CN206373745U - A kind of dry polishing apparatus of ceramic polishing bistrique - Google Patents

Abstract

The utility model is related to a kind of dry polishing apparatus of ceramic polishing bistrique.The dry polishing apparatus of ceramic polishing bistrique of the present utility model, including support and the Gan Pao mechanisms that are arranged on support；The Gan Pao mechanisms include bistrique driver, bistrique impeller, bistrique and grinding head cover；The output end of the bistrique driver is connected with the bistrique and drives the bistrique to rotate, and the bistrique impeller is used to drive the bistrique to move up and down, and the grinding head cover is located on the bistrique；The guide vane being provided with air inlet and dust removal port, the bistrique for guiding air-flow is provided with the grinding head cover.The dry polishing apparatus of ceramic polishing bistrique of the present utility model has the advantages that production efficiency height, less energy consumption, product quality height, production cost are low.

Description

A kind of dry polishing apparatus of ceramic polishing bistrique

Technical field

The utility model is related to technical field of tile production, more particularly to a kind of dry polishing apparatus of ceramic polishing bistrique.

Background technology

Referring to Fig. 1, Fig. 1 is traditional ceramic polishing bistrique processing method schematic diagram.A is bistrique, and b is ceramic tile.Processing Sprayed using water, the form processing of water cross flow on ceramic tile b.Ceramic tile b surface structures are closer, and lower surface is than more loose. Therefore upper surface water absorption rate is low, and lower surface water absorption rate is high., it is necessary to which a large amount of water rinse ceramic tile b bricks when bistrique a processes ceramic tile brick surface Face.Brick bits can be produced when due to rubbing down, if do not rinsed well, it is possible to the ceramic tile brick face processed is ground and spent, Cause secondary injury.The water jet at bistrique a centers can remove the abrasive dust of bistrique a centers, finally in the way of cross flow, punching Wash remaining local abrasive dust of ceramic tile b surfaces.The sewage and sludge produced is rinsed, ceramic tile factory needs supporting sewage treatment facility to enter Row disposal.In addition, so during water throwing, ceramic tile b reverse side can largely absorb water, the later stage needs auxiliary facility to carry out ceramic tile b Drying.More troubling, the physical changes of ceramic tile b repeatedly are likely to result in the problems such as glaze is cracked, and traditional water mill is thrown Still contain certain moisture after light, drying.Need to stick the film of water proof when vanning which results in ceramic tile b, Prevent moisture from separating out destruction outer packing, while influenceing ceramic tile b quality, can thus increase ceramic tile b cost.

Using traditional polishing production technology, not only water consumption is big, and because ceramic tile b water absorption rate is higher, subsequently needs Increase drying process, may be ftractureed if drying is not thorough, after product warehouse entry or because packing case water suction is rotted.To avoid the situation Produce, after product is polished, need to subsequently set up very long drying line, length often reaches more than 50-100m, not only floor space Greatly, and the input of furnace equipment need to be increased, also needs to increase suitable fuel consumption, production cost is high.

Utility model content

Based on this, the purpose of this utility model is there is provided a kind of dry polishing apparatus of ceramic polishing bistrique, and there is production to imitate for it The advantage that rate height, less energy consumption, product quality are high, production cost is low.

A kind of dry polishing apparatus of ceramic polishing bistrique, including support and the Gan Pao mechanisms that are arranged on support；The dry throwing machine Structure includes bistrique driver, bistrique impeller, bistrique and grinding head cover；The output end of the bistrique driver is driven with the bistrique Connect and drive the bistrique to rotate, the bistrique impeller is used to drive the bistrique to move up and down, and the grinding head cover cover is set On the bistrique；It is provided with air inlet and dust removal port, the bistrique and is provided with for guiding air-flow in the grinding head cover Guide vane.

The dry polishing apparatus of ceramic polishing bistrique of the present utility model by setting Gan Pao mechanisms, using grinding head cover air inlet and Dust removal port passes in and out high pressure cooling air respectively, and bistrique to ceramic tile while being polished, and high pressure cooling air is to bistrique and porcelain Brick is cooled down simultaneously, and dust, abrasive dust can be discharged with high pressure cooling air from dust removal port, prevent dust, abrasive dust Secondary injury is caused to ceramic tile.The dry polishing apparatus of ceramic polishing bistrique of the present utility model is efficiently solved to be produced in the prior art Occupation area of equipment is big, using technological deficiency and the problem such as equipment is more, water resources consumption is big, water pollution is serious, production cost is high, Both production efficiency and product quality are improved, energy consumption is effectively reduced again.

Further, the Gan Pao mechanisms are fixed on a crossbeam, and the crossbeam is slidably arranged on the support.

Further, the Gan Pao mechanisms also include grinding spindle, and one end of the grinding spindle is articulated in the crossbeam On, the other end of the grinding spindle is connected with the bistrique, and the bistrique driver is bistrique motor, and the bistrique drives The output end of dynamic motor is connected through a bistrique drive belt and the grinding spindle.

Further, the bistrique impeller is bistrique pusher cylinder, the piston rod and bistrique of the bistrique pusher cylinder Main shaft is socketed.

Further, the bistrique includes upper bistrique, lower bistrique and abrading block, and the upper bistrique connects with the grinding spindle Connect, the lower bistrique is connected between the upper bistrique and abrading block；The guide vane includes upper guide vane and lower water conservancy diversion leaf Piece, the upper guide vane and lower guide vane are separately positioned on the upper bistrique and lower bistrique；The upper guide vane and The tail end of lower guide vane is also respectively provided with baffle upper plate and chin spoiler.

Further, the grinding head cover is included along wherein two points of separated grinding head covers of timeline direction, described two points of mills The two ends of head-shield pass through hinge and connection lock connection respectively；Multiple air inlets are provided with the top of the grinding head cover, it is described Dust removal port is arranged on the side of the grinding head cover, and the bottom of the grinding head cover, which slopes inwardly, to be set.

Further, in addition to the swing mechanism that is arranged on support, the swing mechanism includes swinging driver, described Swinging driver is connected with the crossbeam, and the swinging driver is used to drive the crossbeam and Gan Pao mechanisms in support Reciprocally swinging.

Further, the swing mechanism also includes chain and sprocket wheel, and the swinging driver is oscillating motor, the pendulum The output end of dynamic driver is connected with the chain gear transmission, and the chain engagement is arranged on the sprocket wheel, the chain and institute Crossbeam is stated to connect and be used to drive crossbeam reciprocally swinging；The swing mechanism also includes swinging gearbox, the swinging driver Output end through it is described swing gearbox be connected with the chain gear transmission.

Further, in addition to for transmitting the ceramic tile feed mechanism of ceramic tile, the ceramic tile feed mechanism is arranged on described Below Gan Pao mechanisms；The ceramic tile feed mechanism includes ceramic tile feeding motor, roller and conveyer belt, and the conveyer belt is arranged on institute State on roller, the output end of the ceramic tile feeding motor is connected with the drum drive；The ceramic tile feeds the output end of motor It is connected through a ceramic tile feed change case with the drum drive.

Further, in addition to final dusting mechanism, the final dusting mechanism includes deduster, dust removing tube and dedusting wind Machine；The deduster is connected with the dust removal port of the grinding head cover, the dust removing tube be connected to the deduster and dedusting fan it Between.

Relative to prior art, the dry polishing apparatus of ceramic polishing bistrique of the present utility model is utilized by setting Gan Pao mechanisms The air inlet and dust removal port of grinding head cover pass in and out high pressure cooling air respectively, and bistrique to ceramic tile while being polished, and high pressure is cold But air is cooled down simultaneously to bistrique and ceramic tile, and dust, abrasive dust can be arranged with high pressure cooling air from dust removal port Go out, prevent dust, abrasive dust from causing secondary injury to ceramic tile.The dry polishing apparatus of ceramic polishing bistrique of the present utility model is efficiently solved In the prior art production equipment floor space it is big, using equipment is more, water resources consumption is big, water pollution is serious, production cost is high Etc. technological deficiency and problem, production efficiency and product quality were both improved, energy consumption is effectively reduced again.The final dusting machine set up Structure can be reclaimed effectively to dust, abrasive dust, saved resource, protected environment.Ceramic polishing mill of the present utility model Dry polishing apparatus has that production efficiency height, less energy consumption, product quality be high, the low feature of production cost.Ceramic tile of the present utility model The dry polishing apparatus of grinding head for polishing has production efficiency height, less energy consumption, product quality height, the low feature of production cost.

In order to more fully understand and implement, the utility model is described in detail below in conjunction with the accompanying drawings.

Brief description of the drawings

Fig. 1 is traditional ceramic polishing bistrique processing method schematic diagram.

The side view of Fig. 2 dry polishing apparatus of ceramic polishing bistrique of the present utility model.

Fig. 3 is the front view of the dry polishing apparatus of ceramic polishing bistrique of the present utility model.

Fig. 4 is the structural representation of final dusting mechanism.

Fig. 5 is the structural representation of Gan Pao mechanisms.

Fig. 6 is the structural representation of upper bistrique and upper guide vane.

Fig. 7 is the structural representation of upper guide vane and baffle upper plate.

Fig. 8 is the end face structure schematic diagram of upper guide vane.

Fig. 9 is the structural representation of lower bistrique and lower guide vane.

Figure 10 is the structural representation of lower guide vane and chin spoiler.

Figure 11 is the structural representation of grinding head cover.

Figure 12 is the structural representation of the grinding head cover after opening.

Figure 13 is air flow direction schematic diagram when bistrique is rotated.

Embodiment

Refer to Fig. 2-Fig. 4, the dry polishing apparatus of ceramic polishing bistrique of the present utility model, including support 10, Gan Pao mechanisms 20, Swing mechanism 30, ceramic tile feed mechanism 40 and final dusting mechanism 50.The Gan Pao mechanisms 20 and swing mechanism 30 are arranged at On the support 10, the Gan Pao mechanisms 20 are used to carry out ceramic tile dry throwing, and the swing mechanism 30 is used to drive Gan Pao mechanisms 20 reciprocally swingings over the mount 10；The ceramic tile feed mechanism 40 is arranged on the lower section of Gan Pao mechanisms 20, and it is used for for dry throwing Mechanism 20 transmits ceramic tile；The final dusting mechanism 50 is connected with the Gan Pao mechanisms 20, and the final dusting mechanism 50 is used for The dust produced and abrasive dust progress final dusting are thrown to dry.

Specifically, Fig. 5-Figure 10 is referred to, the Gan Pao mechanisms 20 of the present embodiment are fixed on a crossbeam 60, the horizontal stroke Beam 60 is slidably arranged on the support 10.The Gan Pao mechanisms 20 include bistrique driver 21, bistrique impeller 22, bistrique master Axle 23, bistrique 24 and grinding head cover 25.

The output end of the bistrique driver 21 is connected with the bistrique 24 and drives the bistrique 24 to rotate, described Bistrique impeller 22 is used to drive the bistrique 24 to move up and down, and the grinding head cover 25 is located on the bistrique 24；The mill The guide vane being provided with air inlet 251 and dust removal port 252, the bistrique 24 for guiding air-flow is provided with head-shield 25 26。

One end of the grinding spindle 23 is articulated on the crossbeam 60, the other end of the grinding spindle 23 and the mill First 24 connection, the bistrique driver 21 is bistrique motor, and the output end of the bistrique motor drives through a bistrique Band 27 is connected with the grinding spindle 23.The driving bistrique of bistrique driver 21 drive belt 27 is rotated, and bistrique drive belt 27 is driven Rotary bistrique main shaft 23 and the bistrique 24 being installed on it rotate.

The bistrique impeller 22 is bistrique pusher cylinder, 23 sets of piston rod and the grinding spindle of the bistrique pusher cylinder Connect.By socket, when grinding spindle 23 drives and rotated in bistrique driver 21, grinding spindle 23 will not be with bistrique pusher cylinder Piston rod interfere, when needing adjustment 24 height of bistrique, start bistrique pusher cylinder and promote and is moved down on grinding spindle 23 It is dynamic.

The bistrique 24 of the present embodiment include upper bistrique 241, lower bistrique 242 and abrading block 243, the upper bistrique 241 with The grinding spindle 23 is connected, and the lower bistrique 242 is connected between the upper bistrique 241 and abrading block 243；The guide vane 26 include upper guide vane 261 and lower guide vane 262, and the upper guide vane 261 and lower guide vane 262 are separately positioned on On the upper bistrique 241 and lower bistrique 242；The tail end of the upper guide vane 261 and lower guide vane 262 is also respectively provided with Baffle upper plate 263 and chin spoiler 264.

Bistrique 24 uses upper guide vane 261 and the lower two-stage of guide vane 262, and guide vane is continuously run, the pressure of air-flow Power is big, and air-flow outwards will be elapsed largely, until rising therewith after running into the wall of grinding head cover 25, so as to continuously constitute air Circulation, the air-flow of rising is blown out with substantial amounts of dust, abrasive dust from dust removal port 252.

The appearance of upper guide vane 261 is the streamlined of applied aerodynamics principle manufacture, and such bistrique 24 can be used The power of very little can just drive substantial amounts of air.The end face of upper guide vane 261 is the hollow structure form of crescent, so Area of dissipation can be increased.Baffle upper plate 263 can be guided air-flow, and air-flow vertically blows to ceramic tile surface.

Lower guide vane 262 and horizontal price markup is between 30 ° to 70 °.Lower guide vane 262 is set to airfoil, And the outer end of lower guide vane 262 is wide, root is narrow, in order to the throughput of increase.The lower guide vane 262 of airfoil Operation is efficient, Jing Yin, can produce Wind Volume and energy consumption is low.

The present embodiment has preferably been uniformly arranged six lower guide vanes 262 around lower bistrique 242, and in upper bistrique 12 upper guide vanes 261 have been uniformly arranged around 241.Upper guide vane 261 and lower guide vane 262 are aluminium alloy material Material.The upper guide vane 261 of the present embodiment and lower guide vane 262 are preferably separately fixed at upper mill by blade fixing screws First 241 and lower bistrique 242 on.

6-8 abrading block 243 is typically configured, the type that abrading block 243 is configured is determined by the position at manufacturing procedure and place；Change During abrading block 243, grinding spindle 23 is lifted.

Figure 11 and Figure 12 are referred to, the grinding head cover 25 of the present embodiment is columnar structured.The grinding head cover of the present embodiment 25 are included along the wherein separated two points of grinding head covers 253 of timeline direction, and the two ends of described two points of grinding head covers 253 are respectively by closing Page 254 and connection lock 255 are connected.The connection lock 255 of grinding head cover 25 can be opened when changing abrading block 243, make it by bistrique 24 Point grinding head cover 253 of side is opened, you can easily abrading block 243 is changed.

The top of the grinding head cover 25 is provided with multiple air inlets 251, and air inlet 251 connects high pressure cooling air pipe Road.The dust removal port 252 is arranged on the side of the grinding head cover 25, and the bottom of the grinding head cover 25, which slopes inwardly, to be set, mesh Be the direction that uprush is directed to abrading block 243 in order to change the direction of air-flow, abrading block 243 is radiated, and to porcelain Machining area carries out dedusting on brick surface.

Figure 13 is referred to, in use, compressor need to be used to introduce high pressure cooling air in the air inlet 251 of grinding head cover 25, So when bistrique 24 rotates, bistrique 24 is in the environment of a cooling air, improves the efficiency of heat exchange.Meanwhile, lead Stream blade is rotated at a high speed with bistrique 24, and cooling air is accelerated, and is accelerated on bistrique 241, lower bistrique 242 and guide vane Scattering and disappearing for heat, improves the overall radiating efficiency of bistrique 24.In addition, high pressure cooling air-flow blows to downwards ceramic tile surface by powder Dirt, abrasive dust blow off workspace, prevent dust, abrasive dust secondary injury ceramic tile surface, powerful air-flow blows afloat dust, abrasive dust, and Siphoned away through final dusting mechanism 50, complete the processing of dry throwing anhydrous to ceramic tile.

Because the length of side of ceramic tile is typically larger than the diameter of bistrique 24, for the whole brick face of complete processing ceramic tile, bistrique 24 need to do a swing during ceramic tile is processed, that is, bistrique 24 will show the segment distance of tiles edges one；In addition, by If do not swung in bistrique 24, the probability of the grinding in the middle part of ceramic tile is higher than the edge of ceramic tile, and ceramic tile surface occurs after processing The high pattern in middle low both sides, in order to eliminate this phenomenon, bistrique 24 is during ceramic tile is processed, it is also desirable to swung, When swinging to ceramic tile end positions, slightly brief stay, the time for allowing ceramic tile two ends to be ground is longer, eliminates the injustice of ceramic tile Whole property, therefore the present embodiment is provided with the swing mechanism 30.

The swing mechanism 30 includes swinging driver 31, chain 32 and sprocket wheel 33.The swinging driver 31 with it is described Crossbeam 60 is connected, and the swinging driver 31 is used to drive the crossbeam 60 and Gan Pao mechanisms 20 over the mount 10 toward physical pendulum It is dynamic.

Referring to Fig. 2, the swinging driver 31 of the present embodiment is oscillating motor, the output of the swinging driver 31 End is connected with the sprocket wheel 33, and the engagement of chain 32 is arranged on the sprocket wheel 33, the chain 32 and the crossbeam 60 connect and for driving the reciprocally swinging of crossbeam 60；The swing mechanism 30 also includes swinging gearbox, the swinging driver 31 output end is connected through the swing gearbox with the sprocket wheel 33.Swinging driver 31 is driven by swinging gearbox Sprocket wheel 33 rotates, because sprocket wheel 33 is engaged with chain 32, therefore sprocket wheel 33 rotates and just drives whole crossbeam 60 to carry out reciprocally swinging.

The ceramic tile feed mechanism 40 of the present embodiment includes ceramic tile feeding motor 41, roller 42 and conveyer belt 43, described Conveyer belt 43 is arranged on the roller 42, and the output end of the ceramic tile feeding motor 41 is connected with the roller 42；Institute The output end for stating ceramic tile feeding motor 41 is connected through a ceramic tile feed change case with the roller 42.

Ceramic tile feeds motor 41 and drives roller 42 to rotate by ceramic tile feed change case, and roller 42 drives 43 turns of conveyer belt Dynamic, the ceramic tile being placed on conveyer belt 43 is just constantly fed into below Gan Pao mechanisms 20 under the driving of conveyer belt 43.

Referring to Fig. 4, the final dusting mechanism 50 includes deduster 51, dust removing tube 52 and dedusting fan 53.It is described to remove Dirt device 51 is connected with the dust removal port 252 of the grinding head cover 25, and the dust removing tube 52 is connected to the deduster 51 and dedusting fan Between 53.

The deduster 51 of final dusting mechanism 50 can be preferably provided in the both sides of frame, and dedusting fan 53 passes through dedusting Device 51 and dust removing tube 52 suction out the dust at the dust removal port 252 of Gan Pao mechanisms 20, abrasive dust, can be reclaimed profit again to it With having saved resource, reduced cost, improved efficiency, protected environment.

It is pointed out that in actual production, preferably can be set on a production line multigroup Gan Pao mechanisms 20, Swing mechanism and final dusting mechanism 50, to improve production efficiency.

The operation principle of the dry polishing apparatus of ceramic polishing bistrique of the present utility model is：

First, polished ceramic tile is transmitted using ceramic tile feed mechanism 40.When ceramic tile is moved to the bistrique of Gan Pao mechanisms 20 During 24 lower section, bistrique impeller 22 promotes bistrique 24 to move down, and grinding head cover 25 covers ceramic tile, at the same time, high pressure cooling Air enters from the air inlet 251 of grinding head cover 25, and bistrique driver 21 starts and with the axis of rotation of rotary bistrique 24, and bistrique 24 rotates Guide vane 261 and lower guide vane 262 are rotated thereon for drive, and high pressure cooling air is again speeded up and blows to abrading block 243 and porcelain Brick surface, is sufficiently cool the heat produced during the grinding ceramic tile of abrading block 243, and high pressure cooling air blows to dust removal port 252 afterwards.

The dedusting fan 53 of final dusting mechanism 50 is by deduster 51 and dust removing tube 52 by the dust removal port of Gan Pao mechanisms 20 Dust, abrasive dust at 252 are suctioned out, and dust, abrasive dust are recycled.

Relative to prior art, the dry polishing apparatus of ceramic polishing bistrique of the present utility model is utilized by setting Gan Pao mechanisms The air inlet and dust removal port of grinding head cover pass in and out high pressure cooling air respectively, and bistrique to ceramic tile while being polished, and high pressure is cold But air is cooled down simultaneously to bistrique and ceramic tile, and dust, abrasive dust can be arranged with high pressure cooling air from dust removal port Go out, prevent dust, abrasive dust from causing secondary injury to ceramic tile.The dry polishing apparatus of ceramic polishing bistrique of the present utility model is efficiently solved In the prior art production equipment floor space it is big, using equipment is more, water resources consumption is big, water pollution is serious, production cost is high Etc. technological deficiency and problem, production efficiency and product quality were both improved, energy consumption is effectively reduced again.The final dusting machine set up Structure can be reclaimed effectively to dust, abrasive dust, saved resource, protected environment.

Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed, But therefore it can not be interpreted as the limitation to utility model patent scope.It should be pointed out that for the common skill of this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to Protection domain of the present utility model.

Claims (10)

1. a kind of dry polishing apparatus of ceramic polishing bistrique, it is characterised in that：Including support and the Gan Pao mechanisms being arranged on support；Institute Shu Ganpao mechanisms include bistrique driver, bistrique impeller, bistrique and grinding head cover；The output end of the bistrique driver with it is described Bistrique is connected and drives the bistrique to rotate, and the bistrique impeller is used to drive the bistrique to move up and down, the mill Head-shield is located on the bistrique；It is provided with air inlet and dust removal port, the bistrique and is provided with for drawing in the grinding head cover The guide vane of flow guide.

2. the dry polishing apparatus of ceramic polishing bistrique according to claim 1, it is characterised in that：The Gan Pao mechanisms are fixed on one On crossbeam, the crossbeam is slidably arranged on the support.

3. the dry polishing apparatus of ceramic polishing bistrique according to claim 2, it is characterised in that：The Gan Pao mechanisms also include mill Head main shaft, one end of the grinding spindle is articulated on the crossbeam, and the other end of the grinding spindle is connected with the bistrique, The bistrique driver is bistrique motor, and the output end of the bistrique motor is through a bistrique drive belt and the bistrique Spindle drive is connected.

4. the dry polishing apparatus of ceramic polishing bistrique according to claim 3, it is characterised in that：The bistrique impeller is bistrique Pusher cylinder, piston rod and the grinding spindle of the bistrique pusher cylinder are socketed.

5. the dry polishing apparatus of ceramic polishing bistrique according to claim 1, it is characterised in that：The bistrique include upper bistrique, Lower bistrique and abrading block, the upper bistrique are connected with the grinding spindle, the lower bistrique be connected to the upper bistrique and abrading block it Between；The guide vane includes upper guide vane and lower guide vane, and the upper guide vane and lower guide vane are set respectively On described on bistrique and lower bistrique；The tail end of the upper guide vane and lower guide vane be also respectively provided with baffle upper plate and Chin spoiler.

6. the dry polishing apparatus of ceramic polishing bistrique according to claim 1, it is characterised in that：The grinding head cover is included along wherein Two points of separated grinding head covers of timeline direction, the two ends of described two points of grinding head covers pass through hinge and connection lock connection respectively；Institute State and multiple air inlets are provided with the top of grinding head cover, the dust removal port is arranged on the side of the grinding head cover, the mill The bottom of head-shield, which slopes inwardly, to be set.

7. the dry polishing apparatus of ceramic polishing bistrique according to claim 2, it is characterised in that：Also include being arranged on support Swing mechanism, the swing mechanism includes swinging driver, and the swinging driver is connected with the crossbeam, described to swing Driver is used to drive the crossbeam and Gan Pao the mechanisms reciprocally swinging on support.

8. the dry polishing apparatus of ceramic polishing bistrique according to claim 7, it is characterised in that：The swing mechanism also includes chain Bar and sprocket wheel, the swinging driver are oscillating motor, and the output end of the swinging driver is connected with the chain gear transmission, institute State chain engagement to be arranged on the sprocket wheel, the chain is connected with the crossbeam and is used to drive crossbeam reciprocally swinging；It is described Swing mechanism also includes swinging gearbox, and the output end of the swinging driver is through the swing gearbox and the chain gear transmission Connection.

9. the dry polishing apparatus of ceramic polishing bistrique according to claim 1, it is characterised in that：Also include being used to transmit ceramic tile Ceramic tile feed mechanism, the ceramic tile feed mechanism is arranged on below the Gan Pao mechanisms；The ceramic tile feed mechanism includes ceramic tile Motor, roller and conveyer belt are fed, the conveyer belt is set on which cylinder, the output end of the ceramic tile feeding motor and institute State drum drive connection；The output end of the ceramic tile feeding motor is connected through a ceramic tile feed change case with the drum drive.

10. the dry polishing apparatus of ceramic polishing bistrique according to claim 1, it is characterised in that：Also include final dusting mechanism, The final dusting mechanism includes deduster, dust removing tube and dedusting fan；The deduster and the dust removal port of the grinding head cover connect Connect, the dust removing tube is connected between the deduster and dedusting fan.