CN114951769A - Numerical control planer type milling machine for numerical control machining center - Google Patents

Abstract

The invention discloses a numerical control planer type milling machine for a numerical control machining center, and belongs to the field of numerical control milling machines. A numerical control planer type milling machine for a numerical control machining center comprises a bottom plate and a top plate, wherein the bottom of the top plate is connected with a fixing plate in a sliding manner; a first air cylinder is arranged on the fixing plate, a sliding rod is connected in the first air cylinder in a sliding mode, and a pressing plate is arranged at the bottom of the sliding rod; the bottom of the fixed plate is fixedly connected with a box body, a motor is arranged in the box body, and a cutter is arranged at the output end of the motor; the base plate is provided with a base, and the base is provided with a frame plate for placing a workpiece; a second air cylinder is arranged on the side wall of the frame plate, a push rod is connected in the second air cylinder in a sliding mode, a vertical plate is arranged at one end, placed in the frame plate, of the push rod, and a clamping plate is connected on the vertical plate in a sliding mode; when the workpiece is machined, the workpiece can be effectively fixed, and meanwhile, scraps generated in machining can be blown away, so that the influence on machining is avoided, and the machining effect is improved.

Description

Numerical control planer type milling machine for numerical control machining center

Technical Field

The invention relates to the technical field of numerical control milling machines, in particular to a numerical control planer type milling machine for a numerical control machining center.

Background

The milling machine is a milling machine with a portal frame and a horizontal long lathe bed. At present, when a workpiece is machined on a milling machine, the workpiece is usually directly placed on the milling machine and is not fixed, so that the workpiece can be displaced, the milling cutter cannot uniformly machine the workpiece, and scraps generated during machining can flow to the ground, so that the collection is troublesome, and the scraps can influence the machining effect of the milling cutter.

Disclosure of Invention

The invention aims to solve the problems of poor workpiece fixing effect and inconvenient cleaning of chips in the prior art, and provides a numerical control planer type milling machine for a numerical control machining center.

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

a numerical control planer type milling machine for a numerical control machining center comprises a bottom plate, wherein two vertical plates are connected to the bottom plate in a sliding mode, top plates are connected to the tops of the two vertical plates, and fixing plates are connected to the bottoms of the top plates in a sliding mode;

a first air cylinder is arranged on the fixing plate, a sliding rod is connected in the first air cylinder in a sliding mode, and a pressing plate is arranged at the bottom of the sliding rod;

the bottom of the fixed plate is fixedly connected with a box body, a motor is arranged in the box body, and a cutter is arranged at the output end of the motor;

the base plate is provided with a base, the base is provided with a frame plate for placing a workpiece, and the frame plate is connected with a supporting plate for supporting the workpiece in a sliding manner;

the lateral wall of deckle board is equipped with the second inflator, sliding connection has the push rod in the second inflator, the one end that the deckle board was arranged in to the push rod is equipped with the riser, sliding connection has splint on the riser.

In order to make the fixed plate conveniently move, preferably, the top of roof is provided with the cylinder, the flexible end of cylinder is connected with the telescopic link, fixed plate fixed connection is in the bottom of telescopic link.

In order to enable the sliding rod and the pressing plate to automatically reset, preferably, a first piston is connected in the first air cylinder in a sliding mode, a second spring is arranged between the first piston and the inner wall of the top of the first air cylinder, and the sliding rod is fixedly connected to the bottom of the first piston.

In order to make gaseous convenience from the air nozzle blowout, furtherly, be equipped with the baffle on the fixed plate, the outer wall of first inflator is equipped with the outlet duct, the one end that first inflator was kept away from to the outlet duct is connected with violently the pipe, violently manage fixed connection at the outer wall of baffle, be equipped with in the baffle and violently manage the tubule that is linked together, the bottom of baffle is equipped with a plurality of air nozzles that are linked together with the tubule.

In order to avoid the piece to splash, furtherly, the outer wall fixedly connected with limiting plate of telescopic link, sliding connection has the cover plate on the telescopic link, the top inner wall and the limiting plate of cover plate offset, the top of limiting plate is equipped with the gag lever post, the top fixedly connected with annular slab of gag lever post, the annular slab cup joints at the outer wall of telescopic link and slides continuously with the telescopic link, first spring has been cup jointed to the outer wall of gag lever post, first spring setting is between the top outer wall of annular slab and cover plate, first inflator slides continuously with the cover plate.

In order to facilitate carrying gas to the second inflator, preferably, be equipped with sealed chamber in the base, sliding connection has the slide in the sealed chamber, be equipped with the third spring between the bottom inner wall in slide and sealed chamber, the top of slide is connected with the bracing piece, the backup pad links to each other with the bracing piece is fixed, be connected with the connecting pipe between second inflator and the sealed chamber.

In order to make the splint be convenient for centre gripping work piece, furtherly, sliding connection has the second piston in the second inflator, push rod fixed connection is at the outer wall of second piston, the outer wall of push rod has cup jointed the fourth spring, fourth spring coupling is between second piston and deckle board, be equipped with the stopper in the second inflator.

In order to make splint be convenient for slide on the riser, further, be equipped with the spout on the riser, the outer wall fixedly connected with lug of splint, lug sliding connection is in the spout, fixedly connected with slender pole in the spout, lug sliding connection is on the slender pole.

In order to enable the clamping plate to be convenient to reset, furthermore, a fifth spring is sleeved on the outer wall of the thin rod and arranged between the bottom of the convex block and the inner wall of the sliding groove.

In order to facilitate the discharge of the scraps, through grooves are formed in two sides of the frame plate, a partition plate is arranged between the frame plate and the bottom plate, and a groove is formed in the partition plate.

Compared with the prior art, the invention provides a numerical control planer type milling machine for a numerical control machining center, which has the following beneficial effects:

1. this numerical control planer-type milling machine for numerical control machining center, the fixed plate downstream can drive the clamp plate downstream, after the clamp plate contacts with the work piece, the slide bar drives first piston and slides in first cylinder, thereby make the gas in the first cylinder spout from the air nozzle, before the cutter contacted the work piece, air nozzle spun gas can blow away the dust on the work piece, remaining sweeps etc. when the cutter contacted the work piece and begins to add man-hour, can blow away the piece that processing produced, avoid it to influence the processing effect.

2. This numerical control gantry milling machine for numerical control machining center when the fixed plate moves down, can drive the cover plate and move down to block the piece, avoid the piece to splash, and the cover plate can slide on the gag lever post, the more convenient to use.

3. This numerical control gantry milling machine for numerical control machining center, the work piece receives the extrusion, can make the backup pad move down to with the gas transport in the sealed chamber to the second inflator in, thereby promote the riser and remove, further make splint to carry the both sides of work piece, further fix the work piece.

4. This numerical control gantry milling machine for numerical control machining center, piece can fall from leading to the groove on the frame plate, blocks it through the baffle, avoids the piece to fall subaerially, can be convenient for clear up the piece through the recess simultaneously

The parts which are not involved in the device are the same as or can be realized by adopting the prior art, when the device is used for processing a workpiece, the workpiece can be effectively fixed, and meanwhile, scraps generated by processing can be blown away, so that the processing is prevented from being influenced, and the processing effect is improved.

Drawings

FIG. 1 is a schematic structural view of a numerical control gantry milling machine for a numerical control machining center according to the present invention;

FIG. 2 is a schematic structural diagram of a side view of a numerical control planer type milling machine for a numerical control machining center according to the present invention;

FIG. 3 is a schematic view of a local structure of a numerical control gantry milling machine for a numerical control machining center according to the present invention;

FIG. 4 is a schematic side view of a baffle plate of the numerically controlled planer type milling machine for the numerically controlled machining center according to the present invention;

FIG. 5 is a schematic structural diagram of a second gas cylinder in a numerical control planer type milling machine for a numerical control machining center according to the present invention;

FIG. 6 is an enlarged schematic structural view of part A of FIG. 5 of a numerical control gantry milling machine for a numerical control machining center according to the present invention;

FIG. 7 is a schematic top view of a slide groove and a projection of a numerically controlled planer type milling machine for a numerically controlled machining center according to the present invention.

In the figure: 1. a base plate; 101. a vertical plate; 102. a top plate; 103. a cylinder; 104. a telescopic rod; 2. a fixing plate; 201. a box body; 202. a motor; 203. a cutter; 204. a baffle plate; 205. an air nozzle; 3. a cover plate; 301. a limiting plate; 302. a limiting rod; 303. a first spring; 304. an annular plate; 4. a first gas cylinder; 401. a first piston; 402. a slide bar; 403. pressing a plate; 404. a second spring; 405. an air outlet pipe; 406. a transverse tube; 407. a thin tube; 5. a base; 501. sealing the cavity; 502. a slide plate; 503. a support bar; 504. a support plate; 505. a third spring; 506. a partition plate; 507. a groove; 508. a frame plate; 509. a through groove; 6. a second gas cylinder; 601. a second piston; 602. a push rod; 603. a fourth spring; 604. a vertical plate; 6041. a chute; 6042. a thin rod; 6043. a fifth spring; 605. a splint; 6051. a bump; 606. a connecting pipe; 607. and a limiting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-7, a numerical control planer type milling machine for a numerical control machining center comprises a bottom plate 1, wherein two vertical plates 101 are connected on the bottom plate 1 in a sliding manner, top plates 102 are connected at the tops of the two vertical plates 101, and a fixing plate 2 is connected at the bottom of each top plate 102 in a sliding manner; a first air cylinder 4 is arranged on the fixed plate 2, a sliding rod 402 is connected in the first air cylinder 4 in a sliding manner, and a pressing plate 403 is arranged at the bottom of the sliding rod 402; the bottom of the fixed plate 2 is fixedly connected with a box body 201, a motor 202 is arranged in the box body 201, and a cutter 203 is arranged at the output end of the motor 202; a base 5 is arranged on the bottom plate 1, a frame plate 508 for placing a workpiece is arranged on the base 5, and a supporting plate 504 for supporting the workpiece is connected in the frame plate 508 in a sliding manner; the side wall of the frame plate 508 is provided with a second air cylinder 6, a push rod 602 is connected in the second air cylinder 6 in a sliding manner, a vertical plate 604 is arranged at one end of the push rod 602, which is arranged in the frame plate 508, and a clamping plate 605 is connected on the vertical plate 604 in a sliding manner.

In the invention, when in use, a workpiece is placed in the frame plate 508, the support plate 504 supports the workpiece, then the vertical plate 101 is controlled to slide on the bottom plate 1, the lead screw can be arranged on the bottom plate 1, the vertical plate 101 is in threaded connection with the lead screw, the lead screw is driven to rotate, so that the vertical plate 101 can be driven to rotate, the top plate 102 can be further driven to move, the sliding of the vertical plate 101 on the bottom plate 1 is realized, the fixing plate 2 is controlled to move downwards, the motor 202 in the box body 201 is started to drive the cutter 203 to rotate, so that the cutter 203 processes the workpiece, the slide rod 402 in the first air cylinder 4 drives the pressure plate 403 to move downwards while the fixing plate 2 moves downwards, so that the workpiece is pressed and fixed more stably, the push rod 602 in the second air cylinder 6 extends while the pressure plate 403 presses the workpiece, so that the vertical plate 604 drives the clamping plate 605 to move, so that the clamping plate 605 clamps two sides of the workpiece, and the clamping plate 605 can slide on the vertical plate 604 after clamping the workpiece, so that the workpiece can conveniently move downwards under the pressing action of the pressing plate 403, and the positioning effect is better.

Example 2:

referring to fig. 1 and 2, a numerically controlled planer type milling machine for a numerically controlled machining center is substantially the same as that of embodiment 1, further, an air cylinder 103 is disposed on the top of a top plate 102, an expansion link 104 is connected to an expansion end of the air cylinder 103, a fixing plate 2 is fixedly connected to the bottom of the expansion link 104, a workpiece is placed in a frame plate 508, a workpiece is supported by a supporting plate 504, a motor 202 in a box 201 is started to drive a cutter 203 to rotate, so that the cutter 203 machines the workpiece, the expansion link 104 extends by starting the air cylinder 103 to drive the fixing plate 2 to move, so that the cutter 203 and the pressing plate 403 move downward to fix and machine the workpiece.

Example 3:

referring to fig. 1-4, a numerical control planer type milling machine for a numerical control machining center comprises a bottom plate 1, wherein two vertical plates 101 are connected on the bottom plate 1 in a sliding manner, top plates 102 are connected at the tops of the two vertical plates 101, and a fixing plate 2 is connected at the bottom of each top plate 102 in a sliding manner; a first air cylinder 4 is arranged on the fixed plate 2, a sliding rod 402 is connected in the first air cylinder 4 in a sliding manner, and a pressing plate 403 is arranged at the bottom of the sliding rod 402; the bottom of the fixed plate 2 is fixedly connected with a box body 201, a motor 202 is arranged in the box body 201, and a cutter 203 is arranged at the output end of the motor 202; in use, a workpiece is placed in the frame plate 508, the support plate 504 supports the workpiece, and the motor 202 in the box 201 is started to drive the tool 203 to rotate, so that the tool 203 machines the workpiece.

A first piston 401 is connected in the first air cylinder 4 in a sliding mode, a second spring 404 is arranged between the first piston 401 and the inner wall of the top of the first air cylinder 4, and a sliding rod 402 is fixedly connected to the bottom of the first piston 401.

Be equipped with baffle 204 on the fixed plate 2, the outer wall of first cylinder 4 is equipped with outlet duct 405, and the one end that first cylinder 4 was kept away from to outlet duct 405 is connected with violently pipe 406, violently manages 406 fixed connection at the outer wall of baffle 204, is equipped with in the baffle 204 and violently manages 406 the tubule 407 that is linked together, and the bottom of baffle 204 is equipped with a plurality of air nozzles 205 that are linked together with tubule 407.

In the invention, the fixed plate 2 moves downwards and simultaneously drives the sliding rod 402 and the pressing plate 403 to move downwards, when the pressing plate 403 is contacted with a workpiece, the fixed plate 2 continuously moves downwards, so that the sliding rod 402 drives the first piston 401 to slide in the first air cylinder 4, so that the gas in the first air cylinder 4 is conveyed into the gas outlet pipe 405, then the gas enters the thin pipe 407 on the baffle plate 204 through the transverse pipe 406 and is sprayed out from the gas nozzle 205, before the cutter 203 is contacted with the workpiece, the gas sprayed out from the gas nozzle 205 can blow away dust, residual sweeps and the like on the workpiece, when the cutter 203 is contacted with the workpiece, the scraps generated by processing can be blown away, so that the processing effect is prevented from being influenced, when the cutter 203 finishes processing and does not move any more, the gas nozzle 205 does not spray gas any more, and the second spring 404 is arranged so that the pressing plate 403 can automatically reset when not pressing the workpiece, thereby making it convenient for repeated use.

Outer wall fixedly connected with limiting plate 301 of telescopic link 104, sliding connection has cover plate 3 on the telescopic link 104, the top inner wall of cover plate 3 offsets with limiting plate 301, the top of limiting plate 301 is equipped with gag lever post 302, the top fixedly connected with annular plate 304 of gag lever post 302, annular plate 304 cup joints the outer wall of telescopic link 104 and slides with telescopic link 104 and links to each other, first spring 303 has been cup jointed to the outer wall of gag lever post 302, first spring 303 sets up between the top outer wall of annular plate 304 and cover plate 3.

According to the invention, when the fixed plate 2 moves downwards, the cover plate 3 is driven to move downwards, so that scraps are blocked, and the scraps are prevented from splashing in a mess, after the cover plate 3 is contacted with the frame plate 508, the cover plate 3 can continuously move upwards, meanwhile, the cover plate 3 can slide on the limiting rod 302, the use is more convenient, meanwhile, the first spring 303 is extruded, and the first air cylinder 4 is connected with the cover plate 3 in a sliding manner, so that the movement of the cover plate 3 is not influenced.

Example 4:

referring to fig. 1, 5, 6 and 7, the numerical control planer type milling machine for the numerical control machining center comprises a bottom plate 1, wherein two vertical plates 101 are connected on the bottom plate 1 in a sliding manner, top plates 102 are connected at the tops of the two vertical plates 101, and a fixing plate 2 is connected at the bottom of each top plate 102 in a sliding manner; a first air cylinder 4 is arranged on the fixed plate 2, a sliding rod 402 is connected in the first air cylinder 4 in a sliding manner, and a pressing plate 403 is arranged at the bottom of the sliding rod 402; the bottom of the fixed plate 2 is fixedly connected with a box body 201, a motor 202 is arranged in the box body 201, and a cutter 203 is arranged at the output end of the motor 202; a base 5 is arranged on the bottom plate 1, a frame plate 508 for placing a workpiece is arranged on the base 5, and a supporting plate 504 for supporting the workpiece is connected in the frame plate 508 in a sliding manner; the side wall of the frame plate 508 is provided with a second air cylinder 6, a push rod 602 is connected in the second air cylinder 6 in a sliding manner, a vertical plate 604 is arranged at one end of the push rod 602, which is arranged in the frame plate 508, and a clamping plate 605 is connected on the vertical plate 604 in a sliding manner.

A sealed cavity 501 is arranged in the base 5, a sliding plate 502 is slidably connected in the sealed cavity 501, a third spring 505 is arranged between the sliding plate 502 and the inner wall of the bottom of the sealed cavity 501, a supporting rod 503 is connected to the top of the sliding plate 502, the supporting plate 504 is fixedly connected with the supporting rod 503, and a connecting pipe 606 is connected between the second air cylinder 6 and the sealed cavity 501.

The second piston 601 is slidably connected in the second air cylinder 6, the push rod 602 is fixedly connected to the outer wall of the second piston 601, the outer wall of the push rod 602 is sleeved with the fourth spring 603, the fourth spring 603 is connected between the second piston 601 and the frame plate 508, and the second air cylinder 6 is internally provided with the limit block 607.

The vertical plate 604 is provided with a sliding groove 6041, the outer wall of the clamping plate 605 is fixedly connected with a projection 6051, the projection 6051 is connected in the sliding groove 6041 in a sliding manner, a thin rod 6042 is fixedly connected in the sliding groove 6041, and the projection 6051 is connected on the thin rod 6042 in a sliding manner.

In the invention, when in use, a workpiece is placed in the frame plate 508, the support plate 504 supports the workpiece, the motor 202 in the box 201 is started to drive the cutter 203 to rotate, so that the cutter 203 machines the workpiece, the telescopic rod 104 extends through the starting cylinder 103 to drive the fixing plate 2 to move, so that the cutter 203 and the pressing plate 403 move downwards to fix and machine the workpiece, after the pressing plate 403 presses the workpiece, the workpiece presses the support plate 504, the outer wall of the support plate 504 is provided with a rubber pad to avoid crushing the workpiece, meanwhile, the workpiece is pressed, so that the support plate 504 moves downwards to drive the support rod 503 to move downwards, then the sliding plate 502 is driven to move downwards to convey the gas in the sealed cavity 501 into the second air cylinder 6 to push the second piston 601 in the second air cylinder 6 to move, and the push rod 602 is driven to move while the second piston 601 moves, so that the vertical plate 604 is driven to move, and the clamping plates 605 are further clamped on two sides of the workpiece to further fix the workpiece.

In the invention, after the clamping plate 605 clamps the workpiece, the pressing plate 403 can continuously move downwards, at the moment, the workpiece can possibly move downwards, and the clamping plate 605 is connected to the vertical plate 604 in a sliding manner, so that the workpiece can drive the clamping plate 605 to slide on the vertical plate 604 while moving, so that the workpiece can be better fixed, when the clamping plate 605 slides, the lug 6051 fixed on the outer wall of the clamping plate can slide in the sliding groove 6041 and then extrude the fifth spring 6043, the outer wall of the thin rod 6042 is sleeved with the fifth spring 6043, the fifth spring 6043 is arranged between the bottom of the lug 6051 and the inner wall of the sliding groove 6041, and when the clamping plate 605 does not clamp the workpiece, the clamping plate 605 can be automatically reset.

Example 5:

referring to fig. 1 and 2, a numerical control planer type milling machine for a numerical control machining center comprises a bottom plate 1, wherein a base 5 is arranged on the bottom plate 1, a frame plate 508 for placing a workpiece is arranged on the base 5, and a support plate 504 for supporting the workpiece is slidably connected in the frame plate 508; the side wall of the frame plate 508 is provided with a second air cylinder 6, a push rod 602 is connected in the second air cylinder 6 in a sliding manner, a vertical plate 604 is arranged at one end of the push rod 602, which is arranged in the frame plate 508, and a clamping plate 605 is connected on the vertical plate 604 in a sliding manner.

A first piston 401 is connected in the first air cylinder 4 in a sliding mode, a second spring 404 is arranged between the first piston 401 and the inner wall of the top of the first air cylinder 4, and a sliding rod 402 is fixedly connected to the bottom of the first piston 401.

Be equipped with baffle 204 on the fixed plate 2, the outer wall of first cylinder 4 is equipped with outlet duct 405, and the one end that first cylinder 4 was kept away from to outlet duct 405 is connected with violently pipe 406, violently manages 406 fixed connection at the outer wall of baffle 204, is equipped with in the baffle 204 and violently manages 406 the tubule 407 that is linked together, and the bottom of baffle 204 is equipped with a plurality of air nozzles 205 that are linked together with tubule 407.

Through grooves 509 are arranged on two sides of the frame plate 508, a partition 506 is arranged between the frame plate 508 and the bottom plate 1, and a groove 507 is arranged on the partition 506.

In the invention, the fixed plate 2 moves downwards while driving the sliding rod 402 and the pressing plate 403 to move downwards, after the pressing plate 403 is contacted with a workpiece, the fixed plate 2 continuously moves downwards, so that the sliding rod 402 drives the first piston 401 to slide in the first air cylinder 4, so that the gas in the first air cylinder 4 is conveyed into the gas outlet pipe 405, then the gas enters the thin pipe 407 on the baffle plate 204 through the transverse pipe 406 and is ejected from the gas nozzle 205, before the cutter 203 is contacted with the workpiece, the gas ejected from the gas nozzle 205 can blow away dust, residual sweeps and the like on the workpiece, when the cutter 203 is contacted with the workpiece, the scraps generated during processing can be blown away, so that the processing effect is prevented from being influenced, the gas nozzle 205 can blow the scraps and the like to two sides of the frame plate 508, the scraps fall from the through grooves 509 on two sides of the frame plate 508, the partition plate 506 can block the fallen scraps and the like, so as to prevent the scraps from falling off the ground, the chips remaining in the frame plate 508 and not falling down can be discharged through the grooves 507, and can be collected by manually sweeping the chips to the through groove 509 with a brush after the processing is finished, so that the chips fall down.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A numerical control planer type milling machine for a numerical control machining center comprises a bottom plate (1), wherein two vertical plates (101) are connected to the bottom plate (1) in a sliding mode, the tops of the two vertical plates (101) are connected with a top plate (102), and the numerical control planer type milling machine is characterized in that the bottom of the top plate (102) is connected with a fixing plate (2) in a sliding mode;

a first air cylinder (4) is arranged on the fixing plate (2), a sliding rod (402) is connected in the first air cylinder (4) in a sliding mode, and a pressing plate (403) is arranged at the bottom of the sliding rod (402);

the bottom of the fixed plate (2) is fixedly connected with a box body (201), a motor (202) is arranged in the box body (201), and a cutter (203) is arranged at the output end of the motor (202);

a base (5) is arranged on the bottom plate (1), a frame plate (508) for placing a workpiece is arranged on the base (5), and a supporting plate (504) for supporting the workpiece is connected in the frame plate (508) in a sliding manner;

the lateral wall of framed panel (508) is equipped with second inflator (6), sliding connection has push rod (602) in second inflator (6), the one end that framed panel (508) was arranged in push rod (602) is equipped with riser (604), sliding connection has splint (605) on riser (604).

2. The numerical control gantry milling machine for the numerical control machining center according to claim 1, wherein a cylinder (103) is arranged at the top of the top plate (102), a telescopic rod (104) is connected to a telescopic end of the cylinder (103), and the fixing plate (2) is fixedly connected to the bottom of the telescopic rod (104).

3. The numerical control gantry milling machine for the numerical control machining center according to claim 1, wherein a first piston (401) is slidably connected in the first air cylinder (4), a second spring (404) is arranged between the first piston (401) and the inner wall of the top of the first air cylinder (4), and the sliding rod (402) is fixedly connected to the bottom of the first piston (401).

4. The numerical control gantry milling machine for the numerical control machining center according to claim 3, wherein a baffle (204) is arranged on the fixing plate (2), an air outlet pipe (405) is arranged on the outer wall of the first air cylinder (4), one end, away from the first air cylinder (4), of the air outlet pipe (405) is connected with a transverse pipe (406), the transverse pipe (406) is fixedly connected to the outer wall of the baffle (204), a thin pipe (407) communicated with the transverse pipe (406) is arranged in the baffle (204), and a plurality of air nozzles (205) communicated with the thin pipe (407) are arranged at the bottom of the baffle (204).

5. The numerical control gantry milling machine for the numerical control machining center according to claim 4, characterized in that, the outer wall fixedly connected with limiting plate (301) of telescopic link (104), sliding connection has cover plate (3) on telescopic link (104), the top inner wall of cover plate (3) offsets with limiting plate (301), the top of limiting plate (301) is equipped with gag lever post (302), the top fixedly connected with annular plate (304) of gag lever post (302), annular plate (304) cup joint at the outer wall of telescopic link (104) and slide with telescopic link (104) and link to each other, first spring (303) has been cup jointed to the outer wall of gag lever post (302), first spring (303) set up between the top outer wall of annular plate (304) and cover plate (3), first inflator (4) slide with cover plate (3) and link to each other.

6. The numerical control gantry milling machine for the numerical control machining center according to claim 1, wherein a sealed cavity (501) is formed in the base (5), a sliding plate (502) is slidably connected in the sealed cavity (501), a third spring (505) is arranged between the sliding plate (502) and the inner wall of the bottom of the sealed cavity (501), a supporting rod (503) is connected to the top of the sliding plate (502), the supporting plate (504) is fixedly connected with the supporting rod (503), and a connecting pipe (606) is connected between the second air cylinder (6) and the sealed cavity (501).

7. The numerical control gantry milling machine for the numerical control machining center according to claim 6, wherein a second piston (601) is slidably connected in the second air cylinder (6), the push rod (602) is fixedly connected to the outer wall of the second piston (601), a fourth spring (603) is sleeved on the outer wall of the push rod (602), the fourth spring (603) is connected between the second piston (601) and the frame plate (508), and a limit block (607) is arranged in the second air cylinder (6).

8. The numerical control gantry milling machine for the numerical control machining center according to claim 7, wherein a sliding groove (6041) is formed in the vertical plate (604), a convex block (6051) is fixedly connected to the outer wall of the clamping plate (605), the convex block (6051) is slidably connected in the sliding groove (6041), a thin rod (6042) is fixedly connected in the sliding groove (6041), and the convex block (6051) is slidably connected to the thin rod (6042).

9. The numerical control gantry milling machine for the numerical control machining center according to claim 8, wherein a fifth spring (6043) is sleeved on the outer wall of the thin rod (6042), and the fifth spring (6043) is arranged between the bottom of the bump (6051) and the inner wall of the chute (6041).

10. The numerical control gantry milling machine for the numerical control machining center according to claim 4, wherein through grooves (509) are formed in two sides of the frame plate (508), a partition plate (506) is arranged between the frame plate (508) and the bottom plate (1), and a groove (507) is formed in the partition plate (506).

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