CN206343998U - A kind of structure improved polishing mechanism - Google Patents

Abstract

A kind of structure improved polishing mechanism, including polishing fixed beam and at least one be installed on rubbing head in the polishing fixed beam, polishing support body that the rubbing head includes being rotatably installed in polishing fixed beam, the polishing revolving part being rotatably installed on the polishing support body, drive the polishing motor component of polishing revolving part progress high speed rotation and the polishing swing component for driving the polishing revolving part to be swung back and forth.In the utility model, polishing wheel can also be swung while high speed rotates, thus can be effective to improve polishing dynamics and quality on the premise of same rotational speed, shorten polishing time, and then both improve polishing efficiency, and product quality can be improved again.

Description

A kind of structure improved polishing mechanism

Technical field

The utility model is related to a kind of polissoir of workpiece, refers in particular to a kind of structure improved polishing mechanism.

Background technology

Polishing machine mainly uses workpiece surface polishing, and workpiece surface can be made more smooth, finer and smoother, increase aesthetic feeling and touch Comfort level, is widely used in Modern Industry Products.For hardware, the polishing mechanical of hot-water heating part product, mainly cotton piece buff is thrown Ray machine, buffing machine is driven using motor by the way of cotton piece buff rotation, cloth wheel surface is contacted with workpiece surface, so as to complete to throw Photoreduction process, its is simple to operate, easy to use, and manual mode of operation can be adapted to variously-shaped hardware or hot-water heating part product is thrown Light, is widely used in hardware, hot-water heating manufacturing.

Chinese utility model patent（Application number：201020145309.7）Disclose a kind of polishing machine, it include casing and Polishing wheel, transmission device, angle-adjusting mechanism and electric control gear in casing, transmission device include motor, synchronizing wheel group And power transmission shaft, synchronizing wheel group is connected on motor output shaft and power transmission shaft, and polishing wheel, polishing wheel are also associated with power transmission shaft It is connected to transmission device on angle-adjusting mechanism.

Above-mentioned polishing machine is the angle adjustment that wheel is polished using angle-adjusting mechanism, makes polishing machine in use Corresponding polishing wheel extension or retraction can be carried out according to the shape of workpiece.Although the suitable of polishing wheel can be expanded with upper polishers With scope, but following weak point is also there are during actual use：The polishing wheel of polishing mechanism can only be at one Action is polished in angle rotate at high speed, polishing mode is single, so as to can cause polishing dynamics and quality by larger Limitation, is unfavorable for improving the polishing property and efficiency of product.

Utility model content

The utility model provides a kind of structure improved polishing mechanism, and its main purpose is to overcome existing polishing mechanism There is the defect of single polishing mode, polishing dynamics and limited mass in polishing wheel.

In order to solve the above technical problems, the utility model is adopted the following technical scheme that：

A kind of structure improved polishing mechanism, including polishing fixed beam and at least one be installed in the polishing fixed beam Rubbing head, the rubbing head include be rotatably installed on polishing fixed beam on polishing support body, be rotatably installed on this Polish the polishing revolving part on support body, drive the polishing revolving part to carry out the polishing motor component of high speed rotation and for driving The polishing swing component that the polishing revolving part is swung back and forth.

Further, the rubbing head be provided with it is a plurality of, a plurality of rubbing heads in arranged for interval be installed on the throwing On photofixation beam.

Further, the polishing mechanism also includes the 3rd synchronization for being used to control each polishing support body to synchronize rotation Drive component, the described 3rd synchronous drive component includes one the 3rd servomotor, is driven company with the 3rd servo motor output shaft Connect one the 3rd rotation connecting shaft and at least two be connected in the 3rd rotation connecting shaft on the 3rd decelerator, each polishing rack Body is rotatably installed on the output end of the 3rd corresponding decelerator.

Further, the polishing revolving part includes a polishing assembly and the polishing wheel being installed on the polishing assembly, The polishing swing component includes the line slideway and a reciprocating cylinder being installed in the polishing rack body, the polishing Assembly is installed on the sliding seat of the line slideway.

Further, the polishing assembly includes assembly framework, the polishing being rotatably installed on assembly framework rotation Axle, at least two are used to support the polishing bearing of the polishing rotary shaft and are sheathed in the polishing rotary shaft and are used to drive Its second synchronous pulley being rotated, the polishing motor component include one be fixed on polishing support body on motor and One the first synchronous pulley for being driven and being connected with second synchronous belt pulley transmission by the motor.

Further, the piston rod end of the reciprocating cylinder is fixed and described for driving with the assembly framework Polish assembly and carry out linear reciprocating motion along the line slideway.

Further, one end of the polishing rotary shaft is installed on the one of the second synchronous pulley by polishing bearing described in one Side, the other end of the polishing rotary shaft is installed on the opposite side of second synchronous pulley by another polishing bearing On, and polish polishing wheel described in fit on after the other end end stretching polishing support body of rotary shaft.

Further, in addition to frame, the frame includes two longerons and is connected to the crossbeam on the two longerons top, institute The guide rail that side rail inner is each provided with a pair of lateral arrangements is stated, the two ends of the polishing fixed beam are set up in each side rail inner respectively Guide rail on, the crossbeam be provided with for drive whole polishing fixed beam carry out above and below the elevating mechanism that shifts.

Further, the elevating mechanism include a lateral arrangement in crossbeam medium position screw mandrel, be combined on the screw mandrel On drive nut, be sheathed in the drive nut the 4th synchronous pulley, be installed on crossbeam and for supporting the screw mandrel Bearing part, a servomotor being installed on crossbeam, the 3rd synchronous pulley being connected with the output end of the servomotor, institute The first synchronous pulley is stated to be connected with the 4th synchronous belt pulley transmission.

Further, the polishing wheel is cotton piece buff, emery wheel or nylon wheel.

Compared to the prior art, the beneficial effect that the utility model is produced is:

1st, in the utility model, polishing wheel can also be swung while high speed rotates, thus can be in phase It is effective to improve polishing dynamics and quality on the premise of with rotating speed, shorten polishing time, and then polishing efficiency had both been improved, again Product quality can be improved.

2nd, in the utility model, polishing assembly is pulled on line slideway by setting reciprocating cylinder, and is thrown Light rotary shaft can't produce rotary impact power in high-speed rotation to reciprocating cylinder, thus by cleverly mechanical Coordinate, it is ensured that the independent operating of polishing wheel itself spinning movement and the action that swings.

3rd, in the utility model, by setting the 3rd synchronous drive component, it can also enable each polishing rack body same Step rotates a certain angle so that each rubbing head can synchronize rotation in the utility model, thus greatly widen workpiece throwing The angles and positions of light, it is ensured that the comprehensive space curved surface operation of workpiece.

4th, in the utility model, polishing fixed beam can carry out shifting up and down, thus can increase the utility model energy The specification species of workpiece is enough processed, the polishing for making it substantially meet arbitrary shape and a wide range of interior metal casting.

5th, in the utility model, by setting at least two rubbing heads to be polished workpiece, it can not only so carry The quantity of processing workpiece in the high board unit interval, and each workpiece is in polishing process, and the dynamics of polishing is also identical, because And make it that each workpiece is polished in same time and same environment, the polishing uniformity of product is greatly enhanced, is reduced because throwing Optical condition deviation and the product polishing difference caused, the difference with a collection of workpiece polishing effect can be reduced to a certain extent, just In unitized production, while the control method is simple, easily realizes, the accuracy of product polishing can be improved.

Brief description of the drawings

Fig. 1 is the structural representation of multistation letter out machine in embodiment.

Fig. 2 is the structural representation of rubbing head in embodiment.

Fig. 3 is Fig. 2 top view.

Fig. 4 is Fig. 3 along the diagrammatic cross-section on A-A directions.

Fig. 5 is the structural representation of workpiece loading and synchronous rotary control workbench in embodiment.

Fig. 6 is Fig. 5 diagrammatic cross-section.

Fig. 7 is the cooperation schematic diagram of the second decelerator and piece-holder mechanical arm in embodiment.

Fig. 8 is Fig. 7 diagrammatic cross-section.

Fig. 9 is the scheme of installation of the 3rd synchronous drive component in embodiment.

Figure 10 is Fig. 9 front view.

Figure 11 is the structural representation of elevating mechanism in embodiment.

Embodiment

Illustrate embodiment of the present utility model with reference to the accompanying drawings.

Reference picture 1- Figure 11.One kind carries efficient multistation letter out machine, including frame 1, one is installed in the frame 1 Polishing mechanism 2, the workpiece being arranged in below the polishing mechanism 2 are loaded and synchronous rotary controls workbench 3 and for controlling State workpiece loading and synchronous rotary control workbench 3 carries out walking mechanism 4 that is front and rear or moving left and right, the polishing mechanism 2 Including polishing fixed beam 20 and four rubbing heads 21 being installed in arranged for interval in the polishing fixed beam 20, the workpiece Load and synchronous rotary control workbench 3 is rotatably installed on the loading fixed seat 30 and pushed up including loading fixed seat 30, four The piece-holder mechanical arm 31 in face and the synchronous drive for controlling each synchronous axial system of piece-holder mechanical arm 31 and synchronous hunting Dynamic device 32.

Reference picture 1- Figure 11.Each piece-holder mechanical arm 31 includes being correspondingly arranged in a corresponding rubbing head Mechanical arm pedestal 310 immediately below 21, it can be installed on around horizontal axis on the mechanical arm pedestal 310 with carrying out transverse rotation Turning arm 311 and be arranged on the turning arm 311 and for controlling workpiece to load fixed fixture unit, it is described synchronous to drive Dynamic device 32 includes being used to control each mechanical arm pedestal 310 synchronous around vertical axis progress longitudinal direction on fixed seat 30 is loaded The first synchronous drive component 33 for rotating and for controlling each turning arm 311 on its mechanical arm pedestal 310 around trunnion axis Direction carries out the second synchronous drive component 34 of synchronous cross rotation, and the described first synchronous drive component 33 includes one first servo Motor 330, one first be connected with the output shaft of the first servomotor 330 rotation connecting shaft 331 and four are connected in this Transported on first rotation connecting shaft 331 and for the lateral rotation movement of the first rotation connecting shaft 331 to be converted into the rotation of level longitudinal direction The first dynamic decelerator 332, the output end correspondence of each first decelerator 332 is connected under a mechanical arm pedestal 310 Portion, the described second synchronous drive component 34 includes one second servomotor 340, is connected with the output shaft of the second servomotor 340 One second rotation connecting shaft 341 and four be connected in this second rotation connecting shaft 341 on and for by this second rotation connect The lateral rotation movement of axle 341 is converted into the second decelerator 342 of the longitudinal rotary motion of level, and each turning arm 311 includes arm Portion's rotary shaft 318 and the gear unit 314 being installed in the mechanical arm pedestal 310, the output of each second decelerator 342 End correspondence is connected in the input of a corresponding gear unit 314, and the output end correspondence of each gear unit 314 is passed It is dynamic to be connected to a corresponding arm rotary shaft 318.

Reference picture 1- Figure 11.The second synchronous drive component 34 be arranged at the described first synchronous drive component 33 just under Side, the bottom of each mechanical arm pedestal 310 is fixedly connected with a rotary sleeve 315, the rotary sleeve 315 and the immediately below it The output end of one speed reducer 332 is fixed and is driven by it the longitudinal rotation of progress, and each gear unit 314 includes one first lateral shaft 316th, a first longitudinal direction axle 317 and one second cylindrical screw gear 3181, the lower end of first lateral shaft 316 is sequentially passed through Output end after the rotary sleeve 315, the first decelerator 332 with second decelerator 342 is fixed, first lateral shaft 316 upper end is provided with one first spiral bevel gear 3160, and one end of the first longitudinal direction axle 317 is provided with one and first spiral shell The second spiral bevel gear 3170 that bevel gear 3160 is engaged is revolved, the other end of the first longitudinal direction axle 317 is provided with one first circle Post helical gear 3171, the second cylindrical screw gear 3181 is sheathed in the arm rotary shaft 318, and second circle The outer peripheral face of post helical gear 3181 is engaged with the first cylindrical screw gear 3171, and the fixture unit includes a control gas Cylinder 312 and be fixedly installed in the control cylinder piston rod end a traversing interior axle 313, in the arm rotary shaft 318 Portion be provided with one be used for supply the axocoel that wears of the traversing interior axle 313, the control cylinder 312 is positioned at the arm rotary shaft 318 Side, and the traversing interior axle 313 thereon passed through after the arm rotary shaft 318, with the opposite side of arm rotary shaft 318 A work piece holder be detachably connected.

Reference picture 1- Figure 11.The mechanical arm pedestal 310 is in zigzag arrangement, the rotation of workpiece clamped by the work piece holder The rotating shaft heart and the first lateral shaft 316, the first decelerator 332, the second decelerator 342 are on same rotary shaft position.

Reference picture 1- Figure 11.The rubbing head 21 includes the polishing support body being rotatably installed in polishing fixed beam 20 210th, the polishing revolving part 211 that is rotatably installed on the polishing support body 210, the polishing revolving part 211 is driven to carry out at a high speed The polishing motor component 212 of rotation and the polishing swing component 213 for driving the polishing revolving part 211 to be swung back and forth.

Reference picture 1- Figure 11.The polishing mechanism 2, which also includes one, to be used to control each polishing support body 210 to synchronize rotation 3rd synchronous drive component 23, the described 3rd synchronous drive component 23 includes one the 3rd servomotor 230 and the 3rd servo electricity One the 3rd rotation connecting shaft 231 of the output shaft of machine 230 drive connection and four are connected in the on the 3rd rotation connecting shaft 231 Three decelerators 232, each polishing support body 210 is rotatably installed on the output end of the 3rd corresponding decelerator 232.

Reference picture 1- Figure 11.The polishing revolving part 211 includes a polishing assembly 25 and is installed on the polishing assembly 25 On polishing wheel 26, the polishing assembly 25 includes assembly framework 250, the polishing that is rotatably installed on assembly framework 250 Rotary shaft 214, at least two are used to support the polishing bearing 215 of the polishing rotary shaft 214 and are sheathed on the polishing rotary shaft On 214 and for driving the second synchronous pulley 216 that it is rotated, the polishing motor component 212 includes one and consolidated Driven and be driven with second synchronous pulley 216 by the motor 217 due to the motor 217 and one on polishing support body 210 and connected The first synchronous pulley 218 connect, the polishing swing component 213 includes a line slideway being installed in the polishing support body 210 2130 and a reciprocating cylinder 2132, the polishing assembly 25 is installed on the sliding seat of the line slideway 2130, institute The piston rod end of reciprocating cylinder is stated to fix with the assembly framework 250 and for driving the polishing assembly 25 along described Line slideway 2130 carries out linear reciprocating motion, and one end of the polishing rotary shaft 214 is installed by polishing bearing 215 described in one In the side of the second synchronous pulley 216, the other end of the polishing rotary shaft 214 is installed by another polishing bearing 215 In on the opposite side of second synchronous pulley 216, and polish the other end end of rotary shaft 214 and stretch out the polishing support body Polishing wheel 26 described in fit on after 210.In the present embodiment, polishing wheel can be cotton piece buff, nylon wheel, emery wheel or other wheel shapes Material.

Reference picture 1- Figure 11.The frame 1 includes two longerons 10 and is connected to the crossbeam 11 on the top of two longeron 10, institute The guide rail 101 that the inner side of longeron 10 is each provided with a pair of lateral arrangements is stated, the two ends of the polishing fixed beam 20 are set up in respectively respectively On the guide rail 101 of the inner side of longeron 10, the crossbeam 11 is provided with elevating mechanism 12, the elevating mechanism 12 include a lateral arrangement in The screw mandrel 120 of the medium position of crossbeam 11, the drive nut 125 being combined on the screw mandrel 120, be arranged with the drive nut 125 The 4th synchronous pulley 121, be installed on crossbeam 11 and for supporting the bearing part 122, one of the screw mandrel 120 to be installed on crossbeam The synchronous pulley 124 of lifting the 3rd that servomotor 123, one on 11 is connected with the output end of the servomotor 123, the lifting 3rd synchronous pulley 124 is connected with the 4th synchronous pulley 121.

Reference picture 1- Figure 11.Above-mentioned multistation letter out machine also include the walking mechanism 4 include front and rear walking component 40 with And the left and right walking component 41 for controlling the front and rear walking component to be moved left and right, the workpiece loading and synchronous rotary control Workbench 3 processed is installed on the front and rear walking component 40.

Reference picture 1- Figure 11.The polishing mechanism 2 is provided with four rubbing heads 21 altogether, and the workpiece is loaded and synchronous rotation Turn control workbench 3 and be provided with four piece-holder mechanical arms 31 altogether, each piece-holder mechanical arm 31 is located at correspondingly The underface of each operating position of rubbing head 21.

Compared to the prior art, the beneficial effect that the utility model is produced is:

1st, the utility model is simple in construction, practical, by setting four rubbing heads, 21 supporting four piece-holder machines Tool arm 31 is polished to workpiece, can not only so improve the quantity of processing workpiece in the board unit interval, and each work Part is in polishing process, and the angle of rotation is synchronous, and the dynamics of polishing is also identical, so that each workpiece is with for the moment Between and same environment be polished, be greatly enhanced the polishing uniformity of product, reduce because polishing condition deviation and caused by production Product polish difference, and the difference with a collection of workpiece polishing effect can be reduced to a certain extent, are easy to unitized production, while the control Method processed is simple, easily realizes, can improve the accuracy of product polishing.

2nd, in the utility model, by setting the first synchronous synchronization drive component 34 of drive component 33 and second come respectively The workpiece rotation that control machinery arm seat body 310 itself is rotated and turning arm 311 drives, passes through the rotation of two kinds of different directions Turn to coordinate, the free angle of control can be rotated by drastically increasing workpiece, can not only ensure that workpiece completes 360 degree without dead angle Polishing, improves polishing quality, and can be applicable the polishing of irregular workpiece, it is ensured that its quality of finish.

3rd, in the utility model, on the first synchronous synchronization of drive component 33 and second drive component 34 is arranged to Lower arrangement, and ensure that two rotary motions can be controlled independently by way of rotary sleeve 315 is socketed the first lateral shaft 316 System, will not influence each other, and not only simplified structure but also can reduce arrangement space, advantageously reduce the complexity of subsequent maintenance with Working strength.

4th, can be by being carried out once using the inside boring of mechanical arm pedestal 310 as independent benchmark in the utility model Processing and forming, other accessories can avoid many benchmark processing of many parts using the mechanical arm pedestal 310 as basis of reference The tolerance stack-up issue of presence, is effectively reduced mechanical spare and accessory parts rigging error, be conducive to improve board operation stability and Service life.

5th, in the utility model, the first lateral shaft 316, a first longitudinal direction axle 317 and one second cylindrical screw are passed through Transmission mating reaction between gear, can cause workpiece rotation position and the first lateral shaft 316, the first decelerator 332, second Decelerator 342 is on same rotary shaft position, can so ensure that workpiece in rotary course, is always at home position Place's rotation, so as to greatly reduce because occurring unfavorable factor during eccentric rotary, and then can effectively improve workpiece polishing Quality.

6th, in the utility model, the control cylinder of fixture unit promotes shake-up card-bit part implementation screens after traversing interior axle to move Make, so that effect of complete clamping workpiece, not only change that clamping structure is simple, operation is rapid, and arm rotary shaft is relatively traversing Interior axle is independently rotated, thus it will not be impacted in rotary course to cylinder, so as to pass through cleverly mechanical engagement, it is ensured that The independent operating of each part.

7th, in the utility model, polishing wheel 26 can also be swung while high speed rotates, thus can be It is effective to improve polishing dynamics and quality on the premise of same rotational speed, shorten polishing time, and then both improved polishing efficiency, Product quality can be improved again.

8th, in the utility model, polishing assembly 25 is pulled on line slideway by setting reciprocating cylinder, and Rotary impact power can't be produced in high-speed rotation to reciprocating cylinder by polishing rotary shaft 214, thus by ingenious Mechanical engagement, it is ensured that the independent operating of itself spinning movement of polishing wheel 26 and the action that swings.

9th, in the utility model, by setting the 3rd synchronous drive component 23, can also enable and each polish support body 210 The certain angle of enough synchronous rotaries so that letter out machine of the present utility model can enter in X-direction, Y direction and Z-direction Row synchronous axial system, thus greatly widen the angles and positions of workpiece polishing, it is ensured that the comprehensive space curved surface operation of workpiece.

10th, in the utility model, polishing mechanism 2 can be carried out shifting up and down, and workpiece is loaded and synchronous rotary control Before and after workbench 3 can then be controlled by walking mechanism 4 or move left and right, thus the utility model can be increased can process The specification species of workpiece, the polishing for making it substantially meet arbitrary shape and a wide range of interior metal casting.

In addition, in the present embodiment rubbing head and piece-holder mechanical arm be not limited to only set 4, can also be 3,5 It is individual or 6.

Embodiment of the present utility model is above are only, but design concept of the present utility model is not limited thereto, All changes for carrying out unsubstantiality to the utility model using this design, all should belong to the row for invading the utility model protection domain For.

Claims (10)

1. a kind of structure improved polishing mechanism, it is characterised in that：Including polishing fixed beam and at least one be installed on the throwing Rubbing head on photofixation beam, it is polishing support body that the rubbing head includes being rotatably installed in polishing fixed beam, rotatable Polishing revolving part that ground is installed on the polishing support body, drive the polishing revolving part carry out the polishing motor component of high speed rotation with And the polishing swing component for driving the polishing revolving part to be swung back and forth.

2. a kind of structure improved polishing mechanism as claimed in claim 1, it is characterised in that：The rubbing head is provided with plural number Individual, a plurality of rubbing heads are installed in the polishing fixed beam in arranged for interval.

3. a kind of structure improved polishing mechanism as claimed in claim 2, it is characterised in that：The polishing mechanism also includes one and used In the 3rd synchronous drive component for controlling each polishing support body to synchronize rotation, the described 3rd synchronous drive component includes one the 3rd Servomotor, with the 3rd servo motor output shaft be connected one the 3rd rotation connecting shaft and at least two be connected in 3rd decelerator on 3rd rotation connecting shaft, each polishing support body is rotatably installed on the defeated of the 3rd corresponding decelerator Go out end.

4. a kind of structure improved polishing mechanism as claimed in claim 3, it is characterised in that：The polishing revolving part includes one and thrown Light assembly and the polishing wheel being installed on the polishing assembly, the polishing swing component are installed in the polishing rack body including one Line slideway and a reciprocating cylinder, the polishing assembly is installed on the sliding seat of the line slideway.

5. a kind of structure improved polishing mechanism as claimed in claim 4, it is characterised in that：The polishing assembly includes assembly frame Structure, the polishing rotary shaft being rotatably installed on assembly framework, at least two be used for support the polishing rotary shaft polishing bearing, And it is sheathed on the second synchronous pulley in the polishing rotary shaft and for driving it to be rotated, the polishing motor Component is driven by the motor including a motor being fixed on polishing support body and one and connected with second synchronous belt pulley transmission The first synchronous pulley connect.

6. a kind of structure improved polishing mechanism as claimed in claim 5, it is characterised in that：The piston of the reciprocating cylinder Boom end is fixed with the assembly framework and for driving the polishing assembly along line slideway progress linear reciprocating motion.

7. a kind of structure improved polishing mechanism as claimed in claim 6, it is characterised in that：One end of the polishing rotary shaft leads to Cross and the side that bearing is installed on the second synchronous pulley is polished described in one, the other end of the polishing rotary shaft passes through another throwing Optical axis, which is held, to be installed on the opposite side of second synchronous pulley, and polishes the other end end stretching polishing of rotary shaft Polishing wheel described in fit on after support body.

8. a kind of structure improved polishing mechanism as claimed in claim 7, it is characterised in that：Also include frame, the frame bag Include two longerons and be connected to the crossbeam on the two longerons top, the side rail inner is each provided with the guide rail of a pair of lateral arrangements, The two ends of the polishing fixed beam are set up on the guide rail of each side rail inner respectively, and the crossbeam is provided with for driving whole throwing The elevating mechanism shifted above and below the progress of photofixation beam.

9. a kind of structure improved polishing mechanism as claimed in claim 8, it is characterised in that：The elevating mechanism includes one laterally It is arranged in the screw mandrel of crossbeam medium position, the drive nut being combined on the screw mandrel, the 4th be sheathed in the drive nut same Step belt wheel, be installed on crossbeam and for support the bearing part of the screw mandrel, one be installed on servomotor on crossbeam, one with should 3rd synchronous pulley of the output end connection of servomotor, first synchronous pulley connects with the 4th synchronous belt pulley transmission Connect.

10. a kind of structure improved polishing mechanism as claimed in claim 4, it is characterised in that：The polishing wheel is cotton piece buff, emery wheel Or nylon wheel.