CN116214236B - Feeding device of numerical control machine - Google Patents

Abstract

The invention discloses a feeding device and a feeding method of a numerical control machine, which belong to the field of machining and comprise guide rails, wherein the upper surfaces of the guide rails are provided with fixing mechanisms, and material plates are placed on the upper surfaces of the fixing mechanisms; the fixing mechanism comprises a placing table which is connected to the upper surface of the guide rail in a sliding manner, the upper surface of the placing table is connected with a moving table in a sliding manner, the upper surface of the moving table is connected with a turnover plate in a rotating manner, the left side of the middle part of the interior of the placing table is provided with a linkage piece, and the linkage piece comprises two moving plates which move on the surface of the turnover plate. The inside that reaches first spout after moving through first piece that stretches into leads to the mobile station owing to do not have the support of first piece that stretches into moves down, and the mobile station is carried the material board downwardly moving on upset board and upset board surface, makes the blade of processing can not process the material board, prevents that the material board from leading to the machining precision poor owing to the removal, and avoids the cutter to change the material board processing position, leads to the cutter to break away from original processing route, can also lead to the cutter fracture even.

Description

Feeding device of numerical control machine

Technical Field

The invention relates to the field of machining, in particular to a feeding device and a feeding method of a numerical control machine.

Background

The numerical control automatic feeder, as the name implies, is a feeding machine which is matched with a lathe capable of continuously and circularly processing materials to realize automatic feeding, and ensures feeding precision through numerical control, thereby improving equipment and further improving the processing efficiency and the automation degree of the equipment. Solves the problems of labor-consuming, time-consuming, safe, efficient and the like of manual feeding.

The Chinese patent with the publication number of CN115301962A discloses an automatic feeding device and a method of a numerical control lathe, when the production quantity is large, a great number of operators are required to charge materials, so that the labor cost is greatly increased, and the competitiveness of enterprises is reduced. In addition, the problem that clamping is not in place easily occurs during manual clamping, so that a processed product deviates from the specification requirement, and the processing cost is increased.

The above-mentioned patent obtains the work piece through utilizing rotatable loading plate from the material loading incasement, again with the work piece transfer to on the conveying channel, after the work piece was sent into by conveying channel and pushes away the material platform, by pushing away the material push into in the lathe work platform, accomplish automatic feeding work, but when the material because the inertia that removes the production, when all can lead to the material slightly to remove, all can lead to the machining precision poor, even lead to the cutter to damage.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a feeding device and a feeding method of a numerical control machine, which are characterized in that a first extending block moves and then reaches the inside of a first chute, so that a moving table moves downwards due to the fact that the moving table does not have the support of the first extending block, the moving table moves downwards with a turnover plate and a material plate on the surface of the turnover plate, a processed blade cannot process the material plate, poor processing precision of the material plate caused by movement is prevented, and the phenomenon that a cutter is changed to the processing position of the material plate, so that the cutter is easy to break according to the original processing path is avoided.

In order to solve the problems, the invention adopts the following technical scheme.

The feeding device of the numerical control machine comprises a guide rail, wherein the upper surface of the guide rail is provided with a fixing mechanism, and a material plate is placed on the upper surface of the fixing mechanism;

the fixing mechanism comprises a placing table which is in sliding connection with the upper surface of the guide rail, the upper surface of the placing table is in sliding connection with a moving table, the upper surface of the moving table is rotationally connected with a turnover plate, the left side of the middle part of the interior of the placing table is provided with a linkage piece, the linkage piece comprises two moving plates which move on the surface of the turnover plate, the lower parts of the two moving plates are provided with first connecting plates which are all in sliding connection with the middle part of the interior of the placing table, the lower middle part of the left side of the moving plate is close to the right side and extends to form a first extrusion plate which is in sliding connection with the interior of the first connecting plate, the lower left side of the moving table is in sliding connection with a driving plate, and one end of the driving plate close to the first connecting plate stretches into the interior of the first connecting plate on the left side;

the back side of drive plate extends and forms first piece of stretching into, the one end longitudinal section shape that first piece of stretching into was kept away from to the drive plate is right trapezoid, the inside of mobile station has been seted up and has been held first spout that stretches into of stretching into the piece, the fixed surface of upset board is connected with anchor clamps, the inside welding of first connecting plate has first spring.

Further, the inside intermediate position of placing the platform is provided with the driving piece, the driving piece is including rotating the screwed pipe of connecting in the inside intermediate position of placing the platform, the rotatory rotary tank that holds the screwed pipe is seted up to the inside position that corresponds the screwed pipe of placing the platform, first connecting plate and rotary tank assorted, screw drive between screwed pipe and the first connecting plate.

Further, the right side of the threaded pipe is welded with a toothed ring, the right side of the placing table is in sliding connection with a toothed plate, and the toothed plate is meshed with the toothed ring.

Further, one side that the upset board is close to the screwed pipe rotates with the mobile station to be connected, the second spout has been seted up to one side that the first spout was kept away from to the mobile station inside, the inside sliding connection of second spout has the second stripper plate, be connected with the spliced pole between second stripper plate and the upset board, the spliced pole bottom is laminated mutually with the second stripper plate.

Further, one side of the first extending block far away from the driving plate extends to form a second connecting plate, one end of the second connecting plate far away from the first extending block extends to form a second extending block, the cross section of the first extending block is identical with that of the second extending block, and the distance between the first extending block and the first sliding groove is equal to that between the second extending block and the second sliding groove.

Further, a through hole is formed in the bottom of the rotary groove, a containing groove is formed in the lower portion of the inner side of the placing table, and the rotary groove is communicated with the containing groove through the through hole.

Further, the longitudinal section of the through hole is circular, the cross section of the rotary groove is circular, and the through hole is positioned at the bottommost part of the rotary groove.

Further, a pulling rod is fixedly connected to the left side of the inside of the accommodating groove, and the longitudinal section of the pulling rod is L-shaped.

Further, the right end of the pulling rod is fixedly connected with a scraping plate, and the width of the scraping plate is the same as that of the containing groove.

A feeding method of a feeding device of a numerical control machine comprises the following steps:

s1: the installation is carried out, wherein the material plate is placed on the surface of the turnover plate, the material plate is fixed by utilizing the clamp, the toothed ring is driven to rotate by the movable toothed plate, the toothed ring is driven to rotate with the threaded pipe, the toothed ring is used for driving the first connecting plate to move with the movable plate, the two movable plates are contacted with the side surface of the material plate, and the material plate is determined to be positioned in the middle position of the turnover plate;

s2: the processing is carried out, wherein the fixing mechanism is driven to move through the guide rail, so that the fixing mechanism moves to a processing position with the material plate, and then the material plate is processed;

s3: when the moving process is slightly moved, the side surface of the material plate is extruded to the left moving plate, the moving plate is extruded to the driving plate by the first extruding plate, the driving plate moves at the bottom of the moving table, the driving plate reaches the inside of the first sliding groove by the first extending block, the moving table moves downwards due to the fact that the first extending block is not supported, and the moving table moves with the overturning plate and the material plate on the surface of the overturning plate, so that the blade cannot process the material plate;

s4: when the material plate after the processing is taken out, because people's material plate can be to touching the movable plate at the in-process of taking out, make the movable plate remove, the movable plate has first stripper plate extrusion drive plate, the drive second stretches into the piece extrusion second stripper plate, make the second stripper plate have the spliced pole remove, the spliced pole stretches out the movable table and extrudees the upset board, make the upset board upset, make the piece that the surface processing of upset board produced drop into through the through hole behind the rotary tank, reach the inside of holding tank at last, through pulling the pole, make the pole of pulling clear up inside piece out with the scraper blade.

Compared with the prior art, the invention has the beneficial effects that:

1. this scheme reaches the inside of first spout after moving through first piece that stretches into, leads to the mobile station owing to do not have the support of first piece that stretches into and move down, and the mobile station takes the material board of upset board and upset board surface to move down, makes the blade of processing can not process the material board, prevents that the material board from leading to the machining precision poor owing to the removal, leads to the cutter to break away from the processing route of original, can also lead to the cutter fracture even.

2. According to the scheme, the movable plate is attached to two sides of the material plate, but the movable plate can be driven to move when the material plate slightly moves, and then the material plate is triggered to move downwards, so that the cutter cannot continue to process, and the occurrence of unqualified processing caused by the deviation of the material plate during processing is effectively prevented.

3. This scheme is rotatory through pulling the pinion rack, and the ring gear is rotatory with screwed pipe fixed connection, makes screwed pipe rotatory more convenient, avoids ring gear drive screwed pipe rotatory, and the operation is complicated and the process is slow, leads to work efficiency low.

4. According to the scheme, the driving plate is enabled to move with the second stretching-in block through the extrusion of the moving plate by workers, the second stretching-in block reaches the second sliding groove and is extruded by the second extruding plate, the driving overturning plate is far away from the connecting column side around the overturning plate and is displaced, the overturning plate is inclined, the surface of the overturning plate is convenient to fall to the surface of the threaded pipe due to scraps produced by processing, and the scraps fall into the groove bottom of the rotating groove under the rotation of the threaded pipe, so that the collection is more convenient.

5. This scheme is through under the rotation of screwed pipe, and first connecting plate removes at the inside of rotatory groove, and first connecting plate promotes the piece and reachs the top through the hole, and the piece falls into the inside of holding tank from the through hole top, and is more convenient to the piece collection, avoids the workman to clear up the device once more, and the clearance in-process device is removed, leads to the clearance troublesome.

6. This scheme is through pulling the pulling rod, makes the pulling rod take the scraper blade to remove in the inside of holding tank, and the width of scraper blade is the same with the width of holding tank, makes the scraper blade promote the piece removal that falls into in the holding tank, and the inside that conveniently drives the piece and leave from the holding tank makes it more convenient to collect the piece.

Drawings

FIG. 1 is a schematic view of a feeding device according to the present invention;

FIG. 2 is a schematic structural view of the fixing mechanism of the present invention;

FIG. 3 is a semi-sectional view of the securing mechanism of the present invention;

FIG. 4 is a top half-sectional view of the securing mechanism of the present invention;

FIG. 5 is a schematic view of the structure of the driving plate of the present invention;

FIG. 6 is a schematic diagram of a mobile station according to the present invention;

FIG. 7 is a cross-sectional view of a mobile station of the present invention;

FIG. 8 is a schematic view of the structure of the roll-over panel of the present invention;

fig. 9 is a schematic structural view of the pulling rod of the present invention.

The reference numerals in the figures illustrate:

1. a guide rail; 2. a fixing mechanism; 21. a placement table; 211. a receiving groove; 212. a through hole; 213. a rotary groove; 22. a linkage member; 221. a moving plate; 222. a first connection plate; 223. a first spring; 224. a first pressing plate; 225. a driving plate; 2251. a first extending block; 2252. a second connecting plate; 2253. a second extending block; 23. a clamp; 24. a driving member; 241. a toothed ring; 242. a toothed plate; 243. a threaded tube; 25. pulling the rod; 251. a scraper; 26. a mobile station; 261. a first chute; 262. a second chute; 3. a turnover plate; 31. a connecting column; 32. a second pressing plate; 4. and a material plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present invention are within the protection scope of the present invention.

Example 1:

referring to fig. 1 to 3 and fig. 5 to 6, a feeding device of a numerical control machine comprises a guide rail 1, wherein a fixing mechanism 2 is arranged on the upper surface of the guide rail 1, and a material plate 4 is arranged on the upper surface of the fixing mechanism 2; the fixing mechanism 2 comprises a placing table 21 which is slidably connected to the upper surface of the guide rail 1, the upper surface of the placing table 21 is slidably connected with a moving table 26, the upper surface of the moving table 26 is rotatably connected with a turnover plate 3, the left side of the middle part of the interior of the placing table 21 is provided with a interlocking piece 22, the interlocking piece 22 comprises two moving plates 221 which move on the surface of the turnover plate 3, the lower parts of the two moving plates 221 are provided with first connecting plates 222 which are slidably connected to the middle part of the interior of the placing table 21, the lower middle part of the left side moving plate 221 is close to the right side and extends to form a first extruding plate 224 which is slidably connected to the interior of the first connecting plate 222, the lower left side sliding connection of the moving table 26 is provided with a driving plate 225, and one end of the driving plate 225 close to the first connecting plate 222 extends into the interior of the left side first connecting plate 222; the back side of the driving plate 225 extends to form a first extending block 2251, a longitudinal section of one end of the driving plate 225 far away from the first extending block 2251 is in a right trapezoid shape, a first sliding groove 261 for accommodating the first extending block 2251 to extend into is formed in the mobile station 26, a fixture 23 is fixedly connected to the surface of the turnover plate 3, and a first spring 223 is welded in the first connecting plate 222.

Firstly, placing the material plate 4 on the surface of the turnover plate 3, fixing the material plate 4 by using a clamp 23, then moving the first connecting plate 222 by moving the first connecting plate 222, enabling the two moving plates 221 to be in contact with the side surfaces of the material plate 4, and enabling the moving plates 221 to be in close contact with the side surfaces of the material plate 4, when the clamp 23 is not firmly fixed and the placing table 21 moves too fast, the material plate 4 moves towards the moving plates 221 on the left side, the material plate 4 presses the moving plates 221 due to inertia, the moving plates 221 move in the first connecting plate 222 by carrying the first pressing plates 224, the driving plates 225 are pressed by the first pressing plates 224 in the moving process, the section of one end of the driving plates 225 close to the first pressing plates 224 is isosceles trapezoid, the driving plates 225 are pressed by the first pressing plates 224 in the moving process, the driving plate 225 is driven to move at the bottom of the moving table 26, the driving plate 225 is fixedly connected with the first extending block 2251, the driving plate 225 moves with the first extending block 2251 in the moving process, the moving table 26 is provided with a first sliding groove 261 in the moving direction of the first extending block 2251, the first extending block 2251 moves and reaches the inside of the first sliding groove 261, the moving table 26 moves downwards due to the fact that the first extending block 2251 is not supported, the moving table 26 moves downwards under the gravity and the gravity of the material plate 4, the moving table 26 carries the turning plate 3 and the material plate 4 on the surface of the turning plate 3, so that the processed blade cannot process the material plate 4, the cutter is prevented from being separated from an original processing path due to poor processing precision, the cutter is prevented from breaking even, and the influence caused by deviation of the material plate 4 can be prevented without stopping the processing device, the method is more convenient for subsequent processing.

As shown in fig. 2 to 3, a driving member 24 is disposed at an inner middle position of the placement table 21, the driving member 24 includes a threaded tube 243 rotatably connected to the inner middle position of the placement table 21, a rotation groove 213 for accommodating rotation of the threaded tube 243 is formed in the inner position of the placement table 21 corresponding to the threaded tube 243, the first connecting plate 222 is matched with the rotation groove 213, and the threaded tube 243 is in screw transmission with the first connecting plate 222.

Through rotatory screwed pipe 243, and first connecting plate 222 and screwed pipe 243 screw drive, make screwed pipe 243 drive first connecting plate 222 remove, carry two movable plates 221 relative movement at the removal process, make things convenient for movable plate 221 to laminate with the both sides of material board 4 mutually, just can drive movable plate 221 and remove when material board 4 slightly moves, and then drive movable table 26 carries material board 4 on upset board 3 and upset board 3 surface to move down, make the cutter unable continue processing, effectively prevented the condition emergence that leads to processing disqualification because of the skew of material board 4 during processing.

As shown in fig. 2 to 3, a toothed ring 241 is welded to the right side of the threaded tube 243, a toothed plate 242 is slidingly connected to the right side of the placement table 21, and the toothed plate 242 is engaged with the toothed ring 241.

By pulling the toothed plate 242, the toothed plate 242 moves on the right side of the placement table 21, the toothed plate 242 is meshed with the toothed ring 241, the toothed ring 241 is driven to rotate in the moving process of the toothed plate 242, and the toothed ring 241 is fixedly connected with the threaded tube 243, so that the threaded tube 243 rotates more conveniently, the toothed ring 241 is prevented from driving the threaded tube 243 to rotate, the operation is complex, the process is slow, and the working efficiency is low.

As shown in fig. 3 to 8, a side of the turnover plate 3, which is close to the threaded tube 243, is rotationally connected with the mobile station 26, a second chute 262 is provided on a side, which is far away from the first chute 261, of the mobile station 26, a second extrusion plate 32 is slidably connected in the second chute 262, a connecting column 31 is connected between the second extrusion plate 32 and the turnover plate 3, the bottom of the connecting column 31 is attached to the second extrusion plate 32, one side, which is far away from the driving plate 225, of the first extending block 2251 extends to form a second connecting plate 2252, one end, which is far away from the first extending block 2251, of the second connecting plate 2252 extends to form a second extending block 2253, the cross section of the first extending block 2251 is identical to that of the second extending block 2253, and the distance between the first extending block 2251 and the first chute 261 is equal to the distance between the second extending block 2253 and the second chute 262.

When the processing is finished, the toothed plate 242 is moved, the threaded pipe 243 is driven to rotate, the first connecting plate 222 is conveniently separated from one side of the material plate 4 with the moving plate 221 and separated from the surface of the turning plate 3, the influence on the turning of the turning plate 3 is prevented, the material plate 4 is lifted up by a worker from both sides of the material plate 4, meanwhile, the first extruding plate 224 is driven again to extrude the driving plate 225 due to the extrusion of the moving plate 221 by the worker, the driving plate 225 is driven to move with the first extending block 2251, the second connecting plate 2252 and the second extending block 2253, and the second extending block 2253 reaches the inside of the second sliding groove 262, and second spout 262 inside sliding connection has second stripper plate 32, the second stretches into piece 2253 and extrudees second stripper plate 32, make second stripper plate 32 extrude spliced pole 31, and spliced pole 31 and upset board 3 fixed connection, drive upset board 3 is kept away from spliced pole 31 one side displacement round upset board 3, make upset board 3 take place the slope, make things convenient for the piece that the upset board 3 surface produced because the processing drops the surface of screwed pipe 243, and screwed pipe 243 when rotatory next time, the piece on screwed pipe 243 surface drops the tank bottom at rotary groove 213, avoid the workman to clear up the device again, and the device is removed in the clearance process, result in the clearance trouble.

As shown in fig. 3, the bottom of the rotary groove 213 is provided with a through hole 212, the lower part of the inner side of the placement table 21 is provided with a receiving groove 211, the rotary groove 213 is communicated with the receiving groove 211 through the through hole 212, the longitudinal section of the through hole 212 is circular, the cross section of the rotary groove 213 is circular, and the through hole 212 is positioned at the bottommost part of the rotary groove 213.

Through the tank bottom of the rotary tank 213 is provided with the through hole 212, so that scraps can fall into the accommodating tank 211 through the through hole 212, and the threaded pipe 243 drives the first connecting plate 222 to move in the rotary tank 213, so that scraps in the rotary tank 213 are pushed to the top of the through hole 212, and scraps fall into the accommodating tank 211 from the top of the through hole 212, so that scraps are more convenient to collect.

As shown in fig. 3 and 9, a pulling rod 25 is fixedly connected to the left side of the inside of the accommodating groove 211, the longitudinal section of the pulling rod 25 is L-shaped, a scraper 251 is fixedly connected to the right end of the pulling rod 25, and the width of the scraper 251 is the same as the width of the accommodating groove 211.

Through pulling the pulling rod 25, the pulling rod 25 moves inside the accommodating groove 211 with the scraper 251, and the width of the scraper 251 is the same as that of the accommodating groove 211, so that the scraper 251 pushes the fragments falling into the accommodating groove 211 to move, the fragments are conveniently driven to leave from the inside of the accommodating groove 211, and the fragments are more conveniently collected.

The feeding method of the feeding device of the numerical control machine comprises the following steps:

s1: mounting, namely placing the material plate 4 on the surface of the turnover plate 3, fixing the material plate 4 by using the clamp 23, and enabling the two movable plates 221 to be mutually extruded and contact with the side surface of the material plate 4 by moving the toothed plate 242, so as to determine that the material plate 4 is positioned in the middle of the turnover plate 3;

s2: the machining, namely driving the fixing mechanism 2 to move through the guide rail 1, enabling the fixing mechanism 2 to move to a machining position with the material plate 4, and then machining the material plate 4;

s3: when slight movement occurs in the moving process, the side surface of the material plate 4 is pressed against the left moving plate 221, so that the driving plate 225 carries the first extending block 2251 to reach the inside of the first sliding groove 261, and the moving table 26 moves downwards, and the moving table 26 carries the turning plate 3 and the material plate 4 on the surface of the turning plate 3, so that the blade cannot process the material plate 4;

s4: when the processed material plate 4 is taken out, the moving plate 221 is moved because the material plate 4 touches the moving plate 221 in the taking out process, the second stretching-in block 2253 is driven to extrude the second extruding plate 32 and the connecting column 31, the connecting column 31 extrudes the overturning plate 3, the overturning plate 3 overturns, scraps produced by surface processing of the overturning plate 3 fall into the rotary groove 213 and pass through the through holes 212, finally, the inside of the accommodating groove 211 is reached, and the inner scraps are cleaned by the pulling rod 25 with the scraping plate 251.

The above description is only of the preferred embodiments of the present invention; the scope of the invention is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims (7)

1. The utility model provides a numerical control machine feeding device, includes guide rail (1), its characterized in that: the upper surface of the guide rail (1) is provided with a fixing mechanism (2), and a material plate (4) is arranged on the upper surface of the fixing mechanism (2);

the fixing mechanism (2) comprises a placing table (21) which is slidably connected to the upper surface of the guide rail (1), a moving table (26) is slidably connected to the upper surface of the placing table (21), a turnover plate (3) is rotatably connected to the upper surface of the moving table (26), a linkage piece (22) is arranged on the left side of the inner middle part of the placing table (21), the linkage piece (22) comprises two moving plates (221) which move on the surface of the turnover plate (3), first connecting plates (222) which are slidably connected to the inner middle part of the placing table (21) are arranged below the two moving plates (221), a first extruding plate (224) which is slidably connected to the inner part of the first connecting plates (222) is formed by extending the lower middle part of the left side of the moving plate (221), a driving plate (225) is connected to the left side of the lower part of the moving table (26), and one end of the driving plate (225) which is close to the first connecting plate (222) stretches into the inner part of the left side first connecting plate (222);

the back side of the driving plate (225) extends to form a first extending block (2251), one end of the driving plate (225) far away from the first extending block (2251) is in a right trapezoid shape in longitudinal section, a first sliding groove (261) for accommodating the first extending block (2251) to extend in is formed in the mobile station (26), a clamp (23) is fixedly connected to the surface of the overturning plate (3), and a first spring (223) is welded in the first connecting plate (222);

the device is characterized in that a driving piece (24) is arranged in the middle position inside the placing table (21), the driving piece (24) comprises a threaded pipe (243) rotatably connected to the middle position inside the placing table (21), a rotary groove (213) for accommodating rotation of the threaded pipe (243) is formed in the inside of the placing table (21) corresponding to the position of the threaded pipe (243), the first connecting plate (222) is matched with the rotary groove (213), and screw transmission is performed between the threaded pipe (243) and the first connecting plate (222);

the right side of the threaded pipe (243) is welded with a toothed ring (241), the right side of the placing table (21) is in sliding connection with a toothed plate (242), and the toothed plate (242) is meshed with the toothed ring (241).

2. The numerical control machine tool feeding device according to claim 1, wherein: one side that upset board (3) are close to screwed pipe (243) rotates with mobile station (26) to be connected, second spout (262) have been seted up to one side that first spout (261) was kept away from to mobile station (26) inside, the inside sliding connection of second spout (262) has second stripper plate (32), be connected with spliced pole (31) between second stripper plate (32) and upset board (3), spliced pole (31) bottom is laminated mutually with second stripper plate (32).

3. The numerical control machine tool feeding device according to claim 1, wherein: one side that drive plate (225) was kept away from to first piece (2251) that stretches into forms second connecting plate (2252), the one end that first piece (2251) was stretched into to second connecting plate (2252) was kept away from to second stretches into piece (2253), first piece (2251) and second stretch into piece (2253) cross-section the same, the distance between first piece (2251) and first spout (261) equals the distance between second piece (2253) and second spout (262) that stretches into.

4. A numerically controlled bed feeder as claimed in claim 3, wherein: the bottom of the rotary groove (213) is provided with a through hole (212), the lower part of the inner side of the placing table (21) is provided with a containing groove (211), and the rotary groove (213) is communicated with the containing groove (211) through the through hole (212).

5. The numerical control machine tool feeding apparatus of claim 4, wherein: the longitudinal section of the through hole (212) is circular, the cross section of the rotary groove (213) is circular, and the through hole (212) is positioned at the bottommost part of the rotary groove (213).

6. The numerical control machine tool feeding device according to claim 5, wherein: the left side of the inside of the accommodating groove (211) is fixedly connected with a pulling rod (25), and the longitudinal section of the pulling rod (25) is L-shaped.

7. The numerical control machine tool feeding device according to claim 6, wherein: the right end of the pulling rod (25) is fixedly connected with a scraping plate (251), and the width of the scraping plate (251) is the same as that of the accommodating groove (211).