CN213225357U - Cutting fluid treatment equipment of numerical control machining center - Google Patents

Abstract

The utility model relates to a numerical control machining center technical field, in particular to numerical control machining center cutting fluid treatment facility. This equipment includes metal debris remove device, container bag filter equipment, cooling device, metal debris remove device includes circulation belt, a plurality of magnetic adsorption roller, a plurality of backing roll, scrapes bits mechanism, and magnetic adsorption roller, backing roll are two parts and distribute to divide into the absorption district, remove the bits district with the circulation belt, the cutting fluid process metal debris remove device's the bits district separates the metal debris, and the nonmetal piece separation in the container bag filter equipment will the cutting fluid, and cooling device sends back the host computer after cooling to the cutting fluid. The equipment carries out regeneration treatment of filtering and cooling on the cutting fluid, ensures that the cutting fluid can keep higher lubricating and cooling performances when being recycled, and can reduce the temperature rise and atomization problem of the cutting fluid and the deformation of a workpiece caused by the temperature of the cutting fluid.

Description

Cutting fluid treatment equipment of numerical control machining center

Technical Field

The utility model relates to a numerical control machining center technical field, in particular to numerical control machining center cutting fluid treatment facility.

Background

The cutting fluid is an industrial fluid for cooling and lubricating a cutter and a workpiece, the cutting fluid in the numerical control machining center is recycled, and the cutting fluid generates a large amount of friction with a metal workpiece, the cutter and chips, generates high temperature and further generates an oil mist problem. Due to the production of a large amount of oil mist, the environment of the metal processing workshop is affected, and the respiratory tract health of operators is also affected. The cutting fluid is inevitably mixed with chips when being recycled, and the cutting fluid is required to be filtered to ensure a circulating pipeline. The existing cutting fluid circulating treatment device has poor treatment effect.

SUMMERY OF THE UTILITY MODEL

For overcoming the deficiencies in the prior art, the utility model provides a numerical control machining center cutting fluid treatment facility.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a numerical control machining center cutting fluid treatment facility for the cutting fluid after the circulation processing host computer used, its characterized in that: including metal debris remove device, container bag filter equipment, cooling device, metal debris remove device includes circulation belt, a plurality of magnetic adsorption roller, a plurality of backing roll, scrapes bits mechanism, the circulation belt is outside locating magnetic adsorption roller, backing roll, and magnetic adsorption roller, backing roll are two parts and distribute to divide into the adsorption zone with the circulation belt, remove the bits district, scrape bits mechanism and locate except that bits district department, the cutting fluid process metal debris remove device send out to container bag filter equipment behind the metal debris separation except that the bits district, send out to cooling device behind the nonmetal piece separation in the container bag filter equipment with the cutting fluid, cooling device sends back the host computer after cooling down cutting fluid.

Further, metal clastic remove device still includes feed liquor mouth of pipe, collecting tank, the circulation belt includes slope section, flat section, vertical section of sending, the direction of delivery of circulation belt is successively through slope section, flat section, vertical section of sending, the feed liquor mouth of pipe is towards on slope section top sends the cutting fluid into the circulation belt, the collecting tank is located slope section below in order to accept the cutting fluid.

Further, scrape bits mechanism and locate perpendicular section department, scrape bits mechanism and include brush roller, scraper, piece fill, the scraper tilt up leans on locating on the circulation belt in order to shovel the metal piece down, the piece is fought and is located the scraper below in order to accept the metal piece, the brush roller is located scraper top and round brush circulation belt.

Furthermore, the scrap scraping mechanism further comprises a spring ejector block, wherein the spring ejector block is arranged on the inner side of the circulating belt and ejects the vertical section outwards to ensure that the scraper, the brush roller and the circulating belt are in contact with each other.

Further, the magnetic adsorption rollers are arranged on the inclined section and the part of the flat conveying section close to the inclined section, and the rest part of the circulating belt is guided and supported by the supporting roller.

Furthermore, the cooling device comprises a coiled pipe, radiating fins and a fan, wherein the cutting fluid flows through the coiled pipe, the radiating fins are provided with a plurality of pieces, the coiled pipe penetrates through the radiating fins, and the fan is arranged on one side of the radiating fins to discharge the temperature of the radiating fins.

Further, still include first liquid storage pot, second liquid storage pot, first liquid storage pot is located between metal piece remove device and the host computer for collect the cutting fluid after the host computer uses and send to metal piece remove device, the second liquid storage pot is located between cooling device and the host computer, is used for sending the coolant liquid after handling to the host computer and uses.

Compared with the prior art, the cutting fluid treatment equipment of the numerical control machining center provided by the utility model has the advantages that the regeneration treatment of filtering and cooling is carried out on the cutting fluid, the cutting fluid can be ensured to keep higher lubricating and cooling performances when being circularly used, and the problems of heating and atomizing of the cutting fluid and the deformation of a workpiece caused by the temperature of the cutting fluid can be reduced; get rid of the metal piece in the cutting fluid through metal piece remove device, can reduce container bag filter equipment's processing load, improve the filter effect and reduce the consumptive material cost simultaneously.

Drawings

FIG. 1 is the structure diagram of the cutting fluid treatment device of the numerical control machining center.

The labels in the figure correspond to the following: A. the device comprises a main machine, 1, a first liquid storage tank, 2, a metal debris removing device, 21, a liquid inlet pipe orifice, 22, a circulating belt, 221, an inclined section, 222, a horizontal conveying section, 223, a vertical section, 23, a magnetic adsorption roller, 24, a supporting roller, 25, a scrap scraping mechanism, 251, a brush roller, 252, a scraper, 253, a debris hopper, 254, a spring ejector block, 26, a liquid collecting tank, 3, a paper bag filtering device, 4, a cooling device, 41, a serpentine pipe, 42, a radiating fin, 43, a fan and 5, a second liquid storage tank.

Detailed Description

The present invention will be further described with reference to the following detailed description.

Referring to fig. 1, the cutting fluid treatment equipment for the numerical control machining center is used for circularly treating cutting fluid used by a main machine A and comprises a first liquid storage tank 1, a metal debris removal device 2, a paper bag filtering device 3, a cooling device 4 and a second liquid storage tank 5.

The metal debris removing device 2 comprises a liquid inlet pipe orifice 21, a circulating belt 22, a plurality of magnetic adsorption rollers 23, a plurality of supporting rollers 24, a debris scraping mechanism 25 and a liquid collecting tank 26. The circulating belt 22 is wound outside the magnetic adsorption roller 23 and the supporting roller 24, the circulating belt 22 comprises an inclined section 221, a flat conveying section 222 and a vertical section 223, the conveying direction of the circulating belt 22 successively passes through the inclined section 221, the flat conveying section 222 and the vertical section 223, and the magnetic adsorption roller 23 and the supporting roller 24 are distributed in two parts so as to divide the circulating belt 22 into an adsorption area and a scrap removing area. The magnetic adsorption roller 23 is arranged on the inclined section 221 and a part of the flat conveying section 222 close to the inclined section 221 to form an adsorption area, and the rest part of the circulating belt 22 is guided and supported by the supporting roller 24 to form a chip removing area. The liquid inlet pipe orifice 21 sends the cutting fluid to the circulating belt 22 towards the upper part of the inclined section 221, and the liquid collecting tank 26 is arranged below the inclined section 221 to receive the cutting fluid. The scrap scraping mechanism 25 is disposed at the scrap removing region, specifically at the vertical section, the scrap scraping mechanism 25 includes a brush roller 251, a scraper 252, a scrap bucket 253, and a spring ejector 254, the scraper 252 is tilted upward and leans against the circulating belt 22 to scrape the metal scraps, the scrap bucket 253 is disposed below the scraper 252 to receive the metal scraps, and the brush roller 251 is disposed above the scraper 252 and rolls and brushes the circulating belt 22. A spring ejector 254 is disposed inside the endless belt 22 and ejects the vertical section 223 outwardly to ensure contact between the scraper 252 and the brush roller 251 and the endless belt 22.

The cutting fluid is sent out to container bag filter equipment 3 after the metal fillings are separated in the chip removing area of metal fillings remove device 2, and non-metal fillings in the cutting fluid are sent out to cooling device 4 after the separation of container bag filter equipment 3.

The cooling device 4 comprises a coiled pipe 41, radiating fins 42 and a fan 43, wherein cutting fluid flows through the coiled pipe 41, the radiating fins 42 are provided with a plurality of pieces, the coiled pipe 41 penetrates through the radiating fins 42, the fan 43 is arranged on one side of the radiating fins 42 to discharge the temperature of the radiating fins 42, and the cooling device 4 cools the cutting fluid.

The first liquid storage tank 1 is arranged between the metal debris removing device 2 and the host A and used for collecting cutting fluid used by the host A and sending the cutting fluid to the metal debris removing device 2, and the second liquid storage tank 5 is arranged between the cooling device 4 and the host A and used for sending the processed cooling fluid to the host A for use.

The working process of the cutting fluid treatment equipment of the numerical control machining center is as follows:

when the host machine A is used for processing, cutting fluid is obtained from the second liquid storage tank 5, and the cutting fluid cools and lubricates the cutter and the workpiece and takes away heat and chips generated in the processing process.

The used cutting fluid enters the first liquid storage tank 1 to be collected, the cutting fluid in the first liquid storage tank 1 is sent to the metal debris removing device 2 through a pipeline, the cutting fluid is sent to the upper part of the inclined section 221 of the circulating belt 22 from the liquid inlet pipe orifice 21, the cutting fluid flows down to the liquid collecting tank 26 along the inclined section 221 to be collected under the action of gravity, as the magnetic adsorption roller 23 is arranged in the inclined section 221, the metal debris in the cutting fluid is adsorbed on the circulating belt 22 of the inclined section 221 and is conveyed upwards to the flat conveying section 222, the metal debris reaches the non-adsorption part supported by the supporting roller 24 after being continuously adsorbed for a certain distance in the flat conveying section 222, then enters the vertical section 223, part of the metal debris directly falls into the debris hopper 253, and the adhered metal debris is removed into the debris hopper 253 after sequentially passing through the brush rollers 251 and the scraper 252, the chip removal on the surface of the circulating belt 22 is completed so as to be recycled;

the cutting fluid in the liquid collecting tank 26 is sent into the paper tape filtering device 3, because the metal scraps are filtered once, the residual impurities in the cutting fluid are less, the cutting fluid without impurities can be filtered out by the paper tape filtering device 3 again, the treatment capacity of the paper tape filtering device 3 can be reduced, and the cost can be reduced.

The cutting fluid without impurities enters the cooling device 4, enters the coiled pipe 41 and passes through the radiating fins 42 to lead out heat, the fan 43 radiates out the heat of the radiating fins 42 to realize cooling of the cutting fluid, and finally the cutting fluid is sent into the second liquid storage tank 5 to be used by the host A.

The above-mentioned only be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and all utilize this design right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (7)

1. The utility model provides a numerical control machining center cutting fluid treatment facility for the cutting fluid after the circulation processing host computer used, its characterized in that: including metal debris remove device, container bag filter equipment, cooling device, metal debris remove device includes circulation belt, a plurality of magnetic adsorption roller, a plurality of backing roll, scrapes bits mechanism, the circulation belt is outside locating magnetic adsorption roller, backing roll, and magnetic adsorption roller, backing roll are two parts and distribute to divide into the adsorption zone with the circulation belt, remove the bits district, scrape bits mechanism and locate except that bits district department, the cutting fluid process metal debris remove device send out to container bag filter equipment behind the metal debris separation except that the bits district, send out to cooling device behind the nonmetal piece separation in the container bag filter equipment with the cutting fluid, cooling device sends back the host computer after cooling down cutting fluid.

2. The machining fluid treatment apparatus of the numerical control machining center according to claim 1, wherein: metal piece remove device still includes feed liquor mouth of pipe, collecting tank, the circulation belt includes slope section, flat section, vertical section of sending, the direction of delivery of circulation belt is successively through slope section, flat section, vertical section of sending, the feed liquor mouth of pipe sends cutting fluid into the circulation belt towards slope section top on, the collecting tank is located slope section below in order to accept the cutting fluid.

3. The machining fluid treatment apparatus of the numerical control machining center according to claim 2, wherein: perpendicular section department is located to the scraping mechanism, and the scraping mechanism includes brush roller, scraper, piece fill, the scraper tilt up leans on locating the circulation belt in order to shovel the metal piece and fall, the piece is fought and is located the scraper below in order to accept the metal piece, the brush roller is located scraper top and round brush circulation belt.

4. The machining fluid treatment apparatus of the numerical control machining center according to claim 3, wherein: the scrap scraping mechanism further comprises a spring ejector block, the spring ejector block is arranged on the inner side of the circulating belt and ejects the vertical section outwards to ensure that the scraper, the brush roller and the circulating belt are in contact with each other.

5. The machining fluid treatment apparatus of the numerical control machining center according to claim 2, wherein: the magnetic adsorption rollers are arranged on the inclined section and the part of the horizontal conveying section close to the inclined section, and the rest part of the circulating belt is guided and supported by the supporting roller.

6. The machining fluid treatment apparatus of the numerical control machining center according to claim 1, wherein: the cooling device comprises a coiled pipe, radiating fins and a fan, wherein cutting fluid flows through the coiled pipe, the radiating fins are provided with a plurality of pieces, the coiled pipe penetrates through the radiating fins, and the fan is arranged on one side of the radiating fins to discharge the temperature of the radiating fins.

7. The machining fluid treatment apparatus of the numerical control machining center according to claim 1, wherein: still include first liquid storage pot, second liquid storage pot, first liquid storage pot is located between metal piece remove device and the host computer for collect the cutting fluid after the host computer uses and send to metal piece remove device, the second liquid storage pot is located between cooling device and the host computer, is used for sending the coolant liquid after will handling to the host computer and uses.

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