CN113618096A

CN113618096A - Chip removal device for vertical lathe

Info

Publication number: CN113618096A
Application number: CN202110936250.6A
Authority: CN
Inventors: 王明明
Original assignee: Mick Precision Machinery Jiaxing Co ltd
Current assignee: Mick Precision Machinery Jiaxing Co ltd
Priority date: 2021-08-16
Filing date: 2021-08-16
Publication date: 2021-11-09

Abstract

The invention relates to the field of machine tools, in particular to a chip removal device for a vertical lathe. The shell channel is used for accommodating other components; the conveying mechanism conveys the cuttings; the rolling mechanism is used for rolling the curled strip-shaped chips into the channel when the chips are accumulated at the inlet of the shell; the compression mechanism is used for compacting the strip-shaped cuttings to reduce the volume of the cuttings. The invention can compress the cuttings, reduce the frequency of the cuttings dumping of operators and improve the working efficiency of the operators; in addition, the invention can also solve the problem that the chips are accumulated at the inlet of the chip cleaner channel to cause blockage.

Description

Chip removal device for vertical lathe

Technical Field

The invention relates to the field of machine tools, in particular to a chip removal device for a vertical lathe.

Background

In vertical lathes and machining centers, chips are often automatically transported to carts using chip removers and transported away by operators after they are full. However, when turning a workpiece, in addition to the particulate chips, band-shaped chips are generated, and since the band-shaped chips are curled, a large amount of band-shaped chips occupy a large space when stacked together. The frequency of transporting the cart by workers is also increased by the accumulation of the band-shaped chips, greatly increasing the working strength of the operator. And because the ribbon-shaped cuttings are curled, the volume of the accumulated ribbon-shaped cuttings is large, the accumulated ribbon-shaped cuttings are often blocked at the inlet of the passage of the cutter, and the ribbon-shaped cuttings need to be manually pushed into the passage of the cutter by an operator, so that the operation is very complicated and dangerous.

In order to solve the problem of large volume of strip-shaped cuttings, a chip cleaner capable of compressing the cuttings is provided in the market, a compression plate and a base plate are arranged at the outlet of a channel of the chip cleaner, and the compression plate is driven by an eccentric wheel to realize the circulation of approaching and keeping away from the base plate. However, since the compression plate and the backing plate are only square plates, the chips can be compressed to be flat, and the compressed chips are pushed to the outer edge of the compression plate, so that the compression performance is poor; and since the compression plate is driven by using the traveling wheel, the stroke of the compression plate is short, and band-shaped chips may block a working space which cannot enter between the compression plate and the shim plate at one end of the compression plate.

Therefore, there is a need for an improved structure that overcomes the above-mentioned deficiencies.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a chip removal device for a vertical lathe, which is realized by the following technical scheme:

a chip removal device for a vertical lathe comprises a shell channel, a conveying mechanism, a rolling-in mechanism arranged at an inlet of the shell channel, and a compression mechanism arranged at an outlet of the conveying mechanism; the conveying mechanism comprises a plurality of conveying rollers and a conveying belt connected with the conveying rollers, a plurality of partition plates are arranged on the conveying belt at intervals, and part of the conveying belt is positioned outside the shell channel; the winding mechanism comprises a transmission structure, and a first winding wheel and a second winding wheel which are rotatably arranged, wherein the first winding wheel and the second winding wheel are powered by the transmission structure, the first winding wheel is not in contact with the second winding wheel, the first winding wheel and the second winding wheel rotate oppositely, and a plurality of convex teeth are uniformly arranged on the outer circumferences of the first winding wheel and the second winding wheel; compressing mechanism, compressing mechanism includes the compression shell, compression shell one end is provided with first opening, and the other end is provided with the second opening, just the compression shell top is provided with the smear metal entry, smear metal entry parallel arrangement has two rolls into, it is opposite to roll into the roller direction of rotation, just evenly be provided with a plurality of dogtooths on the outer face of cylinder of the roll into, smear metal entry edge is provided with the guard plate, the guard plate outwards extends, first opening part slides and is provided with the slurcam of "L" shape, the slip direction of slurcam slides to the second opening for following first opening, the second opening part is provided with the barrier plate, just the barrier plate is portable, makes the second opening seal or open.

In the above technical scheme: the housing channel is used for placing other components, and can prevent chips from falling out of the range of the conveyor belt, and in addition, the chips are always provided with droplets of cutting fluid, so the housing channel can prevent the cutting fluid from being left on a working site. The conveying mechanism is used for conveying the chips from the machine tool to the outlet of the housing channel. The rolling-in mechanism is used for rolling the chips with the height larger than the inlet height of the shell channel into the channel: when a vertical lathe is used for lathing a long cylindrical part, continuous strip-shaped chips are often generated, the strip-shaped chips are curled together and wound mutually to form a chip mass with a large volume and sometimes can not enter a shell channel of a chip cleaner, at the moment, because the first rolling wheel and the second rolling wheel of the rolling mechanism partially protrude out of an inlet of the shell channel and are in contact with the chip mass, the chip mass is stirred into the channel by the protrusions on the outer circumferences of the first rolling wheel and the second rolling wheel and enters the channel, and the chip mass is initially compressed due to the extrusion of the first rolling wheel and the second rolling wheel and can not be clamped in the shell channel. The compressing mechanism is used for extruding the cutting scraps into square blocks, the volume of the cutting scraps is reduced by the winding roller, the cutting scraps are conveyed into the compressing shell, the pushing plate moves towards the second opening, the cutting scraps are extruded into the square blocks by the pushing plate and the blocking plate, the second opening is opened by the blocking plate, the pushing plate continues to move towards the second opening, and the cutting scraps extruded into the square blocks are pushed out.

The invention is further provided with: the conveying mechanism further comprises four conveying rollers arranged in parallel, two adjacent conveying rollers are connected through a belt pulley and a belt, and one conveying roller is connected with the output end of the first motor through the belt and the belt pulley.

In the above technical scheme: the conveying roller is used for arranging the conveying belt and changing the direction of the conveying belt. The first motor provides power and is transmitted to each of the transfer rollers via a belt and pulley.

The invention is further provided with: the utility model discloses a gear, including the first pivot that rotates the setting, first pivot is the level setting, the fixed first bevel gear that is provided with in first pivot, it still includes second pivot and the third pivot that the interval set up to be drawn into the mechanism, second pivot and third pivot are vertical setting, fixed second bevel gear and the first spur gear and the first wheel of rolling into of being provided with in the second pivot, second bevel gear with first bevel gear meshing, the fixed second spur gear and the second that is provided with in the third pivot are drawn into the wheel, the second spur gear with first spur gear meshing still includes the second motor, first pivot through the shaft coupling with the output shaft of second motor is connected.

In the above technical scheme: the second motor provides power, the power is transmitted to the second bevel gear through the first bevel gear, the second bevel gear drives the second rotating shaft to rotate, the second rotating shaft drives the first straight gear and the first rolling-in wheel to rotate, the first straight gear is meshed with the second straight gear to enable the second straight gear to rotate, the second straight gear drives the third rotating shaft to rotate, and the third rotating shaft drives the second rolling-in wheel to rotate.

The invention is further provided with: the bottom of compression shell is provided with first cylinder, the output of first cylinder with slurcam fixed connection for the slurcam slides the compression shell is located be fixed with a plummer respectively on the both sides wall of first cylinder department, the fixed slider that is provided with on the plummer, the corresponding position of slurcam is provided with the slide rail, slide rail and slider sliding connection for the slip of slurcam is smooth and easy.

In the above technical scheme: the plummer is used for fixed slider, and slider and the slide rail sliding connection who fixes on the slurcam make the slip orbit of slurcam fixed, also make the slurcam of "L" shape can not incline for the vertical portion of slurcam can be parallel with the barrier plate always.

The invention is further provided with: the second opening part of the compression shell is provided with a sliding opening, the blocking plate penetrates through the sliding opening, one end of the blocking plate is provided with an extending part, a guide rod is arranged on the extending part, a second air cylinder and a guide hole are arranged on the outer wall of the second opening of the compression shell, the output end of the second air cylinder is fixedly connected with the extending part, and the guide rod penetrates through the guide hole.

In the above technical scheme: the compressed square of the chip mass can reach containers such as a trolley for temporary cutting chips through the second opening, so that a sliding rail of the blocking plate is not suitable for being arranged in the compression shell, the output end of the second cylinder is fixedly connected with the extending part of the blocking plate, the blocking plate can slide in the sliding opening, and the guide rod and the guide hole are arranged to ensure that the blocking plate slides stably and ensure that the track of each sliding of the blocking plate is consistent.

The invention discloses a chip removal device for a vertical lathe, which is compared with the prior art:

1. the existing chip cleaner can not continuously remove chips because the chip mass blocks the inlet, and the chip mass is required to be taken out by workers at the moment, so that the existing chip cleaner is very inconvenient.

2. The existing chip cleaner has no chip compression function or poor chip compression performance, but the chip cleaner is provided with the compression mechanism, and the pushing plate is matched with the blocking plate, so that the chip volume is reduced, the frequency of dumping chips by an operator is reduced, and the working efficiency is improved.

3. The cuttings are compressed into blocks, so that the possibility that an operator is stabbed and scratched by the cuttings is reduced, and the safety is improved.

Drawings

FIG. 1 is a side view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view at section A of the present invention;

FIG. 4 is a right side view of the present invention;

FIG. 5 is a bottom view of the transport mechanism of the present invention;

FIG. 6 is a schematic view of a rolling mechanism of the present invention;

fig. 7 is a perspective view of the compression mechanism of the present invention.

The corresponding part names indicated by the numbers and letters in the drawings: 10-a housing channel; 20-a transport mechanism; 201-conveying rollers; 202-a conveyor belt; 203-a separation plate; 30-a winding mechanism; 301-a first spindle; 301 a-first bevel gear; 302-a second shaft; 302 a-second bevel gear; 302 b-a first straight gear; 302c — first reel-in wheel; 303-a third shaft; 303 a-a second spur gear; 303 b-a second reel-in wheel; 40-a compression mechanism; 401-a compression shell; 401 a-a first opening; 401 b-a second opening; 401 c-chip inlet; 402-a wind-in roll; 403-protective plate; 404-a push plate; 405-a barrier plate; 405 a-an extension; 405 b-guide bar; 406-a carrier stage; 407-a slide block; 408-sliding rail.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1 to 7, the chip removal device for a vertical lathe provided by the invention comprises a housing channel 10, a conveying mechanism 20, a rolling-in mechanism 30 arranged at an inlet of the housing channel 10, and a compression mechanism 40 arranged at an outlet of the conveying mechanism 20; the conveying mechanism 20 comprises a plurality of conveying rollers 201 and a conveying belt 202 connected with the conveying rollers 201, a plurality of partition plates 203 are arranged on the conveying belt 202 at intervals, and part of the conveying belt 202 is positioned outside the shell channel 10; the winding mechanism 30 comprises a transmission structure and a first winding wheel 302c and a second winding wheel 303b which are arranged in a rotating manner, the first winding wheel 302c and the second winding wheel 303b are powered by the transmission structure, the first winding wheel 302c is not in contact with the second winding wheel 303b, the first winding wheel 302c and the second winding wheel 303b rotate oppositely, and a plurality of convex teeth are uniformly arranged on the outer circumferences of the first winding wheel 302c and the second winding wheel 303 b; the compression mechanism 40 comprises a compression shell 401, one end of the compression shell 401 is provided with a first opening 401a, the other end of the compression shell is provided with a second opening 401b, the top of the compression shell 401 is provided with a chip inlet 401c, two rolling-in rollers 402 are arranged at the chip inlet 401c in parallel, the rotation directions of the rolling-in rollers 402 are opposite, a plurality of convex teeth are uniformly arranged on the outer cylindrical surface of the rolling-in rollers 402, a protection plate 403 is arranged at the edge of the chip inlet 401c, the protection plate 403 extends outwards, an L-shaped pushing plate 404 is arranged at the first opening 401a in a sliding mode, the pushing plate 404 slides from the first opening 401a to the second opening 401b, a blocking plate 405 is arranged at the second opening 401b, and the blocking plate 405 can move to enable the second opening 401b to be closed or opened. The bottom of the chain plate is fixedly provided with a chain, and the chain plate is connected with a chain wheel through the chain; the width of the partition plate is smaller than that of the chain plate, and the top of the partition plate is lower than the bottoms of the first winding wheel and the second winding wheel; the conveying belt is respectively provided with a first horizontal section, an inclined section and a second horizontal section from one side to the other side, the first horizontal section is longer in length and partially extends into the machine tool, the gradient of the inclined section is matched with the height of the partition plate, the larger the gradient of the inclined section is, the higher the corresponding height of the partition plate is, so that chips cannot be conveyed onto the slope, and the second horizontal section is shorter in length and used for conveying the chips to the compression mechanism; the first winding wheel and the second winding wheel are the same in height and size, one part of the first winding wheel and the second winding wheel are positioned in the shell channel, the other part of the first winding wheel and the second winding wheel are positioned outside the shell channel, and the rotating directions of the parts of the first winding wheel and the second winding wheel which are positioned outside the shell channel are opposite, so that the chip groups can be guided between the first winding wheel and the second winding wheel; the convex teeth on the rolling wheel can be arranged in a plurality of layers, preferably 3 layers; the compression shell is a rectangular cavity, the first opening and the second opening are in the same shape, and the chip inlet is rectangular; the two winding rollers are connected with the belt wheel through a belt, and one winding roller is driven by a third motor; the length and the width of the pushing plate are consistent with those of the first opening, the horizontal part of the pushing plate is attached to the upper surface of the inner cavity of the compression shell, and the length of the horizontal part of the pushing plate is greater than that of the chip inlet; the top end of the protection plate is also provided with a first connecting part extending horizontally outwards, a second connecting part extending horizontally outwards is correspondingly arranged at the outlet of the channel shell, and the first connecting part and the second connecting part are detachably and fixedly connected;

as shown in fig. 1, 2 and 5, the chip removal device for a vertical lathe provided by the invention further includes four conveying rollers 201 arranged in parallel, two adjacent conveying rollers 201 are connected through a belt pulley and a belt, and one conveying roller 201 is connected with an output end of the first motor through the belt pulley and the belt pulley. The conveying device comprises a conveying roller, a conveying belt, chain plates, a supporting roller shaft, a conveying belt and a shell channel, wherein the two ends of the conveying roller are respectively provided with a chain wheel, the conveying belt uses the chain plates, the chain wheels are matched with the chain plates to realize a conveying effect, the diameters of the chain wheels correspond to the width of each small block of each chain plate so as to ensure that the chain plates can form a closed loop, the conveying direction of the conveying belt is horizontal firstly, the conveying belt is inclined and lifted and is horizontal finally, the supporting roller shafts are arranged below the inclined sections of the conveying belt, the number of the supporting roller shafts is two, and the supporting roller shafts are arranged on the inner side wall of the shell channel in a rolling manner; the first motor is a stepper motor.

As shown in fig. 2 and 6, the chip removal device for a vertical lathe provided by the invention comprises a first rotating shaft 301 which is rotatably arranged, the first rotating shaft 301 is arranged horizontally, a first bevel gear 301a is fixedly arranged on the first rotating shaft 301, the winding mechanism 30 further comprises a second rotating shaft 302 and a third rotating shaft 303 which are arranged at intervals, the second rotating shaft 302 and the third rotating shaft 303 are vertically arranged, a second bevel gear 302a, a first straight gear 302b and a first winding wheel 302c are fixedly arranged on the second rotating shaft 302, the second bevel gear 302a is engaged with the first bevel gear 301a, the third rotating shaft 303 is fixedly provided with a second straight gear 303a and a second rolling-in gear 303b, the second spur gear 303a is engaged with the first spur gear 302b, and the second spur gear further includes a second motor, and the first rotating shaft 301 is connected to an output shaft of the second motor through a coupler. The first rotating shaft is connected with the first bevel gear through a flat key and a key groove; the second rotating shaft is a four-stage stepped shaft, the second bevel gear and the first straight gear are connected with the second rotating shaft through a flat key and a key groove, and the first rolling wheel is fixedly connected with the second rotating shaft in a welding mode, an interference fit mode and the like; the third rotating shaft is a three-stage stepped shaft, the second straight gear is connected with the third rotating shaft through a flat key and a key groove, and the second rolling-in wheel is fixedly connected with the third rotating shaft in a welding mode, an interference fit mode and the like; the second motor is a stepper motor.

As shown in fig. 2 and 4, according to the chip removal device for a vertical lathe provided by the invention, a first cylinder is arranged at the bottom of the inner side of a compression shell 401, the output end of the first cylinder is fixedly connected with a push plate 404, so that the push plate 404 slides, two bearing tables 406 are respectively fixed on two side walls of the compression shell 401 at the first cylinder, a sliding block 407 is fixedly arranged on each bearing table 406, a sliding rail 408 is arranged at a corresponding position of the push plate 404, and the sliding rails 408 are slidably connected with the sliding blocks 407, so that the push plate 404 slides smoothly. The bearing platform is L-shaped, the vertical part of the bearing platform is fixedly connected with the inner side wall of the compression shell, and the top of the horizontal part is fixedly provided with a sliding block;

as shown in fig. 2 and 7, according to the chip removal device for a vertical lathe provided by the invention, a sliding port is arranged at a second opening of a compression shell 401, a stop plate 405 is arranged in the sliding port in a penetrating manner, an extension part 405a is arranged at one end of the stop plate, a guide rod 405b is arranged on the extension part 405a, a second cylinder and a guide hole are arranged on the outer wall of the second opening 401b of the compression shell 401, the output end of the second cylinder is fixedly connected with the extension part 405a, and the guide rod 405b is arranged in the guide hole in a penetrating manner. The shape of the sliding opening is consistent with that of the cross section of the blocking plate, and preferably, a rectangular strip can be arranged on one side of the blocking plate, which is far away from the first opening, so that the cross section of the blocking plate is in a convex shape, and the sliding opening is correspondingly arranged, so that the sliding of the sliding plate is more stable; the side wall of the compression shell at one side of the extending part of the stop plate is thicker, so that the stop plate cannot shake when sliding; the number of the guide rods is at least one, and preferably two, and the guide rods are arranged on one side of the extending portion, which is far away from the first opening.

The specific implementation mode of the invention is as follows:

a) the swarf or swarf mass reaches the inlet of the housing channel with the first horizontal section of the conveyor mechanism;

b) the cutting chips directly enter the shell channel, and the upper part of the cutting chip mass is preliminarily extruded by the rolling mechanism and is carried into the shell channel;

c) the chips and the chip mass on the inclined section are conveyed to a second horizontal section by the separation plate;

d) the cuttings directly enter the compression shell through a gap between an outlet of the shell channel and the rolling-in rollers, and the cuttings are extruded by the two rolling-in rollers after passing through the outlet of the shell channel, have reduced volume and are then brought into the compression shell;

e) after a period of time, the two rolling-in rollers stop rotating, the pushing plate pushes towards the second opening, and the falling cuttings can fall onto the horizontal part of the pushing plate;

f) the cuttings and the cuttings groups are extruded, the volume is reduced, then the pushing plate is stopped, the movement of the blocking plate is stopped, and the second opening is opened; g) the pushing plate moves forwards again, and under the action of gravity and thrust, the swarf and swarf clusters extruded clusters fall out of the second opening and fall into a trolley hopper below;

h) the pushing plate retreats, and the cuttings at the horizontal part of the pushing plate can fall into the compression shell;

the above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims

1. A chip removal device for a vertical lathe comprises a shell channel (10), and is characterized by further comprising a conveying mechanism (20), a rolling-in mechanism (30) arranged at an inlet of the shell channel (10), and a compression mechanism (40) arranged at an outlet of the conveying mechanism (20);

the conveying mechanism (20) comprises a plurality of conveying rollers (201) and a conveying belt (202) connected with the conveying rollers (201), a plurality of partition plates (203) are arranged on the conveying belt (202) at intervals, and part of the conveying belt (202) is positioned outside the shell channel (10);

the winding mechanism (30) comprises a transmission structure, a first winding wheel (302c) and a second winding wheel (303b) which are arranged in a rotating mode, the first winding wheel (302c) and the second winding wheel (303b) are powered by the transmission structure, the first winding wheel (302c) is not in contact with the second winding wheel (303b), the first winding wheel (302c) and the second winding wheel (303b) rotate oppositely, and a plurality of convex teeth are uniformly arranged on the outer circumferences of the first winding wheel (302c) and the second winding wheel (303 b);

the compression mechanism (40) comprises a compression shell (401), one end of the compression shell (401) is provided with a first opening (401a), the other end of the compression shell is provided with a second opening (401b), the top of the compression shell (401) is provided with a chip inlet (401c), two rolling-in rollers (402) are arranged at the chip inlet (401c) in parallel, the rotating directions of the rolling-in rollers (402) are opposite, a plurality of convex teeth are uniformly arranged on the outer cylindrical surface of each rolling-in roller (402), a protection plate (403) is arranged at the edge of the chip inlet (401c), the protection plate (403) extends outwards, an L-shaped pushing plate (404) is arranged at the first opening (401a) in a sliding mode, the sliding direction of the pushing plate (404) is from the first opening (401a) to the second opening (401b), and a blocking plate (405) is arranged at the second opening (401b), and the blocking plate (405) is movable to close or open the second opening (401 b).

2. A chip removal device for a vertical lathe according to claim 1, wherein: two adjacent conveying rollers (201) are connected with a belt through a belt pulley, and one conveying roller (201) is connected with the output end of the first motor through the belt and the belt pulley.

3. A chip removal device for a vertical lathe according to claim 1, wherein: the transmission structure comprises a first rotating shaft (301) which is rotatably arranged, the first rotating shaft (301) is horizontally arranged, a first bevel gear (301a) is fixedly arranged on the first rotating shaft (301), the winding mechanism (30) further comprises a second rotating shaft (302) and a third rotating shaft (303) which are arranged at intervals, the second rotating shaft (302) and the third rotating shaft (303) are vertically arranged, a second bevel gear (302a), a first straight gear (302b) and a first winding wheel (302c) are fixedly arranged on the second rotating shaft (302), the second bevel gear (302a) is meshed with the first bevel gear (301a), a second straight gear (303a) and a second straight gear (303b) are fixedly arranged on the third rotating shaft (303), the second straight gear (303a) is meshed with the first straight gear (302b), and the winding mechanism further comprises a second motor, the first rotating shaft (301) is connected with an output shaft of the second motor through a coupler.

4. A chip removal device for a vertical lathe according to claim 1, wherein: the bottom of compression shell (401) is provided with first cylinder, the output of first cylinder with slurcam (404) fixed connection for slurcam (404) slides compressed shell (401) are located be fixed with a plummer (406) respectively on the both sides wall of first cylinder department, fixed a slider (407) that is provided with on plummer (406), the corresponding position of slurcam (404) is provided with slide rail (408), slide rail (408) and slider (407) sliding connection for the slip of slurcam (404) is smooth and easy.

5. A chip removal device for a vertical lathe according to claim 1, wherein: the second opening part of compression shell (401) is provided with the slip mouth, baffle (405) wear to establish in the slip mouth, baffle one end is provided with extension (405a), be provided with guide arm (405b) on extension (405a) the outer wall department of compression shell (401) second opening (401b) is provided with second cylinder and guiding hole, the output of second cylinder with extension (405a) fixed connection, just guide arm (405b) wear to establish in the guiding hole.