CN112536682A - Numerical control grinding machine for rapidly cleaning and processing cooling liquid - Google Patents

Abstract

The invention relates to a numerical control grinding machine for rapidly cleaning and processing cooling liquid, which comprises a grinding machine, a grinding mechanism, a cooling mechanism, a bearing mechanism, an adsorption mechanism and a screening mechanism, wherein the grinding machine is arranged on the grinding machine; the screening mechanism comprises an iron scrap collecting assembly, a clear water output assembly arranged below the iron scrap collecting assembly, a grinding stone particle collecting assembly arranged below the clear water output assembly and matched with the clear water output assembly to finish clear water throwing-out work, and a circulating assembly, one end of the circulating assembly is communicated with the grinding stone particle collecting assembly, and the other end of the circulating assembly is communicated with the cooling mechanism; the adsorption mechanism and the polishing mechanism synchronously work in a transmission way through a first transmission mechanism; the invention solves the technical problems that when water cools the polishing mechanism, the temperature can rise, and the temperature can not be rapidly reduced in the recycling process, so that the cooling effect of the polishing mechanism can be influenced when the circulating water is cooled again.

Description

Numerical control grinding machine for rapidly cleaning and processing cooling liquid

Technical Field

The invention relates to the technical field of grinding machines, in particular to a numerical control grinding machine for quickly cleaning and processing cooling liquid.

Background

When the grinding machine device is used for grinding a workpiece, the workpiece needs to be cooled by cooling liquid, and the grinding machine can continuously work. Therefore, in the layout of a workshop for placing a grinding machine, water or natural water in an outdoor water tank is connected into the workshop through a water main and then is input to the positions of various grinding machine devices needing cooling through branch pipes; and the waste water is discharged to the outside through the waste water tank. The method needs to change the workshop greatly, consumes the construction time of the workshop, and has large cost investment of the workshop due to the investment of pipelines. In addition, the later use of cooling water causes great waste of water resources and requires more cost; furthermore, it is contrary to the environmental protection advocated by the government at present. In addition, the position of the grinding machine cannot be changed any more in the later work, and once the position of the grinding machine is changed, the water path of the grinding machine needs to be changed along with the change of the position of the grinding machine, which is very troublesome.

Patent document CN2018221691959 discloses a grinding machine, in particular to screw tap thread grinding machine's coolant liquid circulation filtration system, including the delivery pump, the hydrojet pipe, liquid bath and waste liquid collection structure, still include filter equipment, screw tap thread grinding machine includes frame and grinding dish, the hydrojet pipe is fixed and goes out the grinding position of liquid hole orientation grinding dish relative to the frame, the liquid bath is located the below of frame, the delivery pump passes through the pipeline with the coolant liquid pump in the liquid bath to hydrojet pipe, the upper surface at the frame is seted up to the waste liquid collection structure, filter equipment is located between waste liquid collection structure and the liquid bath and through the pipe connection. Starting the delivery pump, the delivery pump can be with the coolant liquid pump delivery to the spray tube in the liquid pool, spout the grinding dish and the work piece department of grinding machine from the spray tube and cool off, make used coolant liquid and be mingled with after the piece gets into waste liquid collection structure, with the metal piece filtering of large granule under filter equipment's filtering action, the less coolant liquid of impurity content flows back to the liquid pool.

However, in the actual use process, the inventor finds that the temperature of water can rise when cooling the grinding mechanism, and the water cannot be rapidly cooled in the recycling process, so that the cooling effect of the grinding mechanism can be affected when the circulating water is cooled again.

Disclosure of Invention

Aiming at the defects of the prior art, the scrap iron collecting assembly is arranged to discharge scrap iron from wastewater, the millstone particle collecting assembly is used for quickly and discontinuously centrifugally throwing out water, and the interval time of discontinuous discharging is used for quickly stirring and radiating the water, so that the impurity removing effect of the recycled clean water is good; simultaneously go out the rapid cooling at miscellaneous in-process, and then improve the use quality of circulation thing when the circulation use water yield to solved water when cooling grinding machanism, the temperature can rise, can't rapid cooling in the circulation use, and then can influence grinding machanism's cooling effect's technical problem when making the circulating water carry out the cooling work once more.

Aiming at the technical problems, the technical scheme is as follows: a numerical control grinding machine for rapidly cleaning and processing cooling liquid comprises a grinding machine body, a grinding mechanism arranged on the grinding machine body, a cooling mechanism arranged on one side of the grinding mechanism body, a bearing mechanism arranged below the grinding mechanism body and arranged on the grinding machine body, an adsorption mechanism arranged below the bearing mechanism body and used for collecting impurities on the bearing mechanism body, and two sets of screening mechanisms symmetrically arranged on two sides of the bearing mechanism body;

the screening mechanism comprises an iron scrap collecting assembly, a clear water output assembly arranged below the iron scrap collecting assembly, a grinding stone particle collecting assembly arranged below the clear water output assembly and matched with the clear water output assembly to finish clear water throwing-out work, and a circulating assembly, one end of the circulating assembly is communicated with the grinding stone particle collecting assembly, and the other end of the circulating assembly is communicated with the cooling mechanism;

the adsorption mechanism and the polishing mechanism are in synchronous transmission work through a first transmission mechanism.

Preferably, the grinding mechanism comprises a driving motor, a grinding disc and an installation shell, wherein the grinding disc is driven by the driving motor to rotate circumferentially, and the installation shell is sleeved outside the grinding disc.

Preferably, the cooling mechanism includes a cooling spray head mounted on the grinding machine and spraying toward a lower end of the grinding plate.

Preferably, the carrying mechanism includes:

the frame is arranged in a hollow structure and is provided with a discharge hole;

the supporting disc is arranged at the upper end of the frame, the middle of the supporting disc is a workbench, and the workbench is a magnetic plate;

the limiting seats are arranged in two groups and are respectively positioned on two sides of the workbench;

the plurality of groups of the falling holes a are arranged on the supporting disc in a penetrating mode, and the falling holes a are uniformly arranged around the periphery of the workbench;

a plurality of groups of falling holes b are arranged on the worktable in a penetrating way;

the two groups of baffles are arranged on two sides of the supporting disc, and the baffles and the screening mechanism are arranged in a staggered manner; and

the first transmission mechanism comprises a driving gear, a driving rack, a connecting rod and a telescopic unit, wherein the driving gear coaxially rotates with the sanding disc and is arranged in a half-tooth structure, the driving rack is meshed with the driving gear, one end of the connecting rod is fixedly connected with the driving rack, the other end of the connecting rod is fixedly connected with the supporting shaft, the upper end of the connecting rod is fixedly connected with the lower end of the driving rack, and the lower end of the connecting rod is installed on the base.

Preferably, the adsorption mechanism includes:

the supporting shaft is arranged at the lower end of the frame in a sliding manner;

the discharging plate is matched and slides in the frame and is arranged at the upper end of the supporting shaft, the discharging plate is obliquely arranged, and the output end of the discharging plate is intermittently communicated with the discharging port; and

the hairbrush is provided with a plurality of groups and is correspondingly arranged at the lower ends of the falling hole a and the falling hole b.

Preferably, the iron piece collecting assembly includes:

the mounting frame a is mounted on the frame, a plurality of groups of blanking holes a are formed in the lower end of the mounting frame a, and the lower end of the mounting frame a is in an elastic material structure;

the rotating shaft is installed at the lower end part of the installation frame a and is positioned at the outer end part of the installation frame a;

the filter plate is matched with the inside of the mounting frame a and fixedly connected with the rotating shaft, a plurality of groups of blanking holes b are formed in the filter plate, one end of the filter plate is arranged in the adjusting frame in a sliding mode, the adjusting frame is arranged on the mounting frame a in a sliding mode along the vertical direction, the adjusting frame and the filter plate are arranged in an inserting mode, the adjusting frame and the filter plate are mutually limited through clamping rings, and the blanking holes b and the blanking holes a are arranged in a staggered mode in a contact state;

the cleaning part comprises a control door rotationally arranged on the outer wall of the mounting frame a, a collecting basket arranged outside the control door, two groups of guide rails obliquely arranged on the inner wall of the mounting frame a, two groups of support frames correspondingly arranged on the guide rails in a sliding mode and arranged in a magnetic structure, and an electrified magnet rod, wherein a distance sensor is arranged outside the control door and is connected with an electrified signal of the electrified magnet; and

second drive mechanism, second drive mechanism is including rotating piece and translation piece, rotate the piece include with the coaxial and synchronous transmission's of axis of rotation drive gear and with drive gear meshes the setting and with connecting rod fixed connection's transmission rack, the translation piece include with the coaxial and synchronous transmission's of drive gear first drive gear, with the first drive rack that first drive gear meshing and slope set up, set up first drive rack's one end and with correspond the support frame magnetism attracts the transmission piece an that sets up mutually, with transmission piece a fixed connection's transfer line and with transfer line other end fixed connection and with correspond the support frame magnetism attracts the transmission piece b that sets up mutually, first drive rack slides through flexible unit b and sets up in spacing track.

Preferably, the clean water output assembly comprises:

the stirring shaft is rotatably arranged at the lower end of the mounting frame a, and a plurality of groups of blades are uniformly arranged along the height direction of the stirring shaft;

the water outlet barrel is fixedly arranged at the lower end of the mounting frame a and sleeved outside the stirring shaft, a plurality of groups of water outlet holes a are uniformly formed in the water outlet barrel, and the upper end of the water outlet barrel is provided with a gas outlet;

the water throwing device comprises a water throwing cylinder, a water outlet cylinder and a water outlet pipe, wherein the water throwing cylinder is embedded in the water outlet cylinder and is attached to the inner wall of the water outlet cylinder, a plurality of groups of water outlet holes b are uniformly formed in the water throwing cylinder, the water outlet holes a and the water outlet holes b are intermittently communicated, the lower end of the water throwing cylinder extends downwards from the lower end of the water outlet cylinder, and the extending part of the water throwing cylinder is of a solid wall thickness structure;

the water receiving cylinder is sleeved outside the water outlet cylinder and communicated with the water outlet hole a, and the lower end of the water receiving cylinder is higher than the extending part of the water outlet cylinder;

the first transmission piece comprises a first bevel gear, a second driving gear and a one-way rack, the first bevel gear is coaxial with the stirring shaft and is in synchronous transmission, the second driving gear is coaxial with the first bevel gear and is in synchronous transmission, the one-way rack is fixedly connected with the connecting rod and is in meshing arrangement with the second driving gear, the second bevel gear and the second driving gear are connected through a first driving shaft, and the first driving shaft penetrates through the water outlet barrel; and

the second driving medium, the second driving medium is established including the cover first belt pulley on the extension of a water knockout section of thick bamboo, with coaxial and synchronous transmission's of (mixing) shaft second belt pulley, setting are in the outer second drive shaft of a water knockout section of thick bamboo, rotation set up second drive shaft upper end and with the third belt pulley that the big or small proportion of second belt pulley set up, rotation set up and be in the fourth belt pulley of second drive shaft lower extreme, first belt pulley with the fourth belt pulley is connected through first driving belt transmission, the second belt pulley with the third belt pulley passes through second driving belt transmission and connects.

Preferably, the grindstone particle collection unit includes:

the discharging part comprises an A-shaped plate matched with the lower end of the water throwing cylinder, a telescopic unit c fixedly connected with the A-shaped plate and vertically arranged, and a base fixedly connected with the lower end of the telescopic unit c;

the third transmission part comprises a second driving rack fixedly connected with the telescopic unit c and a third driving gear meshed with the second driving rack and rotatably arranged on the base, the third driving gear is meshed with the one-way rack and is arranged below the second driving gear; and

and the removing part comprises two groups of linkage rods, wherein the two groups of linkage rods are attached to the inner wall of the water throwing cylinder and provided with removing rings, and the two ends of the linkage rods are fixedly connected with the removing rings and the upper end of the A-shaped plate respectively.

Preferably, the circulating assembly comprises a connecting pipe and a water pump, wherein one end of the connecting pipe is communicated with the lower end of the water collecting frame, the other end of the connecting pipe is communicated with the cooling spray head, and the water pump is used for driving water in the connecting pipe to be transmitted from bottom to top.

The invention has the beneficial effects that:

(1) according to the invention, the scrap iron collection assembly is arranged to discharge scrap iron from wastewater, the millstone particle collection assembly is used to rapidly and intermittently centrifugally throw out water, and the intermittent discharge interval time is used to rapidly stir and dissipate heat of water, so that the impurity removal effect of the recycled clean water is good; meanwhile, the temperature is rapidly reduced in the impurity removing process, so that the using quality of the circulating substances is improved while the recycling water amount is improved, and the cooling effect is good;

(2) according to the invention, the screening mechanism is matched with the adsorption mechanism, so that impurities adhered to water into a whole are collected in two parts, and further thorough removal of the impurities is realized, cleaning work on the bearing mechanism is not required each time even after polishing work is finished, in addition, the impurities collected on two sides are screened, water, scrap iron and grinding stone particles are classified and simultaneously output in time, secondary mixing with subsequent water is avoided, the filtering difficulty is increased, the automation degree is high, and the impurity cleaning effect is good;

(3) according to the invention, the scrap iron collecting assembly is arranged, so that impurities output from the bearing mechanism fall into one end of the filter plate, the scrap iron at one end of the filter plate is guided out by utilizing the gravity of the scrap iron to be matched with the inclined surface of the filter plate through intermittent rotation of the filter plate, the scrap iron on the filter plate is sufficiently adsorbed by matching with the electrified cleaning piece, the control door is automatically opened during output and enters the collecting basket, the scrap iron is thrown into the collecting basket by utilizing the electrified cleaning piece to be collected, the scrap iron is timely discharged, secondary pollution caused by later water mixing is not easy to occur, multiple times of filtering are needed, and the filtering difficulty is difficult to process;

(4) in the invention, the bearing mechanism is matched with the adsorption mechanism, so that impurities on the workbench and the supporting disk are timely collected during descending work of the adsorption mechanism during ascending and descending, and the phenomenon that the polishing effect is influenced due to the fact that the impurities are uneven when a workpiece is placed is avoided; on the other hand, the adsorption mechanism in the lift is lifted up in the work, will not blown into the impurity in the frame and blow up, and then blows some impurity and flies into iron fillings collection component, and some blows in and collects in the frame, and then realizes thoroughly cleaning the effect of impurity.

In conclusion, the equipment has the advantages of simple structure and automatic grinding, and is particularly suitable for the technical field of grinding machines.

Drawings

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

Fig. 1 is a schematic structural diagram of a numerically controlled grinder for rapid cleaning and processing of cooling liquid.

Fig. 2 is a schematic structural view of the sieving mechanism.

Fig. 3 is a first schematic view of the transmission state of the screening mechanism.

Fig. 4 is a schematic view of the transmission state of the sieving mechanism.

Fig. 5 is a schematic diagram of the transmission state of the screening mechanism.

Fig. 6 is a fourth schematic view of the transmission state of the screening mechanism.

Fig. 7 is a schematic structural diagram of the grinding machine.

Fig. 8 is a schematic structural view of the grinding mechanism.

Fig. 9 is a schematic structural diagram of the bearing mechanism.

Fig. 10 is a top view of the carriage.

Fig. 11 is a first schematic view of the transmission state of the carrying mechanism.

Fig. 12 is a schematic view of a transmission state of the carrying mechanism.

Fig. 13 is a front view schematically showing the grinding machine.

Fig. 14 is a first schematic front view of the sifting mechanism.

Fig. 15 is a schematic front view of the sieving mechanism.

Fig. 16 is a front view of the sieving mechanism.

FIG. 17 is a schematic view of the structure of the iron scrap collecting assembly.

FIG. 18 is a first schematic view of the transmission state of the scrap iron collecting assembly.

FIG. 19 is a second schematic view of the transmission state of the scrap iron collecting assembly.

FIG. 20 is a third view illustrating the driving state of the scrap iron collecting assembly.

FIG. 21 is a fourth schematic view showing a driving state of the iron scrap collecting assembly.

FIG. 22 is a fifth schematic view showing a driving state of the iron scrap collecting assembly.

FIG. 23 is a sixth schematic view showing a driving state of the iron scrap collecting assembly.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1, a numerically controlled grinding machine for rapid cleaning and processing of coolant comprises a grinding machine 1, a grinding mechanism 2 mounted on the grinding machine 1, a cooling mechanism 3 disposed on one side of the grinding mechanism 2, a bearing mechanism 4 disposed below the grinding mechanism 2 and mounted on the grinding machine 1, an adsorption mechanism 5 disposed below the bearing mechanism 4 and used for collecting impurities on the bearing mechanism 4, and two sets of screening mechanisms 6 symmetrically disposed on two sides of the bearing mechanism 4;

the screening mechanism 6 comprises an iron scrap collecting component 61, a clear water output component 62 arranged below the iron scrap collecting component 61, a grinding stone particle collecting component 63 arranged below the clear water output component 62 and matched with the clear water output component 62 to finish the throwing-out work of clear water, and a circulating component 64 with one end communicated with the grinding stone particle collecting component 63 and the other end communicated with the cooling mechanism 3;

the adsorption mechanism 5 and the grinding mechanism 2 work in a synchronous transmission mode through a first transmission mechanism 7.

In the embodiment, the scrap iron collecting assembly 61 is arranged to discharge scrap iron from wastewater, the millstone particle collecting assembly 63 is used to centrifugally throw water out rapidly and discontinuously, and the interval time of intermittent discharging is used to rapidly stir and dissipate heat of water, so that the impurity removing effect of the recycled clean water is good; meanwhile, the temperature is rapidly reduced in the impurity removing process, so that the using quality of the circulating substances is improved while the recycling water quantity is improved, and the temperature reduction effect is good.

In addition, screening mechanism 6 cooperation adsorption apparatus constructs 5 for carry out the collection work of two parts with integrative impurity of water adhesion, and then realize thoroughly cleaing away of impurity, even if also need not to carry out cleaning work to bearing mechanism 4 at every turn after accomplishing the work of polishing, screen the impurity of collecting both sides in addition, in time export water, iron fillings and grindstone granule when categorised, avoid mixing once more with subsequent water, increase and filter the degree of difficulty, its degree of automation is high and impurity is clean effectual.

It should be noted that when the work piece was polished, the last tiny particle that has of abrasive disc 22 dropped the phenomenon, and when big work piece was polished again, its iron fillings that drop were generally greater than the tiny particle that drops on abrasive disc 22, consequently usable its particle diameter is different realizes the screening work of impurity.

Further, as shown in fig. 8, the grinding mechanism 2 includes a driving motor 21, a grinding disc 22 driven by the driving motor 21 to rotate circumferentially, and a mounting housing 23 sleeved outside the grinding disc 22.

Further, as shown in fig. 7, the cooling mechanism 3 includes a cooling spray head 31 mounted on the grinding machine 1 and the cooling spray head 31 sprays toward the lower end of the grinding plate 22.

In this embodiment, since the grinding generates a large amount of heat on the surface of the workpiece, which is likely to cause strength damage to the workpiece, it is necessary to spray the coolant onto the work surface.

Further, as shown in fig. 9 to 12, the carrying mechanism 4 includes:

the frame 41 is of a hollow structure, and a discharge hole 40 is formed in the frame 41;

a support plate 42, wherein the support plate 42 is arranged at the upper end of the frame 41, the middle part of the support plate 42 is a workbench 43, and the workbench 43 is a magnetic plate;

two sets of limiting seats 44 are arranged on the limiting seats 44 and are respectively positioned on two sides of the workbench 43;

a plurality of groups of falling holes a45 are formed in the falling holes a45 and penetrate through the supporting plate 42, and the falling holes a45 uniformly surround the periphery of the workbench 43;

a plurality of groups of falling holes b46 are arranged in the falling holes b46 and penetrate through the workbench 43; and

the baffles 47 are arranged in two groups and located on two sides of the supporting disc 42, and the baffles 47 and the screening mechanisms 6 are arranged in a staggered mode.

Further, as shown in fig. 11 to 12, the adsorption mechanism 5 includes:

a support shaft 51, wherein the support shaft 51 is arranged at the lower end of the frame 41 in a sliding manner;

the discharging plate 52 is matched and slid in the frame 41 and arranged at the upper end of the supporting shaft 51, the discharging plate 52 is obliquely arranged, and the output end of the discharging plate 52 is in intermittent communication with the discharging hole 40; and

the brushes 53 are arranged in a plurality of groups and are correspondingly arranged at the lower ends of the falling holes a45 and b 46.

In the embodiment, the bearing mechanism 4 is arranged to be matched with the adsorption mechanism 5, so that the adsorption mechanism 5 during lifting can timely collect impurities on the workbench 43 and the supporting disk 42 during the descending operation, the phenomenon that the workpieces are uneven when placed due to the impurities to affect the polishing effect is avoided, in addition, the impurities are accumulated for a long time and are not easy to remove, and meanwhile, the workpieces are firmly adsorbed on the workbench 43 during the pressing process of the adsorption mechanism, and the deviation during the polishing operation is avoided; on the other hand, the adsorption mechanism 5 during lifting blows off impurities which are not sucked into the frame 41, and then blows off a part of the impurities into the scrap iron collection assembly 61, and blows a part of the impurities into the frame 41 for collection, thereby achieving the effect of thoroughly cleaning the impurities.

In detail, when the supporting shaft 51 moves downward, the discharging plate 52 is communicated with the dropping hole a45 through the frame 41, so that the discharging plate 52 moves downward along the frame 41, and the impurities on the supporting plate 42 are collected; when the supporting shaft 51 moves upwards, the discharging plate 52 is communicated with the falling hole a45 through the frame 41, so that the discharging plate 52 moves upwards along the frame 41, and further impurities on the supporting plate 42 are blown up, the speed of the impurities on the supporting plate 42 entering the iron scrap collecting assembly 61 is increased, meanwhile, a part of iron scrap can be blown into the upper part of the falling hole a45, and further, when the discharging plate 52 descends for the next time, the iron scrap on the falling hole a45 can be sucked into the frame 41, when the discharging plate 52 moves to the discharging hole 42, because the discharging plate 52 is obliquely arranged, the impurities on the discharging plate 52 are collected in the iron scrap collecting assembly 61 through the discharging hole 42 along the inclined plane.

It should be noted that the magnetic attraction of the worktable 43 to the workpiece is greater than the negative pressure of the adsorption mechanism 5 to the workpiece, and further, in the lifting state, the upward jacking force does not cause the workpiece to be significantly deviated.

Its two, through setting up two sets of spacing seats 44 cooperation baffle 47, accomplish the spacing work to the work piece, make it polish accurately, on the other hand avoids impurity mixing water to flow in outside, utilizes the spacing of baffle 47 for impurity on the supporting disk 42 can only follow the iron fillings collection assembly 61 at a direction entering both ends under the guide effect in.

Thirdly, the hairbrush 53 is arranged, and the lifted discharging plate 52 is contacted with the hairbrush 53, so that the hairbrush 53 brushes the discharging plate 52, and impurities are prevented from being adhered to the discharging plate 52; on the contrary, by using the squeezing friction between the discharging plate 52 and the brush 53, the impurities on the brush 53 can be shaken and controlled to fall onto the discharging plate 52.

Fourthly, the purpose through setting up whereabouts hole b46 on workstation 43 still lies in, after the polishing work of accomplishing a work piece, adsorption device 5 continues elevating work, can collect the impurity on workstation 43, and then replaces the manual work to accomplish the back of polishing at each work piece and wash the work again to when avoiding next work piece to lay because impurity on the workstation 43 leads to placing the unevenness phenomenon, improves the precision of polishing.

Further, as shown in fig. 13, the first transmission mechanism 7 includes a driving gear 71 which rotates coaxially with the sanding plate 22 and is provided with a half-tooth structure of the driving gear 71, a driving rack 72 which is engaged with the driving gear 71, a connecting rod 73 which has one end fixedly connected with the driving rack 72 and the other end fixedly connected with the supporting shaft 51, and a telescopic unit a74 which has an upper end fixedly connected with a lower end of the driving rack 72 and a lower end mounted on the base.

In addition, the first transmission mechanism 7 is matched with the adsorption mechanism 5, so that on one hand, the rotary grinding disc 22 is utilized to synchronously drive the adsorption mechanism 5 to collect scrap iron generated during grinding work and accelerate discharge work; on the other hand, one driving force is utilized to complete two power synchronous works, so that additional power output is saved, and the production cost is reduced.

In detail, the sanding disc 22 drives the driving gear 71 to synchronously rotate, and when the rotating driving gear 71 is meshed with the driving rack 72, the driving rack 72 drives the supporting shaft 51 to move downwards through the connecting rod 73, and the descending work of the supporting shaft 51 is completed;

when the pinion gear 71 is not engaged with the driving rack 72, the driving rack 72 is returned upward by the telescopic unit a74, and the lifting operation of the support shaft 51 is completed.

Further, as shown in fig. 2 to 6, the clean water output assembly 62 includes:

the stirring shaft 621 is rotatably arranged at the lower end of the mounting frame a611, and a plurality of groups of blades 622 are uniformly arranged along the height direction of the stirring shaft 621;

the water outlet barrel 623 is fixedly arranged at the lower end of the mounting frame a611 and sleeved outside the stirring shaft 621, and a plurality of groups of water outlet holes a624 are uniformly formed in the water outlet barrel 623;

the water throwing cylinder 625 is embedded in the water outlet cylinder 623 and is attached to the inner wall of the water outlet cylinder 623, a plurality of groups of water outlet holes b626 are uniformly formed in the water throwing cylinder 625, the water outlet holes a624 and the water outlet holes b626 are arranged in an intermittent communication manner, the lower end of the water throwing cylinder 625 extends downwards from the lower end of the water outlet cylinder 623, and the extending part 620 is of a solid wall thickness structure;

the water receiving cylinder 627 is sleeved outside the water outlet cylinder 623 and is communicated with the water outlet hole a624, and the lower end of the water receiving cylinder 627 is higher than the extending part 620 of the water outlet cylinder 623;

a first transmission member 628, wherein the first transmission member 628 includes a first bevel gear 6281 coaxial and synchronous with the stirring shaft 621, a second bevel gear 6282 engaged with the first bevel gear 6281, a second driving gear 6283 coaxial and synchronous with the second bevel gear 6282, and a one-way rack 6284 fixedly connected to the connecting rod 73 and engaged with the second driving gear 6283, the second bevel gear 6282 and the second driving gear 6283 are connected by a first driving shaft 6285, and the first driving shaft 6285 penetrates through the water outlet barrel 623; and

the second transmission part 629 comprises a first belt pulley 6291, a second belt pulley 6292, a second driving shaft 6293, a third belt pulley 6294 and a fourth belt pulley 6295, wherein the first belt pulley 6291 is sleeved on the extending part 620 of the water throwing cylinder 625, the second belt pulley 6292 is coaxial with and synchronously driven with the stirring shaft 621, the second driving shaft 6293 is arranged outside the water throwing cylinder 625, the third belt pulley 6294 is rotatably arranged at the upper end of the second driving shaft 6293 and is matched with the second belt pulley 6292 in size, the fourth belt pulley 6295 is rotatably arranged at the lower end of the second driving shaft 6293, the first belt pulley 6291 is in transmission connection with the fourth belt pulley 6295 through a first transmission belt 6296, and the second belt pulley 6292 is in transmission connection with the third belt pulley 6294 through a second transmission belt 6297.

In this embodiment, through setting up clear water output assembly 62, on the one hand, utilize the centrifugation mode of getting rid of water to throw away water fully, and then improve water discharging's speed and displacement, on the other hand also can utilize its intermittent type to export the stirring heat dissipation work of accomplishing water in the work of going out water, does benefit to green recycling circulating water, reduction in production cost, the energy saving consumption problem.

In detail, when the filter plate 614 is in a horizontal state, the blanking holes b615 and the blanking holes a612 are arranged in a staggered manner when in a contact state, so that water in the mounting frame a611 cannot flow into the water-throwing barrel 625 below, and a part of waste water without iron filings before the water enters the water-throwing barrel 625, at this time, the connecting rod 73 drives the one-way rack 6284 to be firstly meshed with the second driving gear 6283 in the descending process, the rotating second driving gear 6283 drives the first driving shaft 6285 to rotate, the rotating first driving shaft 6285 drives the second conical gear 6282 to rotate, the rotating second conical gear 6282 drives the first conical gear 6281 to rotate, the rotating first conical gear 6281 drives the stirring shaft 621 to rotate, the 621 drives the third belt pulley 6294 to rotate through the second belt pulley 6292, the rotating third belt pulley 6294 drives the fourth belt pulley 6295 to rotate through the second driving shaft 6293, the rotating fourth belt pulley 6295 drives the water-throwing barrel 625 to rotate, when the water outlet hole b626 of the water throwing cylinder 625 is communicated with the water outlet hole a624 of the water outlet cylinder 623, water is quickly centrifugally thrown out at a high speed into the water receiving cylinder 627 for collection; when the water outlet hole b626 of the water throwing cylinder 625 is not communicated with the water outlet hole a624 of the water outlet cylinder 623, water is quickly radiated under the action of the blades 622, convection is increased, and the cooling speed is high.

It should be noted that, by using the size matching arrangement of the second belt pulley 6292 and the third belt pulley 6294, the rotation speed of the stirring shaft 621 is greater than that of the water throwing cylinder 625, and the stirring shaft 621 and the water throwing cylinder 625 are in a synchronous rotation state.

Further, as shown in fig. 6, the grindstone particle collection assembly 63 includes:

the discharging part 631 comprises an A-shaped plate 6311 matched with the lower end of the water throwing cylinder 625, a telescopic unit c6312 fixedly connected with the A-shaped plate 6311 and vertically arranged, and a base 6313 fixedly connected with the lower end of the telescopic unit c 6312;

a third transmission member 632, wherein the third transmission member 632 includes a second driving rack 6321 fixedly connected to the telescopic unit c6312 and a third driving gear 6322 engaged with the second driving rack 6321 and rotatably disposed on the base 6313, the third driving gear 6322 is engaged with the one-way rack 6284 and the third driving gear 6322 is disposed below the second driving gear 6283; and

the removing member 633, the removing member 633 include with it sets up to get rid of a barrel 625 inner wall laminating and removes ring 634 and set up two sets ofly and both ends respectively with remove ring 634 and A style of calligraphy 6311 upper end fixed connection's trace 635.

In this embodiment, through setting up grindstone granule collection subassembly 63, accomplish the clear water and throw away the back, the timely discharge work of grindstone granule, both work front and back contact is inseparable, and the interconnection, and even high easy control of mobility is discharged quantitative impurity in batches simultaneously, does benefit to at every turn and carries out abundant drainage work and arrange sediment work, the life of protection device when improve the work efficiency of device.

In detail, after water is completely thrown out, the connecting rod 73 continues to descend, the one-way rack 6284 is not meshed with the third driving gear 6322, when the connecting rod 73 is reset and lifted, the one-way rack 6284 is meshed with the third driving gear 6322, the third driving gear 6322 rotates, the second driving rack 6321 descends and drives the telescopic unit c6312 to descend, the telescopic unit c6312 drives the a-shaped plate 6311 to descend, and grindstone particles above the a-shaped plate 6311 fall into the box body for collection in the descending process of the a-shaped plate 6311, meanwhile, the a-shaped plate 6311 drives the removing ring 634 to descend through the linkage rod 635, so that impurities adhered to the inner wall of the water throwing cylinder 625 are completely removed and output.

Further, as shown in fig. 6, the circulation assembly 64 includes a connection pipe 641 having one end connected to the lower end of the water receiving cylinder 627 and the other end connected to the cooling nozzle 31, and a water pump for driving water in the connection pipe 641 to be transferred from bottom to top.

In this embodiment, through setting up circulation subassembly 64 for under the water pump drive, the clear water after will filtering is transmitted and is recycled in cooling body 3, and green, the high-usage.

Example two

As shown in fig. 14 to 23, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that:

further, as shown in fig. 14 to 23, the iron piece collecting assembly 61 includes:

the mounting frame a611, the mounting frame a611 is mounted on the frame 41, the lower end of the mounting frame a611 is provided with a plurality of groups of blanking holes a612, and the lower end of the mounting frame a611 is provided with an elastic material structure;

a rotation shaft 613, the rotation shaft 613 being mounted to a lower end of the mounting frame a611 and located at an outer end of the mounting frame a 611;

the filter plate 614 is arranged in the mounting frame a611 in a matching manner and fixedly connected with the rotating shaft 613, a plurality of groups of blanking holes b615 are formed in the filter plate 614, one end of the filter plate 614 is arranged in the adjusting frame 616 in a sliding manner, the adjusting frame 616 is arranged on the mounting frame a611 in a sliding manner along the vertical direction, the adjusting frame 616 and the filter plate 614 are arranged in an inserting manner, the adjusting frame 616 and the filter plate 614 are mutually limited by a clamping ring 617, and the blanking holes b615 and the blanking holes a612 are arranged in a staggered manner in a contact state; and

cleaning element 618, cleaning element 618 sets up including rotating the setting the overhead gate 6181, setting on the installing frame a611 outer wall are in collection basket 6182 outside the overhead gate 6181 sets up two sets ofly and slope and sets up guide rail 6183 on the installing frame a611 inner wall, two sets of corresponding slip settings are in on the guide rail 6183 and for the support frame 6184 of magnetic structure setting, with support frame 6184 fixed connection's circular telegram magnet stick 6185, overhead gate 6181 is provided with distance sensor and this distance sensor and circular telegram magnet stick 6185 circular telegram signal connection outward, collection basket 6182 divide into about two-layer structure setting and set up the drowning hole a6187 of a plurality of groups on its 6186, division board 6186 slope sets up downwards.

In this embodiment, through setting up iron fillings collection component 61, make the impurity of output fall into the one end of filter 614 from bearing mechanism 4, and utilize the discontinuous of filter 614 to rotate, utilize the inclined plane of the gravity cooperation filter 614 of iron fillings self, derive the iron fillings of its one end, cooperate the iron fillings on cleaning piece 618 of circular telegram with the filter 614 fully to adsorb again, control door 6181 is opened automatically during the output, and in entering collection basket 6182, will utilize the cleaning piece 618 of losing power to throw away iron fillings and collect basket 6182, and then make iron fillings in time discharged, be difficult for following water to mix and cause the secondary pollution, need filter many times and process the filtration degree of difficulty.

In detail, the dropped impurities fall to one side of the filter plate 614, when the filter plate 614 is driven to rotate by the rotating shaft 613, the impurities slide from one end to the other end of the filter plate 614 by using an inclined plane, meanwhile, the moving support frame 6184 drives the energized magnet rod 6185 to move upwards, the control door 6181 is opened, the distance sensor sends a signal to a signal source of the energized magnet rod 6185 at the moment, the energized magnet rod 6185 is energized, the energized magnet rod 6185 continues to move, and the adsorption work of the scrap iron is completed in the moving process; on the contrary, support frame 6184 in the removal drives circular telegram magnet rod 6185 and moves down, open control door 6181 once more, distance sensor signals to circular telegram magnet rod 6185's signal source this moment, circular telegram magnet rod 6185 loses the electricity, circular telegram magnet rod 6185 continues to move to in collecting basket 6182, iron fillings lose the adsorption affinity and fall automatically under the effect of gravity again and collect, in addition, control door 6181 opens the during operation, there is some water entering collecting basket 6182, utilize division board 6180 to sieve once more, water falls into the lower floor of collecting basket 6182, collecting basket 6182 leads to pipe and catchments frame 622 intercommunication setting, the lower extreme of collecting basket 6182 is higher than water receiving barrel 627.

It should be noted that the lower end of the mounting frame a611 is provided with an elastic material structure, so as to prevent the filter plate 614 from being broken when the filter plate 614 falls down to the mounting frame a 611.

Further, the second transmission mechanism 619 comprises a rotating member 619a and a translating member 619b, the rotating member 619a comprises a transmission gear 6191 which is coaxial with the rotating shaft 613 and is in synchronous transmission, and a transmission rack 6192 which is meshed with the transmission gear 6191 and is fixedly connected with the connecting rod 73, the translation piece 619b comprises a first driving gear 6193 which is coaxial and synchronously driven with the transmission gear 6191, a first driving rack 6194 which is meshed with the first driving gear 6193 and is obliquely arranged, a transmission block a6195 which is arranged at one end of the first driving rack 6194 and is magnetically attracted to the support frame 6184 correspondingly, a transmission rod 6196 which is fixedly connected with the transmission block a6195, and a transmission block b6197 which is fixedly connected with the other end of the transmission rod 6196 and is magnetically attracted to the support frame 6184 correspondingly, the first driving rack 6194 is slidably disposed in the limit track 6199 through the telescopic unit b 6198.

In the embodiment, the second transmission mechanism 619 is arranged to be matched with the scrap iron collecting component 61, so that on one hand, the scrap iron collecting component 61 is driven by the second transmission mechanism 619 to screen scrap iron generated during polishing through polishing work, and then the scrap iron is timely discharged and collected; on the other hand, one driving force is utilized to complete two works simultaneously, so that extra power output is saved, and the production cost is reduced.

In detail, the connecting rod 73 drives the transmission rack 6192 to intermittently lift up and down, the transmission gear 6191 rotates in the lifting process of the transmission rack 6192, the rotating transmission gear 6191 drives the rotating shaft 613 to rotate, and the rotating shaft 613 drives the control door 6181 to intermittently rotate, so that the scrap iron output work is completed;

meanwhile, the rotating transmission gear 811 drives the first driving gear 6193 to rotate, the rotating first driving gear 6193 drives the first driving rack 6194 to move along the limiting rail 6199, the first driving rack 6194 drives the two groups of transmission blocks b6197 to perform synchronous transmission through the transmission rod 824 in the moving process, and then the support frame 6184 magnetically attracted with the transmission blocks a6195 is moved in a reciprocating mode, so that the support frame 6184 drives the energized magnet rod 6185 to move, and the attraction effect on the scrap iron is achieved.

The working process is as follows:

firstly, a workpiece is placed on a bearing mechanism 4, then a polishing mechanism 2 is started, the polishing mechanism 2 finishes polishing work on the workpiece, and then a cooling mechanism 3 finishes cooling work on the polishing mechanism 2;

meanwhile, when the supporting shaft 51 moves downwards, the discharging plate 52 is communicated with the falling hole a45 through the frame 41, so that the discharging plate 52 moves downwards along the frame 41 to collect the impurities on the supporting plate 42; when the supporting shaft 51 moves upwards, the discharging plate 52 is communicated with the falling hole a45 through the frame 41, so that the discharging plate 52 moves upwards along the frame 41, impurities on the supporting plate 42 are blown up, the speed of the impurities on the supporting plate 42 entering the iron scrap collecting assembly 61 is increased, meanwhile, a part of iron scrap can be blown above the falling hole a45, and further, when the discharging plate 52 descends for the next time, the iron scrap on the falling hole a45 can be sucked into the frame 41, and when the discharging plate 52 moves to the discharging hole 42, because the discharging plate 52 is obliquely arranged, the impurities on the discharging plate 52 enter the iron scrap collecting assembly 61 through the discharging hole 42 along the inclined plane for collection;

then, the dropped impurities fall to one side of the filter plate 614, when the filter plate 614 is driven to rotate by the rotating shaft 613, the impurities slide from one end to the other end of the filter plate 614 by utilizing the inclined plane, meanwhile, the moving support frame 6184 drives the energized magnet rod 6185 to move upwards, the control door 6181 is opened, the distance sensor sends a signal to a signal source of the energized magnet rod 6185 at the moment, the energized magnet rod 6185 is energized, the energized magnet rod 6185 continues to move, and the adsorption work of the scrap iron is completed in the moving process; on the contrary, the moving support frame 6184 drives the energized magnet rod 6185 to move downwards, the control door 6181 is opened again, the distance sensor sends a signal to the signal source of the energized magnet rod 6185 at the moment, the energized magnet rod 6185 loses power, the energized magnet rod 6185 continues to move into the collection basket 6182, the scrap iron loses adsorption force and automatically falls down under the action of gravity for collection, in addition, when the control door 6181 is opened for work, part of water enters the collection basket 6182, the separation plate 6180 is used for secondary screening, and the water falls into the lower layer of the collection basket 6182;

then, the connecting rod 73 drives the transmission rack 6192 to intermittently lift up and down, the transmission gear 6191 rotates in the lifting process of the transmission rack 6192, the rotating transmission gear 811 drives the rotating shaft 613 to rotate, the rotating shaft 613 drives the control door 6181 to intermittently rotate, the scrap iron output work is completed, and the screened clean water enters the cooling mechanism 3 to be collected under the action of the circulating component 64. (ii) a

When the filter plate 614 is in a horizontal state, the blanking holes b615 and the blanking holes a612 are arranged in a staggered way in a contact state, so that water in the installation frame a611 cannot flow into the water-throwing barrel 625 below, and a part of waste water without iron filings enters the water-throwing barrel 625 before the water in the installation frame a611, at this time, the connecting rod 73 drives the one-way rack 6284 to firstly mesh with the second driving gear 6283 in the descending process, the rotating second driving gear 6283 then drives the first driving shaft 6285 to rotate, the rotating first driving shaft 6285 then drives the second conical teeth 6282 to rotate, the rotating second conical teeth 6282 then drives the first conical teeth 6281 to rotate, the rotating first conical teeth 6281 then drives the stirring shaft 621 to rotate, the stirring shaft 621 drives the third belt pulley 6294 to rotate through the second belt pulley 6292, the rotating third belt pulley 6294 then drives the fourth belt pulley 6295 to rotate through the second driving shaft 6293, the rotating fourth belt pulley 6295 then drives the water-throwing barrel 625 to rotate, when the water outlet hole b626 of the water throwing cylinder 625 is communicated with the water outlet hole a624 of the water outlet cylinder 623, water is quickly centrifugally thrown out at a high speed into the water receiving cylinder 627 for collection; when the water outlet hole b626 of the water throwing cylinder 625 is not communicated with the water outlet hole a624 of the water outlet cylinder 623, water is quickly radiated under the action of the blades 622;

when water is completely thrown out, the connecting rod 73 continues to descend, the one-way rack 6284 is not meshed with the third driving gear 6322, when the connecting rod 73 is reset and lifted up, the one-way rack 6284 is meshed with the third driving gear 6322, the third driving gear 6322 rotates, the second driving rack 6321 descends and drives the telescopic unit c6312 to descend, the telescopic unit c6312 drives the A-shaped plate 6311 to descend, grinding stone particles above the A-shaped plate 6311 fall in the box body in the descending process of the A-shaped plate 6311 to be collected, meanwhile, the A-shaped plate 6311 drives the removing ring 634 to descend through the linkage rod 635, and then impurities adhered to the inner wall of the water throwing cylinder 625 are completely removed and output;

finally, the clean water enters the cooling spray head 31 under the transmission of the connecting pipe 641 to complete the recycling.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A numerical control grinding machine for rapidly cleaning and processing cooling liquid is characterized by comprising a grinding machine (1), a grinding mechanism (2) arranged on the grinding machine (1), a cooling mechanism (3) arranged on one side of the grinding mechanism (2), a bearing mechanism (4) arranged below the grinding mechanism (2) and arranged on the grinding machine (1), an adsorption mechanism (5) arranged below the bearing mechanism (4) and used for collecting impurities on the bearing mechanism (4), and two sets of screening mechanisms (6) symmetrically arranged on two sides of the bearing mechanism (4);

the screening mechanism (6) comprises an iron scrap collecting assembly (61), a clear water output assembly (62) arranged below the iron scrap collecting assembly (61), a grinding stone particle collecting assembly (63) arranged below the clear water output assembly (62) and matched with the clear water output assembly (62) to finish clear water throwing-out work, and a circulating assembly (64) of which one end is communicated with the grinding stone particle collecting assembly (63) and the other end is communicated with the cooling mechanism (3);

the adsorption mechanism (5) and the grinding mechanism (2) synchronously work in a transmission mode through a first transmission mechanism (7).

2. The numerically controlled grinding machine for rapid cleaning and processing of cooling liquid as claimed in claim 1, wherein the grinding mechanism (2) comprises a driving motor (21), a grinding disk (22) driven by the driving motor (21) to rotate circularly, and a mounting housing (23) sleeved outside the grinding disk (22).

3. The numerically controlled grinding machine for rapid coolant cleaning according to claim 2, characterized in that the cooling mechanism (3) includes a cooling spray head (31) mounted on the grinding machine (1) and the cooling spray head (31) sprays toward the lower end of the grinding plate (22).

4. The numerically controlled grinding machine for rapid coolant cleaning according to claim 2, wherein the carrying mechanism (4) comprises:

the frame (41), the frame (41) is a hollow structure and is provided with a discharge hole (40);

the supporting disc (42), the supporting disc (42) is set up in the upper end of the said frame (41) and its middle part is the work level (43), this work level (43) is the magnetic plate;

the limiting seats (44) are arranged in two groups and are respectively positioned on two sides of the workbench (43);

the device comprises a plurality of groups of falling holes a (45), wherein the falling holes a (45) are arranged on a support plate (42) in a penetrating manner, and the falling holes a (45) are uniformly surrounded on the periphery of a workbench (43);

the falling holes b (46) are arranged in a plurality of groups, and penetrate through the workbench (43); and

baffle (47), baffle (47) set up two sets ofly and are located the both sides setting of supporting disk (42), baffle (47) with screening mechanism (6) dislocation sets up alternately.

5. The numerically controlled grinding machine for rapid coolant cleaning according to claim 4, wherein the adsorption mechanism (5) comprises:

a support shaft (51), wherein the support shaft (51) is arranged at the lower end of the frame (41) in a sliding manner;

the discharging plate (52) is matched and slides in the frame (41) and is arranged at the upper end of the supporting shaft (51), the discharging plate (52) is obliquely arranged, and the output end of the discharging plate is communicated with the discharging hole (40) in an intermittent mode; and

the hairbrushes (53) are arranged in a plurality of groups and are correspondingly arranged at the lower ends of the falling holes a (45) and the falling holes b (46);

the first transmission mechanism (7) comprises a driving gear (71) which coaxially rotates with the sanding disc (22) and is provided with a half-tooth structure, a driving rack (72) meshed with the driving gear (71), a connecting rod (73) with one end fixedly connected with the driving rack (72) and the other end fixedly connected with the supporting shaft (51), and a telescopic unit a (74) with the upper end fixedly connected with the lower end of the driving rack (72) and the lower end installed on the base (75).

6. The numerically controlled grinding machine for rapid coolant cleaning according to claim 5, wherein the scrap iron collection assembly (61) includes:

the mounting frame a (611), the mounting frame a (611) is mounted on the frame (41), the lower end of the mounting frame a (611) is provided with a plurality of groups of blanking holes a (612), the lower end of the mounting frame a (611) is of an elastic material structure, and the mounting frame a (611) is provided with a stop seat (610);

a rotating shaft (613), wherein the rotating shaft (613) is installed at the lower end part of the installation frame a (611) and is positioned at the outer end part of the installation frame a (611);

the filter plate (614) is matched with the inside of the mounting frame a (611) and fixedly connected with the rotating shaft (613), a plurality of groups of blanking holes b (615) are formed in the filter plate (614), one end of the filter plate (614) is slidably arranged in the adjusting frame (616), the adjusting frame (616) is slidably arranged on the mounting frame a (611) along the vertical direction, the adjusting frame (616) and the filter plate (614) are inserted and arranged, the adjusting frame (616) and the filter plate (614) are mutually limited through a clamping ring (617), and the blanking holes b (615) and the blanking holes a (612) are arranged in a staggered mode in a contact state;

the cleaning part (618) comprises a control door (6181) rotatably arranged on the outer wall of the installation frame a (611), a collecting basket (6182) arranged outside the control door (6181), two groups of guide rails (6183) which are obliquely arranged on the inner wall of the installation frame a (611), two groups of corresponding support frames (6184) which are arranged on the guide rails (6183) in a sliding mode and are in a magnetic structure, and an electrified magnet rod (6185) fixedly connected with the support frames (6184), a distance sensor is arranged outside the control door (6181) and is connected with an electrified signal of the electrified magnet rod (6185), the collecting basket (6182) is arranged in an upper layer and a lower layer and is provided with a plurality of groups of water falling holes a (6187) on a separation plate (6186), and the separation plate (6186) is obliquely and downwards arranged; and

the second transmission mechanism (619), the second transmission mechanism (619) includes a rotation member (619a) and a translation member (619b), the rotation member (619a) includes a transmission gear (6191) coaxial and synchronous with the rotation shaft (613) and a transmission rack (6192) meshed with the transmission gear (6191) and fixedly connected with the connecting rod (73), the translation member (619b) includes a first driving gear (6193) coaxial and synchronous with the transmission gear (6191), a first driving rack (6194) meshed with the first driving gear (6193) and obliquely arranged, a transmission block a (6195) arranged at one end of the first driving rack (6194) and magnetically attracted to the support frame (4), a transmission rod (6196) fixedly connected with the transmission block a (6195), and a transmission block b fixedly connected with the other end of the transmission rod (6196) and magnetically attracted to the support frame (6184) (6197) The first driving rack (6194) is arranged in the limit track (6199) in a sliding mode through a telescopic unit b (6198).

7. The numerically controlled grinding machine for rapid coolant cleaning according to claim 6, wherein the clean water output assembly (62) comprises:

the stirring shaft (621) is rotatably arranged at the lower end of the mounting frame a (611), and a plurality of groups of blades (622) are uniformly arranged along the height direction of the stirring shaft (621);

the water outlet barrel (623) is fixedly arranged at the lower end of the mounting frame a (611) and sleeved outside the stirring shaft (621), and a plurality of groups of water outlet holes a (624) are uniformly formed in the water outlet barrel (623);

the water throwing device comprises a water throwing cylinder (625), wherein the water throwing cylinder (625) is embedded in the water outlet cylinder (623) and is attached to the inner wall of the water outlet cylinder (623), a plurality of groups of water outlet holes b (626) are uniformly formed in the water throwing cylinder (625), the water outlet holes a (624) and the water outlet holes b (626) are arranged in an intermittent communication mode, the lower end of the water throwing cylinder (625) extends to the lower end of the water outlet cylinder (623) to be downwards arranged, and the extending part (620) is of a solid wall thickness structure;

the water receiving barrel (627) is sleeved outside the water outlet barrel (623) and is communicated with the water outlet hole a (624), and the lower end of the water receiving barrel (627) is higher than the extending part (620) of the water outlet barrel (623);

the first transmission piece (628) comprises a first bevel gear (6281) which is coaxial with and synchronously transmits with the stirring shaft (621), a second bevel gear (6282) which is meshed with the first bevel gear (6281), a second driving gear (6283) which is coaxial with and synchronously transmits with the second bevel gear (6282), and a one-way rack (6284) which is fixedly connected with the connecting rod (73) and is meshed with the second driving gear (6283), the second bevel gear (6282) and the second driving gear (6283) are connected through a first driving shaft (6285), and the first driving shaft (6285) penetrates through the water outlet barrel (623); and

a second transmission part (629), the second transmission part (629) comprises a first belt pulley (6291) sleeved on the extension part (620) of the water throwing cylinder (625), a second belt pulley (6292) coaxial and synchronous with the stirring shaft (621), a second driving shaft (6293) arranged outside the water throwing cylinder (625), a fourth belt pulley (6295) rotatably arranged at the upper end of the second driving shaft (6293) and arranged at the size ratio of the second belt pulley (6292), and a third belt pulley (6294) rotatably arranged at the lower end of the second driving shaft (6293), wherein the first belt pulley (6291) is in transmission connection with the fourth belt pulley (6295) through a first transmission belt (6296), and the second belt pulley (6292) is in transmission connection with the third belt pulley (6294) through a second transmission belt (6297).

8. The numerically controlled grinding machine for rapid coolant cleaning according to claim 7, wherein the grinding stone particle collection unit (63) includes:

the discharging part (631) comprises an A-shaped plate (6311) matched with the lower end of the water throwing cylinder (625), a telescopic unit c (6312) fixedly connected with the A-shaped plate (6311) and vertically arranged, a base (6313) fixedly connected with the lower end of the telescopic unit c (6312) and a collecting box body (6314) sleeved outside the base (6313);

a third transmission member (632), wherein the third transmission member (632) comprises a second driving rack (6321) fixedly connected with the telescopic unit c (6312) and a third driving gear (6322) meshed with the second driving rack (6321) and rotatably arranged on the base (6313), the third driving gear (6322) is meshed with the one-way rack (6284), and the third driving gear (6322) is arranged below the second driving gear (6283); and

reject piece (633), reject piece (633) including with it sets up to get rid of a section of thick bamboo (625) inner wall laminating and rejects ring (634) and set up two sets ofly and both ends respectively with reject ring (634) and A style of calligraphy board (6311) upper end fixed connection's trace (635).

9. The numerically controlled grinder for rapid cleaning and processing of cooling liquid according to claim 7, wherein the circulation assembly (64) includes a connection pipe (641) having one end communicating with the lower end of the water receiving cylinder (627) and the other end communicating with the cooling spray head (31), and a water pump for driving water in the connection pipe (641) to be transferred from bottom to top.

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