CN213258421U - High-efficient chip removal device of gear hobbing lathe - Google Patents

Abstract

The application relates to a high-efficiency chip removal device of a hobbing lathe, which comprises an electromagnetic conveyor belt, a support, a chip conveying frame and a chip removal frame, wherein the electromagnetic conveyor belt is obliquely arranged on the support, a first driving piece for driving the electromagnetic conveyor belt to rotate is arranged on the support, the chip conveying frame is covered at one end of the electromagnetic conveyor belt, which is far away from the support, and fortune bits frame sets up along the direction of electromagnetism conveyer belt conveying, the bottom of fortune bits frame is provided with the iron fillings feed inlet, the chip removal frame sets up the top at fortune bits frame, the one end that fortune bits frame was kept away from to the chip removal frame is provided with the iron fillings discharge gate, be provided with the chip removal baffle on the lateral wall that electromagnetism conveyer belt was kept away from to the chip removal frame, be provided with the second driving piece on the chip removal baffle, the pivot end of second driving piece is provided with the carousel, the eccentric bits pole that removes that is provided with on the carousel, remove the bits pole and set up along the perpendicular to chip removal frame material discharge direction, it is provided with. This application has the effect that improves chip removal frame absorption iron fillings problem.

Description

High-efficient chip removal device of gear hobbing lathe

Technical Field

The application relates to the field of chip removal devices, in particular to a high-efficiency chip removal device of a hobbing lathe.

Background

The excess material removed during the cutting process is called swarf. Chip formation is a complex process, and the chip formation mechanism is different under different conditions, so that the chip can take on different forms. When plastic materials are cut, the cutting chips are formed by shearing and sliding of workpiece materials, so that the cutting chips are in a strip shape, a squeezing crack shape and a unit shape; when a brittle material is machined, cracks in the workpiece propagate to form chips, and therefore the form of the chips is mainly a chip-like shape, but continuous band-like or shear-type chips can be obtained under certain conditions.

The magnetic chip cleaner utilizes the magnetic force of a strong magnetic field generated by a permanent magnetic material to adsorb chips on a chip removing frame of the chip cleaner, or adsorb and separate granular and powdery iron chips with the length less than or equal to 150 mm in oil and emulsion, and convey the iron chips to a specified chip removing place or a chip collecting box. Can treat the iron filings and non-rolling scraps which are powdery, granular and have the length less than 100 mm. Or separating the oil and the scraps in the emulsion and conveying the separated oil and scraps to a designed scrap discharge box.

Aiming at the related technologies, the inventor thinks that the magnetic chip removal machine is in operation, the magnetic conveyor belt can magnetize the chip removal frame of the magnetic chip removal machine, and the magnetized chip removal frame can adsorb iron chips, resulting in unsmooth chip removal.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem of chip removal frame absorption iron fillings, this application provides a high-efficient chip removal device of gear hobbing lathe.

The application provides a pair of high-efficient chip removal device of gear hobbing lathe adopts following technical scheme:

a high-efficiency chip removal device of a hobbing lathe, which comprises an electromagnetic conveyor belt, a bracket, a chip conveying frame and a chip removal frame, the electromagnetic conveyor belt is obliquely arranged on the bracket, the bracket is provided with a first driving piece for driving the electromagnetic conveyor belt to rotate, the scrap conveying frame is covered at one end of the electromagnetic conveyor belt far away from the bracket, the scrap conveying frame is arranged along the conveying direction of the electromagnetic conveyor belt, the bottom of the scrap conveying frame is provided with a scrap iron feeding hole, the scrap discharging frame is arranged at the top of the scrap conveying frame, one end of the scrap discharging frame far away from the scrap conveying frame is provided with a scrap iron discharging hole, a chip removal baffle is arranged on the side wall of the chip removal frame away from the electromagnetic conveyor belt, a second driving piece is arranged on the chip removal baffle, a rotating disc is arranged at the rotating shaft end of the second driving piece, a scrap removing rod is eccentrically arranged on the rotating disc, the scrap removing rod is arranged along the discharging direction on the scrap removing frame, and a scrap collecting box is arranged on the support close to the scrap iron discharging port.

Through adopting above-mentioned technical scheme, in the implementation use, the iron fillings that gear hobbing lathe processing produced enter into the iron fillings feed inlet department of fortune bits frame, and first driving piece drive electromagnetism conveyer belt rotates to drive iron fillings and slide on fortune bits frame. On iron fillings entered into the chip removal frame by transporting the bits frame, along with the reduction of the adsorption affinity of electromagnetic conveyor belt to iron fillings, under the action of gravity of iron fillings, iron fillings are discharged from the iron fillings discharge gate of chip removal frame to in the collecting box. In use, along with the magnetization of the electromagnetic conveyor belt to the scrap removal frame, the scrap removal frame generates an adsorption force to scrap iron, and the second driving piece arranged on the scrap removal baffle scrapes off the scrap iron adsorbed on the scrap removal frame through the scrap removal rod eccentrically arranged on the turntable, so that the scrap iron is discharged more smoothly by the scrap removal frame.

Preferably, an elastic scraper is arranged on the side wall of the chip removing rod close to the chip removing rack.

Through adopting above-mentioned technical scheme, in the in-service use, the elasticity scraper blade is under the effect of self elastic force, and is inseparable with the lateral wall laminating of chip removal frame, has improved the effect of getting rid of bits pole to iron fillings.

Preferably, the elastic scraper blade is provided with a dovetail block on the side wall close to the chip removing rod, the chip removing rod is correspondingly provided with a dovetail groove on the side wall close to the elastic scraper blade, and the chip removing rod is provided with a fixing part for fixing the elastic scraper blade.

Through adopting above-mentioned technical scheme, the elasticity scraper blade passes through the dovetail piece and can dismantle with the dovetail that removes on the bits pole and be connected to through the mounting with the elasticity scraper blade with remove bits pole fixed connection, so set up, be convenient for change the elasticity scraper blade of damage, improved the maintenance convenience of elasticity scraper blade.

Preferably, the side walls of the chip conveying frame and the chip discharging frame, which are far away from the electromagnetic conveyor belt, are provided with wear-resistant layers.

Through adopting above-mentioned technical scheme, in the in-service use, iron fillings and fortune bits frame and chip removal frame sliding friction, the wearing layer is favorable to improving fortune bits frame and chip removal frame's life.

Preferably, a protective cover is arranged on the side wall of the chip removal baffle far away from the electromagnetic conveyor belt.

Through adopting above-mentioned technical scheme, when removing bits pole during operation, the protection casing plays the effect of blockking to the iron fillings that splash on the chip removal frame, makes iron fillings drop to in the collecting box to gear hobbing lathe magnetic force chip removal device's application has been improved.

Preferably, the side wall of the chip removal frame close to the electromagnetic conveyor belt is provided with a vibrating piece.

Through adopting above-mentioned technical scheme, in the in-service use, the vibrating piece can promote iron fillings to discharge from the chip removal frame, is favorable to reducing the condition of iron fillings gathering on the chip removal frame, is favorable to improving the chip removal effect of chip removal frame.

Preferably, be provided with the stirring leaf in receiving the bits case, receive and be provided with the slide bar on the bits case, the one end that the slide bar kept away from and receives the bits case is provided with mounting platform, the last third driving piece that is provided with drive stirring leaf pivoted of mounting platform.

Through adopting above-mentioned technical scheme, in the in-service use, iron fillings on the chip removal frame fall into to receive one side that is close to the chip removal frame in the chip case, through the stirring of third driving piece drive stirring leaf in receiving the chip case, make the iron fillings in receiving the chip case distribute more evenly to be favorable to reducing the condition that iron fillings spill over from receiving the one end that the chip case is close to the chip removal frame, improved the application of receiving the chip case.

Preferably, the sliding rod comprises a sleeve fixed on the scrap collecting box and a sliding rod arranged in the sleeve in a sliding mode, a locking piece used for fixing the sliding rod is arranged on the sleeve, and the mounting platform is arranged at one end, far away from the sleeve, of the sliding rod.

Through adopting above-mentioned technical scheme, through the position of slide bar in the adjusting sleeve to fix through the lock piece, make the setting keep away from the high change that takes place of the mounting platform of sleeve pipe one end at the slide bar. The third driving piece that sets up on mounting platform is apart from receiving the height of bits case also along with changing to change the position of stirring leaf in receiving the bits case, make the stirring leaf play higher effect that homogenizes to receiving the not iron fillings homoenergetic of co-altitude in the bits case, improved the application of stirring leaf.

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

in the implementation use, the iron fillings that gear hobbing lathe processing produced enter into fortune bits frame's iron fillings feed inlet department, and first driving piece drive electromagnetism conveyer belt rotates to drive iron fillings and slide on fortune bits frame. On iron fillings entered into the chip removal frame by transporting the bits frame, along with the reduction of the adsorption affinity of electromagnetic conveyor belt to iron fillings, under the action of gravity of iron fillings, iron fillings are discharged from the iron fillings discharge gate of chip removal frame to in the collecting box. When the electromagnetic conveyor belt is used for magnetizing the scrap removal frame, the scrap removal frame generates an adsorption force on scrap iron, and a second driving piece arranged on the scrap removal baffle plate scrapes the scrap iron adsorbed on the scrap removal frame through a scrap removal rod eccentrically arranged on the turntable, so that the scrap iron is more smoothly discharged by the scrap removal frame;

in practical use, the elastic scraper is tightly attached to the side wall of the scrap removal frame under the action of the elastic force of the elastic scraper, so that the scrap removal effect of the scrap removal rod on scrap iron is improved;

in the in-service use, iron fillings on the chip removal frame fall into to receive one side that is close to the chip removal frame in the chip removal case, through the stirring of third driving piece drive stirring leaf in receiving the chip removal case, make the iron fillings in receiving the chip removal case distribute more evenly to be favorable to reducing the condition that iron fillings spill over from receiving the one end that the chip removal case is close to the chip removal frame, improved the application of receiving the chip removal case.

Drawings

Fig. 1 is a schematic overall structure diagram of a high-efficiency chip removal device of a hobbing lathe according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an elastic scraper in the high-efficiency chip removal device of the hobbing lathe according to the embodiment of the application.

Fig. 3 is a sectional view of a high-efficiency chip removal device of a hobbing lathe according to an embodiment of the application.

Description of reference numerals: 1. a support; 2. an electromagnetic conveyor belt; 22. a roll shaft; 23. a first driving member; 24. a long magnetic strip; 25. a conveyor belt mounting frame; 3. a scrap conveying frame; 4. a scrap conveying baffle; 5. a scrap iron feed port; 6. a chip removal frame; 7. a scrap iron discharge hole; 8. a chip removal baffle; 9. a second driving member; 10. a turntable; 11. a scrap removing rod; 12. a scrap collecting box; 13. an elastic scraper; 14. a dovetail groove; 15. a dovetail block; 16. a fixing member; 17. a wear layer; 18. a vibrating member; 19. a protective cover; 20. a slide bar; 201. a sleeve; 202. a slide bar; 26. a locking member; 27. mounting a platform; 28. a third driving member; 29. a stirring rod; 30. stirring the leaves.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a high-efficient chip removal device of gear hobbing lathe. Referring to fig. 1 and 2, the high-efficiency chip removal device for the hobbing lathe comprises a rectangular support 1, wherein an electromagnetic conveyor belt 2 is fixedly arranged at the top end of the support 1, and the electromagnetic conveyor belt 2 is obliquely arranged on the support 1. The electromagnetic belt 2 includes a belt body, a roller shaft 22, a first drive member 23, a long magnetic strip 24, and a belt mounting bracket 25. Conveyer belt mounting bracket 25 is fixed on support 1, roller 22 rotates and sets up in conveyer belt mounting bracket 25, the conveyer belt body is around rolling up on roller 22, it is provided with a plurality of long magnetic stripe 24 that are the cuboid form on the lateral wall of roller 22 is kept away from to the conveyer belt body, and long magnetic stripe 24 sets up along perpendicular to conveyer belt body pivoted direction, first driving piece 23 is fixed on conveyer belt mounting bracket 25, first driving piece 23 driving roller 22 rotates on conveyer belt mounting bracket 25, the rotation end of first driving piece 23 and the one end fixed connection of roller 22, it can be the motor to get first driving piece 23 in this embodiment.

Keep away from support 1 one end at conveyer belt mounting bracket 25 and be provided with fortune bits frame 3 along the 2 moving directions of electromagnetism conveyer belt, the cross-section of fortune bits frame 3 is the rectangle, is provided with the fortune bits baffle 4 that is the cuboid form at fortune bits frame 3 along 2 ascending both ends of transmission directions of electromagnetism conveyer belt, and fortune bits baffle 4 and fortune bits frame 3 set up for integrated into one piece, and fortune bits baffle 4 passes through the bolt fastening on conveyer belt mounting bracket 25. The bottom of the scrap conveying frame 3 is provided with a scrap iron feeding hole 5.

The chip removal frame 6 with the rectangular cross section is arranged at the top of the chip conveying frame 3, one end, away from the chip conveying frame 3, of the chip removal frame 6 is arranged in a direction inclined towards the bottom of the support 1, the chip removal frame 6 and the chip conveying frame 3 are arranged in an integrated mode, and the one end, away from the chip conveying frame 3, of the chip removal frame 6 is provided with a chip scrap discharge hole 7. A scrap collecting box 12 with a cuboid-shaped top part being open is arranged at one end of the bracket 1 close to the scrap iron discharge hole 7.

Chip removal baffle 8 that is cuboid form is provided with at the both ends of arranging the bits direction on chip removal frame 6, is fixed with second driving piece 9 on the lateral wall that one chip removal baffle 8 keeps away from another chip removal baffle 8 among them, and the rotation end of second driving piece 9 rotates between two chip removal baffles 8. A cylindrical turntable 10 is fixedly arranged on the rotating end, and a rectangular scrap removing rod 11 is eccentrically arranged at one end of the turntable 10 close to the edge.

Iron fillings that gear hobbing lathe processing produced enter into 5 departments of iron fillings feed inlet on transporting the bits frame 3, and the long magnetic stripe 24 on the electromagnetic conveyor belt 2 adsorbs iron fillings and slides on transporting bits frame 3, and when iron fillings entered into on the bits frame 6 by transporting bits frame 3, electromagnetic conveyor belt 2 reduced the adsorption of iron fillings, and under the effect of gravity, iron fillings fall into receiving in bits case 12. Electromagnetic conveyor belt 2 can magnetize chip removal frame 6 in the use, leads to chip removal frame 6 to produce the absorption effect to iron fillings, and 9 drive turnplate 10 of second driving piece rotate, fixes removing bits pole 11 on turnplate 10 and strikes off the iron fillings on chip removal frame 6 to improve the chip removal effect of chip removal frame 6.

An elastic scraper 13 with a triangular section is arranged on the side wall of the chip removing rod 11 close to the chip removing rack 6, a dovetail groove 14 is arranged on the side wall of the chip removing rod 11 close to the elastic scraper 13 along the self axial direction, a dovetail block 15 correspondingly clamped with the dovetail groove 14 is arranged on the elastic scraper 13, and the elastic scraper 13 is arranged in the dovetail groove 14 of the chip removing rod 11 in a sliding mode through the dovetail block 15. A fixing member 16 for fixing the elastic scraper 13 is provided on a side wall of the chip removing bar 11, and the fixing member 16 of this embodiment may be a bolt. The elastic scraper 13 improves the removal effect of the scrap removing rod 11 on scrap iron, and the elastic scraper 13 is arranged in the dovetail groove 14 of the scrap removing rod 11 in a sliding mode through the dovetail block 15 and is fixed through the fixing piece 16, so that the damaged elastic scraper 13 can be replaced conveniently.

Referring to fig. 1 and 3, a wear-resistant layer 17 is arranged on the side walls of the chip removal rack 6 and the chip conveying rack 3 away from the electromagnetic conveyor belt 2, and the wear-resistant layer 17 in this embodiment may be a chromium-plated layer. Iron fillings and fortune bits frame 3 and chip removal frame 6 sliding friction, wearing layer 17 is favorable to improving fortune bits frame 3 and chip removal frame 6's life.

The side wall of the chip discharging frame 6 close to the electromagnetic conveyor belt 2 is provided with a vibrating piece 18, the vibrating piece 18 in the embodiment can be a deflection motor, and the vibrating piece 18 is fixed on the chip discharging frame 6 through bolts. The vibrating member 18 is advantageous for reducing the accumulation of iron chips on the chip removal rack 6 and for improving the chip removal effect of the chip removal rack 6.

The side walls of the two chip discharge baffle plates 8 far away from the chip discharge rack 6 are provided with U-shaped protective covers 19, and the protective covers 19 are fixedly connected with the chip discharge baffle plates 8 through bolts. When the brushing roller works, the protective cover 19 plays a role in blocking splashed scrap iron, so that the scrap iron falls into the scrap collecting box 12.

A sliding rod 20 in a rectangular parallelepiped shape is disposed on an outer side wall of the scrap collecting box 12, the sliding rod 20 includes a sleeve 201 in a rectangular parallelepiped shape fixed to the scrap collecting box 12 by a bolt, a sliding rod 202 in a rectangular parallelepiped shape is slidably disposed in the sleeve 201, a locking member 26 for fixing the sliding rod 202 is disposed on the sleeve 201, and the locking member 26 in this embodiment may be a bolt.

A mounting platform 27 in a rectangular shape is fixed at one end of the sliding rod 202 away from the sleeve 201, the mounting platform 27 is fixedly connected with the sliding rod 202 by welding, a third driving member 28 is arranged on a side wall of the mounting platform 27 away from the sliding rod 202, a driving end of the third driving member 28 is arranged along a direction towards the scrap collecting box 12, and the third driving member 28 in this embodiment may be a motor. A cylindrical stirring rod 29 is fixed to the driving end of the third driving frame, a fan-blade-shaped stirring blade 30 is fixed to one end of the stirring rod 29 away from the third driving member 28, and the stirring blade 30 and the stirring rod 29 are fixedly connected through bolts.

In the in-service use, iron fillings on the chip removal frame 6 fall into to receive in the bits case 12 one side that is close to the chip removal frame 6, stir in receiving the bits case 12 through third driving piece 28 drive stirring leaf 30, make the iron fillings in receiving the bits case 12 distribute more evenly, through the position of slide bar 202 among adjusting sleeve 201, and fix through locking piece 26, make the high emergence of stirring leaf 30 in receiving the bits case 12 change, thereby make stirring leaf 30 to receive not iron fillings homoenergetic stirring of co-altitude in the bits case 12.

The implementation principle of the high-efficient chip removal device of gear hobbing lathe of the embodiment of this application is: iron fillings enter into 5 departments of iron fillings feed inlet on fortune bits frame 3, and on iron fillings entered into chip removal frame 6 by fortune bits frame 3, second drive frame drive carousel 10 rotated, and the iron fillings that adsorb on chip removal frame 6 are scraped to the pole 11 that removes of fixing on carousel 10 to improve the chip removal effect of chip removal frame 6. The elastic scraper 13 detachably arranged on the scrap removing rod 11 improves the scrap removing effect of the scrap removing rod 11 on scrap iron, and meanwhile, the elastic scraper 13 is convenient to replace.

The stirring blade 30 in the scrap collecting box 12 stirs the scrap iron, and the position of the stirring blade 30 in the scrap collecting box 12 is changed by adjusting the position of the sliding rod 202 in the sleeve 201, so that the stirring blade 30 can achieve a good stirring effect on the scrap iron with different heights in the scrap collecting box 12.

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 high-efficient chip removal device of gear hobbing lathe which characterized in that: comprises an electromagnetic conveyor belt (2), a support (1), a chip conveying frame (3) and a chip discharging frame (6), wherein the electromagnetic conveyor belt (2) is obliquely arranged on the support (1), a first driving piece (23) for driving the electromagnetic conveyor belt (2) to rotate is arranged on the support (1), the chip conveying frame (3) is covered at one end of the electromagnetic conveyor belt (2) far away from the support (1), the chip conveying frame (3) is arranged along the conveying direction of the electromagnetic conveyor belt (2), an iron chip feeding hole (5) is arranged at the bottom of the chip conveying frame (3), the chip discharging frame (6) is arranged at the top of the chip conveying frame (3), an iron chip discharging hole (7) is arranged at one end of the chip conveying frame (6) far away from the chip conveying frame (3), a baffle (8) is arranged on the side wall of the chip discharging frame (6) far away from the electromagnetic conveyor belt (2), and a second driving piece (9) is arranged on the baffle (8), the pivot end of second driving piece (9) is provided with carousel (10), the eccentric settings is gone up in carousel (10) removes bits pole (11), remove bits pole (11) and go up ejection of compact direction setting along perpendicular to chip removal frame (6), be close to iron fillings discharge gate (7) department on support (1) and be provided with receipts bits case (12).

2. The efficient chip removal device for the hobbing lathe according to claim 1, characterized in that: and an elastic scraper (13) is arranged on the side wall of the chip removing rod (11) close to the chip removing rack (6).

3. The efficient chip removal device for the hobbing lathe according to claim 2, characterized in that: elastic scraper blade (13) are provided with dovetail piece (15) on being close to the lateral wall that removes bits pole (11), it is provided with dovetail groove (14) to remove to correspond on the lateral wall that is close to elastic scraper blade (13) bits pole (11), it is provided with mounting (16) that are used for fixed elastic scraper blade (13) on the bits pole (11) to remove.

4. The efficient chip removal device for the hobbing lathe according to claim 1, characterized in that: and the side walls of the chip conveying frame (3) and the chip discharging frame (6) far away from the electromagnetic conveyor belt (2) are respectively provided with a wear-resistant layer (17).

5. The efficient chip removal device for the hobbing lathe according to claim 1, characterized in that: and a protective cover (19) is arranged on the side wall of the chip removal baffle (8) far away from the electromagnetic conveyor belt (2).

6. The efficient chip removal device for the hobbing lathe according to claim 1, characterized in that: and a vibrating piece (18) is arranged on the side wall of the chip removal frame (6) close to the electromagnetic conveyor belt (2).

7. The efficient chip removal device for the hobbing lathe according to claim 1, characterized in that: receive and be provided with stirring leaf (30) in bits case (12), receive and be provided with slide bar (20) on bits case (12), the one end that receives bits case (12) is kept away from in slide bar (20) is provided with mounting platform (27), be provided with drive stirring leaf (30) pivoted third driving piece (28) on mounting platform (27).

8. The efficient chip removal device for the hobbing lathe according to claim 7, characterized in that: the sliding rod (20) comprises a sleeve (201) fixed on the scrap collecting box (12) and a sliding rod (202) arranged in the sleeve (201) in a sliding mode, a locking piece (26) used for fixing the sliding rod (202) is arranged on the sleeve (201), and the mounting platform (27) is arranged at one end, far away from the sleeve (201), of the sliding rod (202).

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