CN112405089B - Automatic chip removal device for cutting - Google Patents

Abstract

The automatic chip removal device for cutting comprises a rack, wherein a guide frame is rectangular and is fixed at the upper end of the rack; the operating platform slides along the axial direction of the frame; the drain door is arranged at the bottom of the operating platform; the propelling part is screwed at one end of the guide frame and is screwed on the operating platform; the collecting cover is fixed at one end of the guide frame, which is far away from the propelling part; the discharging piece is pivoted on the guide frame and aligned with the collecting cover; the output frame is fixed on the side wall of the frame, and the upper end of the output frame is aligned with the discharging piece; the drainage door comprises a rectangular door frame; the bearing door is a rectangular strip and is pivoted in the door frame; the adjusting piece is fixed at the end part of the bearing door and is screwed on the bearing door; the collecting cover comprises a semi-cylindrical shell; the poking plate is pivoted in the side wall of the shell; the second adjusting rod is round rod-shaped and is pivoted in the shell along the axial direction of the shell; the poking plate is fixed on the second adjusting rod; the end plates are semicircular; the automatic chip removal device can completely collect and discharge the waste materials generated by processing.

Description

Automatic chip removal device for cutting

Technical Field

The invention relates to the technical field of machining equipment, in particular to an automatic chip removal device for cutting machining.

Background

A lot of waste materials can be generated in the machining process, and the waste materials are accumulated on a workbench to cause disorder of the working environment and even influence the normal production and machining process. Many mechanical devices do not have a complete waste material collecting device in the existing mechanical cutting process, and even if a device for collecting waste materials exists, the waste materials cannot be completely collected and completely discharged, and the requirements of the existing mechanical processing cannot be met.

Therefore, it is necessary to provide an automatic chip discharging device for cutting process, which can collect and discharge the waste materials generated by cutting process completely.

Disclosure of Invention

The invention aims to provide an automatic chip removal device for cutting processing, which is used for solving the problem of low cost

The existing cutting equipment can not completely collect and discharge the waste materials generated by processing.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an automatic chip removal device for cutting machining, which comprises a frame and comprises:

the guide frame is rectangular and is fixed at the upper end of the rack;

an operation table which slides along the axial direction of the frame;

a drain door provided at the bottom of the operation table;

the propelling part is screwed at one end of the guide frame and is screwed on the operating platform;

the collecting cover is fixed at one end of the guide frame, which is far away from the propelling part;

a discharge member pivotally connected to the guide frame and aligned with the collection hood;

an output frame fixed on the side wall of the frame and having an upper end aligned with the discharge member;

the drain door includes:

a door frame, which is rectangular;

the bearing door is a rectangular long strip and is pivoted in the door frame; a plurality of door frames arranged along the width direction of the door frame;

the adjusting piece is fixed at the end part of the bearing door and screwed on the bearing door;

the collection hood includes:

a housing that is semi-cylindrical;

a toggle plate pivoted in the side wall of the housing;

a second adjustment lever which is round bar-shaped and is pivoted in the housing along the axial direction thereof; the poking plate is fixed on the second adjusting rod;

and an end plate which is semicircular and fixed to an end of the striking plate.

Preferably, the guide frame includes:

a side bar which is rectangular;

an end rod which is rectangular parallelepiped; the end rods and the side rods are mutually vertically fixed together to form a rectangular space;

the discharge port is rectangular and penetrates through the side wall of each side rod;

a guide groove which is rectangular and penetrates into the side wall of the other side rod;

an adjustment aperture that is circular and penetrates within one of the end rods.

Preferably, the operation table comprises:

a first base plate which is rectangular;

the drainage window is arranged in the first bottom plate in a penetrating way; the drainage window is in a quadrangular frustum pyramid shape, and the side wall of the drainage window is a plane inclined downwards;

a mounting groove which is rectangular and penetrates into a side wall of the first base plate; the mounting groove is aligned with the drainage window.

Preferably, the load door includes:

a body that is rectangular;

the conveying groove is semi-cylindrical and is concavely arranged in the body; the plurality of conveying grooves are arranged along the axial direction of the body.

Preferably, the adjustment member includes:

a base, which is rectangular;

a fixed tube which is a circular tube;

the first adjusting rod is in a round rod shape and is screwed in the fixing pipe.

Preferably, the housing comprises:

a shell, semi-cylindrical;

the operating window penetrates through an arc-shaped cavity in the side wall on one side of the shell;

and the first outlet is concavely arranged in a rectangular groove at the upper edge of the side wall of the other side of the shell.

Preferably, the striking plate includes:

a scraper which is cylindrical curved;

a lining plate which is in a cylindrical curved surface shape and is fixed on one side of the scraper which protrudes outwards;

a support block, which is triangular prism-shaped; both ends of the supporting block are fixed on the shell;

and the locking piece is screwed on the supporting block, and the end part of the locking piece is screwed on the lining plate.

Preferably, the discharge member includes:

a baffle plate which is rectangular parallelepiped;

the contact part is semi-cylindrical and is integrally fixed at the top end of the baffle;

a third adjusting rod which is round rod shaped and is screwed on the upper part of the baffle plate along the axial direction of the baffle plate;

the shielding plate is rectangular and is hinged to one side of the baffle plate;

a weight block which is cuboid and fixed on the other side of the baffle along the height direction of the baffle; the plurality of counter weights are arranged along the length direction of the baffle.

Preferably, the output rack includes:

a support block, which is triangular prism-shaped;

the lower end of the guide plate is pivoted at the lower end of the supporting block, and the other end of the guide plate moves;

a contact block which is cuboid and fixed on the upper end of the supporting block;

a first baffle that is trapezoidal; two first baffles are respectively fixed on two sides of the supporting block.

The carriage includes:

a second base plate which is rectangular;

a first sliding groove which is concavely arranged at the upper part of the second bottom plate and extends along the length direction of the second bottom plate;

and a side plate which is rectangular and fixed to an end of the second bottom plate.

Preferably, the guide plate includes:

a first lifter plate that is rectangular;

a bearing plate which is rectangular and fixed on the lower side of the first lifting plate;

the second sliding groove is concavely arranged in the bearing plate and extends along the length direction of the bearing plate;

a guide tube which is in a circular tube shape and fixed in the side plate;

a pushing block sliding in the first sliding groove and the top sliding in the second sliding groove);

a damping member fixed between the second base plate and the first lifting plate;

a push rod which is pivoted in a round rod shape and is screwed in the guide pipe; the end of the push rod is screwed to the propelling block.

The damping piece includes:

an outer frame that is trapezoidal;

a damper fixed within the outer frame;

a loading plate which is rectangular and hinged on the upper side of the shock absorption body;

the fourth adjusting rod is in a round rod shape and is pivoted in the fourth adjusting rod along the axial direction of the carrying plate;

the first spring is bound on the upper side of the carrying plate.

The invention has the following advantages:

(1) when the waste material collecting device is used, after waste materials are accumulated and slide to the bearing door along the side wall of the drainage window, the first adjusting rod is rotated, and the first adjusting rod rotates and drives the body to rotate. The waste material accumulated on the upper side of the body slides downward along the conveying chute. The door frame is a rectangular frame, and the top and the bottom of the door frame are both open. Waste material falls down from the door frame after dropping from the conveyer trough and enters into in collecting the cover, realizes waste material's preliminary collection.

(2) After the materials are accumulated in the space enclosed by the poking plate and the end plate. The second adjusting rod is rotated, the second adjusting rod rotates and drives the lining plate to rotate, and materials placed in a space formed by the poking plate and the end plate are poured out along with the rotation of the poking plate and are discharged outwards along the discharging piece. When the rest waste materials are stored in the poking plate, the first screw rod is rotated, the end part of the first screw rod extends out of the supporting block and pushes the lining plate, and the lining plate pushes the scraper blade to further rotate, so that the rest waste materials are discharged.

Drawings

Fig. 1 is a schematic view of an automatic chip removal device for cutting processing of the present invention.

Fig. 2 is a schematic view of the guide frame of the present invention.

Fig. 3 is a schematic view of the console of the present invention.

Fig. 4 is a schematic view of a drain door of the present invention.

Figure 5 is a schematic view of the load door of the present invention.

Fig. 6 is a schematic view of the conditioning element of the present invention.

Fig. 7 is a schematic view of a collection hood of the present invention.

Fig. 8 is a schematic view of the housing of the present invention.

Fig. 9 is a schematic view of the toggle plate of the present invention.

Fig. 10 is a schematic view of a discharge member of the present invention.

Fig. 11 is a schematic view of an output bay of the present invention.

Fig. 12 is a schematic view of a carriage of the present invention.

Fig. 13 is a schematic view of a guide plate of the present invention.

Fig. 14 is a schematic view of the damping member of the present invention.

Fig. 15 is a schematic view of the shielding plate of the present invention.

1-a frame; 2-a guide frame; 21-side lever; 22-a discharge hole; 23-end rod; 24-a guide groove; 25-a conditioning aperture; 3-an operation table; 31-a first base plate; 32-a drainage window; 33-mounting grooves; 4-a drain gate; 41-a door frame; 42-a load-bearing door; 421-a body; 422-conveying trough; 43-a trim; 431-a stationary tube; 432-a base; 433-a first adjusting lever; 5-collecting cover; 51-a housing; 511-shell; 512-operation window; 513 — a first outlet; 52-a toggle plate; 521-a scraper; 522-lining board; 523-a support block; 524-a locking element; 53-a second adjustment lever; 54-an end plate; 6-a discharge member; 61-a contact portion; 62-a third adjusting rod; 63-a shutter; 631-a deceleration rib; 632-a guide frame; 633-a drain tank; 64-a baffle plate; 65-a balancing weight; 7-an output frame; 71-a contact block; 72-a first baffle; 73-a guide plate; 731-a first lifter plate; 732-a carrier plate; 733 — second sliding groove; 734-a propulsion block; 735-a damping member; 7351 carrying plate; 7352-a fourth adjustment lever; 7353-a first spring; 7354-outer frame; 7355-shock absorbers; 736-a push rod; 737-guide tube; 74-a support block; 741-a second chassis; 742 — a first sliding groove; 743-side plate; 8-propelling part.

Detailed Description

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Examples

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the invention is further described with reference to the figures and the specific embodiments.

The high pressure resistant press jig of the present invention will be described in detail with reference to fig. 1 to 14.

The automatic chip removal device for cutting processing comprises a rack 1 and further comprises a guide frame 2, wherein the guide frame 2 is rectangular and is fixed to the upper end of the rack 1 through a bolt. The operation table 3 slides in the axial direction of the gantry 1. The drain door 4 is fixed to the bottom of the console 3 by bolts. The pusher 8 is screwed to one end of the guide frame 2, and the end of the pusher 8 is screwed to the operation table 3. The collecting hood 5 is bolted to the end of the guide frame 2 facing away from the thrust piece 8. The discharge member 6 is pivoted to the guide frame 2 and is aligned with the collecting hood 5. The output frame 7 is bolted to the side wall of the frame 1, and the upper end of the output frame 7 is aligned with the discharge member 6.

The working principle is as follows:

in use, processing waste generated by machining on the table 3 is deposited on the drain door 4. After the machining is finished, the pusher 8 is rotated, and the pusher 8 pushes the operation table 3 to slide along the guide frame 2 to the upper side of the collection cover 5. Thereafter, the drain door 4 is rotated, and the waste materials accumulated on the upper side of the drain door 4 fall into the collection hood 5. Preferably, the collecting hood 5 is rotated, the waste material rolls over from the collecting hood 5 and slides along the discharging member 6 to the output rack 7, and finally is discharged along the output rack 7, thereby realizing the discharge of the machining waste material.

The guide frame 2 includes a side bar 21, and the side bar 21 is rectangular parallelepiped. The end rod 23 is rectangular parallelepiped. The end rod 23 and the side rod 21 are perpendicular to each other and fixed together by bolts, and the end rod 23 and the side rod 21 enclose a rectangular space. The discharge port 22 is rectangular, and the discharge port 22 penetrates through the side wall of one side rod 21. The guide groove 24 is rectangular, and the guide groove 24 penetrates into the side wall of the other side bar 21. The adjustment hole 25 is circular, and the adjustment hole 25 penetrates in one of the end bars 23. The number of the adjustment holes 25 is 2. The guide groove 24 and the discharge port 22 extend along the length of the side bar 21.

The console 3 includes a first base plate 31, and the first base plate 31 is rectangular. The drainage window 32 is formed through the first bottom plate 31. The drainage window 32 is rectangular frustum-shaped, and the side wall of the drainage window 32 is a plane inclined downward. The mounting groove 33 is rectangular, and the mounting groove 33 penetrates into the sidewall of the first base plate 31. The mounting groove 33 is aligned with the drainage window 32. The sectional size of the drainage window 32 on the side close to the top surface of the first base plate 31 is large, and the size of the cross section of the drainage window 32 on the side close to the ground surface of the first base plate 31 is small. The side wall of the discharge window 32 is a plane inclined downward, so that the waste material slides downward along the side wall of the discharge window 32, and the waste is discharged.

The drain door 4 includes an adjuster 43, and the door frame 41 is rectangular. The loading door 42 is a rectangular long door, the loading door 42 is pivoted in the door frame 41, and the plurality of door frames 41 are arranged along the width direction of the door frame 41. The adjuster 43 is bolted to the end of the load door 42, and the adjuster 43 is screwed to the load door 42. The loading door 42 includes a body 421, and the body 421 is rectangular. The transferring groove 422 is semi-cylindrical, and the transferring groove 422 is concavely provided in the body 421. The plurality of transfer grooves 422 are arranged along the axial direction of the body 421. The adjustment member 43 includes a base 432, and the base 432 is rectangular. The fixing tube 431 is a circular tube. The first adjustment lever 433 is a circular rod shape, and the first adjustment lever 433 is screwed into the fixed pipe 431. The end of the first adjusting lever 433 is screwed to the body 421.

When the waste material collecting device is used, after waste materials are accumulated and slide to the bearing door 42 along the side wall of the discharging window 32, the first adjusting rod 433 is rotated, and the first adjusting rod 433 rotates and drives the body 421 to rotate. The waste materials accumulated on the upper side of the body 421 slide downward along the conveying groove 422. The door frame 41 is a rectangular frame, and the top and bottom of the door frame 41 are open. Waste materials fall down from the door frame 41 into the collecting cover 5 after falling from the conveying groove 422, and primary collection of the waste materials is achieved.

The collecting hood 5 comprises a housing 51, the housing 51 being semi-cylindrical. The toggle plate 52 is pivoted within the side wall of the housing 51. The second adjustment lever 53 is a circular rod, and the second adjustment lever 53 is pivotally coupled within the housing 51 in the axial direction of the housing 51. The dial plate 52 is fixed to the second adjustment lever 53 by bolts. The end plate 54 is semicircular, and the end plate 54 is fixed to the end of the striking plate 52 with a bolt. The two end plates 54 seal both ends of the striking plate 52 so that the housing 51 forms a complete material placing space.

The housing 51 includes a shell 511, and the shell 511 is semi-cylindrical. The operation window 512 is an arc-shaped cavity formed through the side wall of the case 511. The first outlet 513 is a rectangular groove recessed at the upper edge of the sidewall of the other side of the case 511.

The striking plate 52 includes a squeegee 521, and the squeegee 521 has a cylindrical curved surface. The liner 522 is cylindrically curved, and the liner 522 is fixed to the side of the scraper 521 protruding outward by bolts. The first support block 523 is triangular prism-shaped. Both ends of the first supporting block 523 are fixed to the case 511 by bolts. The locking member 524 is threaded onto the first support block 523 and the end of the locking member 524 is threaded onto the backing plate 522.

The locking member 524 includes a first screw, and is screwed to the first support block 523. The first support block 523 is sleeved with a second spring, and the second spring is extruded on the side wall of the first support block 523. The first screw rod end is screwed with a first nut which is screwed and tightly pressed on the second spring.

In use, material is deposited into the space defined by the toggle plate 52 and the end plate 54. When the second adjusting lever 53 is rotated, the second adjusting lever 53 rotates and drives the lining plate 522 to rotate, and the material placed in the space enclosed by the toggle plate 52 and the end plate 54 is dumped out along with the rotation of the toggle plate 52 and is discharged outwards along the discharging member 6. When the remaining waste materials are stored in the striking plate 52, the first screw is rotated, the end of the first screw extends out of the first supporting block 523 and pushes the lining plate 522, and the lining plate 522 pushes the scraper 521 to further rotate, so that the remaining waste materials are discharged. The lining plate 522 is made of rubber materials, and when the lining plate 522 is contacted with the second spring, the second spring and the second spring can generate corresponding deformation so as to avoid the damage of the structure of the lining plate 522 per se caused by the hard force generated by extrusion. Meanwhile, after a large amount of waste materials fall and impact on the scraper 521, the scraper 521 transmits acting force to the lining plate 522 and the second spring, and the lining plate 522 and the second spring can deform to play a role in buffering.

The discharge member 6 includes a baffle plate 64, and the baffle plate 64 is rectangular parallelepiped. The contact portion 61 is semi-cylindrical, and the contact portion 61 is integrally formed and fixed to the top end of the baffle plate 64. The third adjustment lever 62 is a circular rod, and the third adjustment lever 62 is screwed to the upper portion of the baffle plate 64 along the axial direction of the baffle plate 64. The shielding plate 63 is rectangular, and the shielding plate 63 is hinged to one side of the blocking plate 64. The weight 65 is rectangular parallelepiped, and the weight 65 is fixed to the other side thereof by bolts along the height direction of the baffle plate 64. A plurality of weights 65 are arranged along the length of the baffle plate 64. The weight member 65 may be made of a metal material, such as a steel material. The shielding plate 63 is made of a rubber material with good elasticity.

When the waste material is poured out from the housing 51 and the stirring plate 52, the third adjusting lever 62 is rotated first, the third adjusting lever 62 drives the baffle plate 64 to rotate by a certain angle, and after the rotation, the baffle plate 63 rotates to the position inclined to the discharge port 22. The waste material flows out along the outlet 22 and impinges on the shutter 63.

The shielding plate 63 includes a decelerating rib 631, a guiding frame 632, and a drain groove 633. The drain trough 633 is wedge-shaped and recessed within the guide frame 632. The deceleration ribs 631 are rectangular and long, and the deceleration ribs 631 are arranged in the width direction of the drain tank 633 and fixed by bolts.

After hitting the guide frame 632, the material slides along the discharge groove 633 and is discharged onto the guide plate 73. The decelerating ribs 631 are made of rubber materials, have high friction coefficients, can provide large friction force for waste materials passing through the decelerating ribs, and avoid serious impact caused by rapid falling of the materials. The discharge groove 633 has good guiding effect on waste materials, and the materials are prevented from being discarded at will.

The output carrier 7 comprises a second support block 74, the second support block 74 being triangular prism-shaped. The lower end of the guide plate 73 is pivoted to the lower end of the second support block 74, and the other of the guide plates 73 is movable. The contact block 71 is rectangular parallelepiped, and the contact block 71 is fixed to the upper end of the second support block 74 by bolts. The first baffle 72 is trapezoidal; two first blocking plates 72 are respectively bolted to both sides of the second supporting block 74. The first blocking plate 72, the guide plate 73 and the second supporting block 74 constitute a material conveying passage.

The carriage 74 includes a second base plate 741, and the second base plate 741 is rectangular. The first sliding groove 742 is recessed in an upper portion of the second base plate 741, and the first sliding groove 742 extends along a longitudinal direction of the second base plate 741. The side plate 743 is rectangular, and the side plate 743 is fixed to an end of the second base plate 741 with a bolt. The side plate 743 and the second bottom plate 741 are perpendicular to each other.

The guide plate 73 includes a first lifting plate 731, and the first lifting plate 731 is rectangular. The support plate 732 is rectangular, and the support plate 732 is fixed to a lower side of the first lifting plate 731 by bolts and extends in a longitudinal direction of the first lifting plate 731. The second sliding groove 733 is rectangular, the second sliding groove 733 is recessed in the carrier plate 732, and the second sliding groove 733 extends along the length direction of the carrier plate 732. The guide tube 737 is a circular tube, and the guide tube 737 is fixed by bolts in the side plates 743, and the guide tube 737 penetrates in the side plates 743.

The propulsion block 734 slides within the first sliding groove 742, and the top of the propulsion block 734 slides within the second sliding groove 733. The vibration reduction member 735 is fixed between the second base plate 741 and the first lifting plate 731. The vibration reduction member 735 is located on a side of the thrust block 734 facing away from the side plate 743, and the vibration reduction member 735 is located near an edge of the second base plate 741. The push rod 736 is pivotally rod-shaped, and the push rod 736 is threadedly coupled within the guide tube 737. The end of the push rod 736 is threaded onto the pusher block 734.

The damping member 735 includes an outer frame 7354, and the outer frame 7354 is trapezoidal. The vibration damper 7355 is fixed inside the outer frame 7354 by bolts. The loading plate 7351 is rectangular and hinged on the upper side of the shock-absorbing body 7355. The fourth adjustment lever 7352 is a circular rod, and the fourth adjustment lever 7352 is pivoted in the loading plate 7351 along the axial direction of the loading plate 7351. The first spring 7353 is bound to the upper side of the loading plate 7351. The plurality of first springs 7353 are uniformly distributed on the upper side of the loading plate 7351.

In use, when rapid material delivery is required, the push rod 736 is rotated along the guide tube 737 to the space defined by the side plate 743 and the second bottom plate 741. The push rod 736 pushes the pushing block 734, the lower end of the pushing block 734 slides along the first sliding slot 742, the top end of the pushing block 734 slides along the second sliding slot 733, and simultaneously the top end of the pushing block 734 jacks up the carrier plate 732, and the carrier plate 732 drives the first lifting plate 731. The lower end of the first lifting plate 731 rotates around the edge of the second base plate 741, and meanwhile, the lower side of the second base plate 741 pulls the first spring 7353, the first spring 7353 pulls the loading plate 7351, the loading plate 7351 rotates around the fourth adjusting rod 7352, the loading plate 7351 is supported to the lower side of the first lifting plate 731 through the rotation of the loading plate 7351, so that the support of the lower part of the first lifting plate 731 is realized, and the stable installation of the lower structure of the first lifting plate 731 is ensured. The damping body 7355 is made of a rubber material, and the longitudinal section of the damping body 7355 is trapezoidal. The vibration absorber 7355 is supported on the lower side of the loading plate 7351.

When the waste material collides with the upper side of the first lifting plate 731, the first lifting plate 731 transfers the collision force to the first spring 7353, and the first spring 7353 is pressed to be deformed to play a role of buffering protection. The first spring 7353 transmits the pressing force to the loading plate 7351, the loading plate 7351 rotates around the fourth adjusting rod 7352 under the pressing force, the lower side of the loading plate 7351 presses the damping body 7355, and the damping body 7355 deforms to play a role of buffering protection.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The utility model provides a cutting process's automatic chip removal device which characterized in that, includes frame (1), includes:

a guide frame (2) which is rectangular and fixed at the upper end of the frame (1);

an operation table (3) which slides along the axial direction of the frame (1);

a drain door (4) provided at the bottom of the console (3);

a propelling part (8) which is screwed at one end of the guide frame (2) and is screwed on the operating platform (3);

the collecting cover (5) is pivoted at one end of the guide frame (2) which is far away from the propelling piece (8);

a discharge member (6) pivoted on the guide frame (2) and aligned with the collection hood (5);

an output frame (7) fixed on the side wall of the frame (1) and aligned with the discharge member (6) at the upper end;

the drain door (4) comprises:

a door frame (41) that is rectangular;

a load-bearing door (42) which is a rectangular long strip and is pivoted in the door frame (41); a plurality of door frames (41) are arranged along the width direction of the door frames (41);

an adjusting piece (43) which is fixed at the end part of the bearing door (42) and is screwed on the bearing door (42);

the collecting hood (5) comprises:

a housing (51) which is semi-cylindrical;

a toggle plate (52) pivoted in the side wall of the housing (51);

a second adjustment lever (53) which is a circular rod and is pivoted in the housing (51) along the axial direction thereof; the poking plate (52) is fixed on the second adjusting rod (53);

and an end plate (54) which is semicircular and fixed to an end of the toggle plate (52).

2. The automatic chip removal device for cutting according to claim 1, characterized in that said guide (2) comprises:

a side bar (21) which is rectangular;

an end rod (23) which is rectangular; the end rod (23) and the side rod (21) are mutually vertically fixed together to form a rectangular space;

the discharge port (22) is rectangular and penetrates through the side wall of one side rod (21);

a guide groove (24) which is rectangular and penetrates into the side wall of the other side bar (21);

an adjustment aperture (25) which is circular and which penetrates within one of the end rods (23).

3. The automatic chip removal device for cutting according to claim 1, characterized in that said operating station (3) comprises:

a first base plate (31) which is rectangular;

a drainage window (32) which is arranged in the first bottom plate (31) in a penetrating way; the drainage window (32) is in a quadrangular frustum pyramid shape, and the side wall of the drainage window is a plane inclined downwards;

a mounting groove (33) which is rectangular and penetrates into a side wall of the first base plate (31); the mounting groove (33) and the drainage window (32) are aligned.

4. The automatic chip removal device for cutting according to claim 1, characterized in that said carrier door (42) comprises:

a body (421) that is rectangular;

a conveying trough (422) which is semi-cylindrical and is concavely arranged in the body (421); the plurality of conveying grooves (422) are arranged along the axial direction of the body (421).

5. The automatic chip removal device for cutting according to claim 1, characterized in that said adjustment member (43) comprises:

a base (432) that is rectangular;

a fixed tube (431) which is a circular tube;

a first adjusting rod (433) which is in a round bar shape and is screwed in the fixed pipe (431).

6. The automatic chip removal device for cutting machining according to claim 1, characterized in that said housing (51) comprises:

a shell (511) that is semi-cylindrical;

an operation window (512) which is an arc-shaped cavity penetrating through the side wall of one side of the shell (511);

a first outlet (513) which is a rectangular groove concavely provided at an upper edge of a side wall of the other side of the case (511).

7. The automatic chip removal device for cutting according to claim 1, wherein said toggle plate (52) comprises:

a scraper (521) which is cylindrically curved;

a lining plate (522) which is in a cylindrical curved surface shape and is fixed on the side of the scraper (521) protruding outwards;

a first support block (523) that is triangular prism-shaped; both ends of the first supporting block (523) are fixed on the shell (511);

and a locking member 524 screwed to the first support block 523 and having an end screwed to the lining plate 522.

8. The automatic chip removal device for cutting according to claim 1, characterized in that said ejector (6) comprises:

a baffle plate (64) having a rectangular parallelepiped shape;

a contact part (61) which is semi-cylindrical and is fixed on the top end of the baffle plate (64) in an integrated manner;

a third adjustment lever (62) which is in the shape of a circular rod and is screwed to the upper part of the baffle plate (64) along the axial direction thereof;

a shutter (63) which is rectangular and hinged on one side of the shutter (64);

a weight block (65) which is rectangular and fixed to the other side of the baffle plate (64) along the height direction thereof; a plurality of weight members (65) are arranged along the longitudinal direction of the baffle plate (64).

9. The automatic chip removal device for cutting according to claim 1, characterized in that said output rack (7) comprises:

a second support block (74) which is triangular prism-shaped;

a guide plate (73) having a lower end pivotally connected to a lower end of the second support block (74) and the other end movable;

a contact block (71) which is rectangular parallelepiped and fixed to the upper end of the second support block (74);

a first baffle (72) that is trapezoidal; two first baffle plates (72) are respectively fixed on two sides of the second supporting block (74);

the second support block (74) comprises:

a second base plate (741) that is rectangular;

a first slide groove (742) which is recessed in the upper portion of the second base plate (741) and extends along the longitudinal direction thereof;

and a side plate (743) which is rectangular and fixed to an end of the second bottom plate (741).

10. The automatic chip removal device for cutting machining according to claim 1, characterized in that the guide plate (73) comprises:

a first lifting plate (731) which is rectangular;

a carrier plate (732) which is rectangular and fixed to the lower side of the first elevating plate (731);

a second sliding groove (733) which is recessed in the carrier plate (732) and extends in the longitudinal direction of the carrier plate (732);

a guide tube (737) which is a circular tube and fixed to the side plate (743);

a pusher block (734) sliding in the first sliding groove (742) and sliding on top in the second sliding groove (733);

a vibration damping member (735) fixed between the second base plate (741) and the first lifting plate (731);

a push rod (736) which is in a round rod shape and is screwed in the guide tube (737); the end part of the push rod (736) is screwed on the propelling block (734);

the damping member (735) includes:

an outer frame (7354) that is trapezoidal;

a vibration damping body (7355) fixed inside the outer frame (7354);

a loading plate (7351) which is rectangular and hinged on the upper side of the vibration damping body (7355);

a fourth adjustment lever (7352) which is a round bar and is pivoted in the axial direction of the loading plate (7351);

a first spring (7353) bound to an upper side of the loading plate (7351).

Images