CN218518390U - Burnishing device is used in processing of pottery moving plate - Google Patents

Abstract

The utility model discloses a polishing device for processing a ceramic rotor, which relates to the technical field of polishing of ceramic rotors and comprises a supporting table, wherein the top of the supporting table is provided with a shell component, and a blowing component extending out of the top of the shell component is arranged in the shell component; the blowing assembly comprises a driving disc, a driven bar, a blowing frame, a piston cylinder, a piston rod, a piston, a power rod and a convex disc, wherein the power rod is rotatably connected to the inner wall of the top end of the housing assembly. The utility model discloses a dust that the subassembly of blowing produced when polishing the pottery rotor blows, avoids stopping the surface of pottery rotor when polishing, and the prevention causes the condition of fish tail, when taking out the pottery rotor after the polishing simultaneously, clears up polishing platform and pottery rotor surface through the brush roller, makes it the dust stop in shell subassembly, and the prevention artificial contact breathing gets into the internal condition, and need not artifical clearance once more, and the work efficiency of the polishing of pottery rotor is fixed to the improvement of indirectness.

Description

Burnishing device is used in processing of pottery movable plate

Technical Field

The utility model relates to a pottery moving plate polishing technical field specifically is a burnishing device is used in processing of pottery moving plate.

Background

The ceramic rotor is a core component of the water faucet and directly influences the function realization and the quality of the water faucet, and the existing water faucet valve core mainly comprises three types, namely a rubber valve core, a stainless steel valve core, a ceramic valve core and the like, wherein the ceramic valve core is most widely applied.

When the ceramic moving plate is cast and produced, the problems of uneven wall thickness, surface defects, casting fash and the like of the ceramic moving plate can be caused due to the abrasion of a mould, the damage of a sand mould during modeling, the dislocation of a sand core during box closing and the like, the casting defects are inevitable in the casting process, most of faucet ceramic moving plate casting shapes are irregular, a grinding treatment method is adopted at present to obtain better surface finish, a ceramic moving plate polishing device in the prior art has certain defects, a large amount of dust can be generated in the polishing process, the dust is easily attached to the surface of ceramic, and the polishing quality is seriously influenced.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a burnishing device is used in processing of pottery rotor to solve the technical problem who proposes in the above-mentioned background.

In order to achieve the above object, the utility model provides a following technical scheme: a polishing device for processing a ceramic moving plate comprises a supporting table, wherein a shell assembly is assembled at the top of the supporting table, and a blowing assembly extending out of the top of the shell assembly is installed in the shell assembly; the subassembly of blowing includes drive plate, driven strip, the frame of blowing, piston cylinder, piston rod, piston, power rod and protruding dish, the power rod rotates to be connected in shell subassembly top inner wall, and the protruding dish is fixed in the outer wall of power rod, the drive plate is fixed in the bottom of power rod, the piston cylinder is installed in one side of power rod, and piston slidable mounting in the inner wall of piston cylinder, piston rod one end is fixed with the piston and the other end extends the outside of piston cylinder, driven strip and the terminal fixed connection of piston rod, the frame of blowing is put through and is put its tip one side with it piston cylinder.

Through adopting above-mentioned technical scheme, in getting into shell subassembly with the gas extraction in the external world when polishing the ceramic rotor, blow the dust that produces when polishing the ceramic rotor, avoid staying with the upper surface of ceramic rotor, realize the higher purpose of quality to the polishing of ceramic rotor, clear up the ceramic rotor surface after the polishing simultaneously, prevent the manual contact dust, improve ceramic rotor polishing efficiency when guaranteeing to be healthy.

The utility model discloses further set up to, the inside sliding connection of shell subassembly has the polishing platform that extends the shell subassembly front side, the both sides of polishing platform are fixed with two sets of racks, the top of polishing platform is equipped with rotates the brush roller of being connected with shell subassembly inner wall.

Through adopting above-mentioned technical scheme, when the pulling polishing platform stretches out, realize the rotation of brush roller, clear up the ceramic rotor surface after the polishing.

The utility model discloses further set up to, the outer wall of shell subassembly is fixed with two sets of one-way gear, one-way gear is located the rack directly over and is in the interlock state.

Through adopting above-mentioned technical scheme, reduce frictional resistance when promoting the polishing platform and getting into shell subassembly inside, realize laborsaving purpose, on the contrary when pulling the polishing platform and stretching out the shell subassembly outside, realize the rotation of one-way gear.

The utility model discloses further set up to, the driving motor who is connected with the power rod top is installed on the top of shell subassembly, the through-hole identical with the power rod is seted up at the shell subassembly top, and installs the bearing between through-hole and the power rod outer wall.

Through adopting above-mentioned technical scheme, provide power to the power pole, and reduce and shell subassembly between wearing and tearing, realize the longer effect of life.

The utility model discloses further set up to, the piston barrel top is equipped with the straight tube that extends to the shell subassembly top outside, and the straight tube bottom extends to the piston barrel inside and installs one number one-way piece, the piston barrel tip is equipped with the arc pipe with the frame switch-on of blowing, and arc pipe one end extends to the piston barrel inside and installs No. two one-way pieces.

Through adopting above-mentioned technical scheme, intermittent type with in external gas extraction to the piston cylinder, and finally discharge to the shell subassembly in, blow the dust that produces when polishing.

The utility model discloses further set up to, install two sets of reset spring between one side of driven strip and the shell subassembly inner wall, and two sets of reset spring set up about the vertical axis symmetry of shell subassembly.

By adopting the technical scheme, the reset force is generated on the driven strip after the driven strip moves, and the purpose of reciprocating movement of the driven strip is realized.

The utility model discloses further set up to, the inside of shell subassembly is equipped with the piece frame that extends the shell subassembly outside, shell subassembly and piece frame contact position department have seted up the assorted breach.

Through adopting above-mentioned technical scheme, concentrate the collection to the dust, do benefit to the manual work and take out the outside fast.

The utility model discloses further set up to, the inner wall cover of polishing platform is equipped with two sets of guide bars, and guide bar one end extend the polishing platform outside and fixed with shell subassembly inner wall.

By adopting the technical scheme, the polishing table can linearly enter and exit the shell component, and the ceramic moving piece to be polished or polished can be stably taken and placed.

To sum up, the utility model discloses mainly have following beneficial effect:

the utility model discloses a dust that produces when the subassembly of blowing is polished ceramic rotor blows, avoids stopping the surface of ceramic rotor when polishing, and the prevention causes the condition of fish tail, when taking out the ceramic rotor after the polishing simultaneously, clears up polishing platform and ceramic rotor surface through the brush roller, makes it the dust stop in shell subassembly, prevents the internal condition of artificial contact breathing entering, and need not artifical clearance once more, and the work efficiency of the polishing of indirect improvement to ceramic rotor.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a cut-away view of the housing assembly of the present invention;

fig. 3 is a schematic structural view of the air outlet assembly of the present invention;

FIG. 4 is a connection diagram of the piston cylinder and the driven bar of the present invention;

fig. 5 is a cut-away view of the piston cylinder side plate of the present invention.

In the figure: 100. a support table; 200. a housing assembly; 300. a blowing assembly;

210. a one-way gear; 220. a brush roller; 230. a polishing table; 231. a guide bar; 240. a rack; 250. a crumb frame;

310. a drive motor; 320. a driving disk; 321. a fan-shaped polishing disk; 330. a driven bar; 340. an air blowing frame; 350. a piston cylinder; 351. a piston rod; 352. a piston; 353. an arc tube; 354. a straight pipe; 355. a first unidirectional sheet; 356. a second unidirectional sheet; 360. a power rod; 361. a convex disc.

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. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following describes an embodiment of the present invention according to its overall structure.

A polishing device for processing a ceramic rotor, as shown in FIGS. 1-5, comprises a support table 100, wherein a housing assembly 200 is assembled on the top of the support table 100, a blowing assembly 300 extending out of the top of the housing assembly 200 is installed inside the housing assembly 200, and dust inside the housing assembly 200 is blown by the blowing assembly 300, so that the dust is prevented from staying on the surface of the ceramic rotor and being scratched by continuous polishing;

the blowing assembly 300 includes a driving disk 320, a driven bar 330, a blowing frame 340, a piston cylinder 350, a piston rod 351, a piston 352, a power rod 360 and a cam 361, the power rod 360 is rotatably connected to the inner wall of the top end of the housing assembly 200, the cam 361 is fixed to the outer wall of the power rod 360, the driving disk 320 is fixed to the bottom end of the power rod 360, the sector polishing disk 321 is fixed to the bottom end of the driving disk 320, the piston cylinder 350 is installed on one side of the power rod 360, the piston 352 is slidably installed on the inner wall of the piston cylinder 350, one end of the piston rod 351 is fixed to the piston 352, and the other end of the piston rod 351 extends out of the outer side of the piston cylinder 350, the driven bar 330 is fixedly connected to the tail end of the piston rod 351, two sets of return springs are installed between one side of the driven bar 330 and the inner wall of the housing assembly 200, and are symmetrically arranged about the vertical central axis of the housing assembly 200, and the blowing frame 340 is connected to the piston cylinder 350 and is arranged on one side of the end thereof.

The inside of the housing assembly 200 is hollow for the polishing platen 230 to enter and take out the ceramic rotor, the upper surface of the polishing platen 230 is a plurality of workpiece slots in a linear array, the ceramic rotor is placed in the workpiece slot and is prevented from moving randomly during polishing, when the power rod 360 rotates to drive the driving disk 320 at the bottom end to rotate, the ceramic rotor placed on the surface of the polishing platen 230 is polished, meanwhile, the outer wall convex disk 361 rotates and intermittently contacts with the driven strip 330, the piston rod 351 and the piston 352 at the tail end are dragged to move back and forth, external gas is pumped into the piston cylinder 350 and discharged, dust on the surface of the polishing platen 230 is blown, the fan-shaped polishing disk 321 mounted at the bottom end of the power rod 360 provides a flowing space for the gas, and the ceramic rotor surface during polishing is blown in a staggered manner, so that the dust is thoroughly separated, and the quality of the polished ceramic rotor is ensured.

Referring to fig. 1, 2 and 3, a polishing table 230 extending out of the front side of the housing assembly 200 is slidably connected inside the housing assembly 200, two sets of racks 240 are fixed to both sides of the polishing table 230, a brush roller 220 rotatably connected to an inner wall of the housing assembly 200 is disposed above the polishing table 230, two sets of one-way gears 210 are fixed to an outer wall of the housing assembly 200, the one-way gears 210 are located right above the racks 240 and are engaged, two sets of guide rods 231 are sleeved on an inner wall of the polishing table 230, and one end of each guide rod 231 extends out of the polishing table 230 and is fixed to an inner wall of the housing assembly 200

When the polishing platen 230 is pushed to enter the housing assembly 200, the one-way gear 210 is in a non-state, when the polishing platen is pulled to move out of the housing assembly 200, the one-way gear 210 is driven to rotate under the action of the rack 240, the brush roller 220 rotates along with the rack, the dust on the surfaces of the polishing platen and the ceramic moving plate is stirred until the dust drops from the top of the polishing platen 230, when the polishing platen 230 enters and exits the housing assembly 200, the outer wall linear movement along the guide rod 231 ensures that the ceramic moving plate on the surface of the polishing platen 230 is stable, meanwhile, the external force for preventing the polishing platen 230 from being pulled out to extend out is large, and the falling condition is caused

Referring to fig. 2 and 3, the top of the housing assembly 200 is provided with a driving motor 310 connected to the top of the power rod 360, the top of the housing assembly 200 is provided with a through hole matching with the power rod 360, and a bearing is installed between the through hole and the outer wall of the power rod 360.

The purpose of high-speed rotation is achieved by providing power to the power rod 360 through the driving motor 310, meanwhile, abrasion among the power rod and the power rod is reduced through rotation of the bearings, additional load on the driving motor 310 is reduced, and the service life of the device is prolonged.

Referring back to fig. 1, 2 and 3, the housing assembly 200 has a debris frame 250 extending outside the housing assembly 200, and the housing assembly 200 has a matching notch at the location where the debris frame 250 contacts the housing assembly 200.

Dust falling from the driven polishing table 230 is collected concentratedly to facilitate the manual taking out of the outside, and the dust can be taken out only by pulling the debris frame 250 out of the outside of the housing assembly 200.

Please refer to fig. 3, 4 and 5, the top of the piston cylinder 350 is provided with a straight tube 354 extending to the outside of the top of the housing assembly 200, the bottom end of the straight tube 354 extends to the inside of the piston cylinder 350 and is provided with a first check sheet 355, the end of the piston cylinder 350 is provided with an arc tube 353 communicated with the blowing frame 340, and one end of the arc tube 353 extends to the inside of the piston cylinder 350 and is provided with a second check sheet 356.

When the piston 352 is pushed to the arc tube 353 by the piston rod 351, the first check piece 355 is in a closed state, the second check piece 356 is in an open state, air in the piston cylinder 350 flows into the air blowing frame 340 through the arc tube 353, and air is blown to the surface of the polishing table 230 finally, otherwise, the first check piece 355 is in the open state, the second check piece 356 is in the closed state, and outside air enters the piston cylinder 350 through the straight tube 354, so that air can be discharged from the surface of the polishing table 230 continuously and intermittently.

During the use, driving motor 310 polishes the ceramic rotor, extracts external gas to piston cylinder 350 in, and blows gas exhaust to polishing platform 230 surface, blows off the dust of its polishing off the ceramic rotor surface, and the continuous polishing of prevention causes the fish tail to the ceramic rotor surface, and when pulling polishing platform 230 takes out the ceramic rotor after the ceramic polishing, brush roller 220 clears up polishing platform and ceramic rotor surface once more, avoids the condition that artifical contact breathing got into in vivo.

While embodiments of the invention have been illustrated and described, it is not intended to limit the invention to the exact construction and operation illustrated and described, and that various other features, structures, materials, or characteristics may be substituted for those illustrated and described without departing from the spirit and scope of the invention.

Claims (8)

1. The utility model provides a burnishing device is used in processing of pottery rotor, includes brace table (100), its characterized in that: the top of the support table (100) is provided with a shell assembly (200), and the inside of the shell assembly (200) is provided with a blowing assembly (300) extending out of the top of the shell assembly (200);

the blowing assembly (300) comprises a driving disc (320), a driven bar (330), a blowing frame (340), a piston cylinder (350), a piston rod (351), a piston (352), a power rod (360) and a convex disc (361), wherein the power rod (360) is rotatably connected to the inner wall of the top end of the housing assembly (200), the convex disc (361) is fixed to the outer wall of the power rod (360), the driving disc (320) is fixed to the bottom end of the power rod (360), the piston cylinder (350) is installed on one side of the power rod (360), the piston (352) is slidably installed on the inner wall of the piston cylinder (350), one end of the piston rod (351) is fixed to the piston (352), the other end of the piston rod extends out of the piston cylinder (350), the driven bar (330) is fixedly connected with the tail end of the piston rod (351), and the blowing frame (340) is communicated with the piston cylinder (350) and is arranged on one side of the end of the blowing frame.

2. The polishing device for ceramic rotor processing according to claim 1, wherein: the polishing machine is characterized in that a polishing table (230) extending out of the front side of the shell assembly (200) is connected inside the shell assembly (200) in a sliding mode, two groups of racks (240) are fixed to two sides of the polishing table (230), and a brush roller (220) rotatably connected with the inner wall of the shell assembly (200) is arranged above the polishing table (230).

3. The polishing device for processing the ceramic rotor as recited in claim 2, wherein: two sets of one-way gears (210) are fixed on the outer wall of the shell assembly (200), and the one-way gears (210) are located right above the racks (240) and are in an engaged state.

4. The polishing device for ceramic rotor processing according to claim 1, wherein: the top end of the shell assembly (200) is provided with a driving motor (310) connected with the top end of the power rod (360), the top of the shell assembly (200) is provided with a through hole matched with the power rod (360), and a bearing is arranged between the through hole and the outer wall of the power rod (360).

5. The polishing device for ceramic rotor processing according to claim 1, wherein: the piston cylinder (350) top is equipped with straight tube (354) that extends to shell subassembly (200) top outside, and straight tube (354) bottom extends to piston cylinder (350) inside and installs one check sheet (355), piston cylinder (350) tip is equipped with arc pipe (353) with the frame (340) switch-on of blowing, and arc pipe (353) one end extends to piston cylinder (350) inside and installs No. two check sheets (356).

6. The polishing device for processing the ceramic rotor as recited in claim 1, wherein: two groups of return springs are mounted between one side of the driven bar (330) and the inner wall of the shell assembly (200), and the two groups of return springs are symmetrically arranged about a vertical central axis of the shell assembly (200).

7. The polishing device for ceramic rotor processing according to claim 1, wherein: the interior of the shell assembly (200) is provided with a chip frame (250) extending out of the outer side of the shell assembly (200), and a matched notch is formed in the contact position of the shell assembly (200) and the chip frame (250).

8. The polishing device for ceramic rotor processing according to claim 2, wherein: the inner wall of the polishing table (230) is sleeved with two groups of guide rods (231), and one end of each guide rod (231) extends out of the outer side of the polishing table (230) and is fixed with the inner wall of the shell assembly (200).

Images