CN208289667U - The precise polished machine barostat in full-automatic double position - Google Patents

Abstract

The utility model relates to a kind of important devices of metalworking machinery.Purpose is to provide a kind of precise polished machine barostat in full-automatic double position, which should be able to apply curved surface certain polish pressure, has the characteristics that good quality of finish, high production efficiency and is effectively improved operator's working condition.Technical solution is: the precise polished machine barostat in full-automatic double position, it is characterised in that: the barostat includes the torque motor being fixed on the rack, the magnetic powder controller driven by torque motor, the rack-and-pinion driven by magnetic powder controller and is mounted on rack-and-pinion lower end and drives the lower air cylinder of buffing wheel component；The rack-and-pinion includes the pinion gear being fixed on magnetic powder controller output shaft and is located in the rack gear driven on magnetic powder controller output shaft and by the pinion gear by active chuck.

Description

The precise polished machine barostat in full-automatic double position

Technical field

The utility model relates to a kind of important devices of metalworking machinery, the specifically barostat of polishing machine, especially Suitable for the coarse-fine polishing before the circular base plate chromium plating of metal seat.

Background technique

For a long time, domestic each manufacturing enterprise quite feels hard when the chassis to metal seat carries out polishing, this is Because the chassis surface (shown in Fig. 4) is curved body, and specification kind is various, and what is used for many years is that manual operation is easy Lever is driven grinding wheel to carry out the polishing process.Operation manually is operated by feel, quality is difficult to control unstable, production efficiency pole It is low, and environment is seriously polluted, worker's health (occupational disease of operative employee is exactly pneumoconiosis) is endangered, this is paying attention to environment now The new era of protection and the prevention and control of worker's occupational disease, it is clear that do not meet research.So that polishing operation is guaranteed both quality and quantity, and shows It writes and improves production efficiency, have only using automated production equipment.

Inventor tackles key problems with great concentration thus, the precise polished machine in researching and designing full-automatic double position；However how in curve form Workpiece surface apply constant polish pressure, be to need the problem that solves.

Utility model content

The purpose of the utility model is to overcome the deficiencies of above-mentioned background technique, and it is precise polished to provide a kind of full-automatic double position Machine barostat, the barostat should be able to apply curved surface certain polish pressure, have quality of finish is good, high production efficiency with And the characteristics of being effectively improved operator's working condition.

Technical solution provided by the utility model is:

The precise polished machine barostat in full-automatic double position, it is characterised in that: the barostat includes being fixed on the rack Torque motor by the magnetic powder controller of torque motor driving, the rack-and-pinion that is driven by magnetic powder controller and is mounted on tooth Rack-and-pinion lower end and the lower air cylinder for driving buffing wheel component；

The rack-and-pinion includes the pinion gear being fixed on magnetic powder controller output shaft and is determined by active chuck Position is on magnetic powder controller output shaft and the rack gear that is driven by the pinion gear.

The active chuck is rotatably positioned on magnetic powder controller output shaft by bearing, also fixed on active chuck One sliding block being slidably matched with rack gear back.

The buffing wheel component is connected by the lower end of lower air cylinder and rack gear.

The buffing wheel component include swingably hinged grinding carriage on the rack, be rotatably positioned in grinding carriage On grinding wheel and be fixed on grinding carriage and drive by transmission mechanism the grinding wheel motor of buffing wheel.

The middle part of the grinding carriage and the slide of a positioning on the rack are hinged, and the right end and lower air cylinder of grinding carriage are cut with scissors It connects.

The slide is slidably located on the sliding rail of rack by a grinding carriage sliding block, separately moves left and right motor by one By the screw rod shift sleeve structure driving slide, so that the grinding carriage be driven to carry out left and right sliding motion；The grinding wheel The glide direction of frame is axially vertical with the magnetic powder controller output shaft.

The working principle of the utility model is:

Equipment starting is located in workpiece GA on mold and rotates around vertical axis (axis of rotation of itself)；Torque motor 8 according to Secondary slowly moved down by magnetic powder controller 7, rack-and-pinion and lower air cylinder drives the slow contact workpiece GA's of buffing wheel 9 Upper surface effectively polishes workpiece；When buffing wheel pushing touches workpiece, rack gear continues to push buffing wheel, The pressure for keeping formation of the buffing wheel to workpiece surface certain；When the pressure reaches the given pressure of magnetic powder damping, magnetic powder is defeated Enter axis to continue to rotate, and magnetic powder output shaft reaches damping force and the (input shaft that stops operating due to the reaction force of workpiece surface Opposite output shaft skids under damping action), it keeps certain pressure to act on and carries out polishing operation on buffing wheel, to workpiece Whole surface carries out uniform polish；Buffing wheel is controlled while pushing polishing by moving left and right motor drives screw mandrel Slowly mobile (this hour rack is made slowly to swing around pinion gear axle center, and rack gear makees compensation movement downwards under constant force effect), reaches The effect of whole surface uniform polish.

The beneficial effects of the utility model are:

For manually operated polishing machine since human factor is constantly changing, the power that the hand of people acts on workpiece surface is unstable Fixed, it gently weighs sometimes sometimes, dishing out, the surface smoothness come is uneven, and product qualification rate only has 70%；And what barostat A was provided Constant pressure makes the power homogeneous constant for acting on workpiece surface, while buffing wheel is made left and right in workpiece surface and uniformly slowly moved Dynamic (Fig. 2 state is moved to Fig. 3 state, or reverse movement), it can be ensured that entire by polished workpiece during the polishing process Surface obtains a uniform bright and clean surface, the close grinding finish of finish, product qualification rate 98%；And working efficiency is remote Higher than (about 10 times of raising) by hand.

Detailed description of the invention

Fig. 1 is the schematic view of the front view of the utility model.

Fig. 2 is the left view structural representation (one of working condition schematic diagram) of the utility model.

Fig. 3 is two schematic diagrames of utility model works state.

Fig. 4 is the schematic view of the front view of workpiece.

Specific embodiment

It is further illustrated below in conjunction with embodiment shown in the drawings.

In the precise polished machine barostat in full-automatic double position shown in the drawings, torque motor 8,7 (magnetic powder of magnetic powder controller Brake) it is each attached in rack, magnetic powder controller is driven by torque motor；Rack-and-pinion is by pinion gear 5 and 6 groups of magnetic stripe At being driven by magnetic powder controller；Buffing wheel component is mounted on rack-and-pinion lower end and by rack drives.

The pinion gear is fixed on magnetic powder controller output shaft, and rack gear is located in by active chuck 3 (conventional components) It is driven on magnetic powder controller output shaft and by the pinion gear.

The active chuck is rotatably positioned on magnetic powder controller output shaft by bearing, also fixed on active chuck The one sliding block 3-1 being slidably matched with rack gear back；Rack gear slides under the driving of pinion gear along sliding block.The lower end of rack gear A lower air cylinder 2 is also fixed, can be fast moved in idle stroke.

The buffing wheel component is connected to the lower end of lower air cylinder；In buffing wheel component: grinding carriage 10 passes through pin shaft Swingably hingedly on the rack, the grinding wheel spindle of fixed grinding wheel 9 is rotatably positioned on grinding carriage by bearing；Grinding wheel electricity Machine 11 is fixed on grinding carriage and drives buffing wheel by transmission mechanism (usually pulley mechanism).

The middle part of the grinding carriage and the slide 12 of a positioning on the rack are hinged (articulated shaft 12-1), the right end of grinding carriage It is hinged with the connector 1 (preferably flake connector) of lower air cylinder bottom end.Obviously, rack gear or lower air cylinder movement, grinding carriage is just around cunning Hinged spot wobble on seat.

The slide is slidably located on the sliding rail 18 of rack by a grinding carriage sliding block 17, is separately moved left and right by one By a screw rod shift sleeve structure, (screw rod 15 is fixed on to be moved left and right on motor shaft motor 16, then solid with the sliding sleeve 13 of screw rod cooperation It is scheduled on slide) the driving slide, so that the grinding carriage be driven to carry out left and right horizontal sliding motion；The grinding carriage Glide direction is vertical with the axis of the magnetic powder controller output shaft.

Claims (4)

1. the precise polished machine barostat in full-automatic double position, it is characterised in that: the barostat includes the power being fixed on the rack Torque motor (8), the rack-and-pinion driven by the magnetic powder controller (7) of torque motor driving, by magnetic powder controller and installation In rack-and-pinion lower end and the lower air cylinder (2) of drive buffing wheel component；

The rack-and-pinion includes the pinion gear (5) being fixed on magnetic powder controller output shaft and passes through active chuck (3) The rack gear (6) for being located on magnetic powder controller output shaft and being driven by the pinion gear；

The active chuck is rotatably positioned on magnetic powder controller output shaft by bearing, also fixed on active chuck one with The sliding block (3-1) that rack gear is slidably matched.

2. the precise polished machine barostat in full-automatic double position according to claim 1, it is characterised in that: the polishing sand Wheel assembly include swingably hinged grinding carriage (10) on the rack, the grinding wheel (9) that is rotatably positioned on grinding carriage with And it is fixed on grinding carriage and drives by transmission mechanism the grinding wheel motor (11) of buffing wheel.

3. the precise polished machine barostat in full-automatic double position according to claim 2, it is characterised in that: the grinding carriage Middle part with a positioning slide (12) on the rack hingedly, the right end and lower air cylinder of grinding carriage are hinged.

4. the precise polished machine barostat in full-automatic double position according to claim 3, it is characterised in that: the slide is logical It crosses a grinding carriage sliding block (17) to be slidably located on the sliding rail (18) of rack, separately moves left and right motor by one and pass through a screw rod The shift sleeve structure driving slide, so that the grinding carriage be driven to carry out left and right sliding motion；The sliding side of the grinding carriage To axially vertical with the magnetic powder controller output shaft.