CN216228269U - Numerical control machine tool for machining metal ceramic milling cutter - Google Patents

Abstract

The application relates to a numerical control machine tool for processing a metal ceramic milling cutter, which comprises a machine body and a filtering device arranged on one side of the machine body, the filtering device comprises a filtering box and a material conveying pump, the filtering box is arranged at one side of the machine body, the top end of the filter box is provided with an opening, the top end of the filter box is provided with a mounting plate, the mounting plate is provided with a material receiving port, a filter box used for sealing the material receiving port is arranged on the mounting plate, the top end of the filter box is provided with an opening, the bottom surface of the filter box is provided with first filter holes which are uniformly distributed, the machine body is provided with a discharge hole, the discharge hole is connected with a discharge pipe, one end of the discharge pipe, which is far away from the discharge hole, is positioned above the filter box, the negative pressure port of the delivery pump is connected with the interior of the filter box, and the positive pressure port of the delivery pump is connected with the machine body and used for leading cooling liquid back to the machine body. This application has the more convenient effect of messenger's clearance filter residue.

Description

Numerical control machine tool for machining metal ceramic milling cutter

Technical Field

The application relates to the field of metal ceramic milling cutter processing, in particular to a numerical control machine tool for processing metal ceramic milling cutters.

Background

A milling cutter is a rotating tool for milling machining having one or more cutter teeth. The metal ceramic is a material which can resist high temperature and is not easy to break, and the metal ceramic is a better choice when the milling cutter is manufactured.

Among the correlation technique, processing cermet milling cutter generally uses the digit control machine tool, and the digit control machine tool includes organism, filter equipment, offers the relief hole that is used for the discharge coolant liquid on the organism, is connected with row material pipe and arranges material pipe and relief hole intercommunication on the organism. Filter equipment includes the rose box, the filter screen, the conveying pump, one side at the organism is placed to the rose box, the vertical setting of filter screen just divide into the first cavity of depositing the filter residue and deposit the second cavity of filtrating with the rose box in the rose box, arrange the material pipe and keep away from the one end rose box of organism and connect and communicate with first cavity, the conveying pump sets up on the rose box, the negative pressure mouth of conveying pump is connected with the inlet pipe, inlet pipe and second cavity intercommunication, the malleation mouth of conveying pump is connected with the discharging pipe that is used for leading the coolant liquid back to the organism.

In view of the above-mentioned related art, the inventor believes that when the filter residue in the first chamber is accumulated to a certain amount, the filter box needs to be opened for cleaning, and the filter residue is accumulated at the bottom of the filter box, so that the cleaning is very inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the clearance filter residue in the rose box, this application provides a digit control machine tool for processing cermet milling cutter.

The application provides a digit control machine tool for processing cermet milling cutter adopts following technical scheme:

a numerical control machine tool for processing a metal ceramic milling cutter comprises a machine body and a filtering device arranged on one side of the machine body, the filtering device comprises a filtering box and a material conveying pump, the filtering box is arranged at one side of the machine body, the top end of the filter box is provided with an opening, the top end of the filter box is provided with a mounting plate, the mounting plate is provided with a material receiving port, a filter box used for sealing the material receiving port is arranged on the mounting plate, the top end of the filter box is provided with an opening, the bottom surface of the filter box is provided with first filter holes which are uniformly distributed, the machine body is provided with a discharge hole, the discharge hole is connected with a discharge pipe, one end of the discharge pipe, which is far away from the discharge hole, is positioned above the filter box, the negative pressure port of the delivery pump is connected with the interior of the filter box, and the positive pressure port of the delivery pump is connected with the machine body and used for leading cooling liquid back to the machine body.

Through adopting above-mentioned technical scheme, during the operation, the coolant liquid flows out from the relief hole, through arranging in the material pipe inflow filter cartridge, utilizes first filtration pore, makes in the coolant liquid inflow filter cartridge, and impurity in the coolant liquid then stays in the filter cartridge, through the coolant delivery pump coolant liquid in the extraction filter cartridge, then leads to the coolant liquid back to in the organism. When the filter residue in the filter box is accumulated to a certain amount and needs to be cleaned, the filter box is taken out from the mounting plate only by manpower, then the filter residue is poured out, and then the filter box is placed back to the mounting plate, so that the difficulty of cleaning the filter residue is effectively reduced, and the filter residue is more convenient to clean.

Optionally, the top end of the filter box is provided with a grabbing plate, and a plurality of grabbing holes penetrating through the grabbing plate along the vertical direction are formed in the grabbing plate.

Through adopting above-mentioned technical scheme, when taking out the filter cartridge, the handle stretches into and snatchs the hole to grasp and grab the board, be convenient for take out the filter cartridge.

Optionally, both ends of the grabbing hole are provided with round corners.

Through adopting above-mentioned technical scheme, increased the area of contact of grabbing board and workman's hand, reduced the possibility of incising workman's hand effectively.

Optionally, a filter plate is arranged on the filter box, second filter holes which are uniformly distributed are formed in the filter plate, and the diameter of each second filter hole is larger than that of each first filter hole.

Through adopting above-mentioned technical scheme, the filter stays great impurity on the filter, has reduced the possibility that first filtration pore is blockked up effectively.

Optionally, a first sliding groove which is horizontal and penetrates through the side wall is formed in one side wall of the filter box, the first sliding groove is formed in the width direction of the filter box, a second sliding groove which is parallel to the first sliding groove and is located at the same height as the first sliding groove is formed in the side wall, opposite to the first sliding groove, of the filter box, the filter plate penetrates through the first sliding groove and abuts against the second sliding groove, and two side walls of the filter box, perpendicular to the direction from the first sliding groove to the second sliding groove, are both abutted against the filter plate.

Through adopting above-mentioned technical scheme, pass the filter from first spout, then stretch into the filter box with the filter one end insert the second spout to install the filter on the filter box, be convenient for install and dismantle.

Optionally, a fixing member for fixing the filter plate is arranged on the filter box.

Through adopting above-mentioned technical scheme, utilize the mounting to fix the filter in the filter box, reduced the possibility of filter roll-off in the filter box effectively.

Optionally, the fixing member includes a stop lever, the stop lever is hinged to the outer side wall of the filter box, a hinge point of the stop lever and the filter box is located above the first sliding groove, the stop lever and the first sliding groove are located on the same side wall of the filter box, and a bottom end of the stop lever is located on one side, opposite to the second sliding groove, of the first sliding groove and abuts against the filter plate tightly, so as to block the filter plate from moving in the direction from the second sliding groove to the first sliding groove.

Through adopting above-mentioned technical scheme, during the installation filter, up rotate the pin, after the filter is installed, put down the pin and make the pin be in vertical state to block filter, simple structure.

Optionally, a third sliding groove penetrating through the side wall is formed in the side wall of the filter box, the third sliding groove and the first sliding groove are located in the same side wall of the filter box, the third sliding groove is located above a hinge point of the stop lever and the filter box and is parallel to the first sliding groove, a push rod is slidably arranged in the third sliding groove, the cross section of the push rod is circular, one end of the push rod extends into the filter box, a part of the push rod located in the filter box is fixedly connected with a scraper, and when the scraper is vertical, the bottom end of the scraper is attached to the upper surface of the filter plate.

Through adopting above-mentioned technical scheme, when the condition takes place to pile up when the filter residue on the filter, rotate the push rod, make the scraper blade be in the horizontality, then remove the push rod, make the scraper blade move the filter residue and pile up the department, then rotate the push rod and make the scraper blade be in vertical state, then remove the push rod to drive the scraper blade and remove, with the flat exhibition of accumulational filter residue, reduced the possibility that the filter was blockked up effectively.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the filter residue in the filter box is accumulated to a certain amount and needs to be cleaned, the filter box is taken out from the mounting plate only by manpower, then the filter residue is poured out, and then the filter box is placed back to the mounting plate, so that the difficulty of cleaning the filter residue is effectively reduced, and the filter residue is more convenient to clean;

2. the filter plate leaves larger impurities on the filter plate, so that the possibility that the first filter hole is blocked is effectively reduced;

3. when the filter plate is installed, the stop lever is rotated upwards, and after the filter plate is installed, the stop lever is put down to enable the stop lever to be in a vertical state, so that the filter plate is blocked, and the structure is simple.

Drawings

Fig. 1 is a schematic perspective view of a numerically controlled machine tool for machining a cermet milling cutter in an embodiment of the present application.

Fig. 2 is a sectional view of a filter box in the embodiment of the present application.

Fig. 3 is a schematic perspective view of a filter box and a mounting plate in an embodiment of the present application.

Fig. 4 is a schematic perspective view of the filter box, the mounting plate, the grabbing plate and the filter cassette in the embodiment of the present application.

FIG. 5 is a perspective view of a filter cassette and filter panels according to an embodiment of the present application.

Fig. 6 is a cross-sectional view of a filter cassette in an embodiment of the present application.

Fig. 7 is a schematic perspective view of the filter cartridge, the push rod and the scraper in the embodiment of the present application.

Description of reference numerals: 1. a body; 11. a discharge hole; 12. a discharge pipe; 2. a filtration device; 21. a filter box; 22. a delivery pump; 221. a feed pipe; 222. a discharge pipe; 23. a mounting frame; 24. mounting a plate; 241. a material receiving port; 3. a filter cartridge; 31. grabbing the plate; 311. grabbing holes; 32. a first filtering hole; 33. a first chute; 34. a second chute; 35. a fourth chute; 36. a stop lever; 37. a third chute; 4. a filter plate; 41. a second filtering hole; 5. a push rod; 51. a scraper.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a numerical control machine tool for machining a metal ceramic milling cutter. Referring to fig. 1, a numerical control machine tool for machining a cermet milling cutter includes a machine body 1 and a filtering device 2 disposed at one side of the machine body 1. The filter device 2 comprises a filter box 21 and a delivery pump 22.

Referring to fig. 1 and 2, the filter box 21 is placed at one end of the machine body 1, the top end of the filter box 21 is provided with an opening, a vertical mounting frame 23 is fixedly connected to the filter box 21, and the delivery pump 22 is welded on the mounting frame 23. The negative pressure port of the feed pump 22 is connected with a feed pipe 221, the feed pipe 221 extends into the filter box 21, and the positive pressure port of the feed pump 22 is connected with a discharge pipe 222 for returning the coolant to the machine body 1.

Referring to fig. 3 and 4, an installation plate 24 is integrally disposed on the inner side wall of the filter box 21, and the installation plate 24 is located near the top end of the filter box 21 and attached to one end of the filter box 21 far away from the material delivery pump 22. Offer on the mounting panel 24 along the vertical direction run through mounting panel 24 connect material mouth 241, placed filter cartridge 3 on the mounting panel 24, the bottom of filter cartridge 3 will connect material mouth 241 to seal, the open-top setting of filter cartridge 3. The top welding of filter cartridge 3 has grabbing board 31, and the top of grabbing board 31 is seted up three and is run through along vertical direction and grab board 31 and follow the hole 311 that snatchs that 21 width direction of rose box distributes, and the both ends of snatching hole 311 all are provided with the fillet.

Referring to fig. 5 and 6, the bottom end of the filter box 3 is provided with first filter holes 32 which are uniformly distributed.

Referring to fig. 5 and 6, a first chute 33 is disposed on a side wall of the filter box 3 parallel to the end of the filter box 21 and close to the feed pump 22, the first chute 33 extends through the side wall, the first chute 33 is disposed along the width direction of the filter box 21, and a second chute 34 is disposed on a side wall of the filter box 3 opposite to the first chute 33, the second chute being parallel to the first chute 33 and located at the same height. The filter box 3 and the two perpendicular inside walls of the width direction of the filter box 21 are both provided with a fourth chute 35 which is horizontal and is positioned at the same height with the first chute 33, and the fourth chute 35 is communicated with the first chute 33.

Referring to fig. 5 and 6, the filter plate 4 is disposed on the filter box 3, the filter plate 4 is provided with second filter holes 41 which are uniformly distributed, the diameter of the second filter holes 41 is larger than that of the first filter holes 32, the filter plate 4 is inserted into the filter box 3 from the first chute 33 and is slidably disposed in the fourth chute 35, and the side wall of the filter plate 4 is attached to the bottom of the fourth chute 35. The filter box 3 is provided with a fixing member for fixing the filter plate 4, the fixing member comprises a stop lever 36, the stop lever 36 is hinged on the outer side wall of the filter box 3, the hinge point of the stop lever 36 and the filter box 3 is positioned above the first chute 33, the stop lever 36 and the first chute 33 are positioned on the same side wall of the filter box 3, and the bottom end of the stop lever 36 tightly supports one side of the filter plate 4 on the bottom of the second chute 34 and is used for stopping the filter plate 4 from moving from the second chute 34 to the first chute 33.

Referring to fig. 7, a third sliding groove 37 penetrating through the side wall is formed in the side wall of the filter box 3, the third sliding groove 37 and the first sliding groove 33 are located on the same side wall of the filter box 3, the third sliding groove 37 is parallel to the first sliding groove 33, the third sliding groove 37 is located above a hinge point of the stop lever 36 and the filter box 3, a push rod 5 is slidably arranged in the third sliding groove 37, the cross section of the push rod 5 is circular, a scraper 51 is integrally arranged on a portion, extending into the filter box 3, of the push rod 5, the length of the scraper 51 is the same as the width of the filter box 3, and when the scraper 51 is vertical, the bottom end of the scraper 51 is attached to the upper surface of the filter plate 4.

Referring to fig. 1, a discharge hole 11 for discharging the cooling liquid is formed in the machine body 1, a discharge pipe 12 communicated with the discharge hole 11 is fixedly connected to the machine body 1, and an outlet end of the discharge pipe 12 is located right above the filter box 3.

The implementation principle of the numerical control machine tool for machining the metal ceramic milling cutter in the embodiment of the application is as follows: when the numerical control machine tool works, the cooling liquid flows out through the discharge hole 11, the cooling liquid is discharged into the filter box 3 by the discharge pipe 12, and the cooling liquid sequentially passes through the second filter hole 41 and the first filter hole 32 and then enters the filter box 21. The feed pump 22 draws the coolant in the filter tank 21 through the feed pipe 221 and then passes the coolant back to the machine body 1 through the discharge pipe 222. When the filter residue in the filter box 3 is accumulated to a certain amount, only the handle needs to stretch into the grabbing hole 311, so that the grabbing plate 31 is held tightly, then the filter box 3 is lifted out, then the filter plate 4 is taken out, impurities in the filter box 3 are poured out, after cleaning is finished, the filter plate 4 is inserted into the filter box 3, and then the filter box 3 is placed back on the mounting plate 24, so that the difficulty of cleaning the filter residue is effectively reduced, and the filter residue is more convenient to clean.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a digit control machine tool for processing cermet milling cutter which characterized in that: comprises a machine body (1) and a filtering device (2) arranged on one side of the machine body (1), wherein the filtering device (2) comprises a filtering box (21) and a material conveying pump (22), the filtering box (21) is arranged on one side of the machine body (1), the top end opening of the filtering box (21) is arranged, a mounting plate (24) is arranged on the top end of the filtering box (21), a material receiving opening (241) is arranged on the mounting plate (24), a filtering box (3) used for closing the material receiving opening (241) is arranged on the mounting plate (24), the top end opening of the filtering box (3) is arranged, first filtering holes (32) which are uniformly distributed are arranged on the bottom surface of the filtering box (3), a material discharging hole (11) is arranged on the machine body (1), a material discharging pipe (12) is connected on the material discharging hole (11), one end of the material discharging pipe (12) far away from the material discharging hole (11) is positioned above the filtering box (3), the negative pressure port of the material conveying pump (22) is connected with the interior of the filter box (21), and the positive pressure port of the material conveying pump (22) is connected with the machine body (1) and used for leading cooling liquid back to the machine body (1).

2. A numerically controlled machine tool for machining a cermet milling cutter according to claim 1, characterized in that: the top of filter cartridge (3) is provided with grabs and picks board (31), it runs through along vertical direction to grab hole (311) of grabbing board (31) to offer a plurality of on grabbing board (31).

3. A numerically controlled machine tool for machining a cermet milling cutter according to claim 2, characterized in that: and both ends of the grabbing hole (311) are provided with round corners.

4. A numerically controlled machine tool for machining a cermet milling cutter according to claim 1, characterized in that: the filter box (3) is provided with a filter plate (4), the filter plate (4) is provided with second filter holes (41) which are uniformly distributed, and the diameter of the second filter holes (41) is larger than that of the first filter holes (32).

5. A numerically controlled machine tool for machining a cermet milling cutter according to claim 4, characterized in that: set up the level on the lateral wall of filter box (3) and run through first spout (33) of this lateral wall, first spout (33) are followed rose box (21) width direction sets up, filter box (3) with set up on the lateral wall that first spout (33) is relative with first spout (33) parallel with first spout (33) and with first spout (33) are located second spout (34) of same height, filter (4) pass and support tightly from first spout (33) second spout (34), filter box (3) perpendicular to first spout (33) arrive the both sides wall of second spout (34) direction all pastes tightly filter (4).

6. A numerically controlled machine tool for machining cermet milling cutters as defined in claim 5, characterized in that: the filter box (3) is provided with a fixing piece for fixing the filter plate (4).

7. A numerically controlled machine tool for machining a cermet milling cutter according to claim 6, characterized in that: the fixing piece comprises a stop lever (36), the stop lever (36) is hinged to the outer side wall of the filter box (3), a hinge point of the stop lever (36) and the filter box (3) is located above the first sliding groove (33), the stop lever (36) and the first sliding groove (33) are located on the same side wall of the filter box (3), and the bottom end of the stop lever (36) is located on one side, back to the second sliding groove (34), of the first sliding groove (33) and abuts against the filter plate (4) tightly, and is used for blocking the filter plate (4) from moving in the direction from the second sliding groove (34) to the first sliding groove (33).

8. A numerically controlled machine tool for machining a cermet milling cutter according to claim 7, characterized in that: the filter box is characterized in that a third sliding groove (37) penetrating through the side wall is formed in the side wall of the filter box (3), the third sliding groove (37) and the first sliding groove (33) are located in the same side wall of the filter box (3), the third sliding groove (37) is located above a hinge point of the stop lever (36) and the filter box (3) and is parallel to the first sliding groove (33), a push rod (5) is arranged in the third sliding groove (37) in a sliding mode, the cross section of the push rod (5) is circular, one end of the push rod (5) extends into the filter box (3), a part, located in the filter box (3), of the push rod (5) is fixedly connected with a scraper (51), and when the scraper (51) is vertical, the bottom end of the scraper (51) is attached to the upper surface of the filter plate (4).

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