CN214391019U - Inorganic granule sieve separator of pottery - Google Patents

Abstract

The utility model relates to a ceramic inorganic particle screening machine, which comprises a support frame, a shell, a motor, a rotating shaft, a filter cartridge, a filter screen, a collecting hopper and a feed hopper; the filter cartridge is arranged at the upper end part in the shell, the rotating shaft is rotatably assembled in the shell and is connected with the filter cartridge through a supporting rod, one end of an output shaft of the motor is fixedly butted with one end of the rotating shaft to drive the filter cartridge to rotate, and the lower end of the feed hopper extends into the filter cartridge; a slag hole is formed in the circumferential side face of one end, far away from the motor, of the filter cylinder, a slag pipe is arranged below the filter cylinder, and the position of the slag pipe is matched with the slag hole; the filter screen is positioned at the lower end part in the shell and is in sliding connection with the shell, and a discharge hole is formed in one end of the filter screen; the collecting hopper is arranged at the lower end of the shell, and the lower end of the collecting hopper is connected with a dust exhaust pipe; thereby removing fine particles and dust in the screened ceramic particles and improving the quality of the ceramic particles.

Description

Inorganic granule sieve separator of pottery

Technical Field

The utility model belongs to the technical field of the granule screening installation, concretely relates to inorganic granule sieve separator of pottery.

Background

The ceramic particles are an important industrial raw material and a building material, have special material properties with high hardness, and are widely applied to machining of cutters and building materials. When the ceramic particles are used, certain requirements are required on the granularity and uniformity of the ceramic; in the production process of the ceramic particles, a screening machine is adopted to screen the ceramic particles, so that the particles of the ceramic particles are in a certain range.

The Chinese utility model patent with the publication number of CN209156427U discloses a mud material screening device for ceramic processing; the device comprises a support, wherein a material collecting box is arranged on a cross beam of the support, a box body is fixedly connected to the top of the support, a box cover is fixedly connected to the top of the box body through screws, a motor is fixedly connected to the top of the left end of the box cover, a stirring shaft is fixedly connected to the end part of an output shaft of the motor, a stirring blade is fixedly connected to the lower end of the stirring shaft, a partition plate is fixedly connected to the inner part of the box body, a stirring barrel is fixedly connected to the inner wall of the left side of the box body, a leakage hole is formed in the outer part of the stirring barrel, a first discharge hole is formed in the bottom of the left end of the box body, a feeding hole is formed in the top of the right end of the box cover, a first spring is fixedly connected to the outer wall of the right side of the box body, a vibrating frame is fixedly connected to the top of the first spring, a vibrator is fixedly connected to the right side of the vibrating frame, and a mounting frame is fixedly connected to the left side of the vibrating frame, the bottom fixedly connected with second spring of mounting bracket, the left side fixedly connected with screen cloth of mounting bracket, the right side inner wall fixedly connected with filter screen of box, the right-hand member bottom of box is equipped with the second discharge gate. The device stirs and smashes ceramic particles, and the ceramic particles who select contain fine particle and dust, reduce ceramic particles's quality.

SUMMERY OF THE UTILITY MODEL

In order to remove fine particles and dust in the screened ceramic particles and improve the quality of the ceramic particles, the utility model provides a guiding safety device of a storage box frame of a medicine boxing machine; in order to achieve the above object, the utility model discloses a technical scheme specifically as follows:

a ceramic inorganic particle screening machine comprises a support frame, a shell arranged at the upper end of the support frame, a motor, a rotating shaft, a filter cylinder, a filter sieve, a collecting hopper and a feed hopper, wherein the shell is arranged at the upper end of the support frame; the filter cartridge is arranged at the upper end part in the shell, the rotating shaft is rotatably assembled in the shell and is connected with the filter cartridge through a supporting rod, one end of an output shaft of the motor is fixedly butted with one end of the rotating shaft to drive the filter cartridge to rotate, and the lower end of the feed hopper extends into the filter cartridge; a slag hole is formed in the circumferential side face of one end, far away from the motor, of the filter cylinder, a slag pipe is arranged below the filter cylinder, and the position of the slag pipe is matched with the slag hole; the filter screen is positioned at the lower end part in the shell and is in sliding connection with the shell, and a discharge hole is formed in one end of the filter screen; the collecting hopper is arranged at the lower end of the shell, and the lower end of the collecting hopper is connected with a dust exhaust pipe.

The utility model discloses an inorganic granule sieve separator of pottery's beneficial effect: materials are added into the filter cylinder through the feed hopper, the filter cylinder rotates under the driving action of the motor to screen the materials, and the materials with larger particles flow into the slag discharging pipe through the slag discharging hole to be discharged; the screened materials fall onto a filter sieve, and under the action of the filter sieve, the fine particle materials and dust pass through the filter sieve and fall into a collecting hopper, and are discharged through a dust discharge pipe; the ceramic particles with the particle size meeting the requirement are screened out, so that fine particles and dust in the screened ceramic particles are removed, and the quality of the ceramic particles is improved.

Furthermore, the rotating shaft is located on the central axis of the filter cylinder, the axial direction of the rotating shaft is arranged along one end, away from the feed hopper, in a downward inclined manner along the horizontal direction, and an annular blocking platform is arranged at the opening end of the filter cylinder.

Has the advantages that: the rotating shaft is obliquely arranged, so that the filter cartridge is obliquely arranged, and the materials with larger particles are favorably gathered and discharged in the direction of the slag hole; through establishing the annular and keeping off the platform, prevent that the cartridge filter from rotating the in-process, the open end landing of material from the cartridge filter.

Furthermore, the slag discharging pipe is close to one end of the slag discharging hole is provided with a slag gathering cover, the slag gathering cover comprises a semi-circular arc-shaped plate and shape following baffle plates arranged on two sides of the semi-circular arc-shaped plate, the two ends of the semi-circular arc-shaped plate and the upper end face of each shape following baffle plate are matched with the circumferential side face of the filter cylinder in a surrounding mode, and the middle of the semi-circular arc-shaped plate is provided with a through hole communicated with the slag discharging pipe.

Has the advantages that: by arranging the slag gathering cover, the slag gathering cover is positioned below the filter cylinder, when the filter cylinder rotates, the slag hole is downwards or obliquely downwards made, and the slag hole is positioned in the slag gathering cover, so that the materials with larger particles can fall into the slag gathering cover and can be discharged through the slag discharging pipe; the problem of a small amount of material can not flow into the pipe of slagging tap when following the downthehole roll-off of slagging tap is solved.

Furthermore, the sliding connection between the filter sieve and the casing is specifically that guide rails are respectively arranged on the side walls of the casing opposite to the two sides, sliding grooves are respectively arranged on the upper end surfaces of the two guide rails, sliding blocks are respectively arranged on the two sides of the filter sieve, and the sliding blocks slide back and forth in the sliding grooves to realize the sliding connection between the filter sieve and the casing.

Has the advantages that: the sliding connection between the filter screen and the shell is realized through the back-and-forth sliding of the sliding block in the sliding chute; the device has simple structure and is convenient for the maintenance or replacement of equipment.

Further, the filter sieve is arranged in an inclined mode, the discharge port is located at the lower end of the filter sieve, and the direction of the guide rail is matched with the inclined direction of the filter sieve.

Has the advantages that: through setting up the filter sieve slope, be favorable to the material to gather in the discharge gate direction, be favorable to the material to discharge from the discharge gate.

Furthermore, the ceramic inorganic particle screening machine also comprises a driving motor, a driving disc, a pin and a linkage rod; the driving motor is fixed on the shell, the lower end face of the driving disc is fixedly connected with an output shaft of the driving motor, one end of the linkage rod is hinged to the upper end of the filter screen, and the other end of the linkage rod is hinged to the upper end face of the driving disc through a pin.

Has the advantages that: the driving motor enables the driving disc to rotate, and the filter sieve moves back and forth on the guide rail under the action of the pin and the linkage rod, so that the materials screened by the filter cartridge are screened again.

Further, the lower extreme of feeder hopper is provided with L shape slide tube, the upper end of L shape slide tube and the lower extreme fixed connection of feeder hopper, the lower extreme of L shape slide tube stretches into in the cartridge filter.

Has the advantages that: through setting up L shape slide pipe, when the material of being convenient for slides into the cartridge filter from the feeder hopper, avoid the assembly to interfere between cartridge filter and the feeder hopper.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of a ceramic inorganic particle screening machine according to the present invention;

FIG. 2 is a schematic view of the internal three-dimensional structure of the housing of the embodiment of the inorganic ceramic particle screening machine of the present invention;

FIG. 3 is a schematic perspective view of a filter cartridge of an embodiment of the ceramic inorganic particle screening machine of the present invention;

FIG. 4 is a schematic view of a three-dimensional structure of a slag accretion cover of an embodiment of the ceramic inorganic particle screening machine of the present invention;

fig. 5 is a schematic view of a filter screen according to an embodiment of the present invention.

Reference numbers in the figures: 1-motor, 2-rotating shaft, 3-filter cylinder, 4-filter sieve, 5-collecting hopper, 6-feed hopper, 7-support frame, 8-shell, 9-linkage rod, 10-L-shaped slide pipe, 11-slag hole, 12-annular baffle, 13-slag pipe, 14-slag gathering cover, 141-semicircular arc plate, 142-conformal baffle, 143-through hole, 15-discharge hole, 16-dust exhaust pipe, 17-driving motor, 18-driving disk, 19-pin and 20-slide block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

the utility model discloses a concrete structure of inorganic granule sieve separator of pottery embodiment is shown in fig. 1-5, including motor 1, axis of rotation 2, cartridge filter 3, filter sieve 4, collect and fight 5, feeder hopper 6, support frame 7 and setting are provided with casing 8 in the upper end of support frame 7, cartridge filter 3 sets up the upper end in casing 8, axis of rotation 2 rotates the assembly in casing 8, and be connected with cartridge filter 3 through the bracing piece, the one end of motor 1's output shaft is fixed with the one end butt joint of axis of rotation 2 and is used for driving cartridge filter 3 to rotate, the lower extreme of feeder hopper 6 stretches into in the cartridge filter 3. In the embodiment, the lower end of the feed hopper 6 is provided with an L-shaped sliding pipe 10, the upper end of the L-shaped sliding pipe 10 is fixedly connected with the lower end of the feed hopper 6, and the lower end of the L-shaped sliding pipe 10 extends into the filter cartridge 3; through setting up L shape slide pipe 10, when the material of being convenient for slides into cartridge filter 3 from feeder hopper 6, avoid the assembly between cartridge filter 3 and the feeder hopper 6 to interfere. In other embodiments, the feed hopper may be angled so that the lower end of the feed hopper extends into the filter cartridge, instead of the L-shaped slide tube arrangement.

Seted up the filtration pore on cartridge filter 3, seted up slag outlet 11 on the one end circumference side of keeping away from motor 1 at cartridge filter 3, be provided with slag outlet pipe 13 in the below of cartridge filter 3, slag outlet pipe 13's position and 11 adaptations of slag outlet. In the embodiment, the rotating shaft 2 is located on the central axis of the filter cartridge 3, the axial direction of the rotating shaft 2 is horizontally and obliquely downwards arranged along one end departing from the feed hopper 6, and the opening end of the filter cartridge 3 is provided with an annular baffle table 12; the rotating shaft 2 is obliquely arranged, so that the filter cartridge 3 is obliquely arranged, and the materials with larger particles are favorably gathered and discharged in the direction of the slag hole 11; through establishing annular fender platform 12, prevent that cartridge filter 3 from rotating the in-process, the material from the open end landing of cartridge filter 3. A slag gathering cover 14 is arranged at one end of the slag discharging pipe 13 close to the slag discharging hole 11, the slag gathering cover 14 comprises a semicircular arc-shaped plate 141 and shape following baffle plates 142 arranged at two sides of the semicircular arc-shaped plate 141, the shape formed by enclosing the two ends of the semicircular arc-shaped plate 141 and the upper end surfaces of the shape following baffle plates 142 is matched with the circumferential side surface of the filter cylinder 3, and a through hole 143 communicated with the slag discharging pipe 13 is formed in the middle of the semicircular arc-shaped plate 141; by arranging the slag gathering cover 14, the slag gathering cover 14 is positioned below the filter cylinder 3, when the filter cylinder 3 rotates, the slag hole 11 faces downwards or inclines downwards, and the slag hole 11 is positioned in the slag gathering cover 14, so that materials with larger particles can fall into the slag gathering cover 14 and be discharged through the slag pipe 13; solves the problem that a small amount of material can not flow into the slag discharging pipe 13 when sliding out of the slag discharging hole 11. In other implementations, the rotational axis is located on the central axis of the filter cartridge, and the axial direction of the rotational axis is arranged horizontally along the end facing away from the feed hopper instead of being arranged horizontally obliquely downwards.

The filter sieve 4 is positioned at the lower end part in the shell 8 and is in sliding connection with the shell 8, and a discharge hole 15 is formed in one end of the filter sieve 4; the collecting hopper 5 is provided at the lower end of the casing 8, and a dust exhaust pipe 16 is connected to the lower end of the collecting hopper 5. In this embodiment, the sliding connection between the filter sieve 4 and the housing 8 is specifically that guide rails are respectively arranged on the side walls of two opposite sides in the housing 8, sliding grooves are respectively arranged on the upper end surfaces of the two guide rails, sliding blocks 20 are respectively arranged on two sides of the filter sieve 4, and the sliding blocks 20 slide back and forth in the sliding grooves to realize the sliding connection between the filter sieve 4 and the housing 8; the sliding connection between the filter screen 4 and the shell 8 is realized through the back-and-forth sliding of the sliding block 20 in the sliding chute; the device has simple structure and is convenient for the maintenance or replacement of equipment. The filter sieve 4 is obliquely arranged, the discharge port 15 is positioned at the lower end of the filter sieve 4, and the direction of the guide rail is matched with the oblique direction of the filter sieve 4; through setting up filter sieve 4 slope, be favorable to the material at 15 orientation aggregations of discharge gate, be favorable to the material to discharge from discharge gate 15. The ceramic inorganic particle screening machine also comprises a driving motor 17, a driving disc 18, a pin 19 and a linkage rod 9; the driving motor 17 is fixed on the shell 8, the lower end surface of the driving disc 18 is fixedly connected with an output shaft of the driving motor 17, one end of the linkage rod 9 is hinged with the upper end of the filter sieve 4, and the other end of the linkage rod 9 is hinged with the upper end surface of the driving disc 18 through a pin 19; the driving motor 17 drives the driving disc 18 to rotate, and the filtering sieve 4 moves back and forth on the guide rail under the action of the pin 19 and the linkage rod 9, so that the sieved materials of the filtering cylinder 3 are sieved again. In other embodiments, the air cylinder can be used for driving the filter screen to slide back and forth on the guide rail, so that the arrangement of the driving motor, the driving disc, the pin and the linkage rod is replaced.

When the filter is used, materials are added into the filter cylinder 3 through the feed hopper 6, the filter cylinder 3 rotates under the driving action of the motor 1 to screen the materials, and the materials with larger particles flow into the slag gathering cover 14 through the slag discharging holes and are discharged through the slag discharging pipe 13; the screened materials fall onto a filter sieve 4, and under the action of the filter sieve 4, the fine particle materials and dust pass through the filter sieve 4 and fall into a collecting hopper 5 to be discharged through a dust discharge pipe 16; the ceramic particles with the particle size meeting the requirement are screened out, so that fine particles and dust in the screened ceramic particles are removed, and the quality of the ceramic particles is improved.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (7)

1. A ceramic inorganic particle screening machine comprises a support frame and a shell arranged at the upper end of the support frame, and is characterized by further comprising a motor, a rotating shaft, a filter cartridge, a filter sieve, a collecting hopper and a feeding hopper; the filter cartridge is arranged at the upper end part in the shell, the rotating shaft is rotatably assembled in the shell and is connected with the filter cartridge through a supporting rod, one end of an output shaft of the motor is fixedly butted with one end of the rotating shaft to drive the filter cartridge to rotate, and the lower end of the feed hopper extends into the filter cartridge; a slag hole is formed in the circumferential side face of one end, far away from the motor, of the filter cylinder, a slag pipe is arranged below the filter cylinder, and the position of the slag pipe is matched with the slag hole; the filter screen is positioned at the lower end part in the shell and is in sliding connection with the shell, and a discharge hole is formed in one end of the filter screen; the collecting hopper is arranged at the lower end of the shell, and the lower end of the collecting hopper is connected with a dust exhaust pipe.

2. The ceramic inorganic particle screening machine of claim 1, wherein the rotating shaft is located on a central axis of a filter cartridge, an axial direction of the rotating shaft is inclined downwards along a horizontal direction along an end away from the feeding hopper, and an annular blocking platform is arranged at an opening end of the filter cartridge.

3. The inorganic granule sieve separator of pottery of claim 2, characterized in that, be provided with in the one end that the pipe of slagging tap is close to the hole of slagging tap and gather the slag cover, it includes semi-circular arc and sets up the shape following baffle in semi-circular arc both sides to gather the slag cover, the shape that the both ends of semi-circular arc and the up end of shape following baffle enclose to close and form with the circumference side adaptation of cartridge filter, seted up the through-hole with the pipe intercommunication of slagging tap in the middle part of semi-circular arc.

4. The ceramic inorganic particle screening machine of claim 1, wherein the sliding connection between the filter screen and the housing is implemented by respectively providing a guide rail on the side wall of the housing opposite to the two sides, respectively providing a sliding groove on the upper end surface of the two guide rails, respectively providing a sliding block on the two sides of the filter screen, and the sliding block sliding back and forth in the sliding groove to implement the sliding connection between the filter screen and the housing.

5. The ceramic inorganic particle screening machine of claim 4, wherein the filter screen is arranged obliquely, the discharge port is positioned at the lower end of the filter screen, and the direction of the guide rail is matched with the oblique direction of the filter screen.

6. The ceramic inorganic particle screening machine of claim 5, further comprising a driving motor, a driving disk, a pin, and a linkage; the driving motor is fixed on the shell, the lower end face of the driving disc is fixedly connected with an output shaft of the driving motor, one end of the linkage rod is hinged to the upper end of the filter screen, and the other end of the linkage rod is hinged to the upper end face of the driving disc through a pin.

7. The ceramic inorganic particle screening machine of claim 1, wherein an L-shaped sliding pipe is arranged at the lower end of the feed hopper, the upper end of the L-shaped sliding pipe is fixedly connected with the lower end of the feed hopper, and the lower end of the L-shaped sliding pipe extends into the filter cylinder.

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