CN113000291B - Anticorrosive rust-proof coating preparation application system of reduction gear case lid - Google Patents

Abstract

The invention relates to a manufacturing and coating system for an anti-corrosion and anti-rust coating of a speed reducer box cover, which relates to the technical field of speed reducer box cover processing. The invention has the advantages that the clamping mechanism and the lifting mechanism are used for dip-coating in the coating box, so that the box cover of the speed reducer can obtain a more uniform coating, the box cover is clamped in a threaded connection manner through the bolt blocks and the box cover, the box cover is clamped more firmly, the contact between the box cover and the clamp is greatly reduced, and meanwhile, the production efficiency of box cover coating is improved; the lifting screw rod and the thread cylinder are in threaded fit to obtain a more stable lifting effect, the matching moving mechanism reduces shaking of the speed reducer box cover in the dip-coating and moving processes, the auxiliary clamping mechanism obtains a further stable clamping effect, manual intervention is reduced, and the influence of the moving process on the coating quality is reduced.

Description

Anticorrosive rust-proof coating preparation application system of reduction gear case lid

Technical Field

The invention relates to the technical field of processing of a speed reducer box cover, in particular to a manufacturing and coating system for an anti-corrosion and anti-rust coating of a speed reducer box cover.

Background

The speed reducer is an independent component consisting of a gear drive, a worm drive, and a gear-worm drive enclosed in a rigid housing, and is commonly used as a speed reduction transmission between the driving element and the working machine. The motor is a relatively precise machine which has the functions of matching the rotating speed and transmitting the torque between the prime motor and the working machine or the actuating mechanism. Its purpose is to reduce the rotational speed and increase the torque. The speed reducer has various kinds and can be classified into a gear speed reducer, a worm speed reducer and a planetary gear speed reducer according to transmission types; the speed reducer can be divided into a single-stage speed reducer and a multi-stage speed reducer according to different transmission stages; according to the arrangement form of transmission, the speed reducer can be divided into an expansion speed reducer, a split-flow speed reducer and a coaxial speed reducer. In the production process, the box cover and the box seat of the speed reducer are generally made of cast iron through a casting process, and if the box cover is directly assembled for use, the box cover is easy to rust and corrode under long-term work, so that the normal use of the speed reducer is affected, and therefore, in the production process, the surface of the speed reducer needs a coating for corrosion prevention and rust prevention.

At present, the anti-corrosion and anti-rust coating treatment mode of the speed reducer box cover generally adopts a manual brush to sequentially brush anti-rust coating and anti-corrosion coating on the surface of the speed reducer box cover; or the box cover of the speed reducer is clamped by using a hoisting tool with an extrusion clamp at the tail end, and the anti-rust dip coating and the anti-corrosion dip coating are sequentially carried out under manual intervention.

The prior art solutions described above have the following drawbacks: the production efficiency of manually brushing with a brush is very low, and the coating achieves higher uniformity, so that the quality of the coating is unstable; in the dip-coating process of the lifting tool, the clamped part of the box cover of the speed reducer is difficult to dip-coat, and manual repair brushing or secondary dip-coating is generally required, so that the production efficiency is reduced, and the uniformity of the coating is also reduced; due to the complex shape of the case cover of the decelerator, it is difficult to form stable clamping during dip coating and moving.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a manufacturing and coating system for an anti-corrosion and anti-rust coating of a speed reducer box cover, which has the effects of improving the production efficiency, improving the uniformity of the coating and providing more stable clamping in the anti-corrosion and anti-rust coating process of the speed reducer box cover.

The above object of the present invention is achieved by the following technical means.

The utility model provides a anticorrosive rust-resistant coating preparation application system of reduction gear case lid, includes coating box and moving mechanism, still includes fixture and elevating system, moving mechanism locates subaerial, a plurality of coating box locates subaerial to be located moving mechanism's below setting.

The lifting mechanism comprises a supporting block, a connecting block, a threaded cylinder, a lifting screw rod, a sliding rod, a driving gear and a ring gear, wherein the supporting block is arranged between the moving mechanisms, the threaded cylinder is rotatably arranged on the supporting block in a penetrating mode, the lifting screw rod is arranged on the threaded cylinder in a penetrating mode in a threaded mode, one end, close to the ground, of the lifting screw rod is rotatably connected with the connecting block, a plurality of sliding rods are connected to the connecting block, one end, far away from the ground, of the sliding rod is arranged on the supporting block in a penetrating mode, and the ring gear is fixedly sleeved on one end, far away from the ground, of the threaded cylinder and meshed with the driving gear arranged on the supporting block.

The clamping mechanism comprises a sliding block, a telescopic cylinder, a mounting block, a torsion wheel, a bolt block, a pressure spring and a collision disc, wherein a plurality of sliding blocks are limited to slide on one side, close to the ground, of a connecting block, one ends, away from each other, of the sliding blocks are connected with the telescopic cylinder, one ends, away from each other, of the telescopic cylinder are provided with the mounting block, the upper side of the mounting block is rotationally provided with the torsion wheel, a rotating shaft of the torsion wheel penetrates through the mounting block and is connected with the bolt block, the pressure spring is sleeved on the bolt block, one end of the pressure spring is connected with the mounting block, the other end of the pressure spring is connected with the collision disc, and the collision disc is sleeved on the bolt block.

As the preferable technical scheme of the invention, the telescopic cylinder comprises a sleeve, a telescopic rod, a rotating groove, an extrusion block and a rotating rod, wherein the sleeve is connected with the sliding block, the telescopic rod slides in the sleeve, one end of the telescopic rod, which is far away from the sleeve, is connected with the mounting block, one side of the sleeve is penetrated and provided with the rotating groove, the extrusion block is arranged in the rotating groove, the extrusion block is in threaded fit with the groove wall of the rotating groove, and one end of the extrusion block, which is far away from the telescopic rod, is provided with the rotating rod.

As a preferable technical scheme of the invention, a plurality of sliding blocks are connected with a hydraulic damper.

As the preferable technical scheme of the invention, the moving mechanism comprises a mounting frame, guide rails, limiting blocks, racks, power gears and moving gears, wherein a plurality of the mounting frames are symmetrically arranged on the ground, a plurality of guide rails are symmetrically arranged between the plurality of mounting frames, the racks are arranged on one sides of the plurality of guide rails, which are close to each other, a plurality of the limiting blocks are provided with two ends of a supporting block and are limited to slide on one sides of the plurality of guide rails, which are close to each other, the power gears and the plurality of the moving gears are rotationally arranged on the supporting block, the plurality of the moving gears are respectively meshed with the plurality of the racks, and the power gears are meshed with the moving gears on one side and are in transmission connection with the moving gears on the other side in a belt transmission mode.

As a preferable technical scheme of the invention, one side of the twisting wheel far away from the ground is provided with an inner hexagonal groove.

As the preferable technical scheme of the invention, the invention also comprises a drying box which is arranged on the ground, is positioned between a plurality of paint cartridges and is sleeved with a plurality of guide rails.

In summary, the present invention includes at least one of the following advantages.

1. According to the invention, the clamping mechanism and the lifting mechanism are used for dip-coating in the coating box, so that the box cover of the speed reducer is more uniformly coated, and the box cover is clamped in a threaded connection manner through the bolt blocks and the box cover, so that the box cover is clamped more firmly, the contact between the box cover and the clamp is greatly reduced, and meanwhile, the production efficiency of box cover coating is improved.

2. According to the invention, a more stable lifting effect is obtained by the way of matching the lifting screw rod with the screw thread of the screw thread cylinder, and the combination of the lifting screw rod and the moving mechanism reduces shaking of the speed reducer box cover in the dip-coating and moving processes, the auxiliary clamping mechanism obtains a further stable clamping effect, manual intervention is reduced, and the influence of the moving process on the coating quality is reduced;

Drawings

Fig. 1 is a schematic main structure of the first view of the present invention.

Fig. 2 is a schematic diagram of a main structure of the second view of the present invention.

Fig. 3 is a partial schematic structure of the moving mechanism.

Fig. 4 is a schematic view of a lifting structure.

Fig. 5 is a schematic view of a part of the structure of the clamping mechanism.

Fig. 6 is a schematic structural view of the telescopic cylinder.

Fig. 7 is a schematic structural view of the cover of the reduction gear box.

In the figure, 1, a paint box; 2. a moving mechanism; 3. a lifting mechanism; 4. a clamping mechanism; 31. a support block; 32. a connecting block; 33. a thread cylinder; 34. lifting the screw rod; 35. a slide bar; 36. a drive gear; 37. a ring gear; 41. a slide block; 42. a telescopic cylinder; 43. a mounting block; 44. a torsion wheel; 45. a bolt block; 46. a pressure spring; 47. a collision plate; 421. a sleeve; 422. a telescopic rod; 423. a rotating groove; 424. extruding a block; 425. a rotating rod; 5. a hydraulic damper; 21. a mounting frame; 22. a guide rail; 23. a limiting block; 24. a rack; 25. a power gear; 26. a moving gear; 6. an inner hexagonal groove; 7. and (5) drying the box.

Detailed Description

The invention is described in further detail below with reference to fig. 1-7.

The invention relates to a coating system for manufacturing an anticorrosive and antirust coating of a speed reducer box cover, which comprises a coating box 1, a moving mechanism 2, a clamping mechanism 4 and a lifting mechanism 3, wherein the moving mechanism 2 is arranged on the ground, a plurality of coating boxes 1 are arranged on the ground and are arranged below the moving mechanism 2, in the embodiment, the coating boxes 1 on two sides are respectively provided with an anticorrosive paint liquid and an antirust paint liquid, in the actual use process, the antirust paint liquid is generally used as a primer, so the speed reducer box cover needs to be subjected to antirust treatment firstly and then to anticorrosive treatment after being subjected to drying treatment, and the shape of the speed reducer box cover is complex.

The lifting mechanism 3 comprises supporting blocks 31, connecting blocks 32, threaded cylinders 33, lifting screw rods 34, sliding rods 35, driving gears 36 and ring gears 37, wherein the supporting blocks 31 are arranged between the moving mechanisms 2, the threaded cylinders 33 are rotatably arranged on the supporting blocks 31 in a penetrating mode, the lifting screw rods 34 are arranged on the threaded cylinders 33 in a penetrating mode and are in threaded fit mode, one ends, close to the ground, of the supporting blocks are rotatably connected with the connecting blocks 32, a plurality of sliding rods 35 are connected to the connecting blocks 32, one ends, far away from the ground, of the sliding rods 35 are arranged on the supporting blocks 31 in a penetrating mode, and the ring gears 37 are fixedly sleeved on one ends, far away from the ground, of the threaded cylinders 33 and meshed with the driving gears 36 arranged on the supporting blocks 31; during specific work, the driving gear 36 drives the ring gear 37 to rotate, so that the threaded cylinder 33 rotates, the screw rod drives the connecting block 32 to lift under the limiting action of the sliding rods 35, more stable lifting can be realized compared with manual operation and cylinder driving lifting, splashing of coating liquid is avoided, more uniform coating can be obtained in the dip-coating process, meanwhile, the reverse self-locking function is realized, the screw rod is more stable in the transfer process, and the intervention and the labor intensity of operators are also reduced.

The clamping mechanism 4 comprises sliding blocks 41, telescopic cylinders 42, mounting blocks 43, twisting wheels 44, bolt blocks 45, pressure springs 46 and a collision disc 47, wherein a plurality of sliding blocks 41 are limited to slide on one side of the connecting block 32 close to the ground, one ends of the sliding blocks 41, which are far away from each other, are connected with the telescopic cylinders 42, and a plurality of hydraulic dampers 5 are connected between the sliding blocks 41 so as to improve the sliding resistance of the sliding blocks 41 and facilitate the operation of an operator in mounting and dismounting a speed reducer box cover; one end of the telescopic cylinder 42, which is far away from each other, is provided with a mounting block 43, the upper side of the mounting block 43 is rotationally provided with a torsion wheel 44, one side of the torsion wheel 44, which is far away from the ground, is provided with an inner hexagonal groove 6, and the torsion wheel 44 can be driven to rotate more quickly by an inner hexagonal wrench or an electric screwdriver which is matched with the inner hexagonal groove 6, so that the speed reducer box cover can be mounted and dismounted more quickly; the rotating shaft of the torsion wheel 44 penetrates through the mounting block 43 and is connected with the bolt block 45, the bolt block 45 is sleeved with the pressure spring 46, one end of the pressure spring 46 is connected with the mounting block 43, the other end of the pressure spring is connected with the abutting disc 47, and the abutting disc 47 is sleeved on the bolt block 45; in this embodiment, the telescopic cylinder 42 includes a sleeve 421, a telescopic rod 422, a rotary groove 423, an extrusion block 424 and a rotating rod 425, the sleeve 421 is connected with the slider 41, the telescopic rod 422 slides in the sleeve 421, one end of the telescopic rod 422 far away from the sleeve 421 is connected with the mounting block 43, one side of the sleeve 421 is provided with the rotary groove 423 in a penetrating way, the extrusion block 424 is provided in the rotary groove 423, and the extrusion block 424 is in threaded fit with the groove wall of the rotary groove 423, and one end of the extrusion block 424 far away from the telescopic rod 422 is provided with the rotating rod 425; by manually rotating the rotating lever 425, the pressing block 424 approaches and presses the telescopic rod 422 under the screw-fit with the rotating groove 423, so that the telescopic rod 422 is difficult to slide in the sleeve 421, and the telescopic cylinder 42 is kept in a relatively fixed state.

During specific work, as the speed reducer box cover is provided with the threaded holes, the length of the telescopic cylinders 42 is manually adjusted and the distance between the sliding blocks 41 is manually adjusted, the distance between the sliding blocks 41 is changed, the bolt blocks 45 are in threaded fit with the threaded holes on the speed reducer box cover, the manual rotation or the electric screw driver matched with the inner hexagonal groove 6 can be adopted to rotate the torsion wheel 44, the three bolt blocks 45 are at least required to be in threaded connection with the threaded holes on the speed reducer box cover respectively, the abutting disc 47 abuts against the speed reducer box cover under the action of the pressure spring 46 until the torsion wheel 44 has certain rotation resistance, so that the bolt blocks 45 are placed to loosen in the working process, the speed reducer box cover is difficult to loose or fall off, stable clamping and fixing are achieved, meanwhile, contact between the speed reducer box cover and the surface needing dip-coating is avoided, so that more complete dip-coating is achieved, meanwhile, the coating effect of the speed reducer box cover is improved, the dip-coating operation of the clamping part is not required to be carried out again, and the working efficiency is improved to a certain extent.

The moving mechanism 2 comprises a mounting frame 21, guide rails 22, limiting blocks 23, racks 24, power gears 25 and moving gears 26, wherein a plurality of mounting frames 21 are symmetrically arranged on the ground, a plurality of guide rails 22 are symmetrically arranged between a plurality of mounting frames 21, one sides of the plurality of guide rails 22, which are close to each other, are provided with racks 24, a plurality of limiting blocks 23 are provided with two ends of a supporting block 31 and are limited to slide on one sides of the plurality of guide rails 22, which are close to each other, the supporting block 31 is rotationally provided with the power gears 25 and the plurality of moving gears 26, the plurality of moving gears 26 are respectively meshed with the plurality of racks 24, the moving gears 26 on two sides are respectively sleeved on sliding rods 35 on two sides, the power gears 25 are meshed with the moving gears 26 on one side without connection relation, and the moving gears 26 on the other side are in transmission connection in a belt transmission mode.

During specific work, the power gear 25 drives the moving gear 26 on one side to rotate, meanwhile, the moving gear 26 on the other side is driven to rotate in the opposite direction through belt transmission, so that the supporting block 31 can move on the sliding rail, further, the speed reducer box cover which is subjected to dip coating on the clamping mechanism 4 is driven to move into the drying box 7, then the speed reducer box cover is moved to the coating box 1 on the other side for anti-corrosion dip coating, and the coating box 1 is moved out for drying after the dip coating is finished.

The paint box also comprises a drying box 7, wherein the drying box 7 is arranged on the ground, is positioned among the paint boxes 1, and is sleeved with a plurality of guide rails 22; during specific operation, after dip-coating, the workpiece generally needs at least 3-4 hours for natural air drying, more time is consumed in the working process, the drying time can be effectively saved in a heated state, a fan can be arranged at the opening of the drying box, air is blown slowly, contact between anticorrosive paint and the air and between the anticorrosive paint and the air is increased, and the discharge of toxic substances and the drying effect are facilitated.

The implementation principle of the embodiment is as follows: the operator rotates the torsion block, makes at least three bolt blocks 45 and screw hole threaded connection on the reduction gear case lid, and the conflict dish 47 extrudees the reduction gear case lid under the effect of pressure spring 46 to make bolt blocks 45 and reduction gear case lid can more stable threaded connection.

Starting the driving gear 36 to drive the threaded cylinder 33 to rotate, so that the lifting screw rod 34 descends under the action of the threaded cylinder 33, the speed reducer box cover on the clamping mechanism 4 slowly descends into the paint box 1 filled with the antirust paint liquid at a constant speed until the speed reducer box cover is completely immersed, then starting the driving gear 36 reversely to ascend the clamping mechanism 4, driving the workpiece to move out of the antirust paint liquid, and moving the supporting block 31 on the guide rail 22 through the rotation of the power gear 25 to dry in the drying box 7, so that the fan can be turned on to improve the fluidity of air, and the drying efficiency is improved.

After a certain time, the paint box 7 is moved out to the upper side of the paint box 1 with the anti-corrosion paint liquid at the other side, then the dip-coating operation is carried out, and finally the paint operation of the anti-rust coating on the speed reducer box cover is finished.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (5)

1. The utility model provides a anticorrosive rust-resistant coating preparation application system of reduction gear case lid, includes coating box (1) and mobile mechanism (2), its characterized in that: the paint box also comprises a clamping mechanism (4) and a lifting mechanism (3), wherein the moving mechanism (2) is arranged on the ground, and a plurality of paint boxes (1) are arranged on the ground and are arranged below the moving mechanism (2);

the lifting mechanism (3) comprises supporting blocks (31), connecting blocks (32), threaded cylinders (33), lifting screw rods (34), sliding rods (35), driving gears (36) and ring gears (37), wherein the supporting blocks (31) are arranged between the moving mechanisms (2), the threaded cylinders (33) are rotatably arranged on the supporting blocks (31) in a penetrating mode, the lifting screw rods (34) are rotatably connected with the connecting blocks (32) at one ends close to the ground in a penetrating mode, a plurality of the sliding rods (35) are connected to the connecting blocks (32), one ends, far away from the ground, of the sliding rods (35) are arranged on the supporting blocks (31) in a penetrating mode, and the ring gears (37) are fixedly sleeved on one ends, far away from the ground, of the threaded cylinders (33) and meshed with the driving gears (36) arranged on the supporting blocks (31);

The clamping mechanism (4) comprises sliding blocks (41), telescopic cylinders (42), mounting blocks (43), torsion wheels (44), bolt blocks (45), pressure springs (46) and a collision disc (47), wherein a plurality of sliding blocks (41) are limited to slide on one side, close to the ground, of each connecting block (32), one ends, far away from each other, of each sliding block (41) are connected with the telescopic cylinders (42), one ends, far away from each other, of each telescopic cylinder (42) are provided with the corresponding mounting blocks (43), the upper sides of the corresponding mounting blocks (43) are rotationally provided with the corresponding torsion wheels (44), rotating shafts of the corresponding torsion wheels (44) are arranged on the corresponding mounting blocks (43) in a penetrating mode and are connected with the corresponding bolt blocks (45), the corresponding pressure springs (46) are sleeved on the corresponding bolt blocks (45), one ends of the corresponding pressure springs (46) are connected with the corresponding mounting blocks (43), and the other ends of the corresponding collision discs (47) are sleeved on the corresponding bolt blocks (45);

The telescopic cylinder (42) comprises a sleeve (421), a telescopic rod (422), a rotating groove (423), an extrusion block (424) and a rotating rod (425), wherein the sleeve (421) is connected with a sliding block (41), the telescopic rod (422) is slidably moved in the sleeve (421), one end, far away from the sleeve (421), of the telescopic rod (422) is connected with a mounting block (43), one side of the sleeve (421) is penetrated and provided with the rotating groove (423), the rotating groove (423) is internally provided with the extrusion block (424), the extrusion block (424) is in threaded fit with the groove wall of the rotating groove (423), and one end, far away from the telescopic rod (422), of the extrusion block (424) is provided with the rotating rod (425).

2. The corrosion-resistant and rust-resistant coating manufacturing and coating system for a gearbox cover according to claim 1, wherein: and a hydraulic damper (5) is connected between the sliding blocks (41).

3. The corrosion-resistant and rust-resistant coating manufacturing and coating system for a gearbox cover according to claim 1, wherein: the utility model provides a mobile mechanism (2) is including mounting bracket (21), guide rail (22), stopper (23), rack (24), power gear (25) and removal gear (26), a plurality of the subaerial is located to mounting bracket (21) symmetry, and the symmetry is equipped with a plurality of guide rails (22) between a plurality of mounting bracket (21), and one side that a plurality of guide rails (22) are close to each other is equipped with rack (24), and a plurality of stopper (23) are equipped with the both ends of supporting shoe (31) to spacing slide in one side that a plurality of guide rails (22) are close to each other, rotate on supporting shoe (31) and be equipped with power gear (25) and a plurality of removal gear (26), and a plurality of removal gear (26) mesh with a plurality of racks (24) respectively and set up, power gear (25) mesh with one side removal gear (26) with the removal gear (26) of opposite side is connected with the transmission of belt drive mode.

4. The corrosion-resistant and rust-resistant coating manufacturing and coating system for a gearbox cover according to claim 1, wherein: an inner hexagonal groove (6) is formed in one side, far away from the ground, of the twisting wheel (44).

5. A system for producing an anti-corrosive and anti-rust coating for a gearbox cover according to claim 3, wherein: the paint box also comprises a drying box (7), wherein the drying box (7) is arranged on the ground, is positioned between the paint boxes (1), and is sleeved with a plurality of guide rails (22).