CN116511976A - Cutting fluid rapid filtering device for numerical control machine tool - Google Patents

Abstract

The invention discloses a cutting fluid rapid filtering device for a numerical control machine tool, which comprises a filtering box, a primary filtering mechanism, a secondary filtering mechanism and a tertiary filtering mechanism. According to the invention, the iron metal scraps in the cutting fluid can be absorbed through the first-stage filtering mechanism, so that the iron metal scraps in the cutting fluid are removed, the non-iron metal scraps in the cutting fluid are collected and filtered through the second-stage filtering mechanism, so that the metal scraps in the cutting fluid are removed, the cutting fluid is rapidly filtered, dirt and grease in the cutting fluid are filtered through the filter cotton and the semipermeable membrane in the first filtering drawer and the second filtering drawer, the cutting fluid can be rapidly filtered, the dryness of the cutting fluid is ensured, and the metal scraps can be rapidly taken out after being filtered through the first-stage recovery drawer, the second-stage recovery drawer, the first filtering drawer and the second filtering drawer, so that the normal use of the device is not influenced, and the operation of workers is facilitated.

Description

Cutting fluid rapid filtering device for numerical control machine tool

Technical Field

The invention relates to the field of related equipment of numerical control machine tools, in particular to a cutting fluid rapid filtering device for a numerical control machine tool.

Background

The machine tool cutting fluid is an industrial fluid used for cooling and lubricating a cutter in the metal cutting and grinding process; meanwhile, the cutting fluid is also used for flushing the interior of the machine tool so as to keep a good clean state in the machine tool. The cutting fluid is formed by scientifically compounding and matching a plurality of super functional auxiliary agents, and has the characteristics of good cooling performance, lubricating performance, oil removal cleaning performance, corrosion resistance and the like. During machining in a machine tool, scraps produced by cutting parts of the cutter are mixed in the cutting fluid, and the scraps are usually a large number of metal scraps with different diameters and irregular shapes, wherein the metal scraps comprise coiled and strip-shaped metal strips, small-particle metal fragments, extremely fine metal particles and the like.

The existing cutting fluid filtering device can filter, but cannot classify and filter scraps, so that various different metal scraps are accumulated together, and meanwhile, dirt and grease on the metal surface are dissolved in the cutting fluid after being contacted with the cutting fluid, so that the cutting fluid cannot be effectively filtered, and the cutting fluid is polluted.

Disclosure of Invention

The invention aims to solve the problems and designs a cutting fluid rapid filtering device for a numerical control machine tool.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a quick filter equipment of cutting fluid for digit control machine tool, includes rose box, primary filter mechanism, secondary filter mechanism and tertiary filter mechanism:

the primary filtering mechanism comprises a step seat, an upper roller, a lower roller, a plurality of annular strip-shaped transmission bars, a plurality of strip-shaped magnets and a primary recovery drawer, wherein the step seat is fixedly connected with a filtering box, the lower roller is positioned above a step of the step seat, the primary recovery drawer is positioned on one side above the filtering box, the upper roller is positioned on one side above the primary recovery drawer, the annular strip-shaped transmission bars are sleeved on the upper roller and the lower roller, the annular strip-shaped transmission bars are uniformly distributed, the strip-shaped magnets are transversely arranged on the annular strip-shaped transmission bars, and the strip-shaped magnets are uniformly distributed;

the secondary filter mechanism comprises a collection conveyer belt, a plurality of L-shaped collection baffles, angle-shaped baffle plates, a filter sponge and a secondary recovery drawer, wherein a belt pulley and a belt are used for driving the upper roller to the collection conveyer belt, one roller of the collection conveyer belt is positioned below a step seat, the other roller of the collection conveyer belt is positioned below a primary recovery drawer, the L-shaped collection baffles are arranged on the collection conveyer belt, the L-shaped collection baffles are uniformly distributed, the angle-shaped baffle plates are arranged on two sides of the L-shaped collection baffles, the filter sponge is arranged on the collection conveyer belt, the filter sponge is positioned in the L-shaped collection baffles, the angle-shaped baffle plates are movably contacted with the filter sponge, and the secondary recovery drawer is positioned below the other roller of the collection conveyer belt.

Further, tertiary filtering mechanism includes two collection inclined baffle plates, collection box, filtration drawer one, filtration drawer two and back flow constitution, collect inclined baffle plate and be located the below of secondary filtering mechanism, the collection box is installed in filter box lower surface center department, two collect inclined baffle plate's collection mouth is located the collection box directly over, the back flow is installed in collection box side surface below, the back flow stretches out outside the filter box, filtration drawer one and filtration drawer two movable mounting are in the collection box, filtration drawer one is located filtration drawer two tops.

Furthermore, a plurality of liquid permeable holes are formed in the centers of the lower surfaces of the first filter drawer and the second filter drawer, a semipermeable membrane is arranged on the lower surfaces of the interiors of the first filter drawer and the second filter drawer, and filter cotton is arranged above the semipermeable membrane.

Further, the first-stage recovery drawer top is equipped with and inhales the bits cylinder, it is equipped with ring magnet to inhale the cover on the bits cylinder, ring magnet's magnetic force is greater than bar magnet's magnetic force, inhales bits cylinder and is located cylinder one side, inhale and pass through the gear between bits cylinder and the upper cylinder and carry out the transmission, the inside one side surface of drawer is retrieved to the one-stage installs the scraper blade, the one end and the ring magnet sliding contact of scraper blade.

Furthermore, the N pole and the S pole of the strip-shaped magnet on the annular strip-shaped transmission bar are perpendicular to the annular strip-shaped transmission bar, and the installation directions of the two adjacent strip-shaped magnets are opposite.

Further, a liquid inlet pipe is arranged above the side surface of the filter box, and the liquid inlet pipe is positioned above the step seat.

Further, the driving belt on the collecting conveyor belt has the same structure as the annular strip driving belt.

Furthermore, the first filtering drawer, the second filtering drawer, the first-stage recovery drawer and the second-stage recovery drawer can be pulled out from the filtering box through the angle steel seat.

Drawings

The cutting fluid rapid filtering device for the numerical control machine tool, which is manufactured by utilizing the technical scheme of the invention, has the following beneficial effects:

this filter equipment can absorb the iron-making metal piece in the cutting fluid through one-level filtering mechanism to get rid of the iron-making metal piece in the cutting fluid, and collect the filtration through the non-iron-making metal piece in the second grade filtering mechanism to the cutting fluid, and then get rid of the metal piece in the cutting fluid, filter fast to the cutting fluid.

This filter equipment filters dirt and grease in the cutting fluid through filtration cotton and the semipermeable membrane of filtration drawer one and filtration drawer two inside, can make the cutting fluid filter cleanly fast to ensure the cleanliness factor of cutting fluid.

This filter equipment, through the use of one-level recovery drawer, second grade recovery drawer, filtration drawer one and filtration drawer two, can make metal piece take out fast after being filtered, can not influence the normal use of device again simultaneously, make things convenient for staff's operation.

This filter equipment through carrying out the gradual filtration of step to the cutting fluid, makes the metal piece on the one hand can classify, filter and collect, on the other hand can filter dirt and grease alone again, and then avoids the mixture of metal piece and dirt and grease, reduces the secondary abluent flow to metal piece, makes things convenient for the staff to collect metal piece.

Drawings

FIG. 1 is a schematic diagram of a cutting fluid rapid filtering device for a numerical control machine tool according to the present invention;

FIG. 2 is a schematic view of an annular bar-shaped transmission bar and a bar-shaped magnet according to the present invention;

FIG. 3 is a schematic view of a bar magnet according to the present invention;

FIG. 4 is a schematic view of a primary recovery drawer according to the present invention;

FIG. 5 is a side view of an L-shaped collection baffle according to the present invention;

FIG. 6 is a schematic view of an L-shaped collection baffle according to the present invention;

FIG. 7 is a schematic view of a recovery tank according to the present invention;

in the figure, 1, a filter box; 2. a step seat; 3. an upper roller; 4. a lower drum; 5. a circular bar-shaped transmission bar; 6. a bar magnet; 7. a first-stage recovery drawer; 8. collecting a conveying belt; 9. an L-shaped collecting baffle; 10. an angular baffle; 11. filtering the sponge; 12. a secondary recovery drawer; 13. collecting an inclined baffle; 14. a recovery box; 15. a first filtering drawer; 16. a second filtering drawer; 17. a return pipe; 18. a liquid-permeable hole; 19. a semipermeable membrane; 20. filtering cotton; 21. a dust suction roller; 22. a ring magnet; 23. a scraper; 24. a liquid inlet pipe; 25. and an angle steel seat.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, as shown in fig. 1 to 7.

The primary filtering mechanism comprises a step seat 2, an upper roller 3, a lower roller 4, a plurality of annular strip-shaped transmission bars 5, a plurality of strip-shaped magnets 6 and a primary recovery drawer 7, wherein the step seat is fixedly connected with a filter box; the chip absorbing roller 21 is arranged above the primary recovery drawer, a ring magnet 22 is sleeved on the chip absorbing roller, the magnetic force of the ring magnet is larger than that of the strip magnet, the chip absorbing roller is positioned on one side of the upper roller, the chip absorbing roller and the upper roller are driven through a gear, a scraping plate 23 is arranged on the surface of one side of the inside of the primary recovery drawer, and one end of the scraping plate is in sliding contact with the ring magnet; through the design of annular bar transmission strip 5 and bar magnet 6, on the one hand, can make the cutting fluid pass through fast from the gap between annular bar transmission strip 5 and the bar magnet 6, make things convenient for the circulation of cutting fluid, on the other hand can utilize the magnetic force of bar magnet 6 again, make the iron metal piece that carries in the cutting fluid can adsorb on the bar magnet 6, thereby get rid of the iron metal piece in the cutting fluid, and through the use of last cylinder 3 and lower cylinder 4, then can make annular bar transmission strip 5 drive bar magnet 6 reciprocating motion, and then take out the iron metal piece, and collect in the one-level recovery drawer 7, thereby avoid bar magnet 6 long-term use, and lead to the piece to be full of bar magnet 6, guarantee the effective removal of iron metal piece, and through the use of annular magnet 22, then can utilize magnetic force difference, make the iron metal piece shift fast to on the annular magnet 22, make things convenient for the separation of iron metal piece and bar magnet 6, and the use of scraper blade 23, then can utilize the piece to deposit in scraper blade 23 department, make the one-level drawer 7 drop, can not influence the life in the one-level drawer 7, can not be retrieved to the work, and the personnel can retrieve the piece.

The two-stage filtering mechanism comprises a collecting conveyor belt 8, a plurality of L-shaped collecting baffles 9, angle-shaped baffle plates 10, filtering sponge 11 and a two-stage recovery drawer 12, wherein an upper roller and the collecting conveyor belt are driven by a belt pulley and a belt, one roller of the collecting conveyor belt is positioned below a step seat, the other roller of the collecting conveyor belt is positioned below a one-stage recovery drawer, the L-shaped collecting baffles are arranged on the collecting conveyor belt, the L-shaped collecting baffles are uniformly distributed, the angle-shaped baffle plates are arranged on two sides of the L-shaped collecting baffles, the filtering sponge is arranged on the collecting conveyor belt, the filtering sponge is positioned in the L-shaped collecting baffles, the angle-shaped baffle plates are in movable contact with the filtering sponge, and the two-stage recovery drawer is positioned below the other roller of the collecting conveyor belt; the L-shaped collecting baffle 9 is driven to rotate by the collecting conveyor belt 8, cutting fluid can be collected by flowing of the cutting fluid, secondary filtering is carried out by utilizing the filtering sponge 11, non-ferrous metal scraps in the cutting fluid are removed, filtered non-ferrous metal scraps can be poured into the secondary recycling drawer 12, and the cutting fluid can be properly blocked by using the angle-shaped baffle 10, so that the situation that scraps cannot be effectively collected and filtered due to flowing of the cutting fluid from two sides is avoided.

The three-stage filtering mechanism comprises two collecting inclined baffles 13, a recovery box 14, a first filtering drawer 15, a second filtering drawer 16 and a return pipe 17, wherein the collecting inclined baffles are positioned below the two-stage filtering mechanism, the recovery box is arranged at the center of the lower surface of the filtering box, collecting ports of the two collecting inclined baffles are positioned right above the recovery box, the return pipe is arranged below the side surface of the recovery box, the return pipe extends out of the filtering box, the first filtering drawer and the second filtering drawer are movably arranged in the recovery box, and the first filtering drawer is positioned above the second filtering drawer; the centers of the lower surfaces of the first filter drawer and the second filter drawer are provided with a plurality of liquid penetrating holes 18, the lower surfaces of the interiors of the first filter drawer and the second filter drawer are provided with a semipermeable membrane 19, and filter cotton 20 is arranged above the semipermeable membrane; through the use of filtration drawer one 15 and filtration drawer two 16, on the one hand can utilize to take out alternately and change filter cotton 20 to avoid changing the operation of in-process influence device, on the other hand can utilize filter cotton 20 to cushion the cutting fluid again, in order to avoid a small amount of metal fragments to pass when filtration drawer one 15 and filtration drawer two 16 and cause the problem emergence of wearing and tearing to semipermeable membrane 19, guarantee the safe handling of semipermeable membrane 19, the use of semipermeable membrane 19 can make dirt and grease in the cutting fluid thoroughly separate with the cutting fluid, and then guarantee the purity of cutting fluid, in order to avoid dirt and grease to remain and silt in the cutting fluid pipeline for a long time in the cutting fluid.

In the device, the N pole and the S pole of the strip-shaped magnet on the annular strip-shaped transmission bar are vertical to the annular strip-shaped transmission bar, and the installation directions of the two adjacent strip-shaped magnets are opposite; the iron metal scraps can be adsorbed quickly when flowing between the two bar magnets 6, and the problem of magnetic field between the bar magnets 6 is avoided to influence the adsorption of the iron metal scraps.

In the device, the structure of the transmission belt on the collecting conveyor belt is the same as that of the annular strip-shaped transmission belt; the rapid penetration of the cutting fluid can be ensured, and the influence on the filtering efficiency of the cutting fluid is avoided.

In the implementation process of the technical scheme, the upper roller in the scheme is required to be connected with an external driving device or a driving mechanism of the numerical control machine tool by a person in the field so as to control the device to operate.

The technical scheme mainly aims at the problem of rapid filtration of cutting fluid in a numerical control machine, firstly, a fluid inlet pipe 24 and a return pipe 17 are connected with a cutting fluid flow pipeline on the numerical control machine, so that the cutting fluid can circularly flow along with a pumping system in the numerical control machine to cool a workpiece of the numerical control machine;

when the numerical control machine starts to process, a cutting fluid pumping system starts to pump cutting fluid along with the operation of the numerical control machine, the workpiece and the cutter are cooled, small metal chips are mixed in the cutting fluid along with the flow of the cutting fluid, the cutting fluid circulates, dirt and grease on the workpiece are dissolved into the cutting fluid along with the contact of the cutting fluid, the cutting fluid is further polluted, the polluted cutting fluid is conveyed into a liquid inlet pipe 24 along with a conveying pipe of the numerical control machine, and then is injected into a filter box 1 through the liquid inlet pipe 24, then falls onto a step seat 2 and flows along the inclined surface of the step seat 2;

at the same time, the upper roller can be connected with an external driving structure by a worker, or alternatively, the upper roller can be connected with a driving component of a numerical control machine tool to drive, so that the upper roller 3 rotates, the upper roller 3 drives the collecting conveyor belt 8 to start rotating through the transmission of a belt pulley and a belt, and meanwhile, the upper roller 3 drives the chip absorbing roller 21 to start rotating through the transmission of a gear;

along with the flow of the cutting fluid, the cutting fluid starts to brush the annular bar-shaped transmission bars 5 and the bar-shaped magnets 6 on the upper roller 3 and the lower roller 4, and passes through the upper roller 3 and the lower roller 4 through gaps between the annular bar-shaped transmission bars 5 and the bar-shaped magnets 6, and in the flowing process of the cutting fluid, the cutting fluid is contacted with the bar-shaped magnets 6, iron-made metal chips in the cutting fluid are adsorbed on the bar-shaped magnets 6 through the magnetic force of the bar-shaped magnets 6, and then the cutting fluid passes through the gaps, the iron-made metal chips in the cutting fluid are removed, then the upper roller 3 drives the annular bar-shaped transmission bars 5 to rotate, so that the bar-shaped magnets 6 gradually move, and meanwhile, the chip-absorbing roller 21 reversely and synchronously rotates through the transmission of gears, and utilizes the rotation of the ring-shaped magnets 22, so that when the bar-shaped magnets 6 move to the nearest position of the ring-shaped magnets 22, the ultra-large magnetic force of the ring-shaped magnets 22 is utilized, the iron chips adsorbed on the ring-shaped magnets 6 are removed, so that the iron chips are adsorbed on the ring-shaped magnets 22, and most iron-made metal chips on the ring-shaped magnets 22 are removed, and the iron chips continuously rotate, so that the scraping plates 23 can make the iron chips on the ring-shaped magnets 22 to be stacked in a certain degree, and then the metal chips are accumulated in the drawer 7, and then the chips are recovered;

the cutting fluid passing through the upper roller 3 and the lower roller 4 continuously flows along the step seat 2, then falls onto the collecting and conveying belt 8 by means of height drop, the cutting fluid is collected by means of the L-shaped collecting baffle 9 and the angle-shaped baffle 10 arranged on the collecting and conveying belt 8, the cutting fluid is collected in the L-shaped collecting baffle 9 and the angle-shaped baffle 10, the cutting fluid is filtered by the filtering sponge 11, the non-ferrous metal scraps in the cutting fluid are further removed, the non-ferrous metal scraps in the cutting fluid are poured into the secondary collecting drawer 12 by means of rotation of the collecting and conveying belt 8, and the filtered cutting fluid falls onto the collecting inclined baffle 13;

the cutting fluid is collected by the collecting inclined baffle 13, the cutting fluid enters the recovery box 14, and then is filtered again by the first filtering drawer 15 and the second filtering drawer 16, and dirt and grease remained in the cutting fluid are filtered by the filter cotton 20 and the semi-permeable membrane 19, so that the dirt and the grease in the cutting fluid are removed, meanwhile, the residual metal scraps in the cutting fluid can be removed, and the filter cotton 20 is used, so that the residual metal scraps can be prevented from impacting the semi-permeable membrane 19 when falling along with the cutting fluid, and the semi-permeable membrane 19 is prevented from being scratched due to the fact that the metal scraps are too sharp, and the rapid filtration of the cutting fluid is completed;

after one end of the device runs, the first-stage recovery drawer 7 and the second-stage recovery drawer 12 can be manually pulled out respectively by a worker, metal scraps are cleaned, when the first filter drawer 15 and the second filter drawer 16 are pulled out, only one of the first filter drawer 15 and the second filter drawer 16 is required to be pulled out for cleaning, the first filter drawer and the second filter drawer are installed in the original position after the cleaning is finished, and the other filter drawer is pulled out for cleaning, so that any influence on the running of the device can be avoided in the cleaning process, and therefore the first filter drawer and the second filter drawer can be cleaned during the running of a numerical control machine tool, and the use of the worker is facilitated.

The above technical solution only represents the preferred technical solution of the present invention, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present invention, and the technical solution falls within the scope of the present invention.

Claims (8)

1. The utility model provides a quick filter equipment of cutting fluid for digit control machine tool, includes rose box (1), primary filter mechanism, secondary filter mechanism and tertiary filter mechanism, its characterized in that:

the primary filtering mechanism comprises a step seat (2), an upper roller (3), a lower roller (4), a plurality of annular strip-shaped transmission bars (5), a plurality of strip-shaped magnets (6) and a primary recovery drawer (7), wherein the step seat is fixedly connected with a filter box, the lower roller is positioned above a step of the step seat, the primary recovery drawer is positioned on one side above the filter box, the upper roller is positioned on one side above the primary recovery drawer, the annular strip-shaped transmission bars are sleeved on the upper roller and the lower roller, the annular strip-shaped transmission bars are uniformly distributed, the strip-shaped magnets are transversely arranged on the annular strip-shaped transmission bars, and the strip-shaped magnets are uniformly distributed;

the secondary filter mechanism comprises a collection conveying belt (8), a plurality of L-shaped collection baffles (9), angle-shaped baffle plates (10), a filter sponge (11) and a secondary recovery drawer (12), wherein a belt pulley and a belt are used for transmission between an upper roller and the collection conveying belt, one roller of the collection conveying belt is positioned below a step seat, the other roller of the collection conveying belt is positioned below a primary recovery drawer, a plurality of L-shaped collection baffles are arranged on the collection conveying belt, the L-shaped collection baffles are uniformly distributed, the angle-shaped baffle plates are arranged on two sides of the L-shaped collection baffles, the filter sponge is arranged on the collection conveying belt, the filter sponge is positioned in the L-shaped collection baffles, the angle-shaped baffle plates are in movable contact with the filter sponge, and the secondary recovery drawer is positioned below the other roller of the collection conveying belt.

2. The rapid cutting fluid filtering device for the numerical control machine tool according to claim 1, wherein the three-stage filtering mechanism comprises two collecting inclined baffles (13), a recycling box (14), a first filtering drawer (15), a second filtering drawer (16) and a return pipe (17), the collecting inclined baffles are located below the two-stage filtering mechanism, the recycling box is arranged at the center of the lower surface of the filtering box, collecting ports of the two collecting inclined baffles are located right above the recycling box, the return pipe is arranged below the side surface of the recycling box, the return pipe extends out of the filtering box, the first filtering drawer and the second filtering drawer are movably arranged in the recycling box, and the first filtering drawer is located above the second filtering drawer.

3. The rapid cutting fluid filtering device for the numerical control machine tool according to claim 2, wherein a plurality of fluid permeation holes (18) are formed in the centers of the lower surfaces of the first filtering drawer and the second filtering drawer, semi-permeable membranes (19) are arranged on the lower surfaces of the inner parts of the first filtering drawer and the second filtering drawer, and filter cotton (20) is arranged above the semi-permeable membranes.

4. The rapid cutting fluid filtering device for the numerical control machine tool according to claim 1, wherein a chip suction roller (21) is arranged above the primary recovery drawer, an annular magnet (22) is sleeved on the chip suction roller, the magnetic force of the annular magnet is larger than that of the strip magnet, the chip suction roller is positioned on one side of the upper roller, the chip suction roller and the upper roller are driven through gears, a scraping plate (23) is arranged on the surface of one side inside the primary recovery drawer, and one end of the scraping plate is in sliding contact with the annular magnet.

5. The rapid cutting fluid filtering device for the numerical control machine tool according to claim 1, wherein the N pole and the S pole of the strip-shaped magnet on the annular strip-shaped transmission bar are perpendicular to the annular strip-shaped transmission bar, and the installation directions of the two adjacent strip-shaped magnets are opposite.

6. The rapid cutting fluid filtering device for the numerical control machine tool according to claim 1, wherein a fluid inlet pipe (24) is installed above the side surface of the filtering box and is located above the step seat.

7. The rapid cutting fluid filtering device for a numerical control machine according to claim 1, wherein the transmission belt on the collecting conveyor belt has the same structure as the annular strip transmission belt.

8. The rapid cutting fluid filtering device for the numerical control machine tool according to claim 2, wherein the first filtering drawer, the second filtering drawer, the first recovery drawer and the second recovery drawer can be pulled out of the filtering box through angle steel bases (25).