CN113894704A - Processing grinding machine piece separator - Google Patents

Abstract

The invention relates to a chip separating device of a processing grinding machine, which comprises a grinding machine, a grinding mechanism, a cooling mechanism, a bearing mechanism, two groups of impurity removing mechanisms, a chip filtering mechanism and a grinding stone particle filtering mechanism, wherein the two groups of impurity removing mechanisms are symmetrically arranged on two sides of the bearing mechanism and are used for collecting impurities on the bearing mechanism; the impurity removing mechanism and the polishing mechanism synchronously drive to work through a first transmission mechanism; the scrap iron filtering mechanism and the polishing mechanism synchronously drive to work through a second transmission mechanism; the grindstone particle filtering mechanism and the second transmission mechanism synchronously work through a third transmission mechanism; the invention solves the technical problems that the scrap iron and the millstone particles cannot be discharged in time, so that the water flow is low, and the output of much water and the timely circulation and backflow of nearly equal water cannot be realized.

Description

Processing grinding machine piece separator

Technical Field

The invention relates to the technical field of grinding machines, in particular to a chip separating device of a machining grinding machine.

Background

A grinding machine (grinder) is a machine tool that grinds a surface of a workpiece with a grindstone. Most grinding machines use the emery wheel of high-speed rotation to carry out abrasive machining, a small number is the use oilstone, other grinding apparatus such as abrasive band and free abrasive material are processed, such as honing machine, super finishing machine tool, abrasive band grinding machine, grind machine and burnishing machine etc., prior art, the grinding machine is processed, the material difference of polishing also can not be used to the temperature of bistrique when polishing, current bistrique cooling, it lasts the cooling to the bistrique to use the water pipe, lead to the bistrique when polishing different materials, the temperature of bistrique is the same, to polishing of some materials, the bistrique needs temperature to polish the effect just can be good a bit, uncontrollable rivers size, secondly waste water or coolant liquid comparatively.

Patent document No. CN201922096083X discloses a coolant reflux unit applied to a grinding machine, which includes a coolant collection box, the coolant collection box is internally divided into an upper cavity and a lower cavity which are arranged up and down, the upper cavity is divided into a left cavity and a right cavity, an upper cover of the coolant collection box is provided with a first through hole communicated to the right cavity and a second through hole communicated to the left cavity, a magnet is installed in the lower cavity at a position right below the right cavity, and a pump body is installed in the left cavity; the grinding machine is provided with a liquid flow hole for flowing out cooling liquid with scrap iron and a cooling liquid spray pipe for spraying out the cooling liquid, the liquid flow hole is communicated to the right cavity through a first hose penetrating through the first through hole, and the cooling liquid spray pipe is connected to the liquid outlet end of the pump body through a second hose penetrating through the second through hole. The technical scheme can realize the instant backflow use of the cooling liquid on the grinding machine and the adsorption of the scrap iron, thereby realizing the purpose of secondary use and greatly saving the using amount of the cooling liquid.

However, in the in-service use process, the inventor finds that the iron chips and the grinding stone particles cannot be discharged in time, so that the water flow is low, and the problem that the water output is almost equal to the water output and the water flows back in time in a circulating mode cannot be solved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to realize the complete removal of impurities by arranging the scrap iron filtering mechanism to be matched with the impurity removing mechanism, so that the impurities adhered to the water are collected into a whole, the cleaning work on the bearing mechanism is not required each time even after the polishing work is finished, in addition, the impurities collected at two sides are screened, the recycling of the scrap iron is facilitated, the utilization rate of raw materials is improved, the water, the scrap iron and the grinding stone particles are classified and simultaneously output in time, the subsequent water is prevented from being mixed again, the filtering difficulty is increased, and the technical problems that the scrap iron and the grinding stone particles cannot be discharged in time, the water flow is lower, and the nearly equal amount of water can not be output and water can be circulated and refluxed in time are solved.

Aiming at the technical problems, the technical scheme is as follows: a processing grinding machine chip separation device comprises a grinding machine, a grinding mechanism arranged on the grinding machine, a cooling mechanism arranged on one side of the grinding mechanism, a bearing mechanism arranged below the grinding mechanism and arranged on the grinding machine, two groups of impurity removal mechanisms symmetrically arranged on two sides of the bearing mechanism and used for collecting impurities on the bearing mechanism, an iron chip filtering mechanism arranged below the impurity removal mechanisms and communicated with the impurity removal mechanisms, and a grinding stone particle filtering mechanism arranged below the iron chip filtering mechanism and communicated with the cooling mechanism at the other end;

the impurity removing mechanism and the polishing mechanism synchronously work in a transmission mode through a first transmission mechanism;

the scrap iron filtering mechanism and the polishing mechanism synchronously drive to work through a second transmission mechanism;

and the grindstone particle filtering mechanism and the second transmission mechanism synchronously work in a transmission manner through a third 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 of a hollow structure, and two sides of the frame are provided with feed inlets;

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; and

the falling hole is provided with a plurality of groups and is arranged on the supporting disc in a penetrating mode, and the falling hole is uniformly surrounded on the periphery of the workbench.

Preferably, the trash removing mechanism includes:

the installation cavity is arranged on the outer side of the supporting plate and is staggered with the two limiting seats, a plurality of groups of air inlets are uniformly formed in one surface of the installation cavity facing the supporting plate, the lower end of the installation cavity is obliquely provided with a discharging part facing the temporary storage assembly, a discharging groove is formed in the installation cavity, the discharging groove is arranged on the same horizontal plane as the lower end of the discharging part, and the discharging groove is correspondingly matched with the feeding hole;

one end of the supporting shaft is horizontally arranged in the mounting cavity in a sliding mode and matched with the inner wall of the mounting cavity, and the other end of the supporting shaft penetrates through the mounting cavity;

the spring is sleeved outside the supporting shaft, one end of the spring is fixedly connected with the discharging plate, and the other end of the spring is fixedly connected with the inner wall of the mounting cavity

The discharging plate is arranged at the end part of the supporting shaft and slides to the input end of the discharging part;

the hairbrushes are arranged in a plurality of groups and are in one-to-one correspondence with the air inlet holes; and

the baffle is arranged at the upper end of the mounting cavity and is obliquely and upwards arranged towards the supporting disk, and when the baffle is used for blowing blown impurities onto the supporting disk.

Preferably, the scrap iron filtering mechanism comprises a temporary storage assembly arranged on the grinding machine and positioned below the bearing mechanism and a scrap iron collecting assembly arranged below the temporary storage assembly;

the temporary storage assembly comprises a baffle plate which is fixedly matched and arranged in the frame, an outlet is formed in the center of the baffle plate, a material blocking door which is matched and rotated by a rotating shaft and arranged on the outlet, a first driving gear which is synchronously driven by the rotating shaft and positioned outside the frame, a first driving rack which is meshed with the first driving gear and is arranged on the frame by a telescopic unit a, and a transmission part which is synchronously driven by the grinding mechanism, the transmission part comprises a second driving gear which is in synchronous transmission with the sanding disc, a third driving gear which is meshed with the second driving gear and is arranged in gear ratio with the second driving gear, and a fourth driving gear which is coaxial with the third driving gear and is in synchronous transmission with the third driving gear, the fourth driving gear is of an eighth-tooth structure and is meshed with the first driving rack;

the scrap iron collecting assembly comprises a first filter plate, a second filter plate, two groups of connecting rods and a stop block, wherein the first filter plate is fixedly arranged on the frame and matched with the inner wall of the frame, the second filter plate is arranged on the frame in a sliding mode, holes formed in the second filter plate and holes of the first filter plate are staggered and arranged alternately, the two groups of connecting rods are arranged in a guide rail in a sliding mode through a sliding block, the stop block is fixedly arranged on the connecting rods and is perpendicular to the connecting rods, the stop block is fixedly connected with the upper ends of the second filter plates through two first tension springs, two ends of the second filter plate are rotatably arranged on the connecting rods, and the scrap iron collecting assembly further comprises a shaking piece, a deslagging piece and a resetting piece;

the shaking piece comprises convex blocks a which are arranged at two ends of the second filter plate and are arranged in a semicircular structure, and convex blocks b which are arranged in two groups and are arranged in one-to-one correspondence to the convex blocks a, wherein the convex blocks b are arranged in a plurality of groups at equal intervals along the vertical direction and are arranged in the frame through telescopic units b;

the deslagging piece comprises two groups of side plates which are arranged on the second filter plate and are arranged on the same side as the connecting rod, a limiting track a which is horizontally arranged on the side plates, and an electromagnetic rod which is rotatably arranged on the limiting track a, wherein the electromagnetic rod is matched with the second filter plate in width;

reset the piece including rotate the setting on the frame and through the second extension spring with the control gate, the setting that the frame connection set up are in collection basket, setting outside the control gate are in the elastic ball and the drive of collection basket outer end the cylinder of elastic ball horizontal migration, be provided with distance sensor on the elastic ball and this distance sensor is used for the drive the switch of cylinder, the electromagnetic rod slides and sets up at the level set up in spacing track b on the collection basket, the collection basket divide into about two-layer its centre be provided with the third filter, the lower extreme of collection basket with the output section intercommunication setting of grindstone granule collection subassembly.

Preferably, the grinding stone particle filtering mechanism comprises a grinding stone particle collecting component arranged below the scrap iron collecting component and a circulating component, wherein one end of the circulating component is communicated with the grinding stone particle collecting component, and the other end of the circulating component is communicated with the cooling mechanism;

the grinding stone particle collecting component comprises a water receiving frame which is arranged on the frame and is positioned below the second filter plate, a supporting frame which is arranged on the grinding machine, a winding shaft which is rotatably arranged at the lower end of the water receiving frame, a material receiving frame which is eccentrically and rotatably arranged on the winding shaft, two groups of telescopic pipes which are respectively communicated with the material receiving frame and the water receiving frame at two ends, a water tank which is arranged below the winding shaft, a stone groove which is sleeved outside the water tank and is arranged on the supporting frame, a connecting pipe a which is communicated with the stone groove, a return channel which is arranged at the lower end of the stone groove and is respectively communicated with the connecting pipe a and the lower end of the collecting basket, and a supporting piece which is positioned outside the water tank and is used for supporting the lower end of the material receiving frame, one end of the material receiving frame is rotatably positioned in the water tank and is provided with a filter screen at the transmission end face, the other end of the material receiving frame is rotatably positioned in the stone groove and is provided with an opening a at the transmission end face, the water receiving frame is provided with a circular groove, a limiting ring is rotatably arranged on the circular groove, the limiting ring is provided with two groups of through holes b, the through holes b are fixedly connected with the telescopic pipe, a balancing weight is arranged outside one end of the water receiving frame, which is positioned at the stone groove, and the lower end of the winding mandrel penetrates through the stone groove;

the supporting piece comprises a supporting ring a, a plurality of groups of telescopic units e uniformly arranged on the supporting ring a and a supporting ring b arranged at the upper end of the telescopic units e, and the supporting ring b is in discontinuous contact with the material receiving frame;

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

The invention has the beneficial effects that:

(1) according to the invention, the scrap iron filtering mechanism is matched with the impurity removing mechanism, so that impurities adhered to water are collected into a whole, the impurities are thoroughly removed, 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, the recycling of the scrap iron is facilitated, the utilization rate of raw materials is improved, meanwhile, the water, the scrap iron and the grinding stone particles are classified and simultaneously output in time, the subsequent water is prevented from being mixed again, the filtering difficulty is increased, the automation degree is high, and the impurity cleaning effect is good;

(2) according to the invention, by arranging the grindstone particle collecting assembly, on one hand, two parts at two ends of the material receiving frame are classified in the water tank and the stone tank respectively by utilizing an eccentrically arranged structure, the screening effect is good, the automation degree is high, the grindstone particles are discharged in time, the return flow of clear water is increased, and the utilization rate is high; on the other hand, the centrifugal water throwing work is utilized to fully throw out the water and the grinding stone, and meanwhile, the centrifugal work is utilized to accelerate the heat dissipation work of the water, so that the water after being contacted with the grinding mechanism is cooled and recycled, and the grinding effect is facilitated;

(3) according to the invention, the third transmission mechanism is matched with the grinding stone particle collecting assembly, so that on one hand, after products are quantitatively output each time, the grinding stone particle collecting assembly finishes the screening work between water and grinding stone particles, and outputs the water and the grinding stone particles in time after the screening work, so that impurities can be discharged in time, water outlet holes cannot be blocked, the water yield is ensured, and the water recycling effect is improved; on the other hand, one driving force is utilized to simultaneously drive two actions of intermittent discharging and grinding stone particle discharging, so that the two actions are high in working continuity and easy to control, additional power output is saved, and the production cost is reduced;

(4) according to the invention, the scrap iron collecting assembly is arranged, so that impurities quantitatively output from the temporary storage assembly fall onto the first filter plate, the impurities are dragged up by the first filter plate and swing left and right under the action of the shaking piece, falling of grinding stone particles is accelerated, meanwhile, the gravity of the scrap iron is matched with the inclined plane of the second filter plate, the scrap iron on the second filter plate is fully adsorbed, the scrap iron is matched with the resetting piece, adsorbed scrap iron is timely discharged, secondary pollution caused by later water mixing is not easy to occur, and the difficulty in filtering and processing is required for multiple times.

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 chip separating device of a machining grinder.

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

Fig. 3 is a schematic structural view of the grinding mechanism.

Fig. 4 is a schematic structural diagram of the bearing mechanism.

Fig. 5 is a schematic structural diagram of the first transmission mechanism.

FIG. 6 is a schematic view of the trash removal mechanism.

FIG. 7 is a schematic cross-sectional view of an edulcoration mechanism.

Fig. 8 is a schematic view of the transmission state of the first transmission mechanism.

FIG. 9 is a schematic view of the structure of the iron piece filtering mechanism.

Fig. 10 is a schematic structural diagram of a temporary storage assembly.

FIG. 11 is a schematic view of the transmission status of the buffer assembly.

Fig. 12 is a schematic structural diagram of the second transmission mechanism.

FIG. 13 is a schematic view showing a driving state of the iron piece collecting assembly.

Fig. 14 is an enlarged partial schematic view at a of fig. 13.

FIG. 15 is a schematic view of the structure of the iron scrap collecting assembly.

Fig. 16 is a schematic structural view of the grindstone particle filter mechanism.

Fig. 17 is a first schematic view of the driving state of the grindstone particle filtering mechanism.

Fig. 18 is a schematic view showing a second driving state of the grindstone particle filter mechanism.

Fig. 19 is a third schematic view of the driving state of the grindstone particle filter mechanism.

Fig. 20 is a schematic structural diagram of the third transmission mechanism.

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 machining grinder chip separating device includes a grinder 101, a grinding mechanism 2 mounted on the grinder 101, 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 grinder 101, two sets of impurity removing mechanisms 5 symmetrically disposed on two sides of the bearing mechanism 4 and used for collecting impurities on the bearing mechanism 4, an iron chip filtering mechanism 6 disposed below the impurity removing mechanism 5 and communicated with the impurity removing mechanism 5, and a grindstone particle filtering mechanism 7 disposed below the iron chip filtering mechanism 6 and communicated with the cooling mechanism 3 at the other end;

the impurity removing mechanism 5 and the polishing mechanism 2 synchronously drive to work through a first transmission mechanism 8;

the scrap iron filtering mechanism 6 and the polishing mechanism 2 synchronously work in a transmission mode through a second transmission mechanism 9;

the grindstone particle filtering mechanism 7 and the second transmission mechanism 9 work in a synchronous transmission mode through the third transmission mechanism 1.

In this embodiment, through setting up 6 cooperation edulcoration mechanisms 5 of iron fillings filter mechanism, make and carry out the collection work of two parts with the 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, the impurity of collecting both sides in addition sieves, do benefit to the recycling of iron fillings, improve the utilization ratio of raw and other materials, simultaneously with water, in time export when iron fillings and grindstone granule are categorised, avoid mixing once more with subsequent water, increase the filtration degree of difficulty, its degree of automation is high and impurity cleaning effect is good.

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. 3, 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. 2, the cooling mechanism 3 includes a cooling spray head 31 mounted on the grinding machine 101 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. 4, the carrying mechanism 4 includes:

the frame 41 is of a hollow structure, and the two sides of the frame 41 are provided with feed inlets 40;

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; and

the falling holes 45 are arranged in a plurality of groups and penetrate through the supporting plate 42, and the falling holes 45 are uniformly arranged on the periphery of the workbench 43 in an encircling manner.

Further, as shown in fig. 5 to 8, the trash removing mechanism 5 includes:

the mounting cavity 51 is arranged outside the supporting disc 42 and staggered with the two limiting seats 44, one surface of the mounting cavity 51 facing the supporting disc 42 is uniformly provided with a plurality of groups of air inlets 501, the lower end of the mounting cavity 51 is obliquely provided with a discharging part 502 facing the iron scrap filtering mechanism 6, the mounting cavity 51 is provided with a discharging groove 503, the discharging groove 503 is arranged on the same horizontal plane with the lower end of the discharging part 502, and the discharging groove 503 is correspondingly matched with the feeding hole 40;

one end of the support shaft 52 is horizontally arranged in the mounting cavity 51 in a sliding manner and is matched with the inner wall of the mounting cavity 51, and the other end of the support shaft 52 penetrates through the mounting cavity 51;

the spring 53 is sleeved outside the support shaft 52;

the discharging plate 54 is arranged at the end part of the supporting shaft 52, the discharging plate 54 slides to the input end of the discharging part 502, one end of the spring 53 is fixedly connected with the discharging plate 54, and the other end of the spring is fixedly connected with the inner wall of the mounting cavity 51;

the brushes 55 are arranged in a plurality of groups, and the brushes 55 are arranged corresponding to the air inlet holes 501 one by one; and

and a baffle plate 56, wherein the baffle plate 56 is arranged at the upper end part of the mounting chamber 51 and is obliquely arranged upwards towards the supporting disc 42, and when the baffle plate 56 is used for blowing the blown impurities onto the supporting disc 42.

In the embodiment, the bearing mechanism 4 is matched with the impurity removing mechanisms 5, so that in the reverse moving process of the two groups of impurity removing mechanisms 5 which move horizontally, on one hand, any one impurity removing mechanism 5 can timely collect impurities on the workbench 43 and the supporting disc 42, and the phenomenon that the workpiece is placed unsmooth due to the impurities to influence the polishing effect is avoided; on the other hand, the other impurity removing mechanism 5 blows up the impurities which are not sucked into the frame 41, so that the impurities are quickly conveyed into the impurity removing mechanism 5 absorbed oppositely, and the effect of thoroughly cleaning the impurities is further realized.

Specifically, when any one of the support shafts 52 moves towards the support plate 42, the other support shaft 52 moves away from the support plate 42, and then impurities on the support plate 42 are blown into the mounting chamber 51 moving away from the support plate 42 along the airflow direction, that is, the impurities entering the mounting chamber 51 are attracted and blown by the blowing force, so that the speed of the impurities entering the mounting chamber 51 is increased, and then the impurities entering the mounting chamber 51 enter the discharge groove 503 along the discharge part 502 and then enter the feed inlet 40 from the discharge groove 503, and even if part of the impurities blown into the horizontal part of the mounting chamber 51 are pushed out onto the discharge part 502 in the reverse movement work of the support shaft 52, and the final collection work of the impurities sucked at two sides is realized.

Secondly, through setting up two sets of spacing seats 44, accomplish the spacing work to the work piece, make it polish accurately, on the other hand sets up baffle 56, avoids impurity mixing water to flow in outside, utilizes the spacing of baffle 56 for impurity on the supporting disk 42 can only follow in the edulcoration mechanism 5 of a direction entering both sides under the guide effect.

Thirdly, the brush 55 is arranged, and the horizontally moving discharging plate 54 is contacted with the brush 55, so that the brush 55 brushes the discharging plate 54, and impurities are prevented from being adhered to the discharging plate 54; on the contrary, by using the squeezing friction between the discharging plate 54 and the brush 55, the impurities on the brush 55 can be shaken and dropped into the discharging part 502;

fourthly, through setting up baffle 56, avoid through the impurity that intake port 501 blown upwards on the mesa of flying out supporting disk 42, the splash falls outside, influences workshop environment, utilizes baffle 56, and the impurity that will be blown up gets back to intake port 501 the place ahead again along baffle 56's direction, waits for by adsorption work.

Further, as shown in fig. 5, the first transmission mechanism 8 includes:

the first transmission bevel gear 81 is coaxial with the abrasive disc 22 and synchronously transmits;

the second transmission bevel gear 82 is meshed with the first transmission bevel gear 81 and is rotatably arranged on the grinding machine 101;

the first transmission gear 83 and the second transmission bevel gear 82 are coaxial and synchronously transmit, and the first transmission gear 83 is in a half-tooth structure;

the first transmission rack 84 is meshed with the first transmission gear 83, and the first transmission rack 84 is fixedly connected with the outer end part of any one of the support shafts 52; and

and the second transmission rack 85 is meshed with the first transmission gear 83 and is fixedly connected with the outer end part of the other support shaft 52, and teeth of the first transmission rack 84 and the second transmission rack 85 are opposite.

In the embodiment, the first transmission mechanism 8 is matched with the impurity removing mechanism 5, on one hand, the rotating grinding disc 22 is used for synchronously driving the impurity removing mechanism 5 to collect scrap iron generated during grinding work and accelerate discharge work during work; on the other hand, two power synchronous works are completed by one driving force, the synchronism is high, extra power output is saved, and the production cost is reduced.

In detail, the sanding disc 22 drives the first transmission bevel gear 81 to rotate synchronously, when the first transmission bevel gear 81 rotates to be meshed with the second transmission bevel gear 82, when the first transmission gear 83 and the first transmission rack 84 are in a meshed state and drive the first transmission rack 84 to move horizontally, meanwhile, the second transmission rack 85 and the first transmission rack 84 are in a non-meshed state and the second transmission rack 85 resets under elastic resetting, and then the two groups of support shafts 52 work synchronously in the same direction.

Further, as shown in fig. 9 to 11, the iron scrap filtering mechanism 6 includes a temporary storage assembly 61 arranged on the grinding machine 101 and located below the bearing mechanism 4, and an iron scrap collecting assembly 62 arranged below the temporary storage assembly 61;

the temporary storage assembly 61 comprises a partition 611 fixedly and fittingly arranged in the frame 41 and having an outlet 610 at the center thereof, a material blocking door 613 rotatably arranged on the outlet 610 by means of a rotating shaft 612 in a fittingly manner, a first driving gear 614 synchronously driven with the rotating shaft 612 and located outside the frame 41, a first driving rack 616 engaged with the first driving gear 614 and mounted on the frame by means of a telescopic unit a615, and a transmission member 617 synchronously driven with the grinding mechanism 2, the transmission member 617 includes a second driving gear 6171 synchronously transmitting with the sanding disc 22, a third driving gear 6172 engaged with the second driving gear 6171 and arranged in gear ratio with the second driving gear 6171, and a fourth driving gear 6173 coaxial with the third driving gear 6172 and synchronously transmitting, the fourth driving gear 6173 is in an eighth-tooth structure, and the fourth driving gear 6173 is meshed with the first driving rack 616;

in the embodiment, the temporary storage component 61 is arranged to be matched with the grinding mechanism 2 to finish quantitative output of wastewater, so that the problem that new impurities enter while iron scraps are removed can not be caused when the iron scrap collecting component 62 removes the iron scraps every time, the iron scrap removing effect is good, the iron scraps which can be adsorbed by the iron scrap collecting component 62 are limited, the iron scrap removing work of the iron scrap collecting component 62 can be finished by quantitative output, and the iron scrap removing work is further improved; on the other hand with its and grinding machanism synchronous drive, realize as long as carry out the work of polishing, the real-time synchronous work of subassembly 61 of keeping in temporary storage, the transmission nature is high and easily control, saves extra power take off, reduction in production cost.

In detail, when the sanding plate 22 rotates and sands, the second driving gear 6171 is driven to rotate, the rotating second driving gear 6171 drives the third driving gear 6172 to rotate slowly, the rotating third driving gear 6172 drives the fourth driving gear 6173 to rotate, the rotating fourth driving gear 6173 is meshed with the first driving rack 616, the first driving rack 616 moves downwards, the first driving rack 616 is meshed with the first driving gear 614 in the moving process, the first driving gear 614 drives the rotating shaft 612 to drive the material blocking door 613 to rotate, and then the outlet 610 is opened; on the contrary, the rotating fourth driving gear 6173 is not meshed with the first driving rack 616, the first driving rack 616 is reset under the action of the telescopic unit a615, the first driving rack 616 is meshed with the first driving gear 614 in the moving process, the first driving gear 614 drives the rotating shaft 612 to drive the material blocking door 613 to rotate reversely, so that the outlet 610 is closed, and the quantitative discharging problem of the wastewater is completed in the rotating opening and rotating closing processes of the material blocking door 613.

It should be noted that the material blocking door 613 is connected to the partition plate 611 through the tension spring unit, and a groove is formed in the surface of the partition plate 611 contacting with the rotating end of the material blocking door 613 in a matching manner, so that the position of the material blocking door 613 is limited by the groove, and when the material blocking door 613 does not rotate, the waste water is blocked above the partition plate 611 by matching with the outlet 610.

Further, as shown in fig. 16 to 20, the grinding stone particle filtering mechanism 7 includes a grinding stone particle collecting assembly 71 disposed below the iron scrap collecting assembly 62, and a circulating assembly 73 having one end disposed in communication with the grinding stone particle collecting assembly 71 and the other end disposed in communication with the cooling mechanism 3;

the grinding stone particle collecting assembly 71 comprises a water receiving frame 711 which is arranged on the frame 41 and is positioned below the second filter plate 622, a supporting frame 712 which is arranged on the grinding machine 101, a winding mandrel 713 which is rotatably arranged at the lower end of the water receiving frame 711, a material receiving frame 714 which is eccentrically and rotatably arranged on the winding mandrel 713, two groups of extension tubes 715 which are respectively communicated with the material receiving frame 714 and the water receiving frame 711 at two ends, a water tank 716 which is arranged below the winding mandrel 713, a stone groove 717 which is sleeved outside the water tank 716 and is arranged on the supporting frame 712, a connecting pipe a718 which is communicated with the water tank 716, a return groove 719 which is arranged at the lower end of the stone groove 717 and is respectively communicated with the lower ends of the connecting pipe a718 and the collecting basket 6293, and a supporting member 72 which is positioned outside the water tank 716 and is used for supporting the lower end of the material receiving frame 714, one end of the material receiving frame 714 is rotatably positioned in the water tank 716 and the transmission end face is provided with a filter screen 71a, the other end of the material receiving frame 714 is rotatably located in the stone groove 717, a through hole a71b is formed in the transmission end face, an annular groove 71c is formed in the water receiving frame 711, a limiting ring 71d is rotatably arranged on the annular groove 71c, two groups of through holes b71e are formed in the limiting ring 71d, the through hole b71e is fixedly connected with the telescopic pipe 715, a balancing weight is arranged outside one end, located in the stone groove 717, of the material receiving frame 714, and the lower end of the winding mandrel 713 penetrates through the stone groove 717;

the supporting part 72 comprises a supporting ring a721, a plurality of groups of telescopic units e722 uniformly arranged on the supporting ring a721 and a supporting ring b723 arranged at the upper end of the telescopic units e722, wherein the supporting ring b723 and the material receiving frame 714 are arranged in an intermittent contact manner;

in this embodiment, by arranging the grindstone particle collection assembly 63, on one hand, the two ends of the receiving frame 714 are classified in the water tank 716 and the stone tank 717 respectively by using an eccentric structure, so that the screening effect is good, the automation degree is high, the grindstone particles are discharged in time, the return flow of clean water is increased, and the utilization rate is high; on the other hand, utilize the centrifugation to get rid of water work, throw away water and grindstone abundant, utilize centrifugal work simultaneously for the radiating work of water, and then recycle after the water cooling with grinding mechanism 2 after contact does benefit to the effect of polishing.

In detail, after the iron filings are removed by the water in the frame 41, the particles and the water fall into the water receiving frame 711, and enter the telescopic pipe 715 through the through hole b71e of the water receiving frame 711, and then enter the material receiving frame 714 through the telescopic pipe 715, one end of the material receiving frame 714 located at the stone groove 717 is supported by the support ring b723 and then tilted, impurities and the water move to the filter screen 71a, meanwhile, in the process of lifting the transmission rod 96, the second driving rack 114 is driven to move and drive the fifth driving gear 113 to rotate, the rotating fifth driving gear 113 drives the fourth transmission bevel gear 112 to synchronously rotate, the rotating fourth transmission bevel gear 112 is meshed with the third transmission bevel gear 111, and then the third transmission bevel gear 111 drives the mandrel 713 to rotate around the circumference of the mandrel 713, so that the water is centrifugally thrown out through the filter screen 71a and enters the water tank 716 to be collected;

meanwhile, the fifth transmission bevel gear 121 is driven to rotate by rotating around the mandrel 713, the sixth transmission bevel gear 122 is driven to rotate by the rotating fifth transmission bevel gear 121, the sixth driving gear 123 is driven to rotate by the rotating sixth transmission bevel gear 122, the sixth driving gear 123 is meshed with the third driving rack 124 and drives the third driving rack 124 to move downwards, and the lifting third driving rack 124 drives the support ring 723 b to move downwards along the vertical direction;

after one end, located at the stone groove 717, of the receiving frame 714 loses support of the support ring b723, under the action of the balancing weight, one end, located at the water groove 716, of the receiving frame 714 tilts, grinding stone particles slide down to the through hole a71b under the action of the inclined plane, the grinding stone particles are thrown into the stone groove 717 under the action of the circumference to be collected, when the sixth driving gear 123 is not meshed with the third driving rack 124, the support ring b723 resets and rebounds to support the receiving frame 714 again, and water in the water groove 716 enters the backflow groove 719 through the connection pipe a718 to be collected.

Further, as shown in fig. 18, the circulation module 73 includes a connection pipe b731 having one end connected to the lower end of the return tank 719 and the other end connected to the cooling nozzle 31, and a water pump for driving water in the connection pipe b731 to be transferred from bottom to top.

It should be noted that, through setting up circulation subassembly 73 for under the water pump drive, the clear water after will filtering is transported to cooling body 3 and is recycled, and green, the high-usage.

Further, as shown in fig. 12, the second transmission mechanism 9 includes:

the first driving gear 91 is coaxial and synchronous with the abrasive disc 22, and the first driving gear 91 and the second driving gear 6171 are arranged in the same specification;

the second driving gear 92 is meshed with the first driving gear 91, and the second driving gear 92 and the third driving gear 6172 are arranged in the same specification;

the third driving gear 93 is coaxial and synchronously driven with the second driving gear 92, and the third driving gear 93 is arranged in a three-eighths tooth structure and is arranged in a staggered manner with the teeth of the fourth driving gear 6173;

a first driving rack 94, wherein the first driving rack 94 is meshed with the third driving gear 93 and is vertically arranged on the grinding machine 101 through a telescopic unit c 95;

the transmission rod 96 is slidably arranged in the guide groove 90 formed in the frame 41, and one end of the transmission rod 96 drives the two connecting rods 624 to synchronously move up and down; and

and the telescopic unit d97 is installed in the guide groove 90, the upper end of the telescopic unit d97 is fixedly connected with the transmission rod 96, and the lower end of the telescopic unit d97 is fixedly connected with the first driving rack 94.

In the embodiment, the second transmission mechanism 9 is matched with the scrap iron collecting assembly 62, on one hand, the alternate switching work of the temporary storage assembly 61 and the scrap iron collecting assembly 62 is realized by using one driving force of the polishing mechanism 2, the interference between the temporary storage assembly and the scrap iron collecting assembly is avoided during work, the scrap iron removing effect is improved, and the transmission performance of the two works is high and easy to control; on the other hand, the additional power output is saved, and the production cost is reduced.

In detail, when the sanding disc 22 rotates, the first driving gear 91 is driven to rotate, the rotating first driving gear 91 is meshed with the second driving gear 92 to drive the second driving gear 92 to rotate, the rotating second driving gear 92 drives the third driving gear 93 to synchronously rotate, and the rotating third driving gear 93 drives the first driving rack 94 to move up and down.

It should be noted that, by arranging the first driving gear 91 and the second driving gear 6171 in the same specification, arranging the second driving gear 92 and the third driving gear 6172 in the same specification, arranging the third driving gear 93 in a three-eighths tooth structure, and arranging the third driving gear 93 in a tooth dislocation manner with the fourth driving gear 6173, when the fourth driving gear 6173 is engaged and rotates for one-eighth, the temporary storage assembly 61 is opened, when the fourth driving gear 6173 is not engaged and rotates for one-eighth, the temporary storage assembly 61 is closed, and then when the fourth driving gear 6173 rotates for the remaining six-eighths, the temporary storage assembly 61 is always closed, at this time, when the temporary storage assembly 61 is just closed and works, the third driving gear 93 is engaged for three-eighths, the driving rod 96 is lifted, and then when the third driving gear 93 is not engaged for three-eighths, the driving rod 96 is lowered and reset, and the third driving gear 93 remains two-eighths, the transmission rod 96 is at rest.

In addition, the bottom end of the guide groove 90 is higher than the liquid level on the second filter plate 622.

Further, as shown in fig. 18 to 20, the third transmission mechanism 1 includes:

a first linkage member 11, where the first linkage member 11 includes a third transmission bevel gear 111 coaxially disposed with the lower end of the winding mandrel 713, a fourth transmission bevel gear 112 disposed in meshing engagement with the third transmission bevel gear 111 and mounted on the supporting frame 712, a fifth driving gear 113 coaxially and synchronously transmitting with the fourth transmission bevel gear 112, and a second driving rack 114 having one end fixedly connected with the driving rod 96 and the other end fixedly connected with the first driving rack 94; and

the second linkage member 12 includes a fifth transmission bevel gear 121 located in the stone groove 717 and coaxially disposed with the mandrel 713, a sixth transmission bevel gear 122 disposed in a meshing manner with the fifth transmission bevel gear 121 and installed on the stone groove 717, a sixth driving gear 123 coaxial and synchronously transmitted with the sixth transmission bevel gear 122, and a third driving rack 124 having one end disposed in a meshing manner with the sixth driving gear 123 and the other end fixedly connected with the support ring b723, wherein the fifth transmission bevel gear 121 and the sixth transmission bevel gear 122 are arranged in a tooth matching manner, and the sixth driving gear 123 is arranged in an eighth-tooth structure.

In this embodiment, by arranging the third transmission mechanism 1 in cooperation with the grindstone particle collection assembly 71, on one hand, after products are quantitatively output each time, the grindstone particle collection assembly 71 finishes the screening work between water and grindstone particles, and outputs the water and the grindstone particles in time after the screening work, so that impurities are discharged in time, water outlet holes cannot be blocked, the water yield is ensured, and the water recycling effect is improved; on the other hand utilizes a drive power to drive two actions of intermittent type ejection of compact and the ejection of compact of stone particle simultaneously, and two work are continuous high and easily control, save extra power take off and reduction in production cost.

Example two

As shown in fig. 13 to 15, 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. 13 to 15, the iron scrap collecting assembly 62 includes a first filter plate 621 fixedly disposed on the frame 41 and disposed in a matching manner with an inner wall of the frame 41, a second filter plate 622 slidably disposed on the frame 41 and having holes formed thereon staggered with the holes of the first filter plate 621, two sets of connecting rods 624 slidably disposed in the guide rails 623 of the frame 41 via sliders, and a stopper 625 fixedly disposed on the connecting rods 624 and perpendicular to the connecting rods 624, wherein the stopper 625 is fixedly connected to the upper ends of the second filter plate 622 via two first tension springs 626, two ends of the second filter plate 622 are rotatably disposed on the connecting rods 624, and the iron scrap collecting assembly 62 further includes a shaking component 627, a deslagging component 628 and a resetting component 629;

the shaking piece 627 comprises two groups of convex blocks a6271 which are arranged at two ends of the second filter plate 622 and are arranged in a semicircular structure, and two groups of convex blocks b6272 which are arranged in a one-to-one correspondence with the convex blocks a6271, wherein the convex blocks b6272 are arranged in a plurality of groups at equal intervals along the vertical direction and are installed in the frame 41 through telescopic units b 6273;

the deslagging piece 628 comprises two groups of side plates 6281 which are arranged on the second filter plate 622 and are arranged on the same side as the connecting rod 624, a limiting track a6282 which is horizontally arranged on the side plates 6281, and an electromagnetic rod 6283 which is rotatably arranged on the limiting track a6282, wherein the electromagnetic rod 6283 is arranged in a manner of being matched with the width of the second filter plate 622;

the reset piece 629 comprises a control door 6292 which is rotatably arranged on the frame 41 and is connected with the frame 41 through a second tension spring 6291, a collection basket 6293 which is arranged outside the control door 6292, an elastic ball 6294 which is arranged at the outer end of the collection basket 6293 and a cylinder 6295 which drives the elastic ball 6294 to horizontally move, wherein a distance sensor is arranged on the elastic ball 6294 and is used for driving the cylinder 6295 to open and close, the electromagnetic rod 6283 is slidably arranged in a limiting track b6296 which is horizontally arranged on the collection basket 6293, the collection basket 6293 is divided into an upper layer and a lower layer, a third filter plate 6297 is arranged between the upper layer and the lower layer, and the lower end of the collection basket 6293 is communicated with the output part of the stone particle filter mechanism 7.

In this embodiment, collect subassembly 62 through setting up iron fillings, make the impurity of quantitative output fall into on the first filter 621 from the subassembly 61 of keeping in, and utilize first filter 621 drag for the in-process on the impurity and shake the 627 effect swing from left to right, also utilize the inclined plane of gravity cooperation second filter 622 of iron fillings self when accelerating the stone grinding granule whereabouts, accomplish the abundant adsorption work of iron fillings on the second filter 622, it resets 629 to cooperate the cooperation of removing dregs piece 628 again, in time discharge absorbent iron fillings, be difficult for leading to the fact secondary pollution in the water mixture of hou mian, need filter many times and process the filtration degree of difficulty.

In detail, the impurities fall onto the second filter plate 622, then the connecting rod 624 drives the second filter plate 622 to lift up, during the lifting operation of the second filter plate 622, the convex block a6271 at one end of the second filter plate 622 contacts with the convex block b6272, then the second filter plate 622 rotates, the other end tilts up, the electromagnetic rod 6283 slides down along the inclined plane of the second filter plate 622 under the action of gravity, because the electromagnetic rod 6283 is charged at this time, the scrap iron on the second filter plate 622 is adsorbed, meanwhile, the larger scrap iron group is rolled away, and then the scrap iron is sufficiently adsorbed, the second filter plate 622 continues to lift up, the convex block a6271 at the tilting end contacts with the convex block b6272, then the second filter plate 622 rotates, the other end tilts up, the electromagnetic rod 6283 resets, the above operation is repeated until the second filter plate moves to the control door 6292, the electromagnetic rod 6283 falls to the control door 6292 under the action of gravity and flushes the control door 6292, and enters the collection basket 6293, the control door 6292 is provided with a signal, the signal detects that the electromagnetic rod 6283 enters the collecting basket 6293, namely the signal is transmitted to the electromagnetic rod 6283 to power off and lose electricity, scrap iron on the electromagnetic rod 6283 automatically falls to the third filter plate 6297 under the gravity to be collected, when the electromagnetic rod 6283 moves to the elastic ball 6294, the air cylinder 6295 is started to push the electromagnetic rod 6283 back to the second filter plate 622, and when the electromagnetic rod 6283 enters the second filter plate 622, the signal arranged on the control door 6292 drives the electromagnetic rod 6283 to be electrified, and simultaneously the second filter plate 622 descends.

It should be noted that, by providing the stopper 625, the swinging angle of the second filter plate 622 is limited, so that after the second filter plate 622 reaches the limit state, the second filter plate 622 continues to be lifted, and the protruding block a6271 goes over the protruding block b 6272; on the other hand, the second filter plate 622 is supported by the first tension spring 626 so as to be maintained in a horizontal state without being subjected to an external force.

In addition, when the non-tilted end of the second filter plate 622 moves to the control gate 6292, at this time, the transmission rod moves to the upper end of the guide slot, the first driving rack 94 moves upward, and the telescopic unit d87 stretches upward, so that the second filter plate 622 is in an inclined static state at this time, which is beneficial for the output electromagnetic rod 6283 to return.

The working process is as follows:

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

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. The device for separating chips of the machining grinding machine is characterized by comprising a grinding machine (101), a grinding mechanism (2) arranged on the grinding machine (101), 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 (101), two groups of impurity removal mechanisms (5) symmetrically arranged on two sides of the bearing mechanism (4) and used for collecting impurities on the bearing mechanism (4), a chip filtering mechanism (6) arranged below the impurity removal mechanism (5) and communicated with the impurity removal mechanism (5), and a grinding stone particle filtering mechanism (7) arranged below the chip filtering mechanism (6) and communicated with the cooling mechanism (3);

the impurity removing mechanism (5) and the polishing mechanism (2) synchronously drive to work through a first transmission mechanism (8); the scrap iron filtering mechanism (6) and the polishing mechanism (2) synchronously drive to work through a second transmission mechanism (9); the grindstone particle filtering mechanism (7) and the second transmission mechanism (9) synchronously work in a transmission mode through a third transmission mechanism (1).

2. The chip separating device of the machining grinder as claimed in claim 1, wherein the bearing mechanism (4) comprises a frame (41) which is hollow and provided with feed inlets (40) at two sides, a supporting plate (42) which is arranged at the upper end of the frame (41) and provided with a worktable (43) at the middle part thereof, two sets of limiting seats (44) which are respectively arranged at two sides of the worktable (43), and a plurality of sets of falling holes (45) which are arranged on the supporting plate (42) in a penetrating manner, wherein the falling holes (45) are uniformly surrounded on the periphery of the worktable (43).

3. The machining grinder chip separating device is characterized in that the impurity removing mechanism (5) comprises a mounting chamber (51), a supporting shaft (52) with one end horizontally arranged in the mounting chamber (51) in a sliding mode and matched with the inner wall of the mounting chamber (51), a discharging plate (54) arranged at the end of the supporting shaft (52) and sliding to the input end of the discharging portion (502), and a baffle plate (56) arranged at the upper end of the mounting chamber (51) and obliquely arranged upwards towards the supporting plate (42);

installation cavity (51) set up supporting disk (42) outside and with two spacing seat (44) dislocation sets up alternately, and this installation cavity (51) orientation a plurality of groups's inlet port (501) have evenly been seted up to the one side of supporting disk (42), and this installation cavity (51) lower extreme slope orientation scrap iron filter mechanism (6) are provided with ejection of compact portion (502) just install on cavity (51) seted up blown down tank (503), this blown down tank (503) with the same horizontal plane setting of ejection of compact portion (502) lower extreme just blown down tank (503) with feed inlet (40) correspond the matching setting.

4. The machining grinder chip separating device according to the claim 1, characterized in that the iron chip filtering mechanism (6) comprises a temporary storage assembly (61) arranged on the grinding machine (101) and below the bearing mechanism (4) and an iron chip collecting assembly (62) arranged below the temporary storage assembly (61);

the temporary storage assembly (61) comprises a partition plate (611) which is fixedly arranged in the frame (41) in a matching mode and provided with an outlet (610) in the center, a material blocking door (613) which is arranged on the outlet (610) in a matching and rotating mode through a rotating shaft (612), a first driving gear (614) which is synchronously driven with the rotating shaft (612) and is positioned outside the frame (41), a first driving rack (616) which is arranged in a meshing mode with the first driving gear (614) and is installed on a rack through a telescopic unit a (615), and a transmission piece (617) which is synchronously driven with the grinding mechanism (2);

the scrap iron collecting component (62) comprises a first filter plate (621) which is fixedly arranged on the frame (41) and is matched with the inner wall of the frame (41), a second filter plate (622) which is arranged on the frame (41) in a sliding mode, provided with holes staggered with the holes of the first filter plate (621), a connecting rod (624) which is arranged in two groups and arranged in a sliding mode through a sliding block in a guide rail (623) on the frame (41), and a stop block (625) which is fixedly arranged on the connecting rod (624) and vertically arranged with the connecting rod (624), wherein the stop block (625) is fixedly connected with the upper end of the second filter plate (622) through two first tension springs (626), the two ends of the second filter plate (622) are rotatably arranged on the connecting rod (624), and the scrap iron collecting component (62) further comprises shaking pieces (627), A deslagging part (628) and a resetting part (629).

5. The machining grinder chip separating device according to claim 4, wherein the shaking member (627) comprises two groups of protruding blocks a (6271) which are arranged at two ends of the second filter plate (622) and are in a semicircular structure, and two groups of protruding blocks b (6272) which are arranged corresponding to the protruding blocks a (6271) one by one, wherein the protruding blocks b (6272) are arranged in a plurality of groups at equal intervals along the vertical direction and are installed in the frame (41) through telescopic units b (6273).

6. The machining grinder chip separating device is characterized in that the deslagging element (628) comprises two groups of side plates (6281) which are arranged on the second filter plate (622) and are arranged on the same side as the connecting rod (624), a limiting track a (6282) which is horizontally arranged on the side plates (6281), and an electromagnetic rod (6283) which is rotatably arranged on the limiting track a (6282), wherein the electromagnetic rod (6283) is arranged in a manner of being matched with the width of the second filter plate (622).

7. The machining grinder chip separating device of claim 4, wherein the chip separating device is a cylindrical chip separating device, the reset piece (629) comprises a control door (6292) which is rotatably arranged on the frame (41) and is connected with the frame (41) through a second tension spring (6291), a collecting basket (6293) which is arranged outside the control door (6292), an elastic ball (6294) which is arranged at the outer end of the collecting basket (6293) and a cylinder (6295) which drives the elastic ball (6294) to horizontally move, a distance sensor is arranged on the elastic ball (6294) and is used for driving the switch of the air cylinder (6295), the electromagnetic rod (6283) is arranged in a sliding way in a limiting track b (6296) horizontally opened on the collecting basket (6293), the collecting basket (6293) is divided into an upper layer and a lower layer, a third filter plate (6297) is arranged between the upper layer and the lower layer, the lower end of the collecting basket (6293) is communicated with the output part of the grinding stone particle filtering mechanism (7).

8. The machining grinder chip separating device according to claim 4, characterized in that the grinding stone particle filtering mechanism (7) comprises a grinding stone particle collecting component (71) arranged below the scrap iron collecting component (62) and a circulating component (73) with one end communicated with the grinding stone particle collecting component (71) and the other end communicated with the cooling mechanism (3).

9. The machining grinder debris separating device of claim 4, wherein the grinding stone particle collecting assembly (71) comprises a water receiving frame (711) arranged on the frame (41) and below the second filter plate (622), a support frame (712) arranged on the grinding machine (101), a winding mandrel (713) rotatably arranged at the lower end of the water receiving frame (711), a material receiving frame (714) eccentrically and rotatably arranged on the winding mandrel (713), two sets of extension tubes (715) arranged and respectively communicated with the material receiving frame (714) and the water receiving frame (711) at two ends, a water tank (716) arranged below the winding mandrel (713), a stone groove (717) sleeved outside the water tank (716) and arranged on the support frame (712), and a connecting pipe a (718) communicated with the water tank (716), The device comprises a reflux groove (719) which is arranged at the lower end of a stone groove (717) and is respectively communicated with the lower ends of a connecting pipe a (718) and a collecting basket (6293), and a support member (72) which is arranged outside a water tank (716) and is used for supporting the lower end of a material receiving frame (714), wherein one end of the material receiving frame (714) is rotatably arranged in the water tank (716), a filter screen (71 a) is arranged on the transmission end face, the other end of the material receiving frame (714) is rotatably arranged in the stone groove (717), a through hole a (71 b) is arranged on the transmission end face, a circular groove (71 c) is arranged on the water receiving frame (711), a limit ring (71 d) is rotatably arranged on the circular groove (71 c), two groups of through holes b (71 e) are arranged on the limit ring (71 d), the through hole b (71 e) is fixedly connected with a telescopic pipe (715), and a balancing weight is arranged outside one end of the material receiving frame (714) which is arranged on the stone groove (717), the lower end of the winding mandrel (713) penetrates through the stone groove (717).

Images