CN113977340A - Magnetic plate type chain plate type recoil roller chip removal machine for numerical control machine tool - Google Patents

Abstract

The application relates to a magnetic plate type chain plate type recoil roller chip removal machine for a numerical control machine tool, belonging to the field of machine tool machining waste treatment equipment and comprising a liquid accumulation box, a collecting box and a collecting box, wherein cutting liquid and cutting chips of the machine tool are collected; the chain plate assembly is used for taking out large-particle scraps in the liquid accumulation box; the adsorption magnetic plate adsorbs suspended small-particle scrap iron; the reciprocating component drives the adsorption magnetic plate to move in the liquid accumulation box and can move the adsorption magnetic plate out or into the liquid accumulation box. This application has the effect of being convenient for carry out more comprehensive collection processing to the iron fillings in the chip removal machine.

Description

Magnetic plate type chain plate type recoil roller chip removal machine for numerical control machine tool

Technical Field

The application relates to the field of machine tool machining waste treatment equipment, in particular to a magnetic plate type chain plate type recoil roller chip removal machine for a numerical control machine tool.

Background

When a metal is machined by a precision machine tool, a large amount of scrap iron can be generated, the types of the scrap iron include various scrap iron with particle shape, powder shape and length less than or equal to 150 mm, the scrap iron generally enters a cutting fluid filter tank along with a cutting fluid, and in order to avoid the damage of the scrap iron to the precision machine tool, a scrap removal machine is required to be used for removing scrap.

Chip removal machine generally includes the hydrops case, and outside being provided with the piece that link joint subassembly drove in the cutting fluid and removing the hydrops case, the separation of metal piece and cutting fluid is realized through the chip removal machine to the hydrops incasement, and the cutting fluid of hydrops incasement is discharged after filtering.

In view of the above-mentioned related art, the inventor believes that there is a defect in that large-particle iron pieces can be filtered when the cutting fluid is filtered, but a large amount of small-particle iron pieces continue to flow with the cutting fluid.

Disclosure of Invention

In order to facilitate the more comprehensive collection and treatment of the scrap iron in the scrap removal machine, the application provides a magnetic plate type chain plate type recoil roller scrap removal machine for a numerical control machine tool.

The application provides a pair of plate-like chain of digit control machine tool magnetism formula recoil cylinder chip removal machine adopts following technical scheme:

a numerical control machine tool magnetic plate type chain plate type recoil roller chip removal machine comprises a liquid accumulation box, a back-flushing roller and a back-flushing roller, wherein cutting liquid and cutting chips of a machine tool are collected; the chain plate assembly is used for taking out large-particle scraps in the liquid accumulation box; the adsorption magnetic plate adsorbs suspended small-particle scrap iron; the reciprocating component drives the adsorption magnetic plate to move in the liquid accumulation box and can move the adsorption magnetic plate out or into the liquid accumulation box.

By adopting the technical scheme, the cutting fluid and part of the cutting chips of the machine tool enter the liquid accumulation box, most of the cutting chips are taken out of the liquid accumulation box by the chain plate assembly, the adsorption magnetic plate adsorbs small-particle iron chips suspended in the liquid accumulation box, and the reciprocating assembly drives the adsorption magnetic plate to move in the liquid accumulation box, so that the adsorption magnetic plate collects the small-particle iron chips in the liquid accumulation box; after adsorbing certain iron fillings of magnetic sheet absorption, reciprocal subassembly drives and adsorbs the magnetic sheet and shifts out the hydrops case, will adsorb iron fillings on the magnetic sheet and get rid of, realizes the clearance to the hydrops incasement tiny particle iron fillings, and tiny particle iron fillings reduce in the cutting fluid that flows from the hydrops incasement this moment in a large number, and the recycling of the cutting fluid of being convenient for enables the wearing and tearing that reduce tiny particle iron fillings to the pipeline.

Preferably, adsorb the magnetic sheet and be the electro-magnet, adsorb the magnetic sheet and produce magnetic adsorption suspension tiny particle iron fillings in the hydrops incasement, adsorb the magnetic sheet and lose magnetism outside the hydrops case.

Through adopting above-mentioned technical scheme, when adsorbing the magnetic sheet and being located the hydrops incasement, adsorb the magnetic sheet circular telegram and produce the magnetic field, adsorb the magnetic sheet and adsorb iron fillings, when adsorbing the magnetic sheet and being located the hydrops incasement outside, adsorb the magnetic sheet outage, iron fillings from adsorbing the magnetic sheet free fall, conveniently realize the automatic clearance of chip removal machine.

Preferably, reciprocal subassembly includes two-way motor, is connected with the winding axle on the two-way motor, sets firmly on the winding axle two tip respectively with the winding axle positive spin with the winding rope of derotation winding, winding rope and absorption magnetic sheet fixed connection.

Through adopting above-mentioned technical scheme, during the rotation of two-way motor forward, the one end that drives the winding rope twines on the winding shaft, and the other end is lifted off from the winding shaft to realize that the winding shaft drives and adsorbs the magnetic sheet and remove and can shift out the hydrops incasement in the hydrops incasement, adsorb the magnetic sheet when removing the hydrops incasement as needs, control two-way motor reverse rotation, realize adsorbing the direction motion of magnetic sheet.

Preferably, be provided with the direction subassembly on the hydrops case, the direction subassembly guide adsorbs magnetic sheet and moves to and contact with one of them lateral wall of hydrops case along hydrops bottom surface, moves until shifting out the hydrops case along this lateral wall surface.

Through adopting above-mentioned technical scheme, adsorb magnetic sheet and hydrops incasement chamber bottom surface and side contact, enable to adsorb the magnetic sheet and promote the accumulational large granule iron fillings in hydrops bottom of the case bottom simultaneously and remove and take out the hydrops case.

Preferably, the chain plate assembly is provided with a permanent magnet plate moving along with the chain;

still including striking off the mechanism, strike off the mechanism and include horizontal promotion subassembly, vertical promotion subassembly, strike off the board, horizontal promotion subassembly drives vertical promotion subassembly and strikes off board synchronous horizontal migration, and vertical promotion subassembly drives strikes off the board and follows vertical migration, strikes off the board and locates the plate on permanent magnetism board surface for the cover.

Through adopting above-mentioned technical scheme, the permanent magnetism board adsorbs the tiny particle iron fillings of suspension in the hydrops incasement in liquid, and after the permanent magnetism board removed the corresponding position, vertical promotion subassembly drove and strikes off the board and remove and make and strike off board and permanent magnetism board surface contact, and the level promotes the subassembly and drives and strikes off board horizontal migration, will strike off the iron fillings on board surface and strike off, and the iron fillings after striking off fall down, have realized the collection to the tiny particle iron fillings of hydrops incasement top.

Preferably, the scraping plate is a U-shaped elastic plate with a flared opening arranged at one end back to the vertical pushing assembly.

Through adopting above-mentioned technical scheme, the flaring on scraping the board guides and scrapes the board and warp, is convenient for scrape the board and locate the permanent magnetism board outside.

Preferably, the partial speed of the moving speed of the horizontal pushing assembly along the moving direction of the chain on the chain plate assembly is the same as the moving speed of the chain plate on the chain plate assembly.

Through adopting above-mentioned technical scheme, the branch speed that the level promoted the subassembly along link joint subassembly moving direction is the same with the translation rate of link joint subassembly, need not the interval stop link joint subassembly, can use scraping mechanism to strike off the iron fillings on permanent magnet plate surface at link joint subassembly continuous motion in-process.

Preferably, still including setting up the universal subassembly between horizontal pushing assembly and the vertical pushing assembly, the universal subassembly is including being fixed in the horizontal pushing assembly and removing the sleeve pipe on the end, and sleeve pipe circumference interval has set firmly at least three compression spring, compression spring's the other end be used for with vertical pushing assembly's stiff end fixed connection.

Through adopting above-mentioned technical scheme, when scraping the board and moving towards the permanent magnetism board, when there is the deviation between permanent magnetism board and the scraping board, the permanent magnetism board can promote to scrape the board and move vertical pushing assembly and remove, makes compression spring produce the deformation to realize scraping the board and follow vertical pushing assembly and remove accurate position, can be convenient for realize scraping the control of mechanism.

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

1. cutting fluid and part of cutting chips of the machine tool enter the liquid accumulation box, most of the cutting chips are taken out of the liquid accumulation box by the chain plate assembly, the adsorption magnetic plate adsorbs small-particle scrap iron suspended in the liquid accumulation box, and the reciprocating assembly drives the adsorption magnetic plate to move in the liquid accumulation box, so that the adsorption magnetic plate collects the small-particle scrap iron in the liquid accumulation box; when the adsorption magnetic plate adsorbs certain scrap iron, the reciprocating assembly drives the adsorption magnetic plate to move out of the liquid accumulation box, the scrap iron on the adsorption magnetic plate is removed, and the small-particle scrap iron in the liquid accumulation box is cleaned;

2. the adsorption magnetic plate is contacted with the bottom surface and the side surface of the inner cavity of the liquid accumulation box, so that the adsorption magnetic plate can simultaneously push large-particle scrap iron accumulated at the bottom of the liquid accumulation box to move and take out of the liquid accumulation box;

3. the permanent magnetic plate adsorbs the tiny particle iron fillings of suspension in the hydrops incasement, after the permanent magnetic plate moved to the corresponding position, vertical promotion subassembly drove to strike off the board and remove and make and strike off board and permanent magnetic plate surface contact, and the level promotes the subassembly and drives and strikes off board horizontal migration, will strike off the iron fillings on board surface and strike off, and the iron fillings after striking off fall down, have realized the collection to the tiny particle iron fillings of hydrops case top.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a schematic view showing the structure of the magnetic adsorption plate and the reciprocating assembly inside the liquid accumulation box in the embodiment;

FIG. 3 is a schematic structural view of an embodiment showing a guide assembly and a shuttle assembly;

fig. 4 is a schematic structural view showing a scraping mechanism in the embodiment.

Description of reference numerals: 1. a liquid accumulation box; 2. a link plate assembly; 21. a permanent magnet plate; 3. adsorbing the magnetic plate; 4. a reciprocating assembly; 41. a bi-directional motor; 42. a winding shaft; 43. winding a rope; 5. a guide assembly; 51. a guide slat; 6. a scraping mechanism; 61. a horizontal pushing assembly; 62. a vertical pushing assembly; 63. scraping the plate; 64. a gimbal assembly; 641. a sleeve; 642. a compression spring; 7. a waste bin.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses digit control machine tool magnetic sheet formula chain slat type recoil cylinder chip removal machine.

Referring to fig. 1, the magnetic plate type chain plate type recoil roller chip removal machine for the numerical control machine comprises a rectangular liquid accumulation box 1 and a chain plate assembly 2, wherein an opening is formed in the upper end of the rectangular liquid accumulation box 1, and the liquid accumulation box 1 is used for collecting cutting liquid and cutting chips of the machine tool; link joint subassembly 2 one end is located amasss liquid case 1, and the other end is located amasss liquid case 1 top, and link joint subassembly 2 promotes the large granule piece in amasss liquid case 1 and takes out amasss liquid case 1, and link joint subassembly 2 is provided with dump bin 7 under being located amasss liquid case 1 outer one end, and the piece that link joint subassembly 2 was taken out falls in dump bin 7.

Referring to fig. 1 and 2, an adsorption magnetic plate 3, a guide assembly 5 and a reciprocating assembly 4 are connected to the liquid accumulation box 1, and the adsorption magnetic plate 3 adsorbs small-particle scrap iron suspended in the liquid accumulation box 1; the guide component 5 guides the adsorption magnetic plate 3 to move along the bottom surface of the liquid accumulation box 1 until the adsorption magnetic plate is contacted with one side wall of the liquid accumulation box 1, and then moves along the surface of the side wall until the adsorption magnetic plate is moved out of the liquid accumulation box 1; the reciprocating component 4 drives the adsorption magnetic plate 3 to move along the guide of the guide component 5, and the adsorption magnetic plate 3 can be moved out or moved into the liquid accumulation box 1.

The hydrops case 1 sets up to the rectangle box in this embodiment, and the junction arc transition between the diapire of hydrops case 1 and the lateral wall that the guide adsorbs magnetic sheet 3 to remove, and hydrops case 1 is provided with right trapezoid's structure in other embodiments, and wherein the lateral wall that the guide adsorbs magnetic sheet 3 to remove sets up and the contained angle between and for 135 with the slope of hydrops case 1 diapire.

Referring to fig. 2 and 3, establish the electro-magnet in adsorbing magnetic sheet 3, adsorb 3 surfaces of magnetic sheet and be provided with wear-resistant plastic layer, adsorb magnetic sheet 3 and produce the magnetic adsorption hydrops incasement 1 in the circular telegram and suspend small particle iron fillings in the cutting fluid, adsorb magnetic sheet 3 and lose magnetism in the outer outage of hydrops case 1, adsorb 3 surperficial iron fillings of magnetic sheet and drop this moment. Adsorb magnetic sheet 3 for the rectangular shape board that sets up along the 1 width direction of hydrops case, adsorb 3 wherein one side of magnetic sheet and the diapire and the lateral wall contact of hydrops case 1, adsorb 3 one end integrated into one piece dorsad and the contact of hydrops case 1 of magnetic sheet and have the perpendicular baffle that moves, make and adsorb magnetic sheet 3 and be L type plate. Because amasss 1 bottom of liquid case not only can store up and adsorb magnetic sheet 3 through the magnetic adsorption's small granule iron fillings, also can store up large granule iron fillings, when adsorbing magnetic sheet 3 and changing into vertical migration by horizontal migration in amasss 1, the large granule iron fillings that carry on the absorption magnetic sheet 3 of L type are most difficult for dropping with the separation of adsorbing magnetic sheet 3. The surface of the adsorption magnetic plate 3 back to the liquid accumulation box 1 is integrally formed with a long inclined plate which guides scrap iron to move to the area where the adsorption magnetic plate 3 can be scraped.

The adsorption magnetic plate 3 is a magnet in another embodiment, after the reciprocating component 4 moves the adsorption magnetic plate 3 out of the liquid accumulation box 1, the plate is used to scrape off the iron filings on the adsorption magnetic plate 3, and then the reciprocating component 4 brings the adsorption magnetic plate 3 into the liquid accumulation box 1.

Referring to fig. 2 and 3, the guide assembly 5 includes two guide slats 51 fixed to the liquid collecting tank 1, the two guide slats 51 are spaced apart from each other in the width direction of the liquid collecting tank 1, the two guide slats 51 are respectively located on two sides of the width direction of the link plate assembly 2, and the guide slats 51 penetrate through the adsorption magnetic plate 3. The direction slat 51 is including the first slat, the second slat, the third slat, the fourth slat that connect gradually, first slat is located 1 inner chamber level setting of hydrops case and one end is fixed with hydrops case 1, the second slat is located along vertical setting, the third slat is located 1 outer chamber level setting of hydrops case, the fourth slat is the L type slat fixed with hydrops case 1, set up fillet smooth transition between first slat, the second slat, the third slat, do not influence the removal of adsorbing magnetic sheet 3 along direction slat 51.

Referring to fig. 2 and 3, the reciprocating assembly 4 includes a fixed bidirectional motor 41, a winding shaft 42, and a winding rope 43, an output shaft of the bidirectional motor 41 is fixed to the winding shaft 42, the bidirectional motor 41 drives the winding shaft 42 to rotate around its axis, the winding shaft 42 is located below the outer side of the liquid collecting tank 1, the winding shaft 42 is arranged along the width direction of the liquid collecting tank 1, and a bearing seat is sleeved on the winding shaft 42. Two ends of the winding rope 43 are respectively wound with the winding shaft 42 in a forward rotation mode and a reverse rotation mode, the two winding ropes 43 are arranged in the embodiment, and one ends, far away from the winding shaft 42, of the two winding ropes 43 are fixedly connected with the adsorption magnetic plate 3. In another embodiment, one winding rope 43 is provided, and after the winding rope 43 is fixed to the adsorption magnetic plate 3, both ends of the winding rope 43 are respectively wound and fixedly connected with the winding shaft 42. The liquid accumulating box 1 is fixedly provided with a guide wheel, and the winding shaft 42 is limited by the guide wheel to move along a fixed track.

After the two-way motor 41 is started, when the two-way motor 41 rotates forwards, the winding shaft 42 is driven to rotate, one winding rope 43 is wound on the winding shaft 42, the other winding rope 43 is detached from the winding shaft 42, at the moment, the winding rope 43 drives the adsorption magnetic plate 3, the adsorption magnetic plate 3 is limited by the guide assembly 5, the adsorption magnetic plate moves along the surface of the liquid accumulation box 1 until the liquid accumulation box 1 is moved out, after the magnetism of the adsorption magnetic plate 3 is eliminated, scrap iron on the adsorption magnetic plate 3 falls down, the two-way motor 41 rotates backwards, and the adsorption magnetic plate 3 is brought into the liquid accumulation box 1.

In another embodiment, the reciprocating assembly 4 includes a driving motor capable of rotating in forward or reverse direction, a chain wheel, and a chain, the chain wheel and the chain are engaged with each other, the chain is fixedly connected to the magnetic adsorption plate 3, the chain wheel rotates in forward or reverse direction under the action of the driving motor, and the reciprocating movement of the magnetic adsorption plate is driven by the movement of the chain.

Referring to fig. 1 and 4, in order to realize the adsorption treatment of the iron filings suspended above the interior of the liquid storage tank 1, the chain plate assembly 2 is provided with four permanent magnet plates 21 moving along with the chain, in the embodiment, the permanent magnet plates 21 are arranged at equal intervals in the length direction of the chain, the permanent magnet plates 21 have the same specification as other chain plates on the chain plate assembly 2, and the permanent magnet plates 21 are made of permanent magnet materials. The scraping mechanism 6 is further included, and the scraping mechanism 6 comprises a horizontal pushing assembly 61, a vertical pushing assembly 62 and a scraping plate 63. The scraping plate 63 is a plate sleeved on two surfaces of the permanent magnet plate 21 in the moving direction, the vertical pushing assembly 62 drives the scraping plate 63 to move vertically, and the horizontal pushing assembly 61 drives the vertical pushing assembly 62 and the scraping plate 63 to move horizontally and synchronously.

After the permanent magnet plate 21 moves to the corresponding position on the scraping plate 63, the vertical pushing assembly 62 drives the scraping plate 63 to move upwards to enable the scraping plate 63 to contact with the permanent magnet plate 21, and the horizontal pushing assembly 61 drives the vertical pushing assembly 62 and the scraping plate 63 to move horizontally to enable the scraping plate 63 to scrape iron scraps on the permanent magnet plate 21.

The scraping plate 63 is a U-shaped elastic plate with a flared opening at one end back to the vertical pushing assembly 62, the flared opening of the scraping plate 63 facilitates the scraping plate 63 to be sleeved outside the permanent magnet plate 21, and the scraping plate 63 with elasticity keeps the scraping plate 63 in abutting contact with the surface of the permanent magnet plate 21.

Vertical pushing component 62 is the hydraulic telescoping rod who sets up along vertical direction, hydraulic telescoping rod's expansion end with strike off board 63 fixed connection, hydraulic telescoping rod's stiff end is used for being connected fixedly with the expansion end that the level promoted subassembly 61, level promotion subassembly 61 is linear stepping motor, linear stepping motor outside cover is equipped with rubber telescopic tube 641 in order to avoid the iron fillings of striking off to influence linear stepping motor's removal, telescopic tube 641 is not drawn in the drawing. The linear stepping motor is arranged along the horizontal direction and forms an included angle of 45 degrees with the width direction of the chain plate assembly 2, so that the component speed of the moving speed of the horizontal pushing assembly 61 along the moving direction of the chain plate on the chain plate assembly 2 is the same as the moving speed of the chain plate on the chain plate assembly 2. At this time, the operation of the chain plate assembly 2 does not need to be stopped at intervals, and scrap iron on the permanent magnet plate 21 can be scraped when the chain plate assembly 2 is continuously opened.

Preferably, scraping mechanism 6 further includes a gimbal assembly 64 disposed between horizontal pushing assembly 61 and vertical pushing assembly 62. The universal assembly 64 includes a sleeve 641 fixed on the moving end of the horizontal pushing assembly 61, the axis of the sleeve 641 is along the moving direction of the vertical pushing assembly 62, three compression springs 642 are uniformly fixed on the inner side of the sleeve 641 at intervals in the circumferential direction, the axis of the compression spring 642 is along the radial direction of the sleeve 641, and the other end of the compression spring 642 is used for being fixedly connected with the fixed end of the vertical pushing assembly 62. In another embodiment, the compression springs 642 are disposed in two layers spaced along the axial direction of the sleeve 641, and each layer is disposed with three compression springs 642, so as to improve the stability of the connection between the compression springs 642 and the vertical fixing member.

The implementation principle of the embodiment 1 is as follows:

scraping large-particle scrap iron at the bottom of the liquid accumulation box 1 by using the adsorption magnetic plate 3, adsorbing small-particle scrap iron at the bottom of the liquid accumulation box 1, guiding the adsorption magnetic plate 3 to move along a fixed track by using the guide assembly 5, driving the adsorption magnetic plate 3 to move out or into the liquid accumulation box 1 by using the reciprocating assembly 4, and taking out the scrap iron at the bottom of the liquid accumulation box 1;

use the big granule iron fillings of link joint subassembly 2 most in with hydrops case 1 to carry over out, the small granule iron fillings of the suspension of hydrops case 1 upper portion are carried over out to permanent magnetic plate 21 simultaneously, after permanent magnetic plate 21 moved corresponding position, vertical promotion subassembly 62 drives strikes off board 63 and removes to supporting with permanent magnetic plate 21 surface contact and press, horizontal promotion subassembly 61 drives vertical promotion subassembly 62 and permanent magnetic plate 21 and removes, strike off the small granule iron fillings on the permanent magnetic plate 21, realized more comprehensive clearance to iron fillings in the hydrops case 1, reduce iron fillings exhaust waste, iron fillings recycle has been collected simultaneously.

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 magnetic plate formula chain slat type recoil cylinder chip removal machine which characterized in that includes:

the liquid accumulation box (1) is used for collecting cutting liquid and cutting scraps of the machine tool;

the chain plate assembly (2) is used for taking out large-particle debris in the liquid accumulation tank (1);

the adsorption magnetic plate (3) adsorbs suspended small-particle scrap iron;

the reciprocating component (4) drives the adsorption magnetic plate (3) to move in the liquid accumulation box (1), and the adsorption magnetic plate (3) can be moved out or moved into the liquid accumulation box (1).

2. The numerical control machine tool magnetic plate type chain plate type recoil roller chip removal machine according to claim 1, characterized in that the adsorption magnetic plate (3) is an electromagnet, the adsorption magnetic plate (3) generates magnetic adsorption suspension small particle scrap iron in the liquid accumulation box (1), and the adsorption magnetic plate (3) loses magnetism outside the liquid accumulation box (1).

3. The numerical control machine tool magnetic plate type chain plate type recoil roller chip removal machine according to claim 2, characterized in that the reciprocating assembly (4) comprises a bidirectional motor (41), a winding shaft (42) is connected to the bidirectional motor (41), a winding rope (43) with two ends respectively wound with the winding shaft (42) in a forward rotation and a reverse rotation is fixedly arranged on the winding shaft (42), and the winding rope (43) is fixedly connected with the adsorption magnetic plate (3).

4. The numerically-controlled machine tool magnetic plate type chain plate type recoil roller chip removal machine according to claim 2 is characterized in that a guide assembly (5) is arranged on the liquid accumulation box (1), and the guide assembly (5) guides the adsorption magnetic plate (3) to move along the bottom surface of the liquid accumulation box (1) until the adsorption magnetic plate is moved out of the liquid accumulation box (1) after the adsorption magnetic plate is contacted with one side wall of the liquid accumulation box (1) and moves along the surface of the side wall.

5. The numerically-controlled machine tool magnetic plate type chain plate type recoil roller chip removal machine is characterized in that a permanent magnet plate (21) moving along with a chain is arranged on the chain plate component (2);

still including scraping mechanism (6), scrape mechanism (6) and include horizontal pushing assembly (61), vertical pushing assembly (62), scrape board (63), horizontal pushing assembly (61) drive vertical pushing assembly (62) and scrape board (63) synchronous horizontal migration, vertical pushing assembly (62) drive scrape board (63) along vertical migration, scrape board (63) and locate the plate on permanent magnetism board (21) surface for the cover.

6. The numerically-controlled machine tool magnetic plate type chain plate type recoil roller chip removal machine according to claim 5, characterized in that the scraping plate (63) is a U-shaped elastic plate with a flared opening at one end back to the vertical pushing assembly (62).

7. The numerically-controlled machine tool magnetic plate chain plate type recoil roller chip removal machine according to claim 5, characterized in that the component velocity of the moving velocity of the horizontal pushing assembly (61) along the moving direction of the chain on the chain plate assembly (2) is the same as the moving velocity of the chain plate on the chain plate assembly (2).

8. The numerically-controlled machine tool magnetic plate type chain plate type recoil roller chip removal machine according to claim 5, further comprising a universal assembly (64) arranged between the horizontal pushing assembly (61) and the vertical pushing assembly (62), wherein the universal assembly (64) comprises a sleeve (641) fixed on the moving end of the horizontal pushing assembly (61), at least three compression springs (642) are fixedly arranged on the sleeve (641) at intervals in the circumferential direction, and the other ends of the compression springs (642) are fixedly connected with the fixed end of the vertical pushing assembly (62).

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