CN111844495A - Centralized filtering oil supply equipment for numerical control machine tool - Google Patents

Abstract

The invention discloses a centralized filtering oil supply device of a numerical control machine tool, which structurally comprises an oil pump, an oil inlet, a circulating filter tank, an oil outlet, a pressure gauge and a nozzle, wherein the lower end of the oil pump is arranged in the circulating filter tank, the rotating plate rotates in the sealing shell through the connection of the support rod, the convex block slides in the groove, and part of sharp and fine glass waste is crushed, the plate body rebounds upwards through the elastic reset of the spring, at the moment, the glass scraps accumulated on the plate body bounce upwards and enter the discharge pipe from the scrap outlet, glass sweeps in the lubricating oil are separated, the torsion shaft is limited to rotate only to the left side through the limiting rotary groove arranged on the torsion shaft, the glass sweeps are discharged into the precipitation plate, the glass sweeps flow downwards along with the precipitation plate, the glass sweeps on the lubricating oil are guaranteed to be removed, and the glass sweeps are prevented from entering the guide rail of the machine tool.

Description

Centralized filtering oil supply equipment for numerical control machine tool

Technical Field

The invention relates to the field of numerical control machines, in particular to centralized filtering oil supply equipment for a numerical control machine.

Background

The numerically-controlled machine tool is in the cutting process, lubricating oil needs to be provided for the low-speed rolling line guide rail of the numerically-controlled machine tool, stable sliding of the guide rail is guaranteed, oil supply equipment is controlled through the pressure of a lubricating system to perform circulating oil supply, the numerically-controlled machine tool has a lubricating effect and a cooling effect, but when the numerically-controlled machine tool is used for cutting glass, more sharp and fine scraps can be generated due to the fact that the glass has hard and brittle properties, the scraps flow easily along with the lubricating oil at the guide rail, and therefore the scraps enter the inside of the oil supply equipment, when the oil supply equipment is used for supplying oil to the guide rail, the glass scraps are discharged to the gap of the guide rail along with the lubricating oil, the guide rail is blocked in the sliding process, abrasion of the guide rail is increased, and the service life of the.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this digit control machine tool is concentrated and is filtered fuel feeding equipment, its structure includes oil pump, oil inlet, circulating filter case, oil-out, manometer, nozzle, the oil pump lower extreme is installed inside circulating filter case, oil inlet fixed mounting is in circulating filter case upper end and link up mutually, circulating filter case upper end inlays to be solid installs the oil-out, the oil-out top is connected with the manometer, the nozzle links up mutually with the oil-out, circulating filter case includes sealed box, advances oil pipe, removes bits mechanism, goes out oil pipe, collection mechanism, sealed box left side inside is equipped with into oil pipe to the oil inlet link up mutually with removing bits mechanism through advancing oil pipe, it link up mutually with the oil-out through going out oil pipe to remove bits mechanism, remove bits mechanism left side lower extreme and collect mechanism right-hand member and inlay solid installation, the oil pump lower extreme is connected with removing bits mechanism.

As a further improvement of the invention, the chip removing mechanism comprises a crushing mechanism, a sealing shell, grooves, a flow port and chip filtering mechanisms, the top of the crushing mechanism is connected with an oil pump, the lower end of the crushing mechanism is installed in the sealing shell, the inner wall of the sealing shell is embedded with the grooves, the flow port is embedded and fixedly installed at the bottom of the sealing shell, the chip filtering mechanisms are arranged at the lower ends of the flow ports, the right lower ends of the chip filtering mechanisms are fixed with an oil outlet pipe, the left lower ends of the chip filtering mechanisms are communicated with the collecting mechanism, and the grooves are of a cavity hemispheroid groove structure and are provided with seven grooves.

As a further improvement of the invention, the crushing mechanism comprises a connecting rotating rod, a supporting rod, a rotating plate and a lug, the top of the connecting rotating rod is connected with an oil pump, the outer surface of the connecting rotating rod is welded with the supporting rod, the outer end of the supporting rod is welded with the rotating plate, the lug is embedded on the outer side surface of the rotating plate and is positioned in the groove, four supporting rods and four rotating plates are arranged and are distributed on four positions on the outer side of the connecting rotating rod, the lugs are in a hemispherical structure, twenty eight lugs are arranged, seven lugs are in one group, and the lugs are distributed on the middle end of the outer side surface of the rotating plate longitudinally.

As a further improvement of the invention, the scrap filtering mechanism comprises a flow guide pipe, a scrap outlet, a discharge pipe, slide rails, a spring, a slide shaft and a filter plate, wherein the upper end of the flow guide pipe is fixed with the lower end of the flow port, the scrap outlet is embedded in the left side of the flow guide pipe, the left side of the flow guide pipe is communicated with the discharge pipe through the scrap outlet, the slide rails are fixedly arranged on the inner side of the lower end of the flow guide pipe, the slide shaft is slidably arranged in the slide rails, the spring is arranged in the slide rails, the slide shaft is fixed with the outer surface of the filter plate, the filter plate is arranged in the lower end of the flow guide pipe in a clearance fit manner, the lower end of the flow guide pipe and the discharge pipe are in ninety.

As a further improvement of the invention, the filter plate comprises a plate body and a through hole, wherein the plate body is arranged inside the lower end of the flow guide pipe in a clearance fit mode, the outer side surface of the plate body is fixed with the sliding shaft, the through hole penetrates through the plate body, the upper side of the plate body is of a concave cavity circular truncated cone structure, and the through hole is of a structure with a wide inlet and a narrow outlet.

As a further improvement of the invention, the collecting mechanism comprises a separating mechanism, a chip inlet pipe, a collecting frame and a chip return pipe, the chip inlet pipe is arranged at the lower end of the right side of the separating mechanism, the chip inlet pipe is arranged at the upper end of the right side of the separating mechanism, the chip return pipe is fixed with the upper end of the chip removing mechanism, the chip inlet pipe is communicated with the lower left end of the chip removing mechanism, the collecting frame is arranged inside the left end of the separating mechanism, and the upper side of the tail end of the chip inlet pipe is in a sealed state.

As a further improvement of the invention, the separating mechanism comprises a shell, a separating groove, a baffle plate, a torsion shaft, a through plate, a settling plate and an inclined conduit, wherein the separating groove is arranged in the right end of the shell, the separating groove is hinged with the upper end of the baffle plate through the torsion shaft, the through plate is arranged at the middle end of the left side in the separating groove, the settling plate is arranged at the lower end of the left side in the separating groove, the settling plate is fixed with the top of the inclined conduit, the lower end of the inclined conduit is connected with the right end of a collecting frame, a fillet structure is arranged in the separating groove, a limiting rotating groove is further arranged on the outer side of the torsion shaft, the limiting rotating groove limits the torsion shaft to rotate only towards the left side, the baffle plate is ensured to be opened towards the right, and a through.

The invention has the beneficial effects that:

1. the inside glass sweeps that contains of lubricating oil is collected through the recess and is piled up, make the commentaries on classics board rotate inside the seal shell through the connection of bracing piece after that, slide in the recess is inside through the lug, grind the sharp-pointed tiny glass sweeps of part, lubricating oil carries out the circulation of normally flowing through the through-hole, and the glass sweeps is piled up on the plate body, elasticity through the spring resets and makes the plate body rebound up, accumulational glass sweeps up on the plate body at this moment, inside the discharge pipe is entered into from the play bits mouth, separate the glass sweeps in the lubricating oil.

2. The limiting rotary groove arranged on the torsion shaft limits the torsion shaft to rotate only towards the left side, so that the baffle plate is opened towards the right side, glass scraps are discharged to the inside of the precipitation plate, lubricating oil in the separation groove flows from the inside of the separation plate along with the work of the oil pump, the glass scraps flow downwards along with the precipitation plate, and the glass scraps on the lubricating oil are removed.

Drawings

Fig. 1 is a schematic structural diagram of a centralized filtering oil supply device of a numerical control machine tool.

Fig. 2 is a schematic view of the internal structure of a circulation filter box according to the present invention.

FIG. 3 is a schematic structural diagram of a chip removing mechanism according to the present invention.

Fig. 4 is a schematic perspective view of a crushing mechanism according to the present invention.

Fig. 5 is a schematic diagram of the internal structure of a filter mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a filter plate according to the present invention.

Fig. 7 is a schematic perspective view of a collecting mechanism according to the present invention.

Fig. 8 is a schematic view of the internal structure of a separating mechanism according to the present invention.

Fig. 9 is a partial enlarged structural diagram of a separating mechanism a of the present invention.

In the figure: an oil pump-1, an oil inlet-2, a circulating filter tank-3, an oil outlet-4, a pressure gauge-5, a nozzle-6, a sealed tank body-31, an oil inlet pipe-32, a chip removing mechanism-33, an oil outlet pipe-34, a collecting mechanism-35, a crushing mechanism-331, a sealed shell-332, a groove-333, a flow port-334, a chip filtering mechanism-335, a connecting rotating rod-31 a, a supporting rod-31 b, a rotating plate-31 c, a bump-31 d, a flow guide pipe-35 a, a chip outlet-35 b, a discharge pipe-35 c, a slide rail-35 d, a spring-35 e, a slide shaft-35 f, a filter plate-35 g, a plate body-a 1, a through hole-g 2, a separating mechanism-351, a chip inlet pipe-352, A collecting frame-353, a return pipe-354, a shell-51 a, a separating tank-51 b, a baffle-51 c, a torsion shaft-51 d, a through plate-51 e, a settling plate-51 f and an inclined conduit-51 g.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention relates to centralized filtering oil supply equipment of a numerical control machine tool, which structurally comprises an oil pump 1, an oil inlet 2, a circulating filter tank 3, an oil outlet 4, a pressure gauge 5 and a nozzle 6, wherein the lower end of the oil pump 1 is arranged inside the circulating filter tank 3, the oil inlet 2 is fixedly arranged at the upper end of the circulating filter tank 3 and communicated with the circulating filter tank, the upper end of the circulating filter tank 3 is fixedly embedded with the oil outlet 4, the top of the oil outlet 4 is connected with the pressure gauge 5, the nozzle 6 is communicated with the oil outlet 4, the circulating filter tank 3 comprises a sealing tank body 31, an oil inlet pipe 32, a chip removing mechanism 33, an oil outlet pipe 34 and a collecting mechanism 35, the oil inlet pipe 32 is arranged inside the left side of the sealing tank body 31, the oil inlet 2 is communicated with the chip removing mechanism 33 through the oil inlet pipe 32, the chip removing mechanism 33 is communicated with the oil outlet 4 through the oil outlet, the lower end of the oil pump 1 is connected with a scrap removing mechanism 33.

Wherein, chip removing mechanism 33 includes broken mechanism 331, sealed shell 332, recess 333, flows mouth 334, filter chip mechanism 335, broken mechanism 331 top is connected with oil pump 1 to broken mechanism 331 lower extreme is installed inside sealed shell 332, sealed shell 332 inner wall has inlayed recess 333, it installs the bottom at sealed shell 332 to flow mouth 334 inlays admittedly, it is equipped with filter chip mechanism 335 to flow mouth 334 lower extreme, and filter chip mechanism 335 right side lower extreme is fixed mutually with play oil pipe 34, the left lower extreme of filter chip mechanism 335 link up with collection mechanism 35 mutually, recess 333 is cavity hemisphere groove structure to be equipped with seven, the equidistance distributes on sealed shell 332 inner wall, does benefit to sharp-pointed tiny glass sweeps to collect and piles up inside recess 333.

The crushing mechanism 331 comprises a connecting rotating rod 31a, a supporting rod 31b, a rotating plate 31c and a bump 31d, the top of the connecting rotating rod 31a is connected with the oil pump 1, the outer surface of the connecting rotating rod 31a is welded with the supporting rod 31b, the outer end of the supporting rod 31b is welded with the rotating plate 31c, the bump 31d is embedded on the outer side surface of the rotating plate 31c, the bump 31d is positioned inside the groove 333, the supporting rod 31b and the rotating plate 31c are respectively provided with four and distributed on four directions outside the connecting rotating rod 31a, the rotating rod 31a is connected to rotate, so that the rotating plate 31c primarily extrudes and crushes the glass waste in the sealing shell 332, the bump 31d is of a hemispherical structure and provided with twenty-eight bumps, seven are in a group, and is distributed at the middle end of the outer side surface of the rotating plate 31c in the longitudinal direction, thereby facilitating the bump 31d to slide and rotate inside the groove 333, the accumulated sharp and fine glass waste is collected inside the groove 333 and crushed.

The scrap filtering mechanism 335 comprises a flow guide pipe 35a, a scrap outlet 35b, a discharge pipe 35c, a slide rail 35d, a spring 35e, a sliding shaft 35f and a filter plate 35g, wherein the upper end of the flow guide pipe 35a is fixed with the lower end of the flow port 334, the scrap outlet 35b is embedded in the left side of the flow guide pipe 35a, the left side of the flow guide pipe 35a is communicated with the discharge pipe 35c through the scrap outlet 35b, the slide rail 35d is fixedly installed on the inner side of the lower end of the flow guide pipe 35a, the sliding shaft 35f is slidably installed in the slide rail 35d, the spring 35e is arranged in the slide rail 35d, the sliding shaft 35f is fixed with the outer side surface of the filter plate 35g, the filter plate 35g is installed in the lower end of the flow guide pipe 35a in a clearance fit manner, the lower end of the flow guide pipe 35a and the discharge pipe 35c are both in, improve the separation of lubricating oil and glass sweeps, slide rail 35d is equipped with two altogether to be the arc structure, ensure that sliding shaft 35f drives filter plate 35g and carry out the steady slip of arc inside honeycomb duct 35a lower extreme, the improvement filters out the glass sweeps that contains in the lubricating oil.

Wherein, filter plate 35g includes plate body a1, through-hole g2, plate body a1 adopts clearance fit to install inside honeycomb duct 35a lower extreme to plate body a1 outside surface is fixed mutually with sliding shaft 35f, through-hole g2 runs through inside plate body a1, plate body a1 upside is recessed cavity round platform type structure to through-hole g2 is the narrow structure of wide export of import, does benefit to and separates out the glass sweeps in the lubricating oil, makes the glass sweeps concentrate on plate body a1 upside cavity inside.

The specific use mode and function of the embodiment are as follows:

in the invention, lubricating oil used on a machine tool is discharged into an oil inlet 2, a connecting rotating rod 31a is driven to rotate by rotating a shaft on an oil pump 1, then the lubricating oil enters a sealing shell 332, glass scraps contained in the lubricating oil are collected and accumulated through a groove 333, then a rotating plate 31c rotates in the sealing shell 332 through the connection of a support rod 31b, a lug 31d slides in the groove 333 to crush part of sharp and fine glass scraps, then the lubricating oil enters a guide pipe 35a, a plate body a1 is extruded by the weight of the lubricating oil, a sliding shaft 35f slides around a sliding rail 35d, a plate body a1 is driven to slide at the lower end in the guide pipe 35a, meanwhile, the lubricating oil is normally circulated through a through hole g2, and the glass scraps are accumulated on the plate body a1, the plate body a1 rebounds upwards through the elastic reset of the spring 35e, and at this time, the glass scraps accumulated on the plate body a1 bounce upwards and enter the discharge pipe 35c from the scrap outlet 35b to separate the glass scraps in the lubricating oil, so that the glass scraps are prevented from entering the guide rail of the machine tool.

Example 2:

as shown in fig. 7 to 9:

the collection mechanism 35 comprises a separation mechanism 351, a chip inlet pipe 352, a collection frame 353 and a return pipe 354, the chip inlet pipe 352 is arranged at the lower end of the right side of the separation mechanism 351, the chip inlet pipe 352 is arranged at the upper end of the right side of the separation mechanism 351, the return pipe 354 is fixed with the upper end of the chip removing mechanism 33, the chip inlet pipe 352 is communicated with the lower end of the left side of the chip removing mechanism 33, the collection frame 353 is arranged inside the left end of the separation mechanism 351, and the upper side of the tail end of the chip inlet pipe 352 is in a sealed state, so that part of glass waste chips in the lubricating oil flow downwards to be precipitated, and the separation effect of the lubricating oil and the glass waste chips is improved.

Wherein the separating mechanism 351 comprises a housing 51a, a separating groove 51b, a baffle 51c, a torsion shaft 51d, a through plate 51e, a settling plate 51f and a chute 51g, the separating groove 51b is arranged in the right end of the housing 51a, the separating groove 51b is hinged with the upper end of the baffle 51c through the torsion shaft 51d, the through plate 51e is arranged in the left middle end of the separating groove 51b, the settling plate 51f is arranged at the left lower end of the separating groove 51b, the settling plate 51f is fixed with the top of the chute 51g, the lower end of the chute 51g is connected with the right end of the collecting frame 353, the separating groove 51b is internally provided with a fillet structure to prevent the lubricating oil and the glass waste from remaining in the separating groove 51b, the torsion shaft 51d is also provided with a limit rotating groove outside, the limit rotating groove limits the torsion shaft 51d to only rotate to the left side to ensure that the baffle 51c opens to the right side, the glass waste is discharged into the settling plate 51f, the through plate 51e is further internally provided with a through groove with a wide inlet and a narrow outlet, so that part of lubricating oil entering the separating groove 51b is sucked upwards in the working process of the oil pump 1, the lubricating oil is prevented from flowing backwards, and the glass waste contained in the lubricating oil is removed.

The specific use mode and function of the embodiment are as follows:

in the present invention, the waste chips enter the separating tank 51b through the chip inlet pipe 352, and part of the lubricating oil also enters the separating tank 51b, at this time, the torsion shaft 51d is limited to rotate only to the left by the limit rotating groove provided on the torsion shaft 51d, so that the baffle plate 51c is opened to the right, and the glass waste chips are discharged to the inside of the settling plate 51f, and the lubricating oil in the separating tank 51b flows from the inside of the through plate 51e along with the operation of the oil pump 1, then enters the inside of the return pipe 354, finally enters the inside of the sealing shell 332 to flow circularly, and the glass waste chips flow downward along with the settling plate 51f, so that the glass waste chips on the lubricating oil are removed, and are discharged to the inside of the collecting frame 353 through the inclined conduit 51g to be collected.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (7)

1. The utility model provides a digit control machine tool is concentrated and is filtered fuel feeding equipment, its structure includes oil pump (1), oil inlet (2), circulation rose box (3), oil-out (4), manometer (5), nozzle (6), oil pump (1) lower extreme is installed inside circulation rose box (3), oil inlet (2) fixed mounting is in circulation rose box (3) upper end and link up mutually, it installs oil-out (4) to inlay solid in circulation rose box (3) upper end, oil-out (4) top is connected with manometer (5), nozzle (6) link up mutually with oil-out (4), its characterized in that:

circulation rose box (3) are including sealed box (31), advance oil pipe (32), remove bits mechanism (33), go out oil pipe (34), collect mechanism (35), sealed box (31) left side inside is equipped with into oil pipe (32) to oil inlet (2) link up with removing bits mechanism (33) through advancing oil pipe (32) mutually, it link up with oil-out (4) mutually to remove bits mechanism (33) through going out oil pipe (34), remove the installation of bits mechanism (33) left side lower extreme and collection mechanism (35) right-hand member solid, oil pump (1) lower extreme is connected with removing bits mechanism (33).

2. The centralized filtering oil supply equipment of the numerical control machine tool as claimed in claim 1, wherein: remove bits mechanism (33) including broken mechanism (331), sealed shell (332), recess (333), flow mouth (334), strain bits mechanism (335), broken mechanism (331) top is connected with oil pump (1) to broken mechanism (331) lower extreme is installed inside sealed shell (332), sealed shell (332) inner wall has inlayed recess (333), it installs the bottom at sealed shell (332) to flow mouth (334) the embedded solid, it is equipped with and strains bits mechanism (335) to flow mouth (334) lower extreme to strain bits mechanism (335) right side lower extreme is fixed mutually with play oil pipe (34), it link up mutually with collection mechanism (35) to strain bits mechanism (335) left side lower extreme.

3. The centralized filtering oil supply equipment of the numerical control machine tool as claimed in claim 2, wherein: broken mechanism (331) is including connecting bull stick (31 a), branch (31 b), commentaries on classics board (31 c), lug (31 d), it is connected with oil pump (1) to connect bull stick (31 a) top, it welds mutually with branch (31 b) to connect bull stick (31 a) surface, branch (31 b) outer end welds mutually with commentaries on classics board (31 c) to lug (31 d) have been inlayed to commentaries on classics board (31 c) outside surface, lug (31 d) are located inside recess (333).

4. The centralized filtering oil supply equipment of the numerical control machine tool as claimed in claim 3, wherein: the scrap filtering mechanism (335) comprises a flow guide pipe (35 a), a scrap outlet (35 b), a discharge pipe (35 c), a slide rail (35 d), a spring (35 e), a slide shaft (35 f) and a filter plate (35 g), the upper end of the flow guide pipe (35 a) is fixed with the lower end of the flow opening (334), a scrap outlet (35 b) is embedded in the left side of the flow guide pipe (35 a), the left side of the flow guide pipe (35 a) is communicated with the discharge pipe (35 c) through a chip outlet (35 b), the inner side of the lower end of the flow guide pipe (35 a) is fixedly provided with a slide rail (35 d), the sliding shaft (35 f) is arranged in a sliding rail (35 d) in a sliding way, a spring (35 e) is arranged in the sliding rail (35 d), the sliding shaft (35 f) is fixed with the outer side surface of the filter plate (35 g), and the filter plate (35 g) is installed inside the lower end of the draft tube (35 a) with clearance fit.

5. The centralized filtering oil supply equipment of the numerical control machine tool as claimed in claim 4, wherein: the filter plate (35 g) includes plate body (a 1), through-hole (g 2), plate body (a 1) adopt clearance fit to install inside honeycomb duct (35 a) lower extreme to plate body (a 1) outside surface is fixed mutually with sliding shaft (35 f), through-hole (g 2) run through inside plate body (a 1).

6. The centralized filtering oil supply equipment of the numerical control machine tool as claimed in claim 1, wherein: the collecting mechanism (35) comprises a separating mechanism (351), a chip inlet pipe (352), a collecting frame (353) and a backflow pipe (354), wherein the chip inlet pipe (352) is arranged at the lower end of the right side of the separating mechanism (351), the chip inlet pipe (352) is arranged at the upper end of the right side of the separating mechanism (351), the backflow pipe (354) is fixed to the upper end of the chip removing mechanism (33), the chip inlet pipe (352) is communicated with the lower left end of the chip removing mechanism (33), and the collecting frame (353) is arranged inside the left end of the separating mechanism (351).

7. The centralized filtering oil supply equipment of the numerical control machine tool as claimed in claim 6, wherein: the separation mechanism (351) comprises a shell (51 a), a separation groove (51 b), a baffle plate (51 c), a torsion shaft (51 d), a through plate (51 e), a settling plate (51 f) and an inclined guide pipe (51 g), wherein the separation groove (51 b) is formed in the right end of the shell (51 a), the separation groove (51 b) is hinged to the upper end of the baffle plate (51 c) through the torsion shaft (51 d), the through plate (51 e) is arranged at the left middle end in the separation groove (51 b), the settling plate (51 f) is installed at the left lower end of the separation groove (51 b), the settling plate (51 f) is fixed to the top of the inclined guide pipe (51 g), and the lower end of the inclined guide pipe (51 g) is connected with the right end of a collection frame (353).

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