: drive assembly (2) including first slide rail (202) of slidable mounting on frame (1), first slide rail (202) on fixed mounting have the first end of two fixed plates (205), two the second of fixed plate (205) end on fixed mounting have second mounting panel (208), second mounting panel (208) on rotate and to install pivot (222), pivot (222) inside slidable mounting have telescopic shaft (223), the coaxial fixed mounting of tip of telescopic shaft (223) have drive bevel gear (225), drive bevel gear (225) and transmission bevel gear (514) form gear drive, telescopic shaft (223) rotate and to install on rotating seat (224), rotation seat (224) fixed mounting on action subassembly (5).

4. A nickel plating apparatus for nickel mesh production according to claim 3, characterized in that: first slide rail (202) on fixed mounting have first mounting panel (203), first mounting panel (203) on rotate and install first lead screw (220), first lead screw (220) on the cover be equipped with third slider (221), first lead screw (220) and third slider (221) form screw-thread fit, third slider (221) slidable mounting is on first slide rail (202), the first end of dead lever (510) pass through connecting plate (218) fixed mounting on connecting rod (219), the second end slidable mounting of dead lever (510) inside second slide rail (216), second slide rail (216) slidable mounting on frame (1).

5. A nickel plating apparatus for nickel mesh production according to claim 4, characterized in that: a rotating frame (211) is slidably mounted between the two fixing plates (205), a first driven bevel gear (210) and a second driven bevel gear (215) are respectively rotatably mounted at two coaxial ends of the rotating frame (211), a rotating shaft (222) and a first screw (220), spline shafts are respectively arranged on the first driven bevel gear (210) and the second driven bevel gear (215), a second rotating disc (209) and a first rotating disc (204) are respectively and fixedly mounted at one ends of the rotating shaft (222) and the first screw (220) close to the rotating frame (211) in a coaxial manner, spline-shaped grooves matched with the spline shafts on the first driven bevel gear (210) and the second driven bevel gear (215) in shape are respectively arranged on the second rotating disc (209) and the first rotating disc (204), and the first driven bevel gear (210) and the second driven bevel gear (215) simultaneously form bevel gear transmission with a driving bevel gear (212) rotatably mounted on the rotating frame (211), the driving bevel gear (212) is driven by the motor base (213) to rotate.

6. A nickel plating apparatus for nickel mesh production according to claim 5, wherein: first mounting panel (203) and second mounting panel (208) be the iron material, rotating turret (211) fixed mounting on magnet piece (207), magnet piece (207) pass through spring (206) and be connected with first mounting panel (203) and second mounting panel (208) respectively.

7. A nickel plating apparatus for nickel mesh production according to claim 5, wherein: the tip of first articulated pole (508) and second articulated pole (509) fixed mounting respectively have installation pole (513), installation pole (513) on rotate and install splint (511), on dead lever (510) still fixed mounting have third slide rail (516), third slide rail (516) on slidable mounting have slide bar (517), the tip of slide bar (517) rotate and install the first end of consolidating connecting rod (518), the second end of consolidating connecting rod (518) rotate and install on splint (511), slide bar (517) under the drive of pneumatic cylinder slidable mounting on third slide rail (516).

8. A nickel plating apparatus for nickel mesh production according to any one of claims 1 to 7, characterized in that: the nickel plating component (3) comprises a nickel plating tank (301) for nickel plating, a sliding cover (302) is slidably mounted above the nickel plating tank (301), and an exhaust port (303) for collecting gas is arranged on the sliding cover (302).

Images