CN214080480U - A sweeps cleaning device for beveler - Google Patents

Abstract

The application relates to a scrap cleaning device for a chamfering machine, which comprises a rack for placing the polishing chamfering machine, wherein a first baffle, a second baffle and two third baffles are vertically and upwards arranged on the upper surface of the rack; the second baffle rotates to be connected in the frame, blows the mechanism including installing in the hair-dryer that first baffle is close to beveler one end lateral wall. During operation, switch on DC power supply, electromagnet produces magnetic field, starts hair-dryer, and the hair-dryer blows the metal sweeps on the frame upper surface to second baffle one end, and the metal sweeps is adsorbed by electromagnet, and second baffle drives electromagnet and rotates together, and after the outage, electromagnet loses magnetism, and the sweeps on workman will electromagnet are collected, and this application has the effect that has improved the collection speed of sweeps.

Description

A sweeps cleaning device for beveler

Technical Field

The application relates to an iron fillings recovery processing device field especially relates to a sweeps cleaning device for beveler.

Background

In industrial production, in order to remove burrs generated by machining on metal parts and also to facilitate the assembly of the parts, the end parts of the parts are generally chamfered.

The chamfering machine is used for chamfering metal parts, a large amount of metal scraps are generated in the process of chamfering metal workpieces, the metal scraps are accumulated on the rack, and in general, workers need to clean the accumulated metal scraps with a broom in a period of time.

In view of the above-mentioned related art, the inventor considers that the cleaning efficiency of the broom by the worker is low.

SUMMERY OF THE UTILITY MODEL

In order to improve work efficiency, this application provides a sweeps cleaning device for beveler.

The application provides a sweeps cleaning device for beveler adopts following technical scheme:

a scrap cleaning device for a chamfering machine comprises a rack for placing the polishing chamfering machine, wherein a first baffle, a second baffle and two third baffles are vertically and upwardly arranged on the upper surface of the rack, a blowing mechanism is installed on the side wall of one end, close to the chamfering machine, of the first baffle, an electromagnetic chuck is installed on the side wall of one end, close to the chamfering machine, of the second baffle, and a direct-current power supply is communicated with the electromagnetic chuck; the first baffle and the second baffle are arranged relatively, the second baffle is connected to the frame in a rotating mode, the second baffle rotates with the edge where the frame and the second baffle intersect as the axis, the outer side wall of the third baffle is provided with a first servo motor, the output shaft of the first servo motor is fixedly connected to the first baffle, and the blowing mechanism comprises a blower which is arranged on the side wall of the first baffle close to one end of the chamfering machine.

Through adopting above-mentioned technical scheme, switch on DC power supply, electromagnet produces magnetic field, start hair-dryer, the hair-dryer blows the metal sweeps on the frame upper surface to second baffle one end, the metal sweeps is adsorbed by electromagnet, start first motor this moment, second baffle drives electromagnet and rotates together, after baffle upset 90, cut off DC power supply, electromagnet loses magnetism, the workman collects the sweeps on the electromagnet, the collection speed of sweeps has been improved.

Optionally, a sliding groove is formed in the side wall, close to the second baffle, of the first baffle, the blowing mechanism includes a connecting plate slidably connected in the sliding groove and a driving assembly for driving the connecting plate to perform reciprocating linear motion, and the length of the sliding groove is perpendicular to the two third baffles.

Through adopting above-mentioned technical scheme, through drive assembly's effect, reciprocating linear motion is done to the hair-dryer, reciprocates to the sweeps of frame upper surface and blows, has effectively improved the clearance effect.

Optionally, the driving assembly comprises a third servo motor fixedly mounted on the side wall of the first baffle, a threaded rod fixedly connected to the tail end of an output shaft of the third servo motor, the threaded rod is in threaded connection with the connecting plate, and the threaded rod is parallel to the groove length direction of the sliding groove.

Through adopting above-mentioned technical scheme, start third servo motor, third servo motor drives the threaded rod and rotates, and the spiro union is reciprocal linear motion along the spout in the connecting plate of threaded rod.

Optionally, the sliding blocks are installed at two ends of the first baffle, two avoidance grooves are formed in the side walls, close to each other, of the third baffle, and the avoidance grooves are horizontally arranged and perpendicular to the first baffle and the second baffle.

Through adopting above-mentioned technical scheme, the workman promotes first baffle, moves towards the position that is close to the second baffle when the hair-dryer sweeps the sweeps the sweeps, has effectively improved the effect of sweeping.

Optionally, a pulley is installed on the lower bottom surface of the slider, a groove is formed in the lower bottom surface of the avoiding groove, and the pulley is embedded in the groove.

Through adopting above-mentioned technical scheme, convert the sliding friction power between slider and the groove of dodging into rolling friction, effectively improved the smoothness nature of first baffle motion.

Optionally, the driving mechanism further comprises a driving mechanism, the driving mechanism comprises a second servo motor arranged on the side wall of the third baffle plate, a crank rotationally connected to the tail end of an output shaft of the second servo motor, and a connecting rod rotationally connected to one end, far away from the second servo motor, of the crank, and the connecting rod is rotationally connected to the sliding block.

Through adopting above-mentioned technical scheme, start second servo motor, second servo motor drives the crank and rotates, and the crank drives the connecting rod and rotates, and the connecting rod drives the slider and is reciprocating linear motion in dodging the groove, has replaced the workman to promote first baffle, has reduced intensity of labour.

Optionally, a vibrator is fixedly mounted on the side wall of the second baffle, which is far away from the electromagnetic chuck.

Through adopting above-mentioned technical scheme, start the vibrator, the vibrator drives the vibration of second baffle for the sweeps on the electromagnet drops more thoroughly.

Optionally, the collecting box is located below the rack, after the first baffle rotates towards the side away from the first baffle, the electromagnetic chuck rotates to the lower side of the rack along with the first baffle, and the collecting box is located under the electromagnetic chuck.

Through adopting above-mentioned technical scheme, electromagnet rotates to the frame below, and electromagnet is located under the frame, disconnection DC power supply, and the sweeps drops to the collection, through a period of accumulation back, pulls out the sweeps of collecting box in to the collecting box and carries out the clearance in unison.

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

1. the blower blows scrap iron to the electromagnetic chuck, the electromagnetic chuck has magnetism after being electrified, the scrap iron is adsorbed, the second baffle plate is rotated, the power supply is disconnected, and the scrap iron on the electromagnetic chuck is treated;

2. the frame below is equipped with the collecting box, can carry out unified collection to the sweeps and handle.

Drawings

Fig. 1 is a schematic overall structure diagram of a scrap cleaning device for a chamfering machine according to an embodiment of the present application.

Fig. 2 is a schematic view of another angle of the overall structure of the scrap cleaning apparatus for a chamfering machine according to the embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 2.

Description of reference numerals: 1. a frame; 11. a first baffle plate; 111. a chute; 112. a slider; 113. a pulley; 12. a second baffle; 121. a rotating shaft; 13. a third baffle plate; 131. an avoidance groove; 1311. a groove; 132. mounting an ear plate; 2. a blowing mechanism; 21. a blower; 22. a connecting plate; 23. connecting sleeves; 24. a drive assembly; 241. fixing the ear plate; 242. a third servo motor; 243. a threaded rod; 3. an electromagnetic chuck; 4. a direct current power supply; 41. a wire; 42. placing a rack; 5. a drive mechanism; 51. a connecting rod; 52. a crank; 53. a second servo motor; 54. a mounting frame; 6. a collection box; 61. a slide rail; 62. a handle; 7. a first servo motor; 8. a vibrator; 9. and (7) chamfering machine.

Detailed Description

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

The embodiment of the application discloses a sweeps cleaning device for beveler. Referring to fig. 1, a scrap cleaning device for a chamfering machine comprises a frame 1 for placing a chamfering machine 9, a first baffle 11, a second baffle 12 and two third baffles 13 which are positioned on the upper surface of the frame 1, a blowing mechanism 2 which is installed on the side wall of the first baffle 11, an electromagnetic chuck 3 which is fixedly installed on the side wall of the second baffle 12, and a direct current power supply 4 which is used for supplying power to the electromagnetic chuck 3.

Referring to fig. 1, two third baffles 13 are fixedly mounted on the upper surface of the frame 1 and are oppositely disposed, the first baffle 11 and the second baffle 12 are oppositely disposed, the first baffle 11 is perpendicular to the two third baffles 13, and the second baffle 12 is perpendicular to the two third baffles 13.

Referring to fig. 1, the lower bottom wall of the third baffle 13 is fixedly connected to the mounting lug 132, the two sides of the lower end of the two sides of the second baffle 12 are fixedly provided with the rotating shaft 121, and the second baffle 12 is rotatably connected between the two mounting lug 132 through the rotating shaft 121.

Referring to fig. 1, a first servo motor 7 is mounted on the side wall of the two mounting lugs 132, and the output shaft of the first servo motor 7 passes through the mounting lugs 132 and is fixedly connected to the rotating shaft 121.

During operation, the first servo motor 7 is started, and the first servo motor 7 drives the rotating shaft 121 to rotate, so as to control the rotation of the first baffle 11.

Referring to fig. 2 and 3, two ends of the first baffle 11 are fixedly connected with a sliding block 112, and a pulley 113 is installed on the lower bottom surface of the sliding block 112. An avoiding groove 131 penetrating through the thickness direction of the third baffle 13 is formed in the side wall of the third baffle 13, the groove length of the avoiding groove 131 is perpendicular to the first baffle 11 and the second baffle 12, a groove 1311 parallel to the avoiding groove 131 is formed in the lower bottom surface of the avoiding groove 131, the slider 112 is located in the avoiding groove 131, and the pulley 113 is embedded in the groove 1311.

Referring to fig. 2 and 3, the scrap cleaning device for the chamfering machine further comprises a driving mechanism 5 for driving the pulley 113 to make reciprocating linear motion in the avoiding groove 131, the driving mechanism 5 comprises a second servo motor 53 fixedly mounted on the side wall of the third baffle 13 away from the side wall, a crank 52 rotatably connected to the tail end of the output shaft of the second servo motor 53, and a connecting rod 51 rotatably connected to one end of the crank 52 far away from the second servo motor 53, and the connecting rod 51 is rotatably connected to the slider 112.

When the reciprocating linear motion mechanism works, the second servo motor 53 is started, the second servo motor 53 rotates, the second servo motor 53 drives the crank 52 to rotate around the axis of the output shaft of the second servo motor 53, the crank 52 drives the connecting rod 51 to rotate, and the connecting rod 51 drives the sliding block 112 to move in a reciprocating linear motion direction in the avoiding groove 131.

Referring to fig. 1, the electromagnetic chuck 3 is a rectangular parallelepiped, and the electromagnetic chuck 3 is fixedly installed at one end of the second baffle 12 close to the first baffle 11. The scrap cleaning device for the chamfering machine further comprises a placing frame 42 for placing a direct-current power supply 4 and a lead 41 for communicating the direct-current power supply 4 with the electromagnetic chuck 3.

Referring to fig. 1, the vibrator 8 is fixedly mounted at one end of the second baffle plate 12 far away from the first baffle plate 11.

When the electromagnetic chuck works, the direct-current power supply 4 is started, the direct-current power supply 4 supplies power to the electromagnetic chuck 3, the electromagnetic chuck 3 has magnetism, and after the power is cut off, the electromagnetic chuck 3 loses magnetism.

Referring to fig. 2 and 4, the blowing mechanism 2 includes a blower 21 mounted on one end of the first barrier 11 adjacent to the second barrier 12, a connecting plate 22 for fixing the blower 21, and a driving unit 24 for driving the connecting plate 22 to perform a reciprocating linear motion.

Referring to fig. 2 and 4, a sliding groove 111 is formed in a side wall of the first baffle 11, the sliding groove 111 penetrates through the thickness direction of the first baffle 11, the sliding groove 111 is perpendicular to the two third baffles 13, the connecting plate 22 is slidably connected in the sliding groove 111, and the blower 21 is fixedly connected to the connecting plate 22.

Referring to fig. 2 and 4, the driving assembly 24 includes a connecting sleeve 23 fixedly connected to an end of the connecting plate 22 away from the blower 21, a threaded rod 243 screwed to the connecting sleeve 23, two fixing lugs 241 for fixing the threaded rod 243, and a third servo motor 242 for driving the threaded rod 243 to rotate.

Referring to fig. 2 and 4, the threaded rod 243 is rotatably connected to the two fixing ear plates 241, the threaded rod 243 is parallel to the sliding slot 111, and the third servo motor 242 is fixedly mounted on the side wall of the fixing ear plate 241 facing away from the fixing ear plate 241.

During operation, the third servo motor 242 is started, the third servo motor 242 drives the threaded rod 243 to rotate, the threaded rod 243 drives the connecting sleeve 23 to do reciprocating linear motion, the connecting sleeve 23 drives the connecting plate 22 to move in the sliding groove 111, and then the blower 21 is controlled to do reciprocating linear motion.

Referring to fig. 1, a collecting box 6 and two sliding rails 61 for sliding the collecting box 6 are arranged below the frame 1, when the first servo motor 7 drives the second baffle 12 to rotate 270 °, the electromagnetic chuck 3 is located right above the collecting box 6, and a handle 62 is fixedly connected to the side wall of the collecting box 6.

The during operation starts first servo motor 7, and first servo motor 7 drives second baffle 12 and rotates 270, and electromagnet 3 is the level setting and is located directly over collecting box 6, disconnection DC power supply 4 this moment, and electromagnet 3 loses magnetism, starts vibrator 8, and the sweeps drops to in the collecting box 6, and after the sweeps accumulated a quantitative back in collecting box 6, the workman held handle 62 and pulled out collecting box 6, carries out the unified processing to the sweeps of piling up in collecting box 6.

The implementation principle of the scrap cleaning device for the chamfering machine is as follows:

firstly, the blower 21 is started, the blower 21 blows the scraps on the upper surface of the frame 1 to the side of the second baffle 12.

Secondly, the third servo motor 242 is started, the connecting plate 22 makes reciprocating linear motion in the chute 111, and the waste scraps in the machine frame 1 are blown in a reciprocating mode.

Third, the second servo motor 53 is started, the slider 112 makes reciprocating linear motion in the avoiding groove 131, and the blower 21 approaches the second baffle 12 while blowing air.

Fourthly, the direct-current power supply 4 is started, the electromagnetic chuck 3 is electrified, and the electromagnetic chuck 3 has magnetism and adsorbs the scraps.

Fifthly, the first servo motor 7 is started, the first servo motor 7 drives the second baffle plate 12 to rotate, and after the second baffle plate 12 is turned over by 270 degrees, the electromagnetic chuck 3 is located right above the collecting box 6.

And sixthly, the direct-current power supply 4 is disconnected, the electromagnetic chuck 3 loses magnetism, and the scraps fall into the collection box 6.

Seventhly, starting the vibrator 8, and vibrating the scraps on the electromagnetic chuck 3, so that the scraps can fall more thoroughly.

Eighthly, a worker holds the handle 62 to pull out the collecting box 6, and the same cleaning is carried out on the scraps in the collecting box 6.

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 sweeps cleaning device for beveler, is including placing frame (1) of polishing beveler (9), its characterized in that: a first baffle (11), a second baffle (12) and two third baffles (13) are vertically and upwardly arranged on the upper surface of the rack (1), a blowing mechanism (2) is arranged on the side wall of one end, close to the chamfering machine (9), of the first baffle (11), an electromagnetic chuck (3) is arranged on the side wall of one end, close to the chamfering machine (9), of the second baffle (12), and a direct current power supply (4) is communicated with the electromagnetic chuck (3); first baffle (11) and second baffle (12) set up relatively, two third baffle (13) set up relatively, second baffle (12) rotate to be connected in frame (1), second baffle (12) use frame (1) and the crossing edge of second baffle (12) to rotate as the axis, install first servo motor (7) on third baffle (13) lateral wall, first servo motor (7) output shaft fixed connection is in first baffle (11), blow mechanism (2) including install in first baffle (11) be close to hair-dryer (21) of beveler (9) one end lateral wall.

2. The scrap cleaning apparatus for the chamfering machine according to claim 1, wherein: the side wall of the first baffle (11) close to the second baffle (12) is provided with a sliding groove (111), the blowing mechanism (2) comprises a connecting plate (22) connected in the sliding groove (111) in a sliding mode and a driving assembly (24) driving the connecting plate (22) to do reciprocating linear motion, and the groove length of the sliding groove (111) is perpendicular to the two third baffles (13).

3. The scrap cleaning apparatus for the chamfering machine according to claim 2, wherein: the driving assembly (24) comprises a third servo motor (242) fixedly mounted on the side wall of the first baffle (11), a threaded rod (243) fixedly connected to the tail end of an output shaft of the third servo motor (242), and the threaded rod (243) is in threaded connection with the connecting plate (22), wherein the threaded rod (243) is parallel to the groove length direction of the sliding groove (111).

4. The scrap cleaning apparatus for the chamfering machine according to claim 1, wherein: slider (112), two are installed at first baffle (11) both ends offer on the lateral wall that third baffle (13) are close to each other and dodge groove (131), dodge groove (131) level setting and perpendicular to first baffle (11) and second baffle (12).

5. The scrap cleaning apparatus for the chamfering machine according to claim 4, wherein: the bottom surface is installed pulley (113) under slider (112), dodge groove (131) and set up fluted (1311) in the bottom surface down, pulley (113) inlays and locates in fluted (1311).

6. The scrap cleaning apparatus for the chamfering machine according to claim 4, wherein: still include actuating mechanism (5), actuating mechanism (5) are including installing second servo motor (53) on third baffle (13) back to the side wall, rotate crank (52) of connecting in second servo motor (53) output shaft end, rotate connecting in crank (52) and keep away from connecting rod (51) of second servo motor (53) one end, connecting rod (51) rotate to be connected in slider (112).

7. The scrap cleaning apparatus for the chamfering machine according to claim 1, wherein: and a vibrator (8) is fixedly arranged on the side wall, far away from the electromagnetic chuck (3), of the second baffle plate (12).

8. The scrap cleaning apparatus for the chamfering machine according to claim 1, wherein: still include collecting box (6), be used for the gliding slide rail (61) of collecting box (6), collecting box (6) are located frame (1) below, and after first baffle (11) rotated to keeping away from first baffle (11) one side, electromagnet (3) rotated to frame (1) below along with first baffle (11), collecting box (6) are located electromagnet (3) under.

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