CN210147731U

CN210147731U - Carbon brush automatic processing machine

Info

Publication number: CN210147731U
Application number: CN201921021826.0U
Authority: CN
Inventors: 袁振海; 潘其圣
Original assignee: DONGGUAN YICHENG AUTOMATIC EQUIPMENT CO LTD
Current assignee: DONGGUAN YICHENG AUTOMATIC EQUIPMENT CO LTD
Priority date: 2019-07-02
Filing date: 2019-07-02
Publication date: 2020-03-17
Anticipated expiration: 2029-07-02

Abstract

The utility model provides an automatic processing machine for carbon brushes, which comprises a workbench, wherein the workbench is provided with a turntable, the outer edge of the turntable is provided with carriers in an annular array, the carriers are internally provided with carbon brushes, the outer side of the workbench is also provided with a vibrating disc, the vibrating disc conveys the carbon brushes into the carriers through an automatic feeding mechanism, a first positioning device, a plane polisher, a flatness detection mechanism, a second positioning device, a cambered surface polisher, a non-defective product blanking mechanism, a defective product blanking mechanism and a carrier cleaning mechanism are arranged on the workbench at the outer side of the turntable in a surrounding manner, the automatic feeding mechanism, the first positioning device, the plane polisher, the flatness detection mechanism, the second positioning device, the cambered surface polisher, the non-defective product blanking mechanism, the defective product blanking mechanism and the carrier cleaning mechanism are respectively arranged corresponding to the carriers at the outer edge of the turntable, and the automatic processing machine for carbon brushes can realize the full-automatic surface processing, the labor cost is reduced, and the processing efficiency is high.

Description

Carbon brush automatic processing machine

Technical Field

The utility model relates to a carbon brush automatic processing machine.

Background

Carbon brushes, also called brushes, are widely used as a sliding contact in many electrical devices. The carbon brush mainly comprises graphite, impregnated graphite and metal (copper and silver) graphite in product application. The carbon brush is a device for transmitting energy or signals between a fixed part and a rotating part of a motor or a generator or other rotating machinery, is generally made of pure carbon and a coagulant, is generally square in shape, is clamped on a metal support, is tightly pressed on a rotating shaft by a spring inside, and transmits electric energy to a coil through a phase changer when the motor rotates. The carbon should be periodically maintained and replaced and cleaned. The carbon brush is a little like a rubber strip for wiping a pencil, and a lead is led out from the top of the carbon brush. The volume is large or small. Carbon brushes are widely used as a sliding contact in many electrical devices.

The existing carbon brush processing equipment needs manual clamping in the processing process, manual operation is needed between every two working procedures, the processing efficiency of the carbon brush is low, and large labor cost is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide a carbon brush automatic processing machine, can realize the full-automatic surface machining of carbon brush, reduce the human cost, machining efficiency is high.

The utility model is realized in such a way that an automatic carbon brush processing machine comprises a workbench, wherein a turntable is arranged on the workbench, the outer edge of the turntable is provided with carriers in an annular array, carbon brushes are arranged in the carriers, the outer side of the workbench is also provided with a vibrating disk, the vibrating disc conveys the carbon brush into the carrier through an automatic feeding mechanism, a first positioning device, a plane polisher, a flatness detection mechanism, a second positioning device, an arc surface polisher, a good product blanking mechanism, a defective product blanking mechanism and a carrier cleaning mechanism are arranged on a workbench outside the rotating disc in a surrounding manner, automatic feeding mechanism, first positioner, plane polisher, flatness detection mechanism, second positioner, cambered surface polisher, non-defective products unloading mechanism, defective products unloading mechanism and the clean mechanism of carrier are the corresponding setting with the carrier on carousel outer edge respectively.

Preferably, the carrier includes that the middle part is the base of undercut setting and installs the mold core in the base, install the spring in the mold core, spring one end and base inner wall butt, the base surface mounting of mold core both sides has the curb plate, the carbon brush is installed between mold core and base, be fixed with the baffle on the base of carbon brush one side.

Preferably, the automatic feeding mechanism comprises a feeding support, a linear feeder and a track are mounted on the feeding support, the top of the linear feeder is abutted to the track, one end of the track is connected with a vibration disc, and a feeding cylinder is mounted on the feeding support at the other end of the track.

As preferred, first positioner includes the locating support and fixes the fixed plate that is the level setting at locating support top, location cylinder and connecting rod are installed respectively to the fixed plate front end, the terminal articulated driving medium that is the chevron shape that has of location cylinder, the connecting rod end is fixed with the moving part that is the U type, the connecting rod outside cover of moving part top is equipped with reset spring, first gyro wheel and moving part bottom butt are installed on the driving medium right side, the gag lever post is installed on moving part bottom right side, be fixed with the spout on the locating support of driving medium below, install the slide bar in the spout, the second gyro wheel is installed to slide bar middle part top, driving medium bottom and second gyro wheel butt.

As preferred, the plane polisher includes the polisher support, install on the polisher support and be horizontally lead screw slip table, lead screw slip table front end is installed and is vertical lead screw module, lead screw module bottom is fixed with and is vertical first high speed motor, first high speed motor end is installed first polishing head, first polishing head outside cover is equipped with the protection casing, the protection casing both sides upwards extend and first high speed motor fixed connection.

As preferred, flatness detection mechanism is including detecting the support, it is the horizontally mounting panel to detect the support top and install, mounting panel surface mounting has the detection cylinder, the detection support fixed surface of mounting panel below has the slide rail, install slider assembly on the slide rail, slider assembly top is connected with the transmission of detection cylinder, slider assembly installs the bottom and is vertical flatness detector.

As preferred, cambered surface polisher includes the PLC host computer, horizontal slip table is installed to PLC host computer bottom, PLC host computer middle part is fixed with vertical slip table, install second high speed motor on the vertical slip table, the second head is polished to the second high speed motor front end installation, the second head below of polishing is provided with the waste bin, the dust absorption pipe is installed to waste bin one side.

As preferred, non-defective products unloading mechanism includes the unloading support, the backing plate is installed to unloading support top front end, backing plate fixed surface has and is hollow sliding sleeve, the unloading cylinder is installed at the sliding sleeve top, unloading cylinder end-to-end connection has the unloading piece, the unloading piece slides from top to bottom in the sliding sleeve, unloading piece bottom downwardly extending is the slice.

Preferably, the carrier cleaning mechanism comprises a cleaning mechanism support, a cleaning cylinder is mounted at the top of the cleaning mechanism support, a connecting block is mounted at the bottom of the cleaning cylinder, an air hood is fixed on one side of the connecting block, an air pipe connector is mounted at the top of the air hood, and an ash storage hopper is arranged below the air hood.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that: the automatic feeding mechanism who sets up, first positioner, the plane polisher, flatness detection mechanism, the second positioner, the cambered surface polisher, non-defective products unloading mechanism, defective products unloading mechanism and the clean mechanism of carrier are corresponding the setting with the carrier on carousel outer edge respectively, make the rotatory round of carousel can carry out the material loading to the carbon brush like this, the location, the plane is polished, the cambered surface is polished, the non-defective products unloading, defective products unloading and carrier are clean, the machining efficiency of carbon brush has been promoted by a wide margin, the effectual human cost that has reduced, thereby realize the full automatic processing on carbon brush surface, and the maintenance of whole processing machine is convenient.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is an overall structural view of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 2 is a structural view of a turntable of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 3 is an exploded view of a carrier of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 4 is a view of a carrier assembly structure of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 5 is an assembly structure view of a vibrating disk and an automatic feeding machine of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 6 is a structural diagram of a linear feeder of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 7 is a structural diagram of a first positioning device of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 8 is a structural view of a surface grinder of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 9 is a structural view of a flatness detecting mechanism of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 10 is a structure view of a grinder for arc surface of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 11 is a structural diagram of a good product blanking mechanism of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 12 is a sliding sleeve installation structure diagram of an automatic carbon brush processing machine according to an embodiment of the present invention;

fig. 13 is a structural view of a carrier cleaning mechanism of an automatic carbon brush processing machine according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-13, an embodiment of the present invention provides an automatic processing machine for carbon brushes, which includes a workbench 1, wherein the workbench 1 is a rectangular bedplate, and the surface of the workbench 1 is provided with mounting holes, so that the automatic processing machine is suitable for mounting of each component. Install carousel 2 on the workstation 1, the principle of carousel 2 is that the bottom has the cam divider, and protruding divider can drive the carousel body of top installation and rotate. Carousel 2 outer edge is annular array and installs carrier 3, install carbon brush 4 in the carrier 3, 1 outside of workstation still is provided with vibration dish 5, and vibration dish 5's principle has a pulse electromagnet below the hopper, can make the hopper make the vertical direction vibration, is the torsional pendulum vibration around its vertical axis by the spring leaf drive hopper of slope. The parts in the hopper, as a result of being subjected to such vibrations, rise along a helical track. During the ascending process, the parts can automatically enter the assembling or machining position in a uniform state according to the assembling or machining requirements through screening or posture change of a series of tracks. The vibration disc 5 conveys the carbon brush 4 into the carrier 3 through the automatic feeding mechanism 6, a first positioning device 7 (capable of positioning the installation position of the carbon brush 4 in the carrier 3) is arranged on the workbench 1 outside the rotary disc 2 in a surrounding manner, a plane polisher 8 (capable of polishing the surface of the carbon brush 4 to keep the surface of the carbon brush smooth), a flatness detection mechanism 9 (capable of detecting the flatness of the polished surface of the carbon brush 4), a second positioning device 10 (the same as the first positioning device 7 in structure and used for positioning the position of the carbon brush 4 in the carrier 3 again after plane polishing), an arc polisher 11 (used for polishing the arc surface at the front end of the carbon brush 4), a good product blanking mechanism 12 (capable of taking out good products from the carrier 3), a defective product blanking mechanism 13 (the same as the good product blanking mechanism 12 in structure and capable of taking out defective products from the carrier 3) and a carrier cleaning mechanism 14 (capable of cleaning the carrier 3), the automatic feeding mechanism 6, the first positioning device 7, the plane grinding machine 8, the flatness detection mechanism 9, the second positioning device 10, the arc surface grinding machine 11, the good product blanking mechanism 12, the defective product blanking mechanism 13 and the carrier cleaning mechanism 14 are respectively arranged corresponding to the carrier 3 on the outer edge of the turntable 2, and the arrangement has the effect that the carbon brush 4 in the carrier 3 can be processed by each mechanism by rotating the turntable 2 at each time.

The carrier 3 comprises a base 301 with a downward concave middle part and a mold core 302 installed in the base 301, wherein a spring 303 is installed in the mold core 302, and a groove is formed in a position corresponding to the mold core 302 so that the spring 303 can be installed. One end of the spring 303 abuts against the inner wall of the base 301, so that the spring can push the front end of the mold core 302 to abut against the base 301. The base 301 on both sides of the core 302 is provided with side plates 304 on the surface, and the side plates 304 can limit the position of the core 302 and prevent the core 302 from sliding out of the base 301. The carbon brush 4 is installed between the mold core 302 and the base 301, and one side of the carbon brush 4 is clamped by the mold core 302 due to the spring 303. The baffle 305 is fixed on the base 301 on one side of the carbon brush 4, the baffle 305 is used for enabling the carbon brush 4 to be pushed in or pushed out from one side only, and the side with the baffle 305 plays a role in blocking, so that the carbon brush 4 can be conveniently positioned.

The automatic feeding mechanism 6 comprises a feeding support 601, a linear feeder 602 and a rail 603 (the rail 603 is obliquely arranged) are mounted on the feeding support 601, the top of the linear feeder 602 is abutted to the rail 603, one end of the rail 603 is connected with a vibrating disc 5, the principle of the linear feeder 602 is that a vibration exciter is used for enabling a carbon brush 4 to vibrate along the oblique direction of the rail 603, so that the carbon brush 4 is conveyed into a carrier 3 through the vibrating disc 5, a feeding cylinder 604 is mounted on the feeding support 601 at the other end of the rail 603, and the feeding cylinder 604 can push the carbon brush 4 into the carrier 3.

The first positioning device 7 comprises a positioning bracket 701 and a fixing plate 702 fixed at the top of the positioning bracket 701 and horizontally arranged, a positioning cylinder 703 and a connecting rod 704 are respectively installed at the front end of the fixing plate 702, a herringbone transmission piece 705 is hinged to the tail end of the positioning cylinder 703, and the geometric center of the transmission piece 705 is hinged to the positioning bracket 701 through a rotating shaft. A U-shaped moving part 706 is fixed at the tail end of the connecting rod 704, a return spring 712 is sleeved outside the connecting rod 704 above the moving part 706, a first roller 707 is installed on the right side of the transmission part 705 and is abutted against the bottom of the moving part 706, a limiting rod 708 (used for blocking the carrier 3 coming from the rotating disc 2) is installed on the right side of the bottom of the moving part 706, a sliding groove 709 is fixed on the positioning bracket 701 below the transmission part 705, a sliding rod 710 is installed in the sliding groove 709, a second roller 711 is installed above the middle part of the sliding rod 710, the bottom of the transmission part 705 is abutted against the second roller 711, during positioning, the positioning cylinder 703 is started to drive the transmission part 705 at the bottom, so that the sliding rod 710 moves rightwards to push the carbon brush 4 in the carrier 3 to be close to the baffle 305, positioning can be realized, and after the positioning is completed, the, thereby pushing the slide bar 710 to move leftward for resetting.

The plane polisher 8 includes a polisher bracket 801, a horizontal screw rod sliding table 802 is mounted on the polisher bracket 801, and the screw rod sliding table 802 can move horizontally on the polisher bracket 801. Lead screw slip table 802 front end is installed and is vertical lead screw module 803 (specifically install on the slider of lead screw slip table 802), and lead screw module 803 can realize the removal of vertical direction. A vertical first high-speed motor 804 is fixed at the bottom of the lead screw module 803, a first polishing head 805 is installed at the tail end of the first high-speed motor 804, a protective cover 806 is sleeved outside the first polishing head 805, the protective cover 806 covers the outside of the carrier 3 during processing, and the carbon brush is ground by the first polishing head 805. Two sides of the protective cover 806 extend upwards to be fixedly connected with the first high-speed motor 804.

The flatness detection mechanism 9 comprises a detection bracket 901, a horizontal mounting plate 902 is mounted at the top of the detection bracket 901, and the mounting plate 902 is fixed with a sliding rail 904 through a screw. The surface mounting of mounting panel 902 has detection cylinder 903, the detection support 901 surface mounting of mounting panel 902 below has slide rail 904, and slide rail 904 passes through the screw to be fixed with mounting panel 902. The slide rail 904 is provided with a slide block assembly 905, and the slide block assembly 905 can slide on the surface of the slide rail 904. The top of the sliding block assembly 905 is in transmission connection with the detection cylinder 903, a piston rod of the detection cylinder 903 can drive the sliding block assembly 905 to move up or down, the bottom of the sliding block assembly 905 is provided with a vertical flatness detector 906, the outer side of the sliding block assembly 905 comprises an L-shaped mounting plate for mounting the flatness detector 906, and the bottom of the flatness detector 906 faces the surface of the carbon brush 4 to detect the flatness.

The cambered surface polisher 11 comprises a PLC main unit 111, a horizontal sliding table 112 (specifically fixed on a sliding block carried by the horizontal sliding table 112, so that the sliding block can drive the whole PLC main unit 111 to move horizontally, the horizontal sliding table 112 specifically adopts an electric screw rod sliding table) is mounted at the bottom of the PLC main unit 111, a vertical sliding table 113 (adopting an electric screw rod sliding table) is fixed in the middle of the PLC host 111, a second high-speed motor 114 is installed on the vertical sliding table 113, the second high-speed motor 114 is specifically installed on an automatic sliding block of the vertical sliding table 113, namely, the vertical movement can be realized, the second polishing head 115 is installed at the front end of the second high-speed motor 114, the second head 115 below of polishing is provided with waste bin 116, dust absorption pipe 117 is installed to waste bin 116 one side, adds the simultaneous movement of the vertical slip table 113 of horizontal slip table 112 box of processing through PLC host computer 111 control, can realize the cambered surface processing of second head 115 of polishing.

The non-defective products unloading mechanism 12 includes unloading support 121, backing plate 122 is installed to unloading support 121 top front end, backing plate 122 fixed surface has and is hollow sliding sleeve 123, unloading cylinder 124 is installed at sliding sleeve 123 top, unloading cylinder 124 end-to-end connection has unloading piece 125, unloading piece 125 slides from top to bottom in sliding sleeve 123, unloading piece 125 bottom downwardly extending is the slice, starts drive unloading piece 125 downstream for the clearance department of carbon brush 4 and carrier 3 is inserted to its bottom, and control carousel 2 rotates this moment, can realize the unloading of carbon brush 4.

The carrier cleaning mechanism 14 comprises a cleaning mechanism support 141, a cleaning cylinder 142 is mounted at the top of the cleaning mechanism support 141, a connecting block 143 is mounted at the bottom of the cleaning cylinder 142, and a gas hood 144 is fixed on one side of the connecting block 143 and can be fixed by welding or screws. The top of the air hood 144 is provided with an air pipe connector 145 for connecting to an air pump, an ash storage hopper 146 is arranged below the air hood 144, when the device is used, the carrier 3 rotates below the air hood 144 through the turntable 2, the cleaning air cylinder 142 is started to move the air hood 144 downwards, and at the moment, high-pressure air is introduced into the air pipe connector 145 to clean the carrier 3.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims

1. The utility model provides a carbon brush automatic processing machine, includes workstation (1), install carousel (2) on workstation (1), carousel (2) are outer along being annular array and installing carrier (3), install carbon brush (4) in carrier (3), a serial communication port, workstation (1) outside still is provided with vibration dish (5), vibration dish (5) are carried carbon brush (4) in carrier (3) through automatic feeding mechanism (6), encircle on workstation (1) in carousel (2) outside and install first positioner (7), plane polisher (8), plane degree detection mechanism (9), second positioner (10), cambered surface polisher (11), non-defective products unloading mechanism (12), defective products unloading mechanism (13) and carrier cleaning mechanism (14), automatic feeding mechanism (6), first positioner (7), The plane polisher (8), the flatness detection mechanism (9), the second positioning device (10), the cambered surface polisher (11), the good product discharging mechanism (12), the defective product discharging mechanism (13) and the carrier cleaning mechanism (14) are arranged correspondingly to the carrier (3) on the outer edge of the turntable (2) respectively.

2. The automatic processing machine for the carbon brush as claimed in claim 1, wherein the carrier (3) comprises a base (301) and a core (302) installed in the base, the middle of the base is recessed downward, a spring (303) is installed in the core (302), one end of the spring (303) abuts against the inner wall of the base (301), side plates (304) are installed on the surfaces of the bases on two sides of the core (302), the carbon brush (4) is installed between the core (302) and the base (301), and a baffle (305) is fixed on the base (301) on one side of the carbon brush (4).

3. The automatic carbon brush processing machine according to claim 1, wherein the automatic feeding mechanism (6) comprises a feeding support (601), a linear feeder (602) and a rail (603) are mounted on the feeding support (601), the top of the linear feeder (602) is abutted to the rail (603), one end of the rail (603) is connected with the vibrating disk (5), and a feeding cylinder (604) is mounted on the feeding support (601) at the other end of the rail (603).

4. The automatic carbon brush processing machine according to claim 1, wherein the first positioning device (7) comprises a positioning support (701) and a fixing plate (702) fixed at the top of the positioning support (701) and horizontally arranged, a positioning cylinder (703) and a connecting rod (704) are respectively installed at the front end of the fixing plate (702), a herringbone transmission member (705) is hinged to the tail end of the positioning cylinder (703), a U-shaped moving member (706) is fixed at the tail end of the connecting rod (704), a return spring (712) is sleeved outside the connecting rod (704) above the moving member (706), a first roller (707) is installed on the right side of the transmission member (705) and is abutted against the bottom of the moving member (706), a limiting rod (708) is installed on the right side of the bottom of the moving member (706), and a sliding groove (709) is fixed on the positioning support (701) below the transmission member (705), install slide bar (710) in spout (709), slide bar (710) middle part top is installed second gyro wheel (711), driving medium (705) bottom and second gyro wheel (711) butt.

5. The carbon brush automatic processing machine according to claim 1, wherein the plane grinding machine (8) comprises a grinding machine support (801), a horizontal lead screw sliding table (802) is installed on the grinding machine support (801), a vertical lead screw module (803) is installed at the front end of the lead screw sliding table (802), a vertical first high-speed motor (804) is fixed at the bottom of the lead screw module (803), a first grinding head (805) is installed at the tail end of the first high-speed motor (804), a protective cover (806) is sleeved outside the first grinding head (805), and two sides of the protective cover (806) extend upwards and are fixedly connected with the first high-speed motor (804).

6. The carbon brush automatic processing machine according to claim 1, wherein the flatness detection mechanism (9) comprises a detection support (901), a horizontal mounting plate (902) is mounted at the top of the detection support (901), a detection cylinder (903) is mounted on the surface of the mounting plate (902), a sliding rail (904) is fixed on the surface of the detection support (901) below the mounting plate (902), a sliding block assembly (905) is mounted on the sliding rail (904), the top of the sliding block assembly (905) is in transmission connection with the detection cylinder (903), and a vertical flatness detector (906) is mounted at the bottom of the sliding block assembly (905).

7. The carbon brush automatic processing machine according to claim 1, wherein the arc surface grinding machine (11) comprises a PLC host (111), a horizontal sliding table (112) is installed at the bottom of the PLC host (111), a vertical sliding table (113) is fixed in the middle of the PLC host (111), a second high-speed motor (114) is installed on the vertical sliding table (113), a second grinding head (115) is installed at the front end of the second high-speed motor (114), a waste bin (116) is arranged below the second grinding head (115), and a dust suction pipe (117) is installed on one side of the waste bin (116).

8. The carbon brush automatic processing machine according to claim 1, wherein the good product blanking mechanism (12) comprises a blanking support (121), a backing plate (122) is installed at the front end of the top of the blanking support (121), a hollow sliding sleeve (123) is fixed on the surface of the backing plate (122), a blanking cylinder (124) is installed at the top of the sliding sleeve (123), a blanking block (125) is connected to the end of the blanking cylinder (124), the blanking block (125) slides up and down in the sliding sleeve (123), and the bottom of the blanking block (125) extends downwards to form a sheet shape.

9. The carbon brush automatic processing machine according to claim 1, wherein the carrier cleaning mechanism (14) comprises a cleaning mechanism support (141), a cleaning cylinder (142) is mounted at the top of the cleaning mechanism support (141), a connecting block (143) is mounted at the bottom of the cleaning cylinder (142), an air hood (144) is fixed on one side of the connecting block (143), an air pipe joint (145) is mounted at the top of the air hood (144), and a dust storage hopper (146) is arranged below the air hood (144).