CN115254345B - Raw material mixing and grinding integrated equipment for efficient impurity removal printing ink production - Google Patents

Abstract

The invention discloses raw material mixing and grinding integrated equipment for efficient impurity removal ink production, which aims to solve the technical problems that the existing ink needs to be transferred between different equipment and filtered for multiple times in the grinding and mixing processing process, the processing efficiency is low and the impurity filtering effect is poor. The raw material mixing and grinding integrated equipment comprises a base, an objective table arranged at the upper end of the base, a grinding cavity arranged at the upper end of the objective table, and a liquid mixing cavity fixedly connected to the right end of the objective table. This raw materials mixing grinds integration equipment adopts the printing ink to grind the assembly type connection between mechanism and the printing ink mixed field mechanism, makes the production and processing process continuity of printing ink better, and device simple structure, the simple operation plays secondary filtration effect to the different impurity that generates in the different processing procedures through the filter screen that sets up in grinding mechanism and the active carbon filter layer that sets up in mixing liquid mechanism, strengthens the filter effect.

Description

Raw material mixing and grinding integrated equipment for efficient impurity removal printing ink production

Technical Field

The invention belongs to the field of ink production equipment, and particularly relates to raw material uniformly mixing and grinding integrated equipment for efficient impurity removal ink production.

Background

The printing ink is an important material for printing packaging materials, and the printing ink for printing patterns and characters on a printing stock comprises main components and auxiliary components which are uniformly mixed and repeatedly rolled to form a viscous colloidal fluid.

In the production of the ink, when some components in the ink such as maleic acid resin, shellac and the like are solidified and precipitated, and metal impurities and the like generated by abrasion caused by friction of a doctor blade and a roller when the ink is ground are mixed in the ink, so that the ink needs to be subjected to impurity removal, and the quality and the performance of the ink are prevented from being influenced. But the grinding and mixing process flow of the ink needs to transfer the ink between different devices, the precipitated impurities can float upwards, the ink is not easy to adsorb and take from the upper part, and the two processes need to be matched with an externally-mounted filter to filter different impurities generated before and after the ink, so that the device is very inconvenient to use and operate.

Therefore, aiming at the situation that the printing ink needs to be transferred between different devices and filtered for multiple times in the grinding and mixing process, the processing efficiency is low and the filtering effect of impurities is poor, a novel printing ink grinding and mixing integrated device is developed, the filters of all processing areas aiming at different impurities are matched by utilizing an assembled multi-layer structure, and the production efficiency and the impurity removing effect of the printing ink are improved.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the invention aims to provide raw material mixing and grinding integrated equipment for producing high-efficiency impurity-removing ink, which aims to solve the technical problems that the existing ink needs to be transferred between different equipment and filtered for multiple times in the grinding and mixing processing process, the processing efficiency is low and the filtering effect of impurities is poor.

(2) Technical proposal

In order to solve the technical problems, the invention provides raw material mixing and grinding integrated equipment for efficient impurity removal printing ink production, which comprises a base, an objective table arranged at the upper end of the base, a grinding cavity arranged at the upper end of the objective table, and a mixed liquid cavity fixedly connected to the right end of the objective table, wherein the upper end of the objective table is provided with a mounting groove which is arranged at the left side of the top end of the mixed liquid cavity, the bottom end of the grinding cavity is arranged at the inner side of the mounting groove, the left side of the objective table is provided with a bracket, the upper end of the bracket is provided with a motor I, an output shaft of the motor I is provided with a grinding machine head, the grinding machine head is arranged at the inner side of the grinding cavity, the upper side of the objective table is provided with a clamping seat which is arranged at the right side of the grinding cavity, the right end of the clamping seat is fixedly connected with a flow guiding square pipe, the bottom end of the flow guiding square pipe is arranged on the inner side of the liquid mixing cavity, an inserting groove is horizontally formed in the right end of the flow guiding square pipe, a filter screen is arranged on the inner side of the inserting groove, a vertical frame is arranged on the right side of the liquid mixing cavity, a liquid seepage cavity is fixedly arranged at the left end of the vertical frame, the liquid seepage cavity is arranged at the lower end of the liquid mixing cavity, a superposition cavity is vertically and movably connected with the upper end of the liquid seepage cavity, the superposition cavity is arranged on the inner side of the liquid mixing cavity, the outer wall of the superposition cavity is mutually attached to the inner wall of the liquid mixing cavity, an active carbon filter layer is arranged on the inner side of the superposition cavity, a stand column is vertically and movably connected with the inner side of the vertical frame, a cross beam is arranged at the upper end of the stand column, the cross beam is horizontally arranged above the liquid mixing cavity, a No. two motor is fixedly arranged on the upper side of the left end of the cross beam, a stirring machine head is arranged at the lower end of the No. two motor, the stirring machine head is arranged at the inner side of the superposition cavity.

When the raw material mixing and grinding integrated equipment for producing the high-efficiency impurity-removing printing ink is used, a user starts the linear motor, the driving support moves vertically upwards along the guide rail to enable the grinding machine head to expose the grinding cavity, then raw materials and aqueous solution are thrown into the grinding cavity, the linear motor and the motor work cooperatively, the grinding machine head rotates downwards to grind the raw materials, then the valve is opened, the ground raw materials in the grinding cavity flow into the guide square tube through the liquid outlet tube, the large-particle impurities in the raw materials are cut off by the filter screen, the raw material solution enters the liquid mixing cavity through the guide square tube, then other raw materials are sequentially and repeatedly added into the grinding cavity, the raw materials are uniformly discharged into the liquid mixing cavity after grinding according to the steps, the motor is started to drive the stirring machine head to mix the raw materials, the impurities are deposited at the lower part and adsorbed by the active carbon filter layer along with the gradual mixing of the raw materials, the ink with high fluidity continuously flows downwards into the storage box through the active carbon filter layer, the temperature of the printing ink in the storage box is maintained by the thermostat, and solidification and adhesion of the printing ink in the storage box is prevented.

Preferably, the drain pipe that communicates in inside is installed to the grinding chamber right-hand member, the valve is installed to the drain pipe upper end, the draw-in groove has been seted up to the cassette upper end, the valve set up in the draw-in groove is inboard, grinding chamber bottom outer wall is provided with the rubber sleeve, the rubber sleeve hug closely in the mounting groove inner wall. When the valve is closed, the raw materials in the grinding cavity can not flow out of the liquid outlet pipe, after the valve is opened, the raw materials flow into the flow guiding square pipe from the liquid outlet pipe, and the rubber sleeve strengthens the stability of installation between the rubber sleeve and the objective table by utilizing friction force between the rubber sleeve and the inner wall of the installation groove.

Preferably, the upper end of the objective table is provided with a sliding groove relative to the front and rear symmetry of the mounting groove, a spring which stretches horizontally and elastically is arranged on the inner side of the sliding groove, a sliding block is connected to the front and rear symmetry of the lower end of the clamping seat, the sliding block is arranged on the inner side of the sliding groove, and the right end of the sliding block is fixedly connected with the left end of the spring. The clamping seat moves left and right in the sliding groove to be close to or far away from the grinding cavity through the sliding block, the clamping seat is pushed to be attached to the surface of the grinding cavity by utilizing the elastic recovery effect of the spring, and the grinding cavity is locked by horizontally inserting the liquid outlet pipe into the flow guiding square pipe.

Preferably, the sliding block is horizontally and fixedly connected with a clamping block on one back side, limiting grooves communicated with the sliding grooves are symmetrically formed in the front end and the rear end of the objective table, and the clamping block is arranged on the inner side of each limiting groove. When the sliding block horizontally moves, the clamping seat cannot be separated from the objective table vertically through the vertical limiting function formed between the clamping block and the limiting groove.

Preferably, the back plate is fixedly arranged on the upper side of the left end of the base, the guide rail is arranged at the right end of the back plate, the linear motor is movably arranged at the right end of the guide rail, and the support is arranged at the right end of the linear motor. The linear motor directly converts the electric energy into linear motion mechanical energy, and the magnetic force pushes the linear motor to axially move along the guide rail.

Preferably, the left end of the objective table is fixedly connected with a guide block, a guide groove is vertically formed in the middle of the support, the guide block is arranged on the inner side of the guide groove, and the bottom end of the support is arranged on the upper side of the base. A horizontal limiting effect is formed between the support and the guide block, so that the moving direction of the support is more stable, and horizontal shaking is reduced.

Preferably, the right end of the base is provided with a locking port, docking slots are symmetrically formed outside the locking port Zhou Shizi, the outer Zhou Shizi of the lower end of the upright post is symmetrically connected with a limiting head, the lower end of the upright post is arranged on the inner side of the locking port, and the limiting head is arranged on the inner side of the docking slots. The limiting head is vertically inserted into the butt joint groove to form plane locking, so that the upright post cannot horizontally rotate in the upright frame.

Preferably, a vertical through groove is formed in the middle of the vertical frame, directional grooves are symmetrically formed in the outer Zhou Shizi of the through groove, the through groove is arranged above the locking opening, and the directional grooves are arranged above the butt joint grooves. The upright post can vertically move along the through groove, so that the stirring machine head is separated from the liquid mixing cavity, and the upright frame and the liquid seepage cavity can be taken down from the base.

Preferably, a storage box is arranged at the lower end of the base, a feed inlet with an opening and closing mechanism is arranged at the upper end of the storage box, a discharge hole is formed in the inner side of the base, and the discharge hole is arranged at the lower side of the liquid seepage cavity. After the ink passes through the active carbon filter layer to adsorb impurities, the ink flows into the storage box downwards through the feed inlet and the discharge outlet.

Preferably, the feed inlet set up in the discharge gate is inboard, the feed inlet top set up in active carbon filter layer downside, the bin left end is installed and is kept the inside temperature's of bin thermostat. The temperature of the ink in the storage tank is maintained at a proper temperature with optimal fluidity by using a thermostat, so that the occurrence of solidification and stickiness caused by the too low temperature is prevented.

(3) Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: according to the raw material mixing and grinding integrated equipment for producing the efficient impurity-removing printing ink, disclosed by the invention, the printing ink grinding mechanism and the printing ink mixing field mechanism are connected in an assembled mode, so that the continuity of the production and processing process of the printing ink is better, the printing ink does not need to be repeatedly transferred among a plurality of devices, the device is simple in structure and convenient to operate, the structure is convenient to detach and maintain, and the filter screen arranged in the grinding mechanism and the active carbon filter layer arranged in the liquid mixing mechanism play a secondary filtering role on different impurities generated in different processing procedures, so that the filtering effect is enhanced.

Drawings

FIG. 1 is a schematic diagram of an assembly structure of an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink;

FIG. 2 is a schematic diagram of the stage structure of an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink;

FIG. 3 is a schematic view of a grinding chamber structure of an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink;

FIG. 4 is a schematic diagram of a bracket structure of an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink;

FIG. 5 is a schematic diagram of a cartridge structure of an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink;

FIG. 6 is a schematic diagram of a liquid permeation cavity structure of an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink;

FIG. 7 is a schematic diagram of a column structure of an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink;

FIG. 8 is a schematic diagram of a storage tank in an embodiment of an integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink.

The marks in the drawings are: 1. a base; 2. an objective table; 3. a mounting groove; 4. a grinding chamber; 5. a liquid mixing cavity; 6. a bracket; 7. a motor I; 8. a grinder head; 9. a clamping seat; 10. a diversion square tube; 11. a slot; 12. a filter screen; 13. a vertical frame; 14. a liquid seepage cavity; 15. overlapping the cavities; 16. an activated carbon filter layer; 17. a column; 18. a cross beam; 19. a motor II; 20. a stirring machine head; 21. a liquid outlet pipe; 22. a valve; 23. a clamping groove; 24. a rubber sleeve; 25. a chute; 26. a spring; 27. a slide block; 28. a clamping block; 29. a limit groove; 30. a back plate; 31. a guide rail; 32. a linear motor; 33. a guide block; 34. a guide groove; 35. a locking port; 36. a butt joint groove; 37. a positioning head; 38. a through groove; 39. a directional groove; 40. a storage box; 41. a feed inlet; 42. a discharge port; 43. a thermostat.

Detailed Description

The specific embodiment is a raw material mixing and grinding integrated device for efficient impurity removal ink production, the assembly structure of the raw material mixing and grinding integrated device is shown in fig. 1, the structure of an objective table 2 is shown in fig. 2, the structure of a grinding cavity 4 is shown in fig. 3, the structure of a bracket 6 is shown in fig. 4, the structure of a clamping seat 9 is shown in fig. 5, the structure of a liquid seepage cavity 14 is shown in fig. 6, the structure of a column 17 is shown in fig. 7, the structure of a storage box 40 is shown in fig. 8, the raw material mixing and grinding integrated device comprises a base 1, an objective table 2 arranged at the upper end of the base 1, a grinding cavity 4 arranged at the upper end of the objective table 2, a liquid mixing cavity 5 fixedly connected to the right end of the objective table 2, an installation groove 3 is formed at the upper end of the objective table 2, the installation groove 3 is arranged at the left side of the top end of the liquid mixing cavity 5, the bottom end of the grinding cavity 4 is arranged at the inner side of the installation groove 3, the left side of the objective table 2 is provided with a bracket 6, the upper end of the bracket 6 is provided with a motor 7, the output shaft of the motor 7 is provided with a grinding machine head 8, the grinding machine head 8 is arranged at the inner side of the grinding cavity 4, the upper side of the objective table 2 is provided with a clamping seat 9, the clamping seat 9 is arranged at the right side of the grinding cavity 4, the right end of the clamping seat 9 is fixedly connected with a flow guiding square tube 10, the bottom end of the flow guiding square tube 10 is arranged at the inner side of the liquid mixing cavity 5, the right end of the flow guiding square tube 10 is horizontally provided with a slot 11, the inner side of the slot 11 is provided with a filter screen 12, the right side of the liquid mixing cavity 5 is provided with a stand 13, the left end of the stand 13 is fixedly provided with a liquid seepage cavity 14, the liquid seepage cavity 14 is arranged at the lower end of the liquid mixing cavity 5, the upper end of the liquid seepage cavity 14 is vertically movably connected with a superposition cavity 15, the superposition cavity 15 is arranged at the inner side of the liquid mixing cavity 5, the outer wall of the superposition cavity 15 is mutually bonded with the inner wall of the liquid mixing cavity 5, the inner side of the superposition cavity 15 is provided with an active carbon filter layer 16, the vertical swing joint in the grudging post 13 is equipped with stand 17, and crossbeam 18 is installed to stand 17 upper end, and crossbeam 18 level sets up in mixing liquid chamber 5 top, and crossbeam 18 left end upside fixed mounting has No. two motors 19, and No. two motors 19 lower extreme is installed stirring aircraft nose 20, and stirring aircraft nose 20 sets up in coincide chamber 15 inboard.

For the specific embodiment, the linear motor 32 directly converts electric energy into linear motion mechanical energy, the guide rail 31 is a magnetic track fixed with a magnet, the mover of the linear motor 32 comprises a coil winding, a Hall element circuit board, a thermistor and an electronic interface, the position of the mover in a magnetic field generated by the magnetic track is kept through the guide rail 31, the position of the linear motor 32 is fed back through the linear encoder, and the linear motor 32 is pushed by magnetic force to axially move along the guide rail 31; the activated carbon filter layer 16 adsorbs impurities in the ink by using activated carbon organic floccules having high carbon content and high molecular weight.

Wherein, the drain pipe 21 that communicates in inside is installed to grinding chamber 4 right-hand member, valve 22 is installed to the drain pipe 21 upper end, draw-in groove 23 has been seted up to cassette 9 upper end, valve 22 sets up in draw-in groove 23 inboard, grinding chamber 4 bottom outer wall is provided with rubber sleeve 24, rubber sleeve 24 hugs closely in mounting groove 3 inner wall, spout 25 has been seted up for mounting groove 3 front and back symmetry to objective table 2 upper end, horizontal elasticity flexible spring 26 is installed to spout 25 inboard, symmetrical connection has slider 27 around cassette 9 lower extreme, slider 27 sets up in spout 25 inboard, slider 27 right-hand member and spring 26 left end are fixed connection, slider 27 is horizontal fixedly connected with fixture block 28 in one side dorsad, spacing groove 29 with spout 25 intercommunication has been seted up to objective table 2 front and back both ends symmetry, fixture block 28 sets up in spacing groove 29 inboard. When the valve 22 is closed, raw materials in the grinding cavity 4 cannot flow out from the liquid outlet pipe 21, after the valve is opened, raw materials flow into the flow guiding square pipe 10 from the liquid outlet pipe 21, the rubber sleeve 24 is used for enhancing the stability of installation between the rubber sleeve and the object stage 2 by utilizing friction force between the rubber sleeve and the inner wall of the installation groove 3, the clamping seat 9 moves left and right in the sliding groove 25 to be close to or far away from the grinding cavity 4 through the sliding block 27, the clamping seat 9 is pushed to be attached to the surface of the grinding cavity 4 by utilizing the elastic recovery function of the spring 26, the grinding cavity 4 is locked by horizontally inserting the liquid outlet pipe 21 into the flow guiding square pipe 10, and when the sliding block 27 horizontally moves, the clamping seat 9 cannot be vertically separated from the object stage 2 through the vertical limiting function formed between the clamping block 28 and the limiting groove 29.

Meanwhile, a backboard 30 is fixedly arranged on the upper side of the left end of the base 1, a guide rail 31 is arranged at the right end of the backboard 30, a linear motor 32 is movably arranged at the right end of the guide rail 31, a support 6 is arranged at the right end of the linear motor 32, a guide block 33 is fixedly connected to the left end of the objective table 2, a guide groove 34 is vertically formed in the middle of the support 6, the guide block 33 is arranged on the inner side of the guide groove 34, and the bottom end of the support 6 is arranged on the upper side of the base 1. The linear motor 32 directly converts electric energy into linear motion mechanical energy, and magnetic force pushes the linear motor 32 to axially move along the guide rail 31, so that a horizontal limiting effect is formed between the support 6 and the guide block 33, the moving direction of the support 6 is more stable, and horizontal shaking is reduced.

In addition, the right-hand member of base 1 has offered locking mouth 35, and the butt joint groove 36 has been offered to the outer Zhou Shizi symmetry of locking mouth 35, and outer Zhou Shizi of stand 17 lower extreme symmetry is connected with spacing head 37, and the stand 17 lower extreme sets up in locking mouth 35 inboard, and spacing head 37 sets up in butt joint groove 36 inboard, and vertical through-going through groove 38 has been offered in the middle of the grudging post 13, and directional groove 39 has been offered to the symmetry of logical groove 38 outer Zhou Shizi, and through-groove 38 sets up in locking mouth 35 top, and directional groove 39 sets up in butt joint groove 36 top. The limiting head 37 is vertically inserted into the butt joint groove 36 to form plane locking, so that the upright 17 cannot horizontally rotate in the upright 13, the upright 17 can vertically move along the through groove 38, the stirring machine head 20 is separated from the liquid mixing cavity 5, and the upright 13 and the liquid seepage cavity 14 can be taken down from the base 1.

In addition, the lower extreme of base 1 is provided with storage case 40, and storage case 40 upper end is provided with the feed inlet 41 that has an opening and closing mechanism, and the discharge gate 42 has been seted up to base 1 inboard, and discharge gate 42 sets up in the infiltration chamber 14 downside, and feed inlet 41 sets up in the discharge gate 42 inboard, and the feed inlet 41 top sets up in the active carbon filter layer 16 downside, and storage case 40 left end installs the thermostat 43 that maintains storage case 40 inside temperature. After the ink passes through the activated carbon filter layer 16 to adsorb impurities, the ink flows downwards into the storage box 40 through the feed port 41 and the discharge port 42, and the temperature of the ink in the storage box 40 is maintained at a proper temperature with optimal fluidity by using the thermostat 43, so that solidification and adhesion are prevented from being generated due to the fact that the temperature is too low.

When the raw material mixing and grinding integrated equipment for producing the high-efficiency impurity-removing printing ink is used, a user starts the linear motor 32, drives the bracket 6 to vertically move upwards along the guide rail 31, enables the grinding machine head 8 to expose the grinding cavity 4, then inputs raw materials and aqueous solution into the grinding cavity 4, enables the grinding machine head 8 to rotate downwards to grind the raw materials through the cooperation of the linear motor 32 and the first motor 7, then opens the valve 22, enables the ground raw materials in the grinding cavity 4 to flow into the guide square tube 10 through the liquid outlet tube 21, intercepts large particle impurities in the raw materials by utilizing the filter screen 12, enables the raw material solution to enter the mixed liquid cavity 5 through the guide square tube 10, then sequentially repeatedly adds other raw materials into the grinding cavity 4, uniformly discharges the mixed liquid cavity 5 after grinding according to the steps, starts the second motor 19, drives the stirring machine head 20 to mix the raw materials, and gradually mixes the raw materials, the impurities are deposited at the lower part and adsorbed by the active carbon filter layer 16, the ink with high fluidity continuously flows downwards into the storage box 40 through the active carbon filter layer 16, and the temperature of the ink in the storage box 40 is kept by utilizing the thermostat 43, and the solidification and viscosity of the ink is prevented.

Claims (10)

1. The raw material mixing and grinding integrated equipment for efficient impurity removal ink production comprises a base (1), an objective table (2) arranged at the upper end of the base (1), a grinding cavity (4) arranged at the upper end of the objective table (2) and a liquid mixing cavity (5) fixedly connected to the right end of the objective table (2); the utility model is characterized in that the mounting groove (3) is arranged at the upper end of the objective table (2), the mounting groove (3) is arranged at the left side of the top end of the mixed liquor cavity (5), the bottom end of the grinding cavity (4) is arranged at the inner side of the mounting groove (3), the left side of the objective table (2) is provided with the bracket (6), the upper end of the bracket (6) is provided with the first motor (7), the output shaft of the first motor (7) is provided with the grinding machine head (8), the grinding machine head (8) is arranged at the inner side of the grinding cavity (4), the upper side of the objective table (2) is provided with the clamping seat (9), the clamping seat (9) is arranged at the right side of the grinding cavity (4), the right end of the clamping seat (9) is fixedly connected with the guide square tube (10), the bottom end of the guide square tube (10) is arranged at the inner side of the mixed liquor cavity (5), the right end of the guide square tube (10) is horizontally provided with the slot (11), the inner side of the slot (11) is provided with the 12), the mixed liquor cavity (5) is provided with the filtering net (14), the vertical seepage end (14) is arranged at the vertical seepage end of the vertical seepage end (14), the utility model discloses a liquid mixer, including mixing liquid chamber (5), coincide chamber (15), mix liquid chamber (5) and mix liquid chamber (5) inner wall, coincide chamber (15) inboard install active carbon filter layer (16), vertical swing joint in grudging post (13) inboard has stand (17), crossbeam (18) are installed to stand (17) upper end, crossbeam (18) level set up in mix liquid chamber (5) top, crossbeam (18) left end upside fixed mounting has motor No. two (19), stirring aircraft nose (20) are installed to motor No. two (19) lower extreme, stirring aircraft nose (20) set up in coincide chamber (15) inboard.

2. The integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing printing ink according to claim 1, wherein a liquid outlet pipe (21) communicated with the inside is arranged at the right end of the grinding cavity (4), a valve (22) is arranged at the upper end of the liquid outlet pipe (21), a clamping groove (23) is formed in the upper end of the clamping seat (9), the valve (22) is arranged on the inner side of the clamping groove (23), a rubber sleeve (24) is arranged on the outer wall of the bottom end of the grinding cavity (4), and the rubber sleeve (24) is tightly attached to the inner wall of the mounting groove (3).

3. The integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing printing ink according to claim 1, wherein sliding grooves (25) are symmetrically formed in the upper end of the objective table (2) relative to the front and rear sides of the mounting groove (3), springs (26) which are horizontally elastically telescopic are mounted on the inner sides of the sliding grooves (25), sliding blocks (27) are symmetrically connected to the front and rear sides of the lower ends of the clamping seats (9), the sliding blocks (27) are arranged on the inner sides of the sliding grooves (25), and the right ends of the sliding blocks (27) are fixedly connected with the left ends of the springs (26).

4. The integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing printing ink according to claim 3, wherein a clamping block (28) is horizontally and fixedly connected to one side of the slider (27) opposite to the slider, limiting grooves (29) communicated with the sliding grooves (25) are symmetrically formed in the front end and the rear end of the objective table (2), and the clamping block (28) is arranged on the inner side of the limiting grooves (29).

5. The integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink according to claim 1, wherein a back plate (30) is fixedly arranged on the upper side of the left end of the base (1), a guide rail (31) is arranged at the right end of the back plate (30), a linear motor (32) is movably arranged at the right end of the guide rail (31), and the bracket (6) is arranged at the right end of the linear motor (32).

6. The efficient impurity-removing integrated equipment for uniformly mixing and grinding raw materials for ink production according to claim 1, wherein a guide block (33) is fixedly connected to the left end of the objective table (2), a guide groove (34) is vertically formed in the middle of the support (6), the guide block (33) is arranged on the inner side of the guide groove (34), and the bottom end of the support (6) is arranged on the upper side of the base (1).

7. The integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing printing ink according to claim 1, wherein a locking opening (35) is formed in the right end of the base (1), butt joint grooves (36) are symmetrically formed in the outer side Zhou Shizi of the locking opening (35), limit heads (37) are symmetrically connected to the outer side Zhou Shizi of the lower end of the upright post (17), the lower end of the upright post (17) is arranged on the inner side of the locking opening (35), and the limit heads (37) are arranged on the inner side of the butt joint grooves (36).

8. The efficient impurity-removing integrated equipment for uniformly mixing and grinding raw materials for ink production according to claim 7, wherein a vertically through groove (38) is formed in the middle of the vertical frame (13), directional grooves (39) are symmetrically formed outside the through groove (38) and Zhou Shizi, the through groove (38) is arranged above the locking opening (35), and the directional grooves (39) are arranged above the butt joint grooves (36).

9. The efficient impurity-removing integrated equipment for uniformly mixing and grinding raw materials for ink production according to claim 1, wherein a storage box (40) is arranged at the lower end of the base (1), a feed inlet (41) with an opening and closing mechanism is arranged at the upper end of the storage box (40), a discharge outlet (42) is formed in the inner side of the base (1), and the discharge outlet (42) is arranged at the lower side of the liquid seepage cavity (14).

10. The integrated equipment for uniformly mixing and grinding raw materials for producing high-efficiency impurity-removing ink according to claim 9, wherein the feed inlet (41) is arranged on the inner side of the discharge outlet (42), the top end of the feed inlet (41) is arranged on the lower side of the active carbon filter layer (16), and a thermostat (43) for maintaining the internal temperature of the storage tank (40) is arranged at the left end of the storage tank (40).