A kind of brush dust equipment of clutch coil housing
Technical field
The present invention relates to brush dust apparatus field, particularly relate to the brush dust equipment of a kind of clutch coil housing.
Background technology
Brush dust is one technical process the most common in all kinds of plant equipment, electronic equipment;In the processing technology of automobile air conditioner compressor clutch coil housing, brush dust technique has particularly important effect for improving solenoid housing.At present, brush dust mode in this field is all semi-automatic brush dust mode, i.e. by driving driven by motor workpiece to be processed to rotate, then by the artificial inside that steel brush stretches into solenoid housing, polish-brush between solenoid housing and the steel brush of high speed rotating, reaches the function of ash disposal.This kind of tradition brush dust mode is disadvantageous in that: 1, manually holds steel brush due to needs, and during brush dust, the damage for human body wrist joint is the biggest, is presented as that hands is the sourest, and labor efficiency is low, time-consuming take a lot of work laborious;2, due to operator's physical ability and the restriction of operating time, it is understood that there may be brush dust halfway cleaning hidden danger and hidden danger of quality.
Summary of the invention
In order to solve the problems referred to above, it is an object of the invention to provide the brush dust equipment of a kind of clutch coil housing, this full-automatic brush dust of brush dust equipment, and have simple to operate, and in hgher efficiency, the higher technical advantage of clean rate of brush dust.
In order to realize above-mentioned purpose, present invention employs following technical scheme:
The brush dust equipment of a kind of clutch coil housing, including frame, and for positioning the frock clamp of workpiece to be processed, and for the driving motor driving frock clamp to rotate;Frame is additionally provided with steel brush and first and drives cylinder, and the outbound course of the first driving cylinder is perpendicular with the rotation direction of frock clamp, and steel brush is arranged on the output shaft of the first driving cylinder, and the end of steel brush is rotatably assorted with the workpiece to be processed on frock clamp.
As preferably, described frame is provided with brush dust frame, and for the second driving cylinder driving brush dust frame to move, and for detecting the movable sensor of brush dust rack position;The moving direction of described brush dust frame is perpendicular with the rotation direction of frock clamp, and first drives cylinder and steel brush to be arranged on brush dust frame, and movable sensor controls to connect the first driving cylinder, and movable sensor is in the maximum output station of the second driving cylinder;When equipment runs, first pass through the second driving air cylinder driven brush dust frame near frock clamp, when the second driving cylinder is in maximum output station, movable sensor controls the first driving cylinder output, first drives air cylinder driven steel brush near frock clamp, and the end of steel brush is rotatably assorted with the workpiece to be processed on frock clamp and carries out brush dust.
As preferably, described frame is provided with limit sliding chutes, and brush dust frame lower slide is arranged in limit sliding chutes, and movable sensor is arranged on limit sliding chutes on the end of frock clamp;Second drives air cylinder driven brush dust frame to slide in limit sliding chutes, when brush dust frame move to limit sliding chutes on the end of frock clamp time, the maximum output station of the corresponding second driving cylinder of now movable sensor sensing, i.e. movable sensor.
As preferably, being connected by steel brush seat between described first driving cylinder and steel brush, steel brush seat includes the steel brush seat board being fixed on the output shaft of the first driving cylinder, and the steel brush sleeve being arranged on steel brush seat board, and steel brush is socketed in steel brush sleeve inner;Owing to the end of steel brush can shorten with workpiece polish-brush, therefore steel brush is fixed on the extension elongation of the conveniently adjusted steel brush of steel brush sleeve.
As preferably, described steel brush sleeve is axially connected on steel brush seat board, and the lateral surface of steel brush sleeve is provided with the handle for circumferentially rotating regulation;Owing to just brush is to be made up of a plurality of steel wire bundle, inherently there is gap between the end of a plurality of steel wire, during ash disposal, it is understood that there may be the problem that local ash disposal is unclear;And by arranging handle, turning handle manually during coil housing into rotation brush dust, can make just to have brushed and circumferentially rotate certain angle so that solenoid housing ash disposal is more thorough, without cleaning dead angle.
As preferably, described frock clamp is also associated with cartridge device and actuating device;Actuating device includes the main shaft of boring, and the primary shaft belt pulley being arranged on main shaft, drives the output shaft of motor to be provided with electrical machine belt pulley, is connected by belt transmission between primary shaft belt pulley with electrical machine belt pulley;Described cartridge device includes clamp cylinder, connecting rod and tapering plug, the outer end of tapering plug is taper type, connecting rod is arranged on the output shaft of clamp cylinder, connecting rod is located in inside main shaft, connecting rod is provided with pitman shaft, and the end of pitman shaft is positioned at inside tapering plug by plane bearing and ball bearing;During feeding, being manually placed on frock clamp by workpiece to be processed, clamp cylinder promotes tapering plug, tapering plug to be installed on frock clamp by workpiece to be processed by connecting rod outward;When equipment runs, motor is driven to drive frock clamp and workpiece to be processed to rotate by actuating device.
As preferably, described brush dust equipment also includes dust exhaust apparatus, and dust exhaust apparatus includes blower fan, and the horn mouth being connected with blower fan, and horn mouth is in frock clamp side;Dust exhaust apparatus is in order to the dust produced during adsorbing, collect brush dust.
The present invention uses technique scheme, this brush dust equipment is for carrying out brush dust to clutch coil housing, manually workpiece to be processed is placed on frock clamp during work, driven by motor frock clamp and workpiece to be processed is driven to rotate, first drives cylinder control steel brush near frock clamp, and the end of steel brush is rotatably assorted with the workpiece to be processed on frock clamp and carries out brush dust;During whole, brush dust is automatically finished, and workman has only to carry out feeding and blanking, and safety simple to operate is in hgher efficiency, and the solenoid housing cleannes after above-mentioned brush dust equipment processes are high, quality is more reliable.
Accompanying drawing explanation
Fig. 1 is the structural representation of the present invention.
Fig. 2 is the structural representation of cartridge device.
Detailed description of the invention
Below in conjunction with the accompanying drawings, the preferred embodiments of the invention are described in further detail.
The brush dust equipment of a kind of clutch coil housing as shown in Figure 1 and Figure 2, including frame 1, and frock clamp 2, driving motor 3, brush dust frame 4 and the dust exhaust apparatus 5 being arranged in frame 1, dust exhaust apparatus 5 includes blower fan, and the horn mouth being connected with blower fan, horn mouth is in frock clamp 2 side.Dust exhaust apparatus 5 is in order to the dust produced during adsorbing, collect brush dust.
Described driving motor 3 drives frock clamp 2 to rotate by actuating device, actuating device includes the main shaft 31 being connected with frock clamp 2, and the primary shaft belt pulley 32 being arranged on main shaft 31, the boring of main shaft 31, the output shaft driving motor 3 is provided with electrical machine belt pulley 33, is in transmission connection by belt a between primary shaft belt pulley 32 and electrical machine belt pulley 33.Described frock clamp 2 is used for positioning workpiece to be processed 6, frock clamp 2 is also associated with cartridge device, cartridge device includes clamp cylinder 21, connecting rod 22 and tapering plug 23, the outer end of tapering plug 23 is taper type, connecting rod 22 is arranged on the output shaft of clamp cylinder 21, it is internal that connecting rod 22 is located in main shaft 31, and connecting rod 22 is provided with pitman shaft 24, and it is internal that the end of pitman shaft 24 is positioned at tapering plug 23 by plane bearing 25 and ball bearing 26.During feeding, being manually placed on frock clamp 2 by workpiece to be processed 6, clamp cylinder 21 promotes tapering plug 23 outward by connecting rod 22, and workpiece to be processed 6 is installed on frock clamp 2 by tapering plug 23.When equipment runs, motor 3 is driven to drive frock clamp 2 and workpiece to be processed 6 to rotate by actuating device.
Frame 1 is provided with limit sliding chutes 11 and second and drives cylinder 12, second drives cylinder 12 to drive brush dust frame 4 to be slidably arranged in limit sliding chutes 11, the moving direction of brush dust frame 4 is perpendicular with the rotation direction of frock clamp 2, limit sliding chutes 11 is provided with the movable sensor 13 for detecting brush dust frame 4 position, i.e. movable sensor 13 and is in the maximum output station of the second driving cylinder 12 near the end of frock clamp 2.Described brush dust frame 4 is provided with steel brush 41, first and drives cylinder 42 and steel brush seat, movable sensor 13 controls to connect the first driving cylinder 42, the outbound course of the first driving cylinder 42 is perpendicular with the rotation direction of frock clamp 2, steel brush seat includes the steel brush seat board 43 being fixed on the output shaft of the first driving cylinder 42, and the steel brush sleeve 44 being arranged on steel brush seat board 43, steel brush sleeve 44 is axially connected on steel brush seat board 43, it is internal that steel brush 41 is socketed in steel brush sleeve 44, the extension elongation of conveniently adjusted steel brush 41.
Further, since just brush is to be made up of a plurality of steel wire bundle, inherently there is gap between the end of a plurality of steel wire, during ash disposal, it is understood that there may be the problem that local ash disposal is unclear;Therefore, the lateral surface of steel brush sleeve 44 is provided with the handle 45 for circumferentially rotating regulation, turning handle 45 manually during coil housing into rotation brush dust, can make just to have brushed and circumferentially rotates certain angle so that solenoid housing ash disposal is more thorough, without cleaning dead angle.
The said equipment running is subdivided into: one, and workpiece to be processed 6(manually i.e. treats the solenoid housing of brush dust) it is assemblied on frock clamp 2;Two, clamp cylinder 21 starts, and promotes tapering plug 23 and is installed on frock clamp 2 by workpiece to be processed 6;Three, drive motor 3 to drive frock clamp 2 and workpiece to be processed 6 to rotate by actuating device;Four, second drives cylinder 12 to drive brush dust frame 4 near frock clamp 2, and during until the second driving cylinder 12 is in maximum output station, i.e. brush dust frame 4 slides into chute end and starts movable sensor 13;Five, movable sensor 13 controls the first driving cylinder 42 and exports, and first drives cylinder 42 to drive steel brush 41 near frock clamp 2, and the end of steel brush 41 is rotatably assorted with the workpiece to be processed 6 on frock clamp 2 and carries out brush dust;Six, brush dust is each member reset after completing, and manually takes off the machined workpiece completed.