CN209902748U - Machining center equipment - Google Patents

Abstract

The utility model relates to a machine tool equipment field especially relates to a machining center equipment. It includes the tool magazine, be equipped with cutter and broach shell in the tool magazine, the broach shell is used for placing the cutter, still be equipped with the gas claw in the tool magazine, the gas claw can be installed in the broach shell, and the gas claw can be installed and carry out snatching of work piece on the main shaft of lathe during the tool changing, still include oil water separator, oil water separator includes the separation box, the separation box includes settling zone and disengagement zone, the lateral wall upper end of settling zone is equipped with mixed liquid entry, be equipped with vertical arrangement's separation baffle in the disengagement zone, separation baffle separates into oil zone and water zone with the disengagement zone, the disengagement zone is through mixing liquid entry and oil zone intercommunication, the separation clearance has between the lower extreme of separation baffle and the diapire of disengagement zone, the oil zone is through separation clearance and water zone intercommunication, the lateral wall upper end in oil zone is. The utility model discloses simplify the last unloading structure of work piece greatly, and oil-water separation simple structure, long service life and reliability are high.

Description

Machining center equipment

Technical Field

The utility model relates to a machining center equipment field especially relates to a machining center equipment.

Background

In the machining center, milling cutters, drill bits, boring cutters, reamers and the like are arranged in a tool magazine, a tool arm driving mechanism is exchanged with a tool arranged on a main shaft, in addition, the loading and unloading of workpieces are realized by matching a single machine with a mechanical arm, and the large-area and high-cost machine is occupied. Meanwhile, in the machining process of the machining center, cutting fluid is needed to cool and lubricate the cutter so as to achieve the required machining precision. And the moving parts of the machining center need lubricating oil for lubrication, so that the long-term use precision and the service life are ensured. Therefore, oil substances such as lubricating oil and the like are mixed into the cutting fluid in the using process of the machining center, so that the deterioration speed of the cutting fluid is accelerated, the service time of the cutting fluid is shortened, the waste is increased, the pollution discharge treatment of the cutting fluid is increased, and more environmental hazards are caused. At present, the processing center industry basically carries out pollution discharge treatment on oil-water mixed liquid directly, so that lubricating oil is wasted, and the problem of environmental pollution is serious.

In order to solve the problems, the Chinese patent No. CN 204195390U, granted on the No. 2015.03.11, is named as 'a small-sized combined machining center oil-water separation mechanism', and discloses a small-sized combined machining center oil-water separation mechanism which comprises a disc type oil-water separation device, a base and a labyrinth type oil-water separation tank, wherein the base is hollow, the disc type oil-water separation device comprises a bracket, a motor, a disc, an oil guide groove and an oil scraping plate, the support sets up on the base, and the disc is equipped with the center pin and passes through the center pin is fixed on the support, and the lower part setting of disc is inside the base, leads the oil groove slope to be fixed on the support, and the main shaft of motor is coaxial with the center pin of disc, and the frizing is fixed in leading the oil groove, and the frizing adopts the preparation of guide rail frizing, is provided with resistant oily rubber on the guide rail frizing, is equipped with the clearance between frizing and the disc. However, such equipment is expensive, the long-term friction of the oil scraper results in short service life, and the dependence on electricity results in low reliability.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming among the prior art work piece unloading equipment area big, with high costs and oil-water separator cost is higher, and life is short, the not high not enough of reliability, provides a machining center equipment, simplifies the work piece greatly and goes up unloading structure, and oil-water separation simple structure, and long service life and reliability are high, and the lubricating oil of isolating can be recycled, reduces the pollution to the environment.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a machining center equipment, includes the tool magazine, is equipped with cutter and tool sleeve in the tool magazine, the tool sleeve is used for placing the cutter, still be equipped with the gas claw in the tool magazine, the gas claw can be installed in the tool sleeve, and the gas claw can be installed and carry out snatching of work piece on the main shaft of lathe during the tool changing, still includes oil water separating device, and oil water separating device includes the separation box, the separation box includes settling zone and disengagement zone, and the lateral wall upper end of settling zone is equipped with mixed liquid entry, is equipped with vertical arrangement's separation baffle in the disengagement zone, and separation baffle separates into oil zone and water zone with the disengagement zone, and the disengagement zone is through mixing liquid entry and oil zone intercommunication, has the separation clearance between the lower extreme of separation baffle and the diapire of disengagement zone, and the oil zone is through separation clearance and water zone intercommunication, and.

The pneumatic claw is a pneumatic claw and is arranged in the tool sleeve like other tools, and after a tool changing command is executed, the pneumatic claw is arranged on the main shaft. The gas circuit enters the spindle through the rotary joint and then enters the gas claw, so that the gas claw is clamped, the workpiece on the workbench is conveyed by being moved back and forth and left and right through the up-and-down movement of the spindle head in cooperation with the front-and-back movement of the workbench, the workpiece is simply grabbed, and compared with the conventional mainstream workpiece loading and unloading mode realized by the single machine in cooperation with a mechanical arm, the workpiece loading and unloading mode is more economical and more area-saving.

The mixed liquid flows into the settling zone, so that the mixed liquid has a standing stage, the oil base floats above the water after the mixed liquid is stabilized for a certain time because the oil is lighter than the water, the oil above the oil and a small amount of water enter the oil zone through the mixed liquid inlet, after the mixed liquid enters the oil zone, the water can enter the water zone from the separation gap at the bottom because the water is heavier than the oil, and then the water flows back to the water tank through the water return port, the oil is remained in the oil zone and is discharged from the oil discharge port, and the oil-water separation is realized.

Preferably, a plurality of baffle plates are arranged in the settling zone, a labyrinth passage is formed among the baffle plates, and an outlet of the labyrinth passage forms the mixed liquid inlet. The baffle plate is used for reducing the flow rate of the mixed liquid, so that the mixed liquid has more time to precipitate, and the precipitation effect of oil under water and oil under water is achieved.

Preferably, the height of the water return port is higher than that of the oil drain port. Because the lathe need be with the block individual planning design that oil is many when the design, make it concentrate and arrange an area, the water in this area can not exist in a large number, can restrict the total amount of mixed liquid like this, and the height that highly is higher than the oil drain port of return water mouth makes the pressure differential of oil drain port be greater than the pressure differential of return water mouth, can make the discharge capacity of oil drain port be greater than the discharge capacity of return water mouth, reaches better water oil separating effect.

Preferably, a water return pipe extending upwards is arranged on the bottom wall of the water area, and the water return port is arranged at the upper end of the water return pipe in a lifting mode. The height of the water return port is adjustable, and the water return port and the oil discharge port are adjusted in height difference, so that oil-water separation balance is achieved. Tests and years of use experience show that the oil-water separation effect is the best when the height difference is 5-8 mm.

Preferably, the oil collecting device further comprises an oil collecting barrel and a rotating shaft which is horizontally arranged, the oil collecting barrel is located below the oil discharging port, the axis of the rotating shaft is perpendicular to the axis of the oil collecting barrel, the oil collecting barrel is rotatably arranged on the rotating shaft, and the center of gravity of the oil collecting barrel is located below the rotating shaft. The oil collecting barrel is used for collecting oil discharged from an oil discharge port, the center of gravity of the oil collecting barrel is located below the rotating shaft at the beginning, the center of gravity gradually moves upwards along with the increase of the oil until the oil collecting barrel deflects to pour the oil out, and the oil collecting barrel automatically returns after the oil is poured out.

As preferred, the bottom of settling zone is equipped with the chip removal pipe, is equipped with the sealing member in the chip removal pipe, and the sealing member can slide from top to bottom in the chip removal pipe, and the sealing member includes sealing member, lower sealing member and connects the connecting rod of sealing member and lower sealing member, goes up the sealing member and seals the upper end of chip removal pipe, is equipped with the chip removal mouth on the lateral wall of chip removal pipe, and the chip removal mouth is located between sealing member and the lower sealing member, and oil water separator still includes slide mechanism, slide mechanism includes the base, slides the slide bar that sets up on the base, and the slip direction level of slide bar, the one end of slide bar support on the lateral wall of oil collection bucket, and the other end of slide bar is equipped with radial bulge, and: the radial projection lifts the lower seal member to move the upper seal member upwardly to place the exhaust port in communication with the settling zone. The mixed liquid is also mixed with impurities such as cuttings and the like and is easy to accumulate at the bottom of the settling zone, so that more water enters the outlet of the mixed liquid to influence the oil-water separation effect of the final separation zone; along with the automatic re-setting after the oil collecting barrel pours oil, radial arch breaks away from with lower sealing member, and the sealing member resets, and the oil collecting barrel collects the oil that separates once more, circulates in proper order, realizes the automatic regular oil pouring of oil collecting barrel, drives the automatic regular chip removal of chip removal mouth simultaneously.

Preferably, the slide bar is provided with a return spring, and after the oil pouring of the oil collecting barrel is finished: the return spring urges the slide rod to return. When the oil collecting barrel is rotated after pouring oil, the return spring is compressed, after the oil is poured, the oil collecting barrel returns, and the return spring enables the slide rod to return.

The utility model has the advantages that: 1) the pneumatic claw is arranged in the cutter sleeve like other cutters, after a cutter changing instruction is executed, the pneumatic claw is arranged on the main shaft, the air path enters the main shaft through the rotary joint and then enters the pneumatic claw, the clamping of the pneumatic claw is realized, the workpiece on the workbench is carried by moving the main shaft head up and down and moving the workbench back, forth, left and right, the simple workpiece grabbing mode is realized, and the money and the occupied area are saved compared with the traditional mode that a single machine is matched with a mechanical arm to realize the loading and unloading of the workpiece; 2) the mixed liquid flows into the settling zone, so that the mixed liquid has a standing stage, because the oil is lighter than the water, the oil is basically floated above the water after the mixed liquid is stabilized for a certain time, at the moment, the oil above and a small amount of water enter the oil zone through the mixed liquid inlet, after the mixed liquid enters the oil zone, because the water is heavier than the oil, the water can enter the water zone from the separation gap at the bottom and then flow back to the water tank through the water return port, the oil is remained in the oil zone and is discharged from the oil discharge port, so that the oil-water separation is realized, the structure is simple, the reliability is high, and the; 3) the oil collecting barrel is used for automatically pouring oil at regular intervals, and the chip removing port is driven to be automatically opened and closed at regular intervals so as to discharge chips in the settling area and circulate in sequence, so that the final oil-water separation effect is ensured.

Drawings

Fig. 1 is a schematic structural diagram of a tool magazine of the present invention;

FIG. 2 is a schematic diagram of the gas path of the middle gas claw of the present invention;

FIG. 3 is a schematic structural view of the oil-water separator of the present invention

FIG. 4 is a schematic structural diagram of another view of the oil-water separation device of the present invention;

FIG. 5 is an enlarged view at A in FIG. 4;

fig. 6 is an enlarged view at B in fig. 4.

In the figure: the separation box 1, the settling zone 11, the separation zone 12, the mixed liquid inlet 13, the baffle plate 14, the separation baffle plate 15, the oil zone 16, the water zone 17, the separation gap 18, the chip removal pipe 19, the chip removal port 191, the oil discharge port 2, the water return port 3, the water return pipe 31, the oil collection barrel 4, the rotating shaft 41, the sealing element 6, the upper sealing element 61, the lower sealing element 62, the connecting rod 63, the base 71, the sliding rod 72, the radial protrusion 73, the inlet and outlet 74, the roller 75, the rolling groove 76, the return spring 77, the tool magazine 8, the tool 81, the tool sleeve 82 and the gas claw 83.

Detailed Description

The invention is further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 4, a machining center device includes a tool magazine 8, a tool 81 and a tool sleeve 82 are arranged in the tool magazine, the tool sleeve is used for placing the tool, a gas claw 83 is further arranged in the tool magazine, the gas claw is arranged in the tool sleeve, and the gas claw can be arranged on a main shaft of a machine tool and used for grabbing a workpiece during tool changing, the machining center device further includes an oil-water separation device, the oil-water separation device includes a separation box 1, the separation box includes a settling zone 11 and a separation zone 12, a mixed liquid inlet 13 is arranged at the upper end of the side wall of the settling zone, a plurality of baffle plates 14 are arranged in the settling zone, a labyrinth channel is formed between the baffle plates, an outlet of the labyrinth channel forms a mixed liquid inlet, the labyrinth channel formed by the baffle plates is used for reducing the flow rate of the mixed liquid, the mixed. Be equipped with vertical arrangement's separation baffle 15 in the disengagement zone, separation baffle separates into oil district 16 and water district 17 with the disengagement zone, and the disengagement zone is through mixing liquid entry and oil district intercommunication, has separation clearance 18 between the lower extreme of separation baffle and the diapire of disengagement zone, and the oil district is through separation clearance and water district intercommunication, and the lateral wall upper end in oil district is equipped with oil drain port 2, is equipped with return water mouth 3 in the water district.

The pneumatic claw is a pneumatic claw and is arranged in the tool sleeve like other tools, and after a tool changing command is executed, the pneumatic claw is arranged on the main shaft. The gas circuit enters the spindle through the rotary joint and then enters the gas claw, so that the gas claw is clamped, the workpiece on the workbench is conveyed by being moved back and forth and left and right through the up-and-down movement of the spindle head in cooperation with the front-and-back movement of the workbench, the workpiece is simply grabbed, and compared with the conventional mainstream workpiece loading and unloading mode realized by the single machine in cooperation with a mechanical arm, the workpiece loading and unloading mode is more economical and more area-saving.

The mixed liquid flows into the settling zone, so that the mixed liquid has a standing stage, the oil base floats above the water after the mixed liquid is stabilized for a certain time because the oil is lighter than the water, the oil above the oil and a small amount of water enter the oil zone through the mixed liquid inlet, after the mixed liquid enters the oil zone, the water can enter the water zone from the separation gap at the bottom because the water is heavier than the oil, and then the water flows back to the water tank through the water return port, the oil is remained in the oil zone and is discharged from the oil discharge port, and the oil-water separation is realized. The height that highly is higher than the oil drain port of return water mouth because machining center need plan the design alone with the block that oil is more when the design, makes it concentrate to arrange an area, and this regional water can not exist in a large number, can restrict the total amount of mixed liquid like this, and the height that highly is higher than the oil drain port of return water mouth makes the pressure differential of oil drain port be greater than the pressure differential of return water mouth, can make the discharge capacity of oil drain port be greater than the discharge capacity of return water mouth, reaches better water oil separating effect.

Be equipped with the wet return 31 that upwards extends on the diapire in water district, the return water mouth sets up in the upper end of wet return with liftable, and the height-adjustable of return water mouth is through the difference in height of adjustment return water mouth and oil drain port to realize the separation of profit balanced. Tests and years of use experience show that the oil-water separation effect is the best when the height difference is 5-8 mm.

The oil-water separation device further comprises an oil collecting barrel 4 and a rotating shaft 41 which is horizontally arranged, the oil collecting barrel which is vertically arranged is positioned below the oil discharging port, the axis of the rotating shaft is perpendicular to the axis of the oil collecting barrel, the oil collecting barrel is rotatably arranged on the rotating shaft, and the center of gravity of the oil collecting barrel is positioned below the rotating shaft. The oil collecting barrel is used for collecting oil discharged from an oil discharge port, the center of gravity of the oil collecting barrel is located below the rotating shaft at the beginning, the center of gravity gradually moves upwards along with the increase of the oil until the oil collecting barrel deflects to pour the oil out, and the oil collecting barrel automatically returns after the oil is poured out.

The bottom of settling zone is equipped with chip removal pipe 19, be equipped with sealing member 6 in the chip removal pipe, the sealing member can slide from top to bottom in the chip removal pipe, the sealing member includes sealing member 61 down, sealing member 62 and connect the connecting rod 63 of connecting seal member and lower sealing member down, it is sealed with the upper end of chip removal pipe to go up the sealing member, be equipped with chip removal mouth 191 on the lateral wall of chip removal pipe, the chip removal mouth is located between sealing member and the lower sealing member, oil water separator still includes slide mechanism, slide mechanism includes base 71, the slide bar 72 of slip setting on the base, the slip direction level of slide bar, the one end of slide bar supports on the lateral wall of oil collection bucket, the other end of slide bar is equipped with radial bulge 73, lower sealing member supports on: the radial projection lifts the lower seal member to move the upper seal member upwardly to place the exhaust port in communication with the settling zone. The lower surface of the lower sealing element is arc-shaped, the outer surface of the radial bulge is arc-shaped, and the lower end of the chip removal pipe is provided with an inlet and outlet 74 through which the radial bulge can pass, so that the radial bulge can better jack the lower sealing element through the inlet and outlet. The mixed liquid is also mixed with impurities such as cuttings and the like and is easy to accumulate at the bottom of the settling zone, so that more water enters the outlet of the mixed liquid to influence the oil-water separation effect of the final separation zone; along with the automatic re-setting after the oil collecting barrel pours oil, radial arch breaks away from with lower sealing member, and the sealing member resets, and the oil collecting barrel collects the oil that separates once more, circulates in proper order, realizes the automatic regular oil pouring of oil collecting barrel, drives the automatic regular chip removal of chip removal mouth simultaneously.

Specifically, the end of the sliding rod is provided with a roller 75, the outer side wall of the oil collection barrel is provided with a rolling groove 76, the roller is arranged in the rolling groove in a rolling mode, friction between the sliding rod and the oil collection barrel is reduced, and the sliding rod can be better pushed by rotation of the oil collection barrel.

Specifically, be equipped with reset spring 77 on the slide bar, after the oil collecting tank pouring oil is ended: the return spring urges the slide rod to return. When the oil collecting barrel is rotated after pouring oil, the return spring is compressed, after the oil is poured, the oil collecting barrel returns, and the return spring enables the slide rod to return.

The utility model has the advantages that: the pneumatic claw is arranged in the cutter sleeve like other cutters, after a cutter changing instruction is executed, the pneumatic claw is arranged on the main shaft, the air path enters the main shaft through the rotary joint and then enters the pneumatic claw, the clamping of the pneumatic claw is realized, the workpiece on the workbench is carried by moving the main shaft head up and down and moving the workbench back, forth, left and right, the simple workpiece grabbing mode is realized, and the money and the occupied area are saved compared with the traditional mode that a single machine is matched with a mechanical arm to realize the loading and unloading of the workpiece; the mixed liquid flows into the settling zone, so that the mixed liquid has a standing stage, because the oil is lighter than the water, the oil is basically floated above the water after the mixed liquid is stabilized for a certain time, at the moment, the oil above and a small amount of water enter the oil zone through the mixed liquid inlet, after the mixed liquid enters the oil zone, because the water is heavier than the oil, the water can enter the water zone from the separation gap at the bottom and then flow back to the water tank through the water return port, the oil is remained in the oil zone and is discharged from the oil discharge port, so that the oil-water separation is realized, the structure is simple, the reliability is high, and the; the oil collecting barrel is used for automatically pouring oil at regular intervals, and the chip removing port is driven to be automatically opened and closed at regular intervals so as to discharge chips in the settling area and circulate in sequence, so that the final oil-water separation effect is ensured.

Claims (7)

1. A machining center device comprises a tool magazine, wherein a tool and a tool sleeve are arranged in the tool magazine, and the tool sleeve is used for placing the tool;

still include oil-water separator, oil-water separator includes the separation box, the separation box includes settling zone and disengagement zone, and the lateral wall upper end of settling zone is equipped with mixed liquid inlet, is equipped with vertical arrangement's separation baffle in the disengagement zone, and separation baffle separates into oil zone and water district with the disengagement zone, and the disengagement zone is through mixing liquid inlet and oil district intercommunication, has the separation clearance between the lower extreme of separation baffle and the diapire of disengagement zone, and the oil district is through separation clearance and water district intercommunication, and the lateral wall upper end in oil zone is equipped with the oil drain, is equipped with the return water mouth in the water district.

2. A machining center as claimed in claim 1 wherein the settling zone includes baffles, the baffles defining a labyrinth passage therebetween, the outlet of the labyrinth passage defining the mixed liquor inlet.

3. The machining center apparatus as claimed in claim 1 or 2, wherein the height of the water return port is higher than the height of the oil discharge port.

4. The machining center apparatus according to claim 1 or 2, wherein the bottom wall of the water section is provided with a water return pipe extending upward, and the water return port is liftably provided at an upper end of the water return pipe.

5. The machining center apparatus according to claim 1 or 2, wherein the oil-water separator further includes an oil collection barrel and a horizontally disposed rotating shaft, the oil collection barrel is located below the oil discharge port, an axis of the rotating shaft is perpendicular to an axis of the oil collection barrel, the oil collection barrel is rotatably disposed on the rotating shaft, and a center of gravity of the oil collection barrel is located below the rotating shaft.

6. The machining center device according to claim 5, characterized in that, the bottom of settling zone is equipped with the chip removal pipe, is equipped with the sealing member in the chip removal pipe, and the sealing member can slide from top to bottom in the chip removal pipe, and the sealing member includes sealing member, lower sealing member and the connecting rod of connecting upper seal member and lower sealing member, and it is sealed with the upper end of chip removal pipe to go up the sealing member, is equipped with the chip removal mouth on the lateral wall of chip removal pipe, and the chip removal mouth is located between upper seal member and the lower sealing member, and oil water separator still includes slide mechanism, slide mechanism includes the base, slides and sets up the slide bar on the base, and the slip direction level of slide bar, the one end of slide bar is supported on the lateral wall of oil collection bucket, and the other end of slide bar is: the radial projection lifts the lower seal member to move the upper seal member upwardly to place the exhaust port in communication with the settling zone.

7. The machining center device as claimed in claim 6, wherein the slide rod is provided with a return spring, and when oil pouring of the oil collecting barrel is finished: the return spring urges the slide rod to return.

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