CN117645326A - Method for recycling part grinding wastewater sediment - Google Patents

Abstract

The invention discloses a method for recycling part grinding wastewater sediment, and relates to the technical field of wastewater treatment; the invention comprises an equipment box, wherein an upper cover plate is rotatably arranged on the upper surface of the equipment box, a handle is fixedly arranged on one surface of the upper cover plate, which is far away from the equipment box, a water inlet pipe is fixedly arranged on one side of the equipment box, a charging pipe is fixedly arranged on one side, which is far away from the water inlet pipe, of the equipment box, an inner barrel is arranged in the equipment box, and a drain pipe is fixedly arranged at the bottom end of the inner barrel; through compounding mechanism, make interior bucket rotate, grinding waste water and medicament in the interior bucket is broken up along with interior bucket rotate by the mixture, through rabbling mechanism, make stirring vane rotate, stirring vane stirs grinding waste water and medicament in the interior bucket, make the abundant dissolution of grinding waste water and medicament in the interior bucket and the chemical reaction of sending out to convenient realization grinding waste water and medicament mix and grinding waste water's recovery processing, and then improved grinding waste water's treatment effect and improved recovery processing grinding waste water's convenience.

Description

Methods for Parts Grinding Wastewater Sedimentation and Recycling

Technical field

The present invention relates to the technical field of wastewater treatment, specifically a method for recycling and recycling wastewater from parts grinding.

Background technique

Grinding wastewater is the wastewater generated during grinding machine processing operations. While metal grinders bring many benefits, they will produce more or less grinding wastewater during the grinding process. Metal grinding wastewater generally contains a large amount of metal, grinding fluid (mainly oil), cleaning fluid and other pollutants. If this wastewater is directly discharged without treatment, it will seriously pollute the environment and must be treated before it can be discharged. Existing technologies have the following problems when treating grinding wastewater:

1. Since there are a lot of metal scraps and impurities produced during metal processing in the grinding wastewater, the existing technology is inconvenient to separate the wastewater from the scraps and impurities, which makes the recycling and treatment of the grinding wastewater more inconvenient;

2. When the existing technology treats grinding wastewater, most of the chemicals used to treat the grinding wastewater are placed in the grinding wastewater and allowed to stand for treatment. However, when left to stand, the chemicals cannot be evenly contacted with the grinding wastewater, and the grinding wastewater cannot be ground. The wastewater fully reacts with the chemicals, resulting in poor treatment effect of the grinding wastewater and affecting the convenience of recycling the grinding wastewater. In view of the above problems, the inventor proposed a method of precipitation and recycling of parts grinding wastewater to solve the above problems.

Contents of the invention

In order to solve the problem that the recycling and treatment of grinding wastewater is relatively inconvenient and the treatment effect of grinding wastewater is poor; the purpose of the present invention is to provide a method for precipitation and recycling of parts grinding wastewater.

In order to solve the above technical problems, the present invention adopts the following technical solution: a method for recycling the sedimentation of parts grinding wastewater, including an equipment box, an upper cover plate is rotatably installed on the upper surface of the equipment box, and the upper cover plate is away from the side of the equipment box. A handle is fixedly installed, a water inlet pipe is fixedly installed on one side of the equipment box, a feeding pipe is fixedly installed on the side of the equipment box away from the water inlet pipe, an inner barrel is provided in the equipment box, and the bottom end of the inner barrel is fixed A drainage pipe is installed. A through hole is provided at the bottom end of the equipment box. One end of the drainage pipe away from the inner barrel runs through the through hole. A sealing plug is movably inserted into the end of the drainage pipe away from the inner barrel. The equipment box has a sealing plug. Support legs are fixedly installed at the four corners of the bottom end, a conical bucket is fixedly installed on the inner wall of the equipment box, a filter plate is fixedly installed on the surface of the conical bucket, and collectors are fixedly installed on both sides of the conical bucket. box, the collection box is fixedly connected to the inner wall of the equipment box, a cleaning mechanism is provided between the equipment box and the filter plate, and a mixing mechanism and a stirring mechanism are respectively provided between the equipment box and the inner barrel.

Preferably, the cleaning mechanism includes a cleaning brush, the brush end of the cleaning brush is in movable contact with the upper surface of the filter plate, a rotating rod is rotatably installed on the inner wall of the equipment box, and the outer wall of the rotating rod is fixed. A connecting sleeve is installed, and two first connecting rods are fixedly installed on the outer wall of the connecting sleeve. One end of the two first connecting rods away from the connecting sleeve is fixedly connected to the upper surface of the cleaning brush. One end of the rotating rod The first gear is fixedly installed. A guide groove is provided on one side of the equipment box. A guide block is slidably connected to the inner wall of the guide groove. Two fixed rods are fixedly installed on one side of the guide block. A tooth plate is fixedly installed on one end of the fixed rod away from the guide block. The tooth plate is meshed with the first gear. A servo motor is fixed on one side of the equipment box close to the guide groove. The outer wall of the servo motor is fixedly connected with a fixed block, the side of the fixed block away from the servo motor is fixedly connected to the side of the equipment box, the drive output end of the servo motor is fixedly installed with a rotating rod, and the end of the rotating rod away from the servo motor is fixedly installed with a rotating disk. A driving rod is fixedly installed on the side of the rotating plate away from the rotating rod, a push rod is installed on the end of the driving rod away from the rotating plate, and a second connecting rod is fixedly installed on the side of the guide block close to the fixed rod. A U-shaped seat is fixedly installed at one end of the second connecting rod away from the guide block. A rotating shaft is mounted on the inner wall of the U-shaped seat. A fixed sleeve is fixedly installed on the outer wall of the rotating shaft. The push rod is fixed at one end away from the driving rod. The outer wall of the sleeve is fixedly connected.

Preferably, the mixing mechanism includes a circular toothed ring, the inner wall of the circular toothed ring and the outer wall of the inner barrel are fixedly connected, the inner wall of the equipment box is provided with a circular groove, and the inner wall of the circular groove is fixed. A circular guide rail is installed. The upper surface of the circular guide rail is slidingly connected with two arc-shaped slide blocks. The upper surfaces of the two arc-shaped slide blocks are fixedly connected to the bottom end of the inner barrel. The inner wall of the equipment box rotates. A transmission rod is installed. A second gear is fixedly installed at one end of the transmission rod. The second gear is meshed with a circular gear ring. A first transmission wheel is fixedly installed at one end of the rotating rod and one end of the transmission rod. , a first transmission belt is transmission connected between the two first transmission wheels.

Preferably, the stirring mechanism includes a stirring rod, a support rod is fixedly installed on the inner wall of the equipment box, a rotating sleeve is fixedly installed on one end of the support rod, the stirring rod penetrates the rotating sleeve and is rotationally connected with the rotating sleeve, A rotating roller is fixedly installed on the outer wall of the stirring rod, a uniformly distributed rotating plate is fixedly installed on the outer wall of the rotating roller, and evenly distributed stirring blades are fixedly installed on the surface of the rotating plate. One end of the transmission rod and the stirring A second transmission wheel is fixedly installed on one end of the rod, and a second transmission belt is transmission connected between the two second transmission wheels.

The method for recycling and recycling parts grinding wastewater includes the following steps:

S1. Separation of grinding wastewater from waste chips and impurities

The grinding wastewater is introduced into the equipment box through the water inlet pipe. The introduced grinding wastewater falls on the upper surface of the filter plate. The filter plate separates the waste chips and impurities in the grinding wastewater from the waste water, and allows the waste chips and impurities to stay on the filter plate. On the upper surface of the filter plate, the filtered grinding wastewater falls into the inner barrel through the filter holes on the surface of the filter plate;

S2. Clean up debris and impurities

By driving the cleaning brush to reciprocate, the cleaning brush cleans the waste chips and impurities on the surface of the filter plate, and allows the waste chips and impurities to enter the collection box along the slope of the conical bucket;

S3. Recycling and treatment of grinding wastewater

Through the mixing mechanism, the inner barrel is rotated, and the grinding wastewater and pharmaceuticals in the inner barrel are mixed and dispersed with the rotation of the inner barrel. Through the stirring mechanism, the stirring blades are rotated, and the stirring blades stir the grinding wastewater and pharmaceuticals in the inner barrel, so that the inner barrel The grinding wastewater and chemicals inside are fully dissolved and chemical reactions occur.

Compared with the prior art, the beneficial effects of the present invention are:

1. Introduce the grinding wastewater into the equipment box through the water inlet pipe. The introduced grinding wastewater falls on the upper surface of the filter plate. The filter plate separates the waste chips and impurities in the grinding wastewater from the waste water and keeps the waste chips and impurities in the equipment box. On the upper surface of the filter plate, the filtered grinding wastewater falls into the inner barrel through the filter holes on the surface of the filter plate, thereby conveniently realizing the separation of waste chips, impurities and wastewater in the grinding wastewater, thereby effectively improving the subsequent treatment Convenience of grinding wastewater;

2. By driving the cleaning brush to reciprocate, the cleaning brush cleans the waste chips and impurities on the surface of the filter plate, and allows the waste chips and impurities to enter the collection box along the slope of the conical bucket, thus conveniently realizing the filter plate The automatic cleaning of waste chips and impurities on the upper surface effectively improves the convenience of cleaning waste chips and impurities on the surface of the filter plate. At the same time, it avoids the accumulation of waste chips and impurities on the surface of the filter plate and affects the filtration of the filter plate. The efficiency of grinding wastewater, while avoiding the clogging of the filter holes on the surface of the filter plate due to the accumulation of waste chips and impurities;

3. Through the mixing mechanism, the inner barrel is rotated, and the grinding wastewater and pharmaceuticals in the inner barrel are mixed and dispersed with the rotation of the inner barrel. The stirring mechanism is used to rotate the stirring blades, and the mixing blades stir the grinding wastewater and pharmaceuticals in the inner barrel. The grinding wastewater and pharmaceuticals in the inner barrel are fully dissolved and chemically reacted, thereby conveniently realizing the mixing of grinding wastewater and pharmaceuticals and the recovery and treatment of grinding wastewater, thereby improving the treatment effect of grinding wastewater and improving the efficiency of recycling and processing grinding wastewater. Convenience.

Description of drawings

In order to explain the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are only These are some embodiments of the present invention. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without exerting creative efforts.

Figure 1 is a schematic diagram of the external structure of the equipment box of the present invention.

Figure 2 is another schematic diagram of the external structure of the equipment box of the present invention.

Figure 3 is an enlarged schematic diagram of part A in Figure 2 of the present invention.

Figure 4 is an enlarged schematic diagram of part B in Figure 2 of the present invention.

Figure 5 is a schematic cross-sectional structural diagram of the equipment box and inner barrel of the present invention.

Figure 6 is an enlarged schematic diagram of part C in Figure 5 of the present invention.

Figure 7 is an enlarged schematic diagram of part D in Figure 5 of the present invention.

Figure 8 is an enlarged schematic diagram of part E in Figure 5 of the present invention.

In the picture: 1. Equipment box; 11. Upper cover; 12. Handle; 13. Water inlet pipe; 14. Feeding pipe; 15. Inner barrel; 16. Through hole; 17. Drainage pipe; 171. Sealing plug; 18. Support legs; 19. Conical bucket; 191. Filter plate; 192. Collection box; 2. Cleaning mechanism; 21. Cleaning brush; 22. Rotating rod; 23. Connecting sleeve; 24. First connecting rod; 25. Chapter A gear; 26. Guide groove; 27. Guide block; 28. Fixed rod; 29. Tooth plate; 3. Servo motor; 31. Fixed block; 32. Rotating rod; 33. Rotating plate; 34. Driving rod; 35. Push rod; 36. U-shaped seat; 37. Rotating shaft; 38. Fixed sleeve; 39. Second connecting rod; 4. Mixing mechanism; 41. Circular gear ring; 42. Circular groove; 43. Circular guide rail; 44. Arc slider; 46. Transmission rod; 47. Second gear; 48. First transmission wheel; 49. First transmission belt; 5. Stirring mechanism; 51. Stirring rod; 52. Support rod; 53. Rotating sleeve ; 54. Rotating roller; 55. Rotating plate; 56. Mixing blade; 57. Second transmission wheel; 58. Second transmission belt.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present invention.

Embodiment: As shown in Figures 1-8, the present invention provides a method for recycling the sedimentation of parts grinding wastewater, including an equipment box 1. An upper cover 11 is rotatably installed on the upper surface of the equipment box 1, and one side of the equipment box 1 is fixed. A water inlet pipe 13 is installed. Grinding wastewater can enter the inside of the equipment box 1 through the water inlet pipe 13. A feeding pipe 14 is fixedly installed on the side of the equipment box 1 away from the water inlet pipe 13. Through the feeding pipe 14, it is convenient for the staff to enter the inner barrel 15. Add chemicals for treating grinding wastewater. The equipment box 1 is provided with an inner barrel 15. A drainage pipe 17 is fixedly installed at the bottom of the inner barrel 15. The drainage pipe 17 can discharge the treated grinding wastewater. The inner wall of the equipment box 1 is fixedly installed with a tapered Bucket 19, a filter plate 191 is fixedly installed on the surface of the conical bucket 19. The grinding wastewater entering the equipment box 1 can fall on the upper surface of the filter plate 191. The filter plate 191 can separate the waste chips, impurities and wastewater in the grinding wastewater. And the waste chips and impurities stay on the upper surface of the filter plate 191. Collection boxes 192 are fixedly installed on both sides of the conical bucket 19. The waste chips and impurities in the grinding wastewater can be collected by the collection box 192. The collection box 192 and The inner wall of the equipment box 1 is fixedly connected. A cleaning mechanism 2 is provided between the equipment box 1 and the filter plate 191. The cleaning mechanism 2 can clean the waste chips and impurities on the upper surface of the filter plate 191 and allow the waste chips and impurities to enter the collection box 192. , there are a mixing mechanism 4 and a stirring mechanism 5 respectively between the equipment box 1 and the inner barrel 15. The mixing mechanism 4 can conveniently mix the medicine and wastewater, and the stirring mechanism 5 can stir the wastewater and medicine in the inner barrel 15.

By adopting the above technical solution, by arranging the filter plate 191, the filter plate 191 separates the waste chips and impurities in the grinding wastewater from the waste water, and allows the waste chips and impurities to stay on the upper surface of the filter plate 191. By arranging the cleaning mechanism 2, cleaning The mechanism 2 cleans the waste chips and impurities on the upper surface of the filter plate 191 and allows the waste chips and impurities to enter the collection box 192. The mixing mechanism 4 is provided to facilitate the mixing of the medicine and wastewater. The mixing mechanism 5 is provided to , the stirring mechanism 5 stirs the wastewater and chemicals in the inner barrel 15, so that the wastewater and the chemicals are fully dissolved and chemically reacted.

A handle 12 is fixedly installed on the side of the upper cover 11 away from the equipment box 1. The upper cover 11 can be opened by pulling the handle 12. By opening the upper cover 11, it is convenient for the staff to take out the waste chips and impurities in the collection box 192, and the equipment The bottom end of the box 1 is provided with a through hole 16, and the end of the drain pipe 17 away from the inner barrel 15 passes through the through hole 16. The end of the drain pipe 17 away from the inner barrel 15 is movably connected with a sealing plug 171. The sealing plug 171 can control the drain pipe 17. For opening and closing, support legs 18 are fixedly installed at the four corners of the bottom end of the equipment box 1. The support legs 18 can improve the stability of the equipment box 1.

By adopting the above technical solution, the upper cover 11 is opened by pulling the handle 12 to facilitate the staff to take out the waste chips and impurities in the collection box 192. By setting the sealing plug 171, the sealing plug 171 controls the opening and closing of the drain pipe 17. Support legs 18 are provided to improve the stability of the equipment box 1 .

The cleaning mechanism 2 includes a cleaning brush 21. The brush end of the cleaning brush 21 is in movable contact with the upper surface of the filter plate 191. The cleaning brush 21 can clean the waste debris and impurities on the upper surface of the filter plate 191, and make the waste debris and Impurities enter the collection box 192 along the slope of the conical bucket 19. A rotating rod 22 is installed on the inner wall of the equipment box 1. A connecting sleeve 23 is fixedly installed on the outer wall of the rotating rod 22. Two connecting sleeves 23 are fixedly installed on the outer wall. The first connecting rod 24, one end of the two first connecting rods 24 away from the connecting sleeve 23 is fixedly connected to the upper surface of the cleaning brush 21, and the rotating rod 22 can make the cleaning brush 21 reciprocate through the connecting sleeve 23 and the first connecting rod 24. Swing, a first gear 25 is fixedly installed on one end of the rotating rod 22, and the first gear 25 can make the rotating rod 22 rotate back and forth.

By adopting the above technical solution, by driving the first gear 25 to reciprocate, the first gear 25 makes the rotating rod 22 reciprocally rotate, and the rotating rod 22 makes the cleaning brush 21 reciprocally swing through the connecting sleeve 23 and the first connecting rod 24, and the cleaning brush 21 cleans the waste chips and impurities on the upper surface of the filter plate 191 while swinging back and forth, and allows the waste chips and impurities to enter the collection box 192 along the slope of the conical bucket 19 .

A guide groove 26 is provided on one side of the equipment box 1, and a guide block 27 is slidably connected to the inner wall of the guide groove 26. The guide block 27 can slide horizontally along the inner wall of the guide groove 26. Two fixed fixings are fixedly installed on one side of the guide block 27. Rod 28, two fixed rods 28 have a toothed plate 29 fixedly installed at one end away from the guide block 27. The guide block 27 can move the toothed plate 29 in the horizontal direction through the fixed rod 28. The toothed plate 29 is meshed with the first gear 25, and the toothed plate 29 is meshed with the first gear 25. 29 can drive the first gear 25 to rotate.

By adopting the above technical solution, by making the guide block 27 slide back and forth along the inner wall of the guide groove 26, the guide block 27 makes the tooth plate 29 reciprocally move horizontally through the fixed rod 28, and the tooth plate 29 drives the first gear 25 to reciprocate.

The servo motor 3 is fixedly installed on the side of the equipment box 1 close to the guide groove 26. The outer wall of the servo motor 3 is fixedly connected with a fixing block 31. The side of the fixing block 31 away from the servo motor 3 is fixedly connected to the side of the equipment box 1 and fixed. The block 31 can support and fix the servo motor 3 and improve the stability of the servo motor 3. The driving output end of the servo motor 3 is fixed with a rotating rod 32. By turning on the servo motor 3, the drive shaft of the servo motor 3 can rotate the rotating rod 32. A rotating disk 33 is fixedly installed on one end of the rotating rod 32 away from the servo motor 3. A driving rod 34 is fixedly installed on the side of the rotating disk 33 away from the rotating rod 32. The rotating rod 32 can rotate the driving rod 34 to rotate the axis of the disk 33 through the rotating disk 33. The center of the circle rotates, and a push rod 35 is installed on the end of the drive rod 34 away from the rotating disk 33. The drive rod 34 can make the push rod 35 reciprocate. A second connecting rod 39 is fixedly installed on the side of the guide block 27 close to the fixed rod 28. , the U-shaped seat 36 is fixedly installed at one end of the second connecting rod 39 away from the guide block 27. The guide block 27 can keep the U-shaped seat 36 moving in the horizontal direction through the second connecting rod 39, and a rotating shaft is installed on the inner wall of the U-shaped seat 36. 37. A fixed sleeve 38 is fixedly installed on the outer wall of the rotating shaft 37. The end of the pushing rod 35 away from the driving rod 34 is fixedly connected to the outer wall of the fixed sleeve 38. The pushing rod 35 can pass through the fixed sleeve 38, the rotating shaft 37, the U-shaped seat 36 and the second The connecting rod 39 makes the guide block 27 slide reciprocally and horizontally along the inner wall of the guide groove 26 .

By adopting the above technical solution, by turning on the servo motor 3, the driving shaft of the servo motor 3 rotates the rotating rod 32, and the rotating rod 32 passes through the rotating disk 33 to rotate the driving rod 34 with the axis center of the rotating disk 33 as the center of the circle, and the driving rod 34 rotates The push rod 35 reciprocates, and the push rod 35 makes the guide block 27 reciprocate and slide horizontally along the inner wall of the guide groove 26 through the fixed sleeve 38, the rotating shaft 37, the U-shaped seat 36 and the second connecting rod 39.

The mixing mechanism 4 includes a circular toothed ring 41. The inner wall of the circular toothed ring 41 is fixedly connected to the outer wall of the inner barrel 15. The circular toothed ring 41 can rotate the inner barrel 15. The inner wall of the equipment box 1 is provided with a circular groove 42. A circular guide rail 43 is fixedly installed on the inner wall of the circular groove 42. Two arc-shaped slide blocks 44 are slidingly connected to the upper surface of the circular guide rail 43. The upper surfaces of the two arc-shaped slide blocks 44 are fixedly connected to the bottom end of the inner barrel 15. , when the inner barrel 15 rotates, the inner barrel 15 causes the two arc-shaped slide blocks 44 to slide along the surface of the circular guide rail 43. At the same time, the design of the arc-shaped slide blocks 44 improves the stability of the inner barrel 15.

By adopting the above technical solution, by driving the circular ring gear 41 to rotate, the circular gear ring 41 causes the inner barrel 15 to rotate, and the grinding wastewater and chemicals in the inner barrel 15 are mixed and dispersed as the inner barrel 15 rotates. When the inner barrel 15 rotates, The inner barrel 15 makes the two arc-shaped slide blocks 44 slide along the surface of the circular guide rail 43. At the same time, the design of the arc-shaped slide blocks 44 improves the stability of the inner barrel 15.

A transmission rod 46 is rotatably installed on the inner wall of the equipment box 1, and a second gear 47 is fixedly installed at one end of the transmission rod 46. The transmission rod 46 can drive the second gear 47 to rotate, and the second gear 47 is meshed with the circular gear ring 41. The two gears 47 can drive the circular ring gear 41 to rotate synchronously and reversely. One end of the rotating rod 32 and one end of the transmission rod 46 are both fixedly installed with a first transmission wheel 48. There is a first transmission wheel 48 connected between the two first transmission wheels 48. The transmission belt 49 and the rotating rod 32 can make the transmission rod 46 rotate in the same direction synchronously through the two first transmission wheels 48 and the first transmission belt 49 .

By adopting the above technical solution, when the rotating rod 32 rotates, the rotating rod 32 causes the transmission rod 46 to rotate synchronously and in the same direction through the two first transmission wheels 48 and the first transmission belt 49. The transmission rod 46 drives the second gear 47 to rotate. The gear 47 drives the circular ring gear 41 to rotate reversely synchronously.

The stirring mechanism 5 includes a stirring rod 51. A support rod 52 is fixedly installed on the inner wall of the equipment box 1. One end of the support rod 52 is fixedly installed with a rotating sleeve 53. The stirring rod 51 penetrates the rotating sleeve 53 and is rotationally connected to the rotating sleeve 53. The supporting rod 52 and the rotating sleeve 53 can support the stirring rod 51 and improve the stability of the stirring rod 51. The outer wall of the stirring rod 51 is fixed with a rotating roller 54, and the outer wall of the rotating roller 54 is fixedly installed with evenly distributed rotating plates 55. The rotating plates The surface of 55 is fixedly installed with evenly distributed stirring blades 56. The stirring rod 51 can rotate the rotating plate 55 and the stirring blades 56 through the rotating roller 54. The stirring blades 56 can stir the grinding wastewater and chemicals in the inner barrel 15.

By adopting the above technical solution, by rotating the stirring rod 51, the stirring rod 51 rotates the rotating plate 55 and the stirring blade 56 through the rotating roller 54, and the stirring blade 56 stirs the grinding wastewater and chemicals in the inner barrel 15, so that the grinding wastewater and chemicals in the inner barrel 15 are stirred. Grinding wastewater and chemicals are fully dissolved and chemical reactions occur.

One end of the transmission rod 46 and one end of the stirring rod 51 are fixedly installed with a second transmission wheel 57, and a second transmission belt 58 is transmission connected between the two second transmission wheels 57. When the transmission rod 46 rotates, the transmission rod 46 can pass through The two second transmission wheels 57 and the second transmission belt 58 make the stirring rod 51 rotate in the same direction synchronously.

By adopting the above technical solution, when the transmission rod 46 rotates, the transmission rod 46 causes the mixing rod 51 to rotate synchronously and in the same direction through the two second transmission wheels 57 and the second transmission belt 58 (the mixing blade 56 and the inner barrel 15 rotate synchronously and in the opposite direction).

The method for recycling and recycling parts grinding wastewater includes the following steps:

S1. Separation of grinding wastewater from waste chips and impurities

The grinding wastewater is introduced into the equipment box 1 through the water inlet pipe 13, and the introduced grinding wastewater falls on the upper surface of the filter plate 191. The filter plate 191 separates the waste chips and impurities in the grinding waste water from the waste water, and separates the waste chips and impurities. Staying on the upper surface of the filter plate 191, the filtered grinding wastewater falls into the inner barrel 15 through the filter holes on the surface of the filter plate 191;

S2. Clean up debris and impurities

By driving the cleaning brush 21 to reciprocate, the cleaning brush 21 cleans the waste chips and impurities on the upper surface of the filter plate 191, and allows the waste chips and impurities to enter the collection box 192 along the slope of the conical bucket 19;

S3. Recycling and treatment of grinding wastewater

Through the mixing mechanism 4, the inner barrel 15 is rotated, and the grinding wastewater and chemicals in the inner barrel 15 are mixed and dispersed with the rotation of the inner barrel 15. Through the mixing mechanism 5, the stirring blades 56 are rotated, and the mixing blades 56 are used to grind the grinding materials in the inner barrel 15. The waste water and the medicament are stirred so that the grinding waste water and medicament in the inner barrel 15 are fully dissolved and chemical reactions occur.

Working principle: When the grinding wastewater needs to be recycled and processed, the staff first allows the grinding wastewater to be recycled to enter the equipment box 1 through the water inlet pipe 13, and at the same time, adds the chemicals used to treat the grinding wastewater through the feeding pipe 14. In the inner barrel 15, the grinding wastewater entering the equipment box 1 first falls on the upper surface of the filter plate 191. The filter plate 191 separates the waste chips and impurities in the grinding waste water from the waste water, and allows the waste chips and impurities to stay on the filter plate 191. On the upper surface of the grinding wastewater, the filtered grinding wastewater falls into the inner barrel 15 through the multiple filter holes on the surface of the filter plate 191, thereby conveniently realizing the separation of waste chips, impurities and wastewater in the grinding wastewater, thereby effectively improving the Convenience of subsequent treatment of grinding wastewater;

At the same time, by turning on the servo motor 3, the driving shaft of the servo motor 3 causes the rotating rod 32 to rotate. The rotating rod 32 passes through the rotating disk 33 to rotate the driving rod 34 with the axis of the rotating disk 33 as the center of the circle. The driving rod 34 causes the push rod to rotate. 35 reciprocates, and the push rod 35 passes through the fixed sleeve 38, the rotating shaft 37, the U-shaped seat 36 and the second connecting rod 39 to cause the guide block 27 to reciprocate and slide horizontally along the inner wall of the guide groove 26. The guide block 27 moves through the two fixed rods 28. The tooth plate 29 moves reciprocally horizontally. While the tooth plate 29 moves reciprocally horizontally, it drives the first gear 25 to reciprocate. The first gear 25 causes the rotating rod 22 to reciprocate. The rotating rod 22 rotates through the connecting sleeve 23 and the two first connecting rods 24. The cleaning brush 21 swings back and forth. When the cleaning brush 21 swings back and forth, it cleans the waste chips and impurities on the upper surface of the filter plate 191, and allows the waste chips and impurities to enter the two collection boxes 192 along the slope of the conical bucket 19, thereby The automatic cleaning of waste chips and impurities on the upper surface of the filter plate 191 is conveniently realized, thereby effectively improving the convenience of cleaning the waste chips and impurities on the upper surface of the filter plate 191. At the same time, the waste chips and impurities on the upper surface of the filter plate 191 are avoided. The accumulation of impurities affects the efficiency of the filter plate 191 in filtering grinding wastewater. At the same time, it avoids the filter holes on the surface of the filter plate 191 from being blocked due to the accumulation of waste chips and impurities;

At the same time, the rotating rod 32 makes the transmission rod 46 rotate in the same direction synchronously through the two first transmission wheels 48 and the first transmission belt 49. The transmission rod 46 drives the second gear 47 to rotate, and the second gear 47 drives the circular ring gear 41 to synchronously reverse direction. Rotation, the circular gear ring 41 causes the inner barrel 15 to rotate synchronously, and the grinding wastewater and medicaments in the inner barrel 15 are mixed and dispersed as the inner barrel 15 rotates, thereby conveniently realizing the mixing of the grinding wastewater and medicaments, thereby effectively improving the grinding efficiency. The uniformity of contact between wastewater and chemicals improves the treatment effect of grinding wastewater;

At the same time, the transmission rod 46 makes the stirring rod 51 rotate in the same direction synchronously through the two second transmission wheels 57 and the second transmission belt 58, and the rotation direction of the stirring rod 51 is opposite to the rotation direction of the inner barrel 15. The stirring rod 51 rotates through the rotating roller 54. A plurality of rotating plates 55 and a plurality of stirring blades 56 rotate, and the plurality of stirring blades 56 stir the grinding wastewater and chemicals in the inner barrel 15 so that the grinding wastewater and chemicals in the inner barrel 15 are fully dissolved and chemical reactions occur. When the inner barrel 15 After the grinding wastewater and chemicals in the inner barrel have fully reacted, the sealing plug 171 is pulled out, and the treated grinding wastewater in the inner barrel 15 is discharged through the drain pipe 17, thereby conveniently realizing the recycling of the grinding wastewater, and effectively improving the recycling process. Convenience of grinding wastewater.

Obviously, those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the invention. In this way, if these modifications and variations of the present invention fall within the scope of the claims of the present invention and equivalent technologies, the present invention is also intended to include these modifications and variations.

Claims (10)

1. The method for recycling the part grinding wastewater sediment comprises an equipment box (1) and is characterized in that: the utility model discloses a device is characterized in that an upper cover plate (11) is rotatably installed on the upper surface of a device box (1), a water inlet pipe (13) is fixedly installed on one side of the device box (1), a feeding pipe (14) is fixedly installed on one side of the device box (1) away from the water inlet pipe (13), an inner barrel (15) is arranged in the device box (1), a drain pipe (17) is fixedly installed at the bottom end of the inner barrel (15), a conical hopper (19) is fixedly installed on the inner wall of the device box (1), a filter plate (191) is fixedly installed on the surface of the conical hopper (19), a collecting box (192) is fixedly installed on two sides of the conical hopper (19), a cleaning mechanism (2) is arranged between the device box (1) and the filter plate (191), and a mixing mechanism (4) and a stirring mechanism (5) are respectively arranged between the device box (1) and the inner barrel (15).

2. The method for recycling the part grinding wastewater precipitation according to claim 1, wherein a handle (12) is fixedly arranged on one surface of the upper cover plate (11) far away from the equipment box (1), a through hole (16) is formed in the bottom end of the equipment box (1), one end of the drain pipe (17) far away from the inner barrel (15) penetrates through the through hole (16), a sealing plug (171) is movably inserted into one end of the drain pipe (17) far away from the inner barrel (15), and supporting legs (18) are fixedly arranged at four corners of the bottom end of the equipment box (1).

3. The method for recycling the part grinding wastewater precipitation according to claim 1, wherein the cleaning mechanism (2) comprises a cleaning brush (21), a brush end of the cleaning brush (21) is movably contacted with the upper surface of a filter plate (191), a rotating rod (22) is rotatably arranged on the inner wall of the equipment box (1), a connecting sleeve (23) is fixedly arranged on the outer wall of the rotating rod (22), two first connecting rods (24) are fixedly arranged on the outer wall of the connecting sleeve (23), one ends of the two first connecting rods (24) far away from the connecting sleeve (23) are fixedly connected with the upper surface of the cleaning brush (21), and a first gear (25) is fixedly arranged on one end of the rotating rod (22).

4. A method for recycling part grinding wastewater precipitation according to claim 3, characterized in that a guide groove (26) is formed in one side of the equipment box (1), a guide block (27) is slidably connected to the inner wall of the guide groove (26), two fixing rods (28) are fixedly arranged on one side of the guide block (27), a toothed plate (29) is fixedly arranged at one end, away from the guide block (27), of each fixing rod (28), and the toothed plate (29) is in meshed connection with the first gear (25).

5. The method for recycling the part grinding wastewater sediment according to claim 4, wherein a servo motor (3) is fixedly arranged on one side, close to the guide groove (26), of the equipment box (1), a fixed block (31) is fixedly connected to the outer wall of the servo motor (3), one side, far away from the servo motor (3), of the fixed block (31) is fixedly connected with one side, far away from the equipment box (1), of the equipment box (1), a rotating rod (32) is fixedly arranged at the driving output end of the servo motor (3), one end, far away from the servo motor (3), of the rotating rod (32) is fixedly provided with a rotating disc (33), one side, far away from the rotating disc (33), of the rotating disc (33) is fixedly provided with a driving rod (34), one end, far away from the rotating disc (33), of the driving rod (34) is rotatably provided with a pushing rod (35), one side, near to the fixing rod (28), of the guiding block (27) is fixedly provided with a second connecting rod (39), one end, far away from the guide block (27), is fixedly provided with a U-shaped seat (36), one end, far away from the guiding block (27), is fixedly provided with a rotating shaft (37), one end, is fixedly provided with a rotating sleeve (37), one end of the pushing rod (35) far away from the driving rod (34) is fixedly connected with the outer wall of the fixing sleeve (38).

6. The method for recycling the part grinding wastewater precipitation according to claim 5, wherein the mixing mechanism (4) comprises a circular toothed ring (41), the inner wall of the circular toothed ring (41) is fixedly connected with the outer wall of the inner barrel (15), a circular groove (42) is formed in the inner wall of the equipment box (1), a circular guide rail (43) is fixedly arranged on the inner wall of the circular groove (42), two arc-shaped sliding blocks (44) are slidably connected to the upper surface of the circular guide rail (43), and the upper surfaces of the two arc-shaped sliding blocks (44) are fixedly connected with the bottom end of the inner barrel (15).

7. The method for recycling the part grinding wastewater precipitation according to claim 6, wherein a transmission rod (46) is rotatably installed on the inner wall of the equipment box (1), a second gear (47) is fixedly installed at one end of the transmission rod (46), the second gear (47) is in meshed connection with the circular gear ring (41), a first transmission wheel (48) is fixedly installed at one end of the rotation rod (32) and one end of the transmission rod (46), and a first transmission belt (49) is in transmission connection between the two first transmission wheels (48).

8. The method for recycling the part grinding wastewater precipitation according to claim 7, wherein the stirring mechanism (5) comprises a stirring rod (51), a supporting rod (52) is fixedly arranged on the inner wall of the equipment box (1), a rotating sleeve (53) is fixedly arranged at one end of the supporting rod (52), the stirring rod (51) penetrates through the rotating sleeve (53) and is rotationally connected with the rotating sleeve (53), a rotating roller (54) is fixedly arranged on the outer wall of the stirring rod (51), uniformly distributed rotating plates (55) are fixedly arranged on the outer wall of the rotating roller (54), and uniformly distributed stirring blades (56) are fixedly arranged on the surface of the rotating plates (55).

9. The method for recycling the part grinding wastewater precipitate according to claim 8, wherein a second driving wheel (57) is fixedly arranged at one end of the driving rod (46) and one end of the stirring rod (51), and a second driving belt (58) is in driving connection between the two second driving wheels (57).

10. The method for recycling the part grinding wastewater precipitate is characterized by comprising the following steps of:

s1, separating grinding wastewater from scraps and impurities

Introducing the grinding wastewater into the equipment box (1) through a water inlet pipe (13), wherein the introduced grinding wastewater falls on the upper surface of a filter plate (191), the filter plate (191) separates scraps and impurities in the grinding wastewater from the wastewater, the scraps and the impurities stay on the upper surface of the filter plate (191), and the filtered grinding wastewater falls into an inner barrel (15) through a filter hole on the surface of the filter plate (191);

s2, cleaning scraps and impurities

The cleaning brush (21) is driven to swing reciprocally, so that the cleaning brush (21) cleans scraps and impurities on the upper surface of the filter plate (191) and enables the scraps and the impurities to enter the collecting box (192) along the slope surface of the conical hopper (19);

s3, recycling and treating grinding wastewater

Through compounding mechanism (4), make interior bucket (15) rotate, grinding waste water and medicament in interior bucket (15) are mixed along with the rotation of interior bucket (15) and break up, through rabbling mechanism (5), make stirring vane (56) rotate, stirring vane (56) stir grinding waste water and medicament in interior bucket (15), make the abundant dissolution of grinding waste water and medicament in interior bucket (15) and the biochemical reaction that takes place.