CN112176382B

CN112176382B - Electroplating device for diamond bit production

Info

Publication number: CN112176382B
Application number: CN202010977147.1A
Authority: CN
Inventors: 李中勇; 陈鹏; 陈顺诚
Original assignee: Qidong Fengsu Drilling Tool Co ltd
Current assignee: Qidong Fengsu Drilling Tool Co ltd
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2021-11-02
Anticipated expiration: 2040-09-17
Also published as: WO2022057703A1; CN112176382A

Abstract

An electroplating device for producing a diamond drill bit comprises a bottom plate, wherein an outer barrel is arranged on the bottom plate, and an electroplating barrel is arranged in the outer barrel; a circular first rotating disc which is connected with the inner wall of the electroplating barrel in a sliding way is arranged in the electroplating barrel; the middle point of the bottom of the first rotary table is connected with a rotary shaft which penetrates through the bottom of the electroplating barrel and is connected with the middle point of the electric rotary table; the electric turntable is connected with a fixed disc fixed in a first groove on the upper base; the lower surface of the upper base is provided with a plurality of corner grooves, pressure-bearing springs are arranged below the corner grooves, two ends of each pressure-bearing spring are connected with pressure-bearing seats, and the pressure-bearing seats are respectively connected with the upper surfaces of the inner walls of the corner grooves and the upper surface of the lower base and are symmetrically arranged; through the setting of lower base, corner groove, pressure-bearing spring, bearing seat and upper base, make the upper base have certain buffer capacity in the use, rely on pressure-bearing spring to unload power operation, avoid appearing the rigidity collision between upper base and the lower base in the use, indirect assurance the life of whole device.

Description

Electroplating device for diamond bit production

Technical Field

The invention relates to the technical field of drill bit production equipment, in particular to an electroplating device for producing a diamond drill bit.

Background

Electroplating is a process of plating a thin layer of other metals or alloys on the surface of some metals by using the principle of electrolysis, and is a process of attaching a layer of metal film on the surface of a metal or other material product by using the action of electrolysis so as to play roles of preventing metal oxidation, improving wear resistance, conductivity, light reflection, corrosion resistance, enhancing appearance and the like.

Application No. 200910040075.1 discloses an electroplating device and an electroplating method for electroplating a drill bit. The device comprises a sand tank, wherein the sand tank is filled with superhard materials to be electroplated, the sand tank is positioned in an electroplating bath, electroplating solution is filled in the electroplating bath, the surface of the sand tank is provided with a penetration part, the electroplating solution can enter the sand tank through the penetration part, the electroplating bath is also provided with an electroplating anode, the electroplating anode is electrically contacted with the electroplating solution, and the electroplating anode is electrically connected with a positive electrode of an electroplating ammeter; a conductive clamp is arranged above the electroplating bath, at least two drill bits are clamped on the conductive clamp, the electroplating part of each drill bit is embedded in the superhard material of the sand bath, and the conductive clamp is electrically connected with the negative electrode of the electroplating ammeter.

The existing device needs to soak a workpiece to be plated in an electroplating pool, and special hoisting equipment is needed for putting in the workpiece before plating and taking out the workpiece after plating, so that time and labor are wasted, certain potential safety hazards exist, the production efficiency is lower, and the electroplating efficiency of the equipment is low.

Accordingly, one skilled in the art provides an electroplating apparatus for producing a diamond drill to solve the above problems of the background art.

Disclosure of Invention

The invention provides a diamond bit production electroplating device, which has the following specific technical scheme:

the electroplating device for producing the diamond drill bit comprises a bottom plate 15, wherein an outer barrel 27 and a movable base 16 connected with the lower surface of a second turntable 17 are arranged on the bottom plate 15; the upper surface of the second rotary table 17 is connected with a lifting jack 18 connected with the midpoint of a horizontal rod 19; the horizontal rod 19 is provided with a winch 25 which is connected with the steel wire rope 22 and is positioned at the middle point of the upper surface of the horizontal rod 19 and pulleys 23 which are contacted with the steel wire rope 22 and are positioned at two sides of the horizontal rod 19; the steel wire rope 22 is connected with a clamp 21 positioned below the pulley 23;

a cylindrical electroplating barrel 26 is arranged in the outer barrel 27; the electroplating barrel 26 is internally provided with an anode material 10 connected with one side of the inner wall of the electroplating barrel 26 and a circular first rotating disc 11 which is contacted with the lower surface of the inner wall of the electroplating barrel 26 and is connected with the inner wall of the electroplating barrel 26 in a sliding way; the middle point of the bottom of the first rotating disc 11 is connected with a rotating shaft 39 which penetrates through the bottom of the electroplating barrel 26 and is connected with the middle point of the electric rotating disc 28; the electric rotating disc 28 is connected with a fixed disc 29 fixed in a first groove 40 on an upper base 37; the lower surface of the upper base 37 is provided with a plurality of corner grooves 35, a pressure-bearing spring 31 is arranged below the corner grooves 35, two ends of the pressure-bearing spring 31 are connected with pressure-bearing seats 30, and the pressure-bearing seats 30 are respectively connected with the corner grooves and the upper surface of the lower base 38 and are symmetrically arranged; a material box 14 connected with the bottom of the electroplating barrel 26 is arranged below the electroplating barrel 26; a screen 33 which is arranged at the opening of the discharge pipe 36 and is connected with the first connecting block 34 is arranged in the material box 14; the first connecting block 34 penetrates through one side of the material box 14 and is connected with the material box 14 in a sliding mode;

a circular partition plate 43 which is connected with one side of the electromagnet 8 and connected with the upper surface of the material box 14 is arranged between the electroplating barrel 26 and the shell; the electromagnet 8 is positioned above the electroplating barrel 26 and is connected with one side of the shell; the partition plate 43 is connected with a fixing plate 5 which is positioned above the electroplating barrel 26 and is connected with the inner side of the partition plate 43; a first connecting groove 7 which penetrates through the partition plate 43 and is communicated with the electromagnet 8 and the first sliding groove 3 is arranged in the fixed plate 5, and a sliding block 6 which is connected with the inner wall of the first sliding groove 3 in a sliding manner and is connected with one end of the first connecting rod 4 is arranged in the first sliding groove 3; the first connecting rod 4 penetrates through the first sliding groove 3 and is connected with the movable electrified top block 2; the electrifying ejector block 2 is connected with a semi-ring fixing block 1 positioned above the material box 14.

On the basis of the scheme: the material tank 14 is provided with a liquid inlet pipe 9 which is communicated with the electroplating barrel 26 and the material tank 14 and is connected with a liquid pump 13.

On the basis of the scheme: the material tank 14 is provided with a discharge pipe 36 which is communicated with the electroplating barrel 26 and the material tank 14 and is connected with a valve 42.

On the basis of the scheme: the central point of the lower base 38 is provided with a positioning block 32 matched with the second groove 41.

On the basis of the scheme: two guide assemblies 44 are arranged on the inner side of the partition plate 43, the guide assemblies 44 are respectively provided with a semi-ring fixed block 1 for guiding and righting the long-rod drill bit 20, and the two guide assemblies 44 are symmetrically arranged.

On the basis of the scheme: the sliding block 6 is made of magnetic materials.

On the basis of the scheme: the number of the pilot assemblies 44 is the same as that of the electromagnets 8;

on the basis of the scheme: the positioning block 32 and the second groove 41 are arranged in a circular structure.

In summary, in the prior art, the beneficial effects of the invention are as follows:

1. the screen 33 is arranged outside the discharge pipe 36 in the material box 14, and after the recycled electrolyte passes through the screen 33, impurities in the electrolyte can be filtered, so that the clean and impurity-free electrolyte can be input into the electroplating barrel 26 again for recycling, the waste is reduced, and the cost is greatly saved.

2. The second rotary table 17 can drive the horizontal rod 19 to rotate around the center of the center, when the long-rod drill bit 20 on the right clamp 21 is being electroplated, the left clamp 21 can simultaneously clamp one end of another long-rod drill bit 20, and the vertical long-rod drill bit 20 is pulled up through the corresponding winch 25 and the steel wire rope 22; after the electroplating of the long-rod drill bit 20 on the right clamp 21 is completed, the lifting jack 18 is started, the long-rod drill bits 20 on the two clamps 21 are lifted simultaneously, when the height reaches a certain value, the second rotary table 17 is rotated to exchange the positions of the two clamps 21, the lifting jack 18 is lowered again, and the other long-rod drill bit 20 enters the electrolyte for electroplating, so that the staggered conversion can greatly improve the working efficiency.

3. Through the setting of lower base 38, corner groove 35, pressure-bearing spring 31, pressure-bearing seat 30 and upper base 37, make upper base 37 have certain buffer capacity in the use, rely on pressure-bearing spring 31 to unload the power operation, avoid appearing the rigidity collision between upper base 37 and the lower base 38 in the use, indirect assurance whole device's life.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic front view of an electroplating apparatus for diamond bit production according to the present invention;

FIG. 2 is a schematic structural view of a long rod hanging and conveying drill bit of the electroplating device for diamond drill bit production according to the present invention;

FIG. 3 is a schematic view of a portion A of the electroplating apparatus for manufacturing a diamond drill according to the present invention;

FIG. 4 is a schematic structural view of a portion B of the electroplating apparatus for manufacturing a diamond drill according to the present invention;

in the figure: 1-semi-ring fixing block; 2, electrifying the top block; 3-a first sliding groove; 4-a first connecting rod; 5, fixing a plate; 6-a sliding block; 7-a first connecting groove; 8-an electromagnet; 9-a liquid inlet pipe; 10-an anode material; 11-a first carousel; 13-liquid pump; 14-a material box; 15-a base plate; 16-moving the base; 17-a second carousel; 18-lifting jack; 19-horizontal bar; 20-long rod drill bit; 21-a clamp; 22-a steel wire rope; 23-a pulley; 25-a winch; 26-electroplating barrel; 27-an outer barrel; 28-electric rotary table; 29-fixing the disc; 30-a pressure bearing seat; 31-a compression spring; 32-a positioning block; 33-a screen mesh; 34-a first connection block; 35-corner grooves; 36-a discharge pipe; 37-an upper base; 38-a lower base; 39-a rotating shaft; 40-a first groove; 41-a second groove; 42-a valve; 43-a separator; 44-a pilot assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, 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.

An electroplating apparatus for producing a diamond drill according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 4.

In the first embodiment, the invention provides a diamond bit production electroplating device, which comprises a bottom plate 15, wherein an outer barrel 27 for electroplating and a movable base 16 which is convenient to move and is connected with the lower surface of a second turntable 17 are arranged on the bottom plate 15; the upper surface of the second rotary table 17 is connected with a lifting jack 18 which is used for lifting and is connected with the midpoint of a horizontal rod 19; the horizontal rod 19 is provided with a connecting steel wire rope 22, a winch 25 which is positioned at the middle point of the upper surface of the horizontal rod 19 and used for pulling the steel wire rope 22, and pulleys 23 which are in contact with the steel wire rope 22 and positioned at two sides of the horizontal rod 19 and used for facilitating the pulling of the steel wire rope 22; the wire rope 22 is connected with a clamp 21 which is used for clamping the long rod drill bit 20 and is positioned below the pulley 23.

An electroplating barrel 26 which is used for storing electrolyte and is cylindrical is arranged in the outer barrel 27; the electroplating barrel 26 is internally provided with an anode material 10 connected with one side of the inner wall of the electroplating barrel 26 and a circular first rotating disc 11 which drives the electrolyte to flow, contacts with the lower surface of the inner wall of the electroplating barrel 26 and is connected with the inner wall of the electroplating barrel 26 in a sliding way; the middle point of the bottom of the first rotating disc 11 is connected with a rotating shaft 39 which penetrates through the bottom of the electroplating barrel 26, is connected with the middle point of the electric rotating disc 28 and is used for driving the first rotating disc 11 to rotate; the electric rotating disc 28 is connected with a fixed disc 29 fixed in a first groove 40 on an upper base 37; the lower surface of the upper base 37 is provided with a plurality of corner grooves 35, a pressure-bearing spring 31 is arranged below the corner grooves 35, two ends of the pressure-bearing spring 31 are connected with pressure-bearing seats 30, and the pressure-bearing seats 30 are respectively connected with the upper surfaces of the corner grooves 35 and the lower base 38 and are symmetrically arranged; a positioning block 32 which is matched with the second groove 41 and used for fixing and positioning is arranged at the central point of the lower base 38; a material box 14 which is connected with the bottom of the electroplating barrel 26 and used for recovering electroplating solution is arranged below the electroplating barrel 26; the material tank 14 is provided with a liquid inlet pipe 9 which is communicated with the electroplating barrel 26 and the material tank 14 and is connected with the liquid pump 13, and a discharge pipe 36 which is communicated with the electroplating barrel 26 and the material tank 14 and is connected with a valve 42; a screen 33 which is used for sieving electrolyte and is arranged at the opening of the discharge pipe 36 and connected with the first connecting block 34 is arranged in the material box 14; the first connecting block 34 extends through one side of the material tank 14 and is slidably connected to the material tank 14.

A circular partition plate 43 which is connected with one side of the electromagnet 8 and connected with the upper surface of the material box 14 is arranged between the electroplating barrel 26 and the shell; the electromagnet 8 is positioned above the electroplating barrel 26 and is connected with one side of the shell; the partition plate 43 is connected with a fixing plate 5 which is positioned above the electroplating barrel 26 and is connected with the inner side of the partition plate 43; the fixed plate 5 is internally provided with a through clapboard 43 and communicated with an electromagnet 8, the first sliding groove 3 is internally provided with a sliding block 6 which is connected with the inner wall of the first sliding groove 3 in a sliding way and connected with one end of a first connecting rod 4; the first connecting rod 4 penetrates through the first sliding groove 3 and is connected with the movable electrified top block 2; the electrifying ejector block 2 is connected with a semi-ring fixing block 1 which is used for fixing a long-rod drill bit 20 and is positioned above the material tank 14.

The semi-ring fixed block 1, the power-on top block 2, the first sliding groove 3, the first connecting rod 4, the fixed plate 5, the sliding block 6 and the first connecting groove 7 form a guide assembly 44.

Wherein, the inner side of the partition 43 is provided with two guiding components 44, the guiding components 44 are both provided with semi-ring fixed blocks 1 for guiding and righting the long-rod drill bit 20, the two guiding components 44 are symmetrically arranged, and the guiding components 44 are provided with cathode points for touching the long-rod drill bit 20; the fixed ends of the two semi-ring fixed blocks 1 are respectively arranged at one end of the electrified ejector block 2, and when the electrified ejector block 2 of the two guide assemblies 44 extends, the two semi-ring fixed blocks 1 are close to each other and guide in and centralize the long-rod drill bit 20 to be clamped.

The sliding block 6 is made of a magnetic material.

The number of the pilot assemblies 44 is the same as that of the electromagnets 8; the electromagnet 8 drives the power-on ejector block 2 to slide towards the long-rod drill bit 20 through the first connecting rod 4, the power-on ejector block 2 slides to enable the semi-ring fixing block 1 to eject the metal part to be plated, and the metal part to be plated is clamped.

The positioning block 32 and the second groove 41 are arranged in a circular structure.

In the invention, the movable base 16 can drive other parts of the whole hoisting mechanism to move, at least move left and right, the second rotary table 17 can drive the horizontal rod 19 to rotate by taking the central part as the center of a circle, when the long-rod drill bit 20 on the right clamp 21 is electroplated, the left clamp 21 can simultaneously clamp one end of another long-rod drill bit 20, the long-rod drill bit 20 is lifted and erected through the corresponding winch 25 and the steel wire rope 22, after the electroplating of the long-rod drill bit 20 on the right clamp 21 is finished, the lifting jack 18 is started, and the long-rod drill bits 20 on the two clamps 21 are lifted at the same time; when the height reaches a certain value, the second rotary table 17 is rotated to exchange the positions of the two clamps 21, and then the lifting jack 18 is lowered to enable the other long-rod drill bit 20 to enter the electrolytic tank for electro-plating, so that the working efficiency is improved; the long-rod drill bit 20 enters the electroplating barrel 26, the guide assembly 44 fixes and clamps the long-rod drill bit 20, the sliding block 6 and the electromagnet 8 are mutually repelled, the sliding block 6 moves towards one side far away from the electromagnet 8, and the electrified jacking block 2 is pushed to move towards the long-rod drill bit 20, so that the two semi-ring fixed blocks 1 are connected and clamp the long-rod drill bit 20; the electric rotating disc 28 is started to drive the rotating shaft 39 to be connected with the first rotating disc 11 to rotate, so that the electrolyte in the electroplating barrel 26 is uniformly mixed, and the electroplating quality is improved; a screen 33 is arranged at the pipe orifice of the discharge pipe 36, the screen 33 can be pulled out through the first connecting block 34, and the recovered electrolyte can filter impurities in the electrolyte after passing through the screen 33, so that the clean and impurity-free electrolyte can be input into the electroplating barrel 26 for recycling, the waste is reduced, and the cost is greatly saved; through the setting of lower base 38, corner groove 35, pressure-bearing spring 31, pressure-bearing seat 30 and upper base 37, make upper base 37 have certain buffer capacity in the use, rely on pressure-bearing spring 31 to unload the power operation, avoid appearing the rigidity collision between upper base 37 and the lower base 38 in the use, indirect assurance whole device's life.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a diamond bit production electroplating device, includes the bottom plate, its characterized in that: the bottom plate is provided with an outer barrel and a movable base, and the upper surface of the movable base is connected with a second turntable; the upper surface of the second rotary table is connected with a lifting jack connected with the middle point of the horizontal rod; the horizontal rod is provided with a winch which is connected with the steel wire rope and is positioned at the middle point of the upper surface of the horizontal rod and pulleys which are contacted with the steel wire rope and are positioned at two sides of the horizontal rod; the steel wire rope is connected with a clamp positioned below the pulley; a cylindrical electroplating barrel is arranged in the outer barrel; the electroplating barrel is internally provided with an anode material connected with one side of the inner wall of the electroplating barrel and a circular first rotating disc which is in contact with the lower surface of the inner wall of the electroplating barrel and is in sliding connection with the inner wall of the electroplating barrel; the middle point of the bottom of the first rotary table is connected with a rotating shaft, and the rotating shaft penetrates through the bottom of the electroplating barrel and is connected with the middle point of the electric rotary table; the electric rotary table is connected with a fixed disc, the fixed disc is fixed in a first groove, the first groove is arranged on an upper base, and the upper base is arranged below the electroplating barrel; the lower surface of the upper base is provided with a plurality of corner grooves, pressure-bearing springs are arranged below the corner grooves, two ends of each pressure-bearing spring are connected with pressure-bearing seats, the pressure-bearing seats are respectively connected with the corner grooves and the upper surface of the lower base, the pressure-bearing seats are symmetrically arranged, the lower base is arranged on the inner bottom end surface of the outer barrel, and the lower base is arranged below the upper base; a positioning block matched with the second groove is arranged at the central point of the lower base; a material box connected with the bottom of the electroplating barrel is arranged below the electroplating barrel; a screen arranged at the discharge pipe orifice and connected with the first connecting block is arranged in the material box; the first connecting block penetrates through one side of the material box and is connected with the material box in a sliding mode; a circular partition plate which is connected with one side of the electromagnet and connected with the upper surface of the material box is arranged between the electroplating barrel and the shell; the electromagnet is positioned above the electroplating barrel and connected with one side of the shell; the partition board is connected with a fixed plate which is positioned above the electroplating barrel and connected with the inner side of the partition board; a first connecting groove which penetrates through the partition plate and is connected with the electromagnet and the first sliding groove is formed in the fixed plate, and a sliding block which is connected with the inner wall of the first sliding groove in a sliding manner and is connected with one end of the first connecting rod is arranged in the first sliding groove; the first connecting rod penetrates through the first sliding groove and is connected with a movable electrified jacking block; the electrifying ejector block is connected with a semi-ring fixing block positioned above the material box.

2. The electroplating device for producing the diamond drill bit according to claim 1, wherein: the material box is provided with a feeding pipe which is communicated with the electroplating barrel and the material box and is connected with a liquid pump.

3. The electroplating device for producing the diamond drill bit according to claim 1, wherein: and a liquid outlet pipe which is communicated with the electroplating barrel and the material box and is connected with a valve is arranged on the material box.

4. The electroplating device for producing the diamond drill bit according to claim 1, wherein: the baffle inboard is equipped with two and leads positive subassemblies, lead positive subassembly and all be equipped with the semi-ring fixed block that is used for leading-in and right stock drill bit, two are led positive subassemblies and are the symmetry setting.

5. The electroplating device for producing the diamond drill bit according to claim 1, wherein: the sliding block is made of magnetic materials.

6. The electroplating device for producing the diamond drill bit according to claim 4, wherein: the number of the pilot assemblies is the same as that of the electromagnets.

7. The electroplating device for producing the diamond drill bit according to claim 1, wherein: the positioning block and the second groove are of circular structures.