CN115090504A - A high-efficient device that sieves for producing powdered oil - Google Patents

Abstract

The invention relates to an efficient sieving device, in particular to an efficient sieving device for producing powdered oil. The invention provides a high-efficiency screening device for producing powdered oil, which can carry out rotary screening, reduce noise and automatically discharge impurities. An efficient sieving device for producing powdered oil comprises a fourth support frame; the fourth supporting frame is internally connected with a storage bin; the right upper side of the storage bin is connected with a first discharging pipe; the upper side inside the storage bin is connected with a second support frame; the collecting cylinder is connected to second support frame top, and the collecting cylinder right side downside is opened there is first discharge gate. According to the rotary type powder screening machine, the servo motor is started, so that the screen can be driven to rotate, the screen can carry out rotary type screening on powder, and the screened impurities are discharged through the storage bin, so that the rotary type screening is low in noise, the impurities can be intensively discharged, manual cleaning is not needed, and the impurities can be prevented from splashing everywhere.

Description

A high-efficient device that sieves for producing powdered oil

Technical Field

The invention relates to an efficient sieving device, in particular to an efficient sieving device for producing powdered oil.

Background

At the in-process of production powdered oil, wherein there is a step to need sieve powdered oil for the screening falls bulky product and impurity, currently, the work of sieving of the mode that current device of sieving mainly adopted the vibrator to make the screen cloth vibration, this kind of mode can produce very big noise and dust, sieve inefficiency simultaneously, the volume is great, the powdered oil and the impurity of caking are stayed and are hardly discharged on the screen cloth, need regularly to clear up, waste time and energy.

In conclusion, the great problem of above-mentioned noise is overcome to this device adoption rotation type screening, can carry out automatic exhaust to impurity simultaneously and be used for producing the high-efficient device that sieves of powdered oil.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the high-efficiency screening device for producing the powdered oil, which can carry out rotary screening, reduce noise and automatically discharge impurities, so as to overcome the defects that the conventional screening device has high noise during screening and needs to regularly clean the impurities.

In order to achieve the above purpose, the invention is realized by the following scheme: a high-efficient sieving mechanism for producing powdered oil and fat, including:

a fourth support frame;

the fourth supporting frame is internally connected with a storage bin;

the upper right side of the storage bin is connected with a first discharging pipe;

the upper side inside the storage bin is connected with a second support frame;

the top of the second support frame is connected with a collecting cylinder for collecting powder, and the right lower side of the collecting cylinder is provided with a first discharge hole;

the middle inside the collecting cylinder is rotatably connected with the supporting cover;

the upper part of the support cover is connected with a screen for screening powder;

the outer ring of the screen is connected with the first support frame;

the outer ring of the first support frame is connected with the isolation cover;

the middle of the collecting barrel is provided with a rotating mechanism for driving the supporting cover to rotate, and the components of the rotating mechanism are connected with the supporting cover;

and the upper part of the storage bin is provided with a protection mechanism for wrapping the components.

In one embodiment, the rotating mechanism comprises:

the middle inside the collecting cylinder is connected with a third support frame;

the top of the third support frame is connected with a protective shell;

the servo motor is connected inside the protective shell;

the supporting disk, servo motor output shaft top is connected with and is used for driving supporting cover pivoted supporting disk, and the supporting disk passes through the connecting screw rigid coupling with the supporting cover.

In one embodiment, the guard mechanism comprises:

the protective cover stores the upper left side in storehouse and is connected with through hinge rotary type and is used for carrying out spacing protective cover to impurity, and it has the feed inlet to open in the middle of the protective cover.

In one of them embodiment, still including the drop feed mechanism that is used for automatic feeding, the drop feed mechanism includes:

the top of the protective cover is connected with a fifth support frame;

the stacking hopper for storing powder is connected inside the fifth support frame;

the bottom in the stacking hopper is rotatably connected with a discharging disc for supporting powder, the discharging disc is concave, and the left side and the right side in the discharging disc are provided with second discharging holes;

the middle of the top of the supporting cover is connected with a cross-shaped groove clamping rod;

the middle of the bottom of the material placing disc is connected with a cross-shaped clamping block, and the top of the clamping rod of the cross-shaped groove is meshed with the bottom of the cross-shaped clamping block.

In one embodiment, the material scraping mechanism is used for accelerating discharging, and comprises:

the left upper side of the support cover is connected with a connecting rod;

the lower side of the connecting rod is connected with a sliding sleeve;

the left side of the sliding sleeve is connected with a limiting rod;

the sliding rod is connected with the inside of the sliding sleeve in a sliding manner;

the upper part of the sliding rod is connected with a tension spring, and the bottom of the tension spring is in contact with the top of the sliding sleeve;

the lower part of the sliding rod is rotatably connected with a scraper for accelerating powder discharge, and the bottom of the scraper is contacted with the bottom in the collecting cylinder;

the upper side of the left part of the scraper is connected with a limiting frame, and the left part of the limiting rod slides in the limiting frame;

the lower part of the sliding rod is connected with a limiting sliding block in a sliding manner;

the torsion spring is connected between the top of the limiting sliding block and the bottom of the sliding sleeve;

the right side of the inner wall of the collecting cylinder is connected with a first baffle;

the upper right portion of the supporting cover is connected with a counterweight assembly used for balancing the gravity on the left side and the right side of the supporting cover.

In one embodiment, the powder discharging device further comprises a discharging mechanism for discharging the powder, wherein the discharging mechanism comprises:

the bottom of the isolation cover is connected with the rack ring;

the upper right side of the collecting cylinder is rotatably connected with a rotating shaft;

the left side of the rotating shaft is connected with a gear which is meshed with the rack ring;

the right lower side of the collecting cylinder is rotatably connected with a driving wheel, and a rotating shaft is connected with the driving wheel;

the two driving wheels are wound with belts;

the left side of the second discharging pipe is rotatably connected with the driving wheel on the lower side;

the right side inside the second discharge pipe and the inside of the first discharge hole are both connected with a fixing piece;

the spiral blades are connected to the two fixing pieces in a rotating mode and used for feeding powder, and the left sides of the spiral blades are fixedly connected with the inner portions of the driving wheels on the lower sides.

In one embodiment, the device further comprises a switch mechanism for intensively discharging impurities, wherein the switch mechanism comprises:

the supporting block is welded at the lower right side of the storage bin;

the right lower side of the storage bin is provided with a strip-shaped opening, the supporting block is hinged with a second baffle plate, and the second baffle plate is positioned in the strip-shaped opening;

the handle is welded on the left side of the second baffle.

In one embodiment, the bottom in the collecting cylinder is provided with a bevel.

The invention has at least one of the following advantages: 1. according to the rotary type powder screening machine, the servo motor is started, so that the screen can be driven to rotate, the screen can carry out rotary type screening on powder, and the screened impurities are discharged through the storage bin, so that the rotary type screening is low in noise, the impurities can be intensively discharged, manual cleaning is not needed, and the impurities can be prevented from splashing everywhere.

2. According to the invention, the powder is poured into the stacking hopper, and the material placing disc rotates to enable the powder to uniformly fall on the screen through the second material outlet, so that the screening effect of the screen is improved, and the powder is screened more thoroughly.

3. According to the invention, the scraper plate rotates to drive the powder attached to the bottom in the collecting cylinder to move, so that the phenomenon that part of the powder attached to the bottom in the collecting cylinder cannot be discharged can be avoided, and the discharging can be accelerated.

4. According to the invention, the spiral blade rotates, so that the spiral blade can feed powder, and the spiral blade can prevent the powder from being discharged in the second discharge pipe.

5. According to the invention, the second baffle plate rotates, so that the second baffle plate does not block the bottom of the storage bin any more, and impurities in the storage bin fall out, and thus, the impurities can be intensively cleaned.

Drawings

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

Fig. 2 is a schematic sectional perspective view of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 5 is a schematic perspective view of the protection mechanism of the present invention.

Fig. 6 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 7 is a schematic sectional three-dimensional structure diagram of the discharge mechanism of the invention.

FIG. 8 is a schematic three-dimensional structure diagram of the cross-shaped groove clamping rod, the cross-shaped clamping block and the material placing tray of the invention.

Fig. 9 is a schematic perspective view of the scraping mechanism of the present invention.

Fig. 10 is a schematic perspective view of a part of the scraping mechanism of the present invention.

Fig. 11 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 12 is a schematic cross-sectional three-dimensional structure of the discharging mechanism of the invention.

Fig. 13 is a schematic perspective view of a first switch mechanism according to the present invention.

Fig. 14 is a schematic perspective view of a second switch mechanism of the present invention.

In the reference symbols: 1-supporting hood, 2-screen, 3-first supporting rack, 4-isolation hood, 5-collecting cylinder, 6-first discharge port, 7-second supporting rack, 71-fourth supporting rack, 72-storage bin, 73-first discharge pipe, 8-rotating mechanism, 81-third supporting rack, 82-protective shell, 83-servo motor, 84-supporting disk, 85-connecting screw, 9-protection mechanism, 94-hinge, 95-protective cover, 96-feed port, 10-discharge mechanism, 101-fifth supporting rack, 102-stacking hopper, 103-cross groove clamping rod, 104-cross clamping block, 105-discharge disk, 106-second discharge port, 11-scraping mechanism, 111-connecting rod, 112-a sliding sleeve, 113-a sliding rod, 114-a tension spring, 115-a torsion spring, 1151-a limiting sliding block, 116-a scraping plate, 117-a limiting rod, 118-a limiting frame, 1181-a first baffle, 119-a counterweight component, 12-a discharging mechanism, 121-a rack ring, 122-a gear, 1221-a rotating shaft, 123-a belt, 124-a driving wheel, 125-a spiral blade, 126-a fixing plate, 127-a second discharging pipe, 13-a switching mechanism, 131-a supporting block, 132-a pressing plate, 133-an L-shaped rotating rod, 134-a second baffle and 135-an elongated opening.

Detailed Description

The invention is further described with reference to the following drawings and detailed description:

example 1

A high-efficiency sieving device for producing powdered oil refers to a picture 1, a picture 2, a picture 3, a picture 4 and a picture 5, which comprises a supporting cover 1, a screen 2, a first supporting frame 3, a separating cover 4, a collecting cylinder 5, a second supporting frame 7, a fourth supporting frame 71, a storage bin 72, a rotating mechanism 8 and a protection mechanism 9, wherein the storage bin 72 is welded in the fourth supporting frame 71, a first discharging pipe 73 is arranged at the right upper side of the storage bin 72, the second supporting frame 7 is welded at the upper side in the storage bin 72, the collecting cylinder 5 is welded at the top of the second supporting frame 7, the collecting cylinder 5 is used for collecting powder, the bottom in the collecting cylinder 5 is arranged in an inclined plane, a first discharging hole 6 is arranged at the right lower side of the collecting cylinder 5, the supporting cover 1 is rotatably connected in the middle in the collecting cylinder 5, the screen 2 is connected at the upper part of the supporting cover 1, the screen 2 is used for screening powder, the outer ring of the screen 2 is connected with the first supporting frame 3, 3 outer lane welding of first support frame has cage 4, is equipped with rotary mechanism 8 in the middle of the collecting vessel 5, and rotary mechanism 8 is used for driving the cage 1 rotatory, and rotary mechanism 8, part are connected with cage 1, store storehouse 72 upper portion and are equipped with protection machanism 9, and protection machanism 9 is used for wrapping up the part.

Referring to fig. 2 and 4, the rotating mechanism 8 includes a third supporting frame 81, a protective housing 82, a servo motor 83, a supporting plate 84 and a connecting screw 85, the third supporting frame 81 is welded in the middle of the inside of the collecting cylinder 5, the top of the third supporting frame 81 is connected with the protective housing 82, the servo motor 83 is connected in the protective housing 82, the top of the output shaft of the servo motor 83 is connected with the supporting plate 84, the supporting plate 84 is used for driving the supporting cover 1 to rotate, and the supporting plate 84 is fixedly connected with the supporting cover 1 through the connecting screw 85.

Referring to fig. 1 and 5, the protection mechanism 9 includes a hinge 94 and a protection cover 95, the upper left side of the storage bin 72 is rotatably connected with the protection cover 95 for limiting the impurities through the hinge 94, and a feed port 96 is formed in the middle of the protection cover 95.

When the device is used, the servo motor 83 is started, the output shaft of the servo motor 83 drives the support disc 84 and the support cover 1 to rotate, the support cover 1 drives the screen 2, the first support frame 3 and the isolation cover 4 to rotate, then, the powder is poured onto the screen 2 through the feed inlet 96, the screen 2 screens the powder, the powder is separated from impurities, the impurities are thrown out of the screen 2 under the action of centrifugal force, the protective cover 95 can limit the impurities to prevent the impurities from splashing around, the impurities drop downwards into the storage bin 72 under the limiting action of the protective cover 95, the impurities are discharged through the storage bin 72, the separated powder drops into the collection barrel 5, as the bottom in the collection barrel 5 is arranged in an inclined plane, the powder can slide to the first discharge port 6 along the inclined plane, the first discharge port 6 is communicated with the first discharge pipe 73 through the connecting pipe connecting the first discharge port 6 and the first discharge pipe 73, and the powder can be discharged through the connecting pipe connecting the first discharge port 6 and the first discharge pipe 73, so, alright collect the powder, the screening finishes, closes servo motor 83, when needing to clear up screen cloth 2 or need to maintain servo motor 83, manually opens protective cover 95 for hinge 94 rotates, can clear up afterwards or maintenance work, and the back that finishes, reversal protective cover 95 closes, and hinge 94 reverses and resets.

Example 2

On the basis of embodiment 1, please refer to fig. 1, fig. 2, fig. 6, fig. 7 and fig. 8, the automatic feeding device further includes a material discharging mechanism 10, the material discharging mechanism 10 is used for automatic feeding, the material discharging mechanism 10 includes a fifth support frame 101, a material stacking hopper 102, a cross-shaped groove clamping rod 103, a cross-shaped clamping block 104 and a material discharging tray 105, the fifth support frame 101 is welded on the top of a protective cover 95, the material stacking hopper 102 is connected inside the fifth support frame 101, the material stacking hopper 102 is used for storing powder, the material discharging tray 105 is rotatably connected to the bottom inside the material stacking hopper 102, the material discharging tray 105 is used for supporting powder, the material discharging tray 105 is concave, the second material discharging ports 106 are respectively formed on the left side and the right side inside the material discharging tray 105, the cross-shaped groove clamping rod 103 is welded in the middle of the top of the support cover 1, the cross-shaped clamping block 104 is welded in the middle of the bottom of the material discharging tray 105, and the top of the cross-shaped groove clamping rod 103 is engaged with the bottom of the cross-shaped clamping block 104.

When needing to filter the powder, pour the powder into in the batch hopper 102, when supporting cover 1 and rotating, drive cross recess kelly 103 and rotate, thereby drive blowing dish 105 through cross fixture block 104 and rotate, make the powder through the even dropping on screen cloth 2 of second discharge gate 106, thereby improve screen cloth 2's screening effect, make more thorough of powder screening, when supporting cover 1 stall, cross recess kelly 103, cross fixture block 104 and blowing dish 105 all stall.

Referring to fig. 2, 9 and 10, the powder material collecting device further includes a material scraping mechanism 11, the material scraping mechanism 11 is used for accelerating material discharging, the material scraping mechanism 11 includes a connecting rod 111, a sliding sleeve 112, a sliding rod 113, a tension spring 114, a torsion spring 115, a scraper 116, a limiting rod 117, a limiting frame 118, a first baffle 1181, a limiting slider 1151 and a counterweight component 119, the connecting rod 111 is fixedly connected to the left upper side of the support cover 1 through a bolt, the sliding sleeve 112 is welded to the lower side of the connecting rod 111, the limiting rod 117 is welded to the left side of the sliding sleeve 112, the sliding rod 113 is slidably connected to the inside of the sliding sleeve 112, the tension spring 114 is connected to the upper side of the sliding rod 113, the lower end of the tension spring 114 contacts with the top of the sliding sleeve 112, the scraper 116 is hinged to the lower part of the sliding rod 113, the scraper 116 is used for accelerating powder discharging, the bottom of the scraper 116 contacts with the bottom of the collecting cylinder 5, the limiting frame 118 is welded to the upper side of the left part of the scraper 116, the limiting frame 118 slides in the limiting frame 118, sliding rod 113 lower part sliding connection has spacing slider 1151, be connected with torsion spring 115 between spacing slider 1151 top and the sliding sleeve 112 bottom, 5 inner wall right sides of collecting vessel have first baffle 1181 through the bolt rigid coupling, there is counterweight assembly 119 through the bolt rigid coupling on the upper right portion of supporting cover 1, counterweight assembly 119 is used for the gravity on both sides about balanced supporting cover 1, counterweight assembly 119 comprises a bracing piece and a counterweight ball, the bracing piece left side passes through the bolt rigid coupling with the upper right portion of supporting cover 1, the counterweight ball connects on the bracing piece right side.

When the support cover 1 rotates, the connecting rod 111 and the counterweight component 119 are driven to rotate, the connecting rod 111 drives the sliding sleeve 112, the limiting rod 117, the sliding rod 113, the limiting slide block 1151 and the scraper 116 to rotate, so that the scraper 116 drives the powder attached to the bottom in the collection cylinder 5 to move, meanwhile, the scraper 116 drives the limiting frame 118 to rotate, the scraper 116 moves up and down along with the inclined plane of the bottom in the collection cylinder 5, so as to drive the sliding rod 113 and the limiting frame 118 to move up and down, meanwhile, the tension spring 114 performs adaptive deformation, when the limiting frame 118 moves down to no longer limit the limiting rod 117, the limiting frame 118 continues to rotate to contact with the first baffle 1181, the first baffle 1181 limits the limiting frame 118, so as to limit the scraper 116, at this time, the connecting rod 111 continues to rotate, under the limiting effect of the first baffle 1181, the scraper 116 rotates to drive the sliding rod 113 and the limiting slide block 1151 to rotate, torsion spring 115 is deformed at this moment, make scraper blade 116 carry out small amplitude rotation around first baffle 1181, thereby prevent that scraper blade 116 from scraping the powder of first discharge gate 6 department when rotating, the powder of being convenient for discharges through first discharge gate 6, when spacing 118 rotates to and separates with first baffle 1181, torsion spring 115 resets this moment, drive limit slide 1151, slide bar 113, scraper blade 116 and spacing 118 reversal reset, so repeatedly, can avoid partial powder to adhere to the unable discharge of bottom in collecting vessel 5, can accelerate the ejection of compact simultaneously.

Referring to fig. 1, 2, 11 and 12, the powder, the spiral blade 125 is used for feeding powder, and the left side of the spiral blade 125 is welded with the inner part of the driving wheel 124 at the lower side.

When cage 4 is when rotating, drive rack ring 121 and rotate, thereby drive gear 122 and rotate, gear 122 drives pivot 1221 and rotates, pivot 1221 passes through drive wheel 124 and belt 123 and drives spiral leaf 125 and rotate, make spiral leaf 125 can carry out the ejection of compact to the powder, so, just need not to connect first discharge gate 6 and the supplementary powder ejection of compact of first discharging pipe 73 with the help of the connecting pipe, spiral leaf 125 can avoid the powder all can't discharge in second discharging pipe 127.

Referring to fig. 1, 2, 13 and 14, the device further includes a switch mechanism 13, the switch mechanism 13 is used for discharging impurities in a centralized manner, the switch mechanism 13 includes a supporting block 131, a second baffle 132 and a handle 133, the supporting block 131 is welded on the lower right side of the storage bin 72, the elongated opening 134 is formed on the lower right side of the storage bin 72, the second baffle 132 is hinged on the supporting block 131, the second baffle 132 is located in the elongated opening 134, and the handle 133 is welded on the left side of the second baffle 132.

Impurity drops at second baffle 132 top during the screening, and the screening back that finishes, manual pulling handle 133 drives second baffle 132 and rotates 180 degrees for second baffle 132 no longer blocks and stores the storehouse 72 bottom, makes the impurity of storing the storehouse 72 inside fall out, so, can concentrate the clearance to impurity, and the clearance finishes, promote handle 133 and second baffle 132 reset can.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (8)

1. A high-efficient sieving mechanism for producing powdered oil is characterized in that, including:

a fourth support frame (71);

the storage bin (72) is connected inside the fourth supporting frame (71);

the first discharge pipe (73) is connected to the upper right side of the storage bin (72);

the second support frame (7) is connected with the upper side inside the storage bin (72);

the top of the second supporting frame (7) is connected with a collecting cylinder (5) for collecting powder, and the right lower side of the collecting cylinder (5) is provided with a first discharge hole (6);

the middle inside the collecting cylinder (5) is rotatably connected with the supporting cover (1);

the upper part of the support cover (1) is connected with a screen (2) for screening powder;

the outer ring of the screen (2) is connected with the first support frame (3);

the outer ring of the first support frame (3) is connected with the isolation cover (4);

the rotating mechanism (8) is arranged in the middle of the collecting cylinder (5) and used for driving the supporting cover (1) to rotate, and parts of the rotating mechanism (8) are connected with the supporting cover (1);

the upper part of the storage bin (72) is provided with a protection mechanism (9) used for wrapping the components.

2. A high efficiency screening apparatus for the production of powdered oils and fats according to claim 1, wherein the rotating mechanism (8) comprises:

the middle inside the collecting cylinder (5) is connected with a third supporting frame (81);

the top of the third supporting frame (81) is connected with a protective shell (82);

the servo motor (83) is connected inside the protective shell (82);

supporting disk (84), servo motor (83) output shaft top is connected with and is used for driving supporting disk (84) that support cover (1) pivoted, and supporting disk (84) and support cover (1) pass through connecting screw (85) rigid coupling.

3. A high efficiency screening apparatus for the production of powdered oils and fats according to claim 2, characterized in that the guard means (9) comprises:

the left upper side of the storage bin (72) is rotatably connected with a protective cover (95) used for limiting impurities through a hinge (94), and a feed inlet (96) is formed in the middle of the protective cover (95).

4. The high-efficiency screening device for producing powdered oil and fat according to claim 3, characterized by further comprising a discharging mechanism (10) for automatic feeding, wherein the discharging mechanism (10) comprises:

the top of the protective cover (95) is connected with a fifth support frame (101);

the stacking hopper (102) is connected inside the fifth supporting frame (101) and used for storing powder;

the bottom in the stacking hopper (102) is rotatably connected with a discharging tray (105) used for supporting powder, the discharging tray (105) is concave, and the left side and the right side in the discharging tray (105) are provided with second discharging holes (106);

the middle of the top of the support cover (1) is connected with a cross-shaped groove clamping rod (103);

the middle of the bottom of the material placing tray (105) is connected with the cross-shaped fixture block (104), and the top of the cross-shaped groove clamping rod (103) is meshed with the bottom of the cross-shaped fixture block (104).

5. A high-efficiency screening device for producing powdered oil and fat according to claim 4, characterized in that, the device also comprises a scraping mechanism (11) for accelerating the discharging, the scraping mechanism (11) comprises:

the connecting rod (111) is connected with the left upper side of the support cover (1);

the lower side of the connecting rod (111) is connected with the sliding sleeve (112);

the left side of the sliding sleeve (112) is connected with a limiting rod (117);

the sliding rod (113) is connected inside the sliding sleeve (112) in a sliding manner;

the upper part of the sliding rod (113) is connected with a tension spring (114), and the bottom of the tension spring (114) is contacted with the top of the sliding sleeve (112);

the lower part of the sliding rod (113) is rotatably connected with a scraper (116) for accelerating powder discharge, and the bottom of the scraper (116) is contacted with the bottom in the collecting cylinder (5);

the upper side of the left part of the scraper (116) is connected with the limiting frame (118), and the left part of the limiting rod (117) slides in the limiting frame (118);

the lower part of the sliding rod (113) is connected with a limit sliding block (1151) in a sliding way;

a torsion spring (115) is connected between the top of the limiting sliding block (1151) and the bottom of the sliding sleeve (112);

the right side of the inner wall of the collecting barrel (5) is connected with a first baffle (1181);

the right upper part of the supporting cover (1) is connected with a counterweight component (119) used for balancing the gravity on the left side and the right side of the supporting cover (1).

6. The high-efficiency screening device for producing powdered oil and fat according to claim 5, further comprising a discharging mechanism (12) for discharging the powder, wherein the discharging mechanism (12) comprises:

the bottom of the isolation cover (4) is connected with a rack ring (121);

the rotating shaft (1221) is rotatably connected to the upper right side of the collecting cylinder (5);

the left side of the rotating shaft (1221) is connected with a gear (122), and the gear (122) is meshed with the rack ring (121);

the right lower side of the collecting cylinder (5) is rotatably connected with the transmission wheel (124), and the rotating shaft (1221) is connected with the transmission wheel (124);

the belt (123) is wound on the two transmission wheels (124);

a second discharge pipe (127), the first discharge pipe (73) is connected with the second discharge pipe (127), and the left side of the second discharge pipe (127) is rotatably connected with the lower driving wheel (124);

the right side inside the second discharge pipe (127) and the inside of the first discharge hole (6) are both connected with a fixing plate (126);

the two fixing pieces (126) are rotatably connected with the spiral blade (125) used for feeding powder, and the left side of the spiral blade (125) is fixedly connected with the inner part of the driving wheel (124) on the lower side.

7. An efficient screening apparatus for the production of fat powders according to claim 6 further comprising a switch mechanism (13) for concentrated discharge of impurities, the switch mechanism (13) comprising:

the supporting block (131) is connected to the lower right side of the storage bin (72);

the right lower side of the storage bin (72) is provided with a strip-shaped opening (134), the supporting block (131) is hinged with a second baffle (132), and the second baffle (132) is positioned in the strip-shaped opening (134);

the handle (133) is connected to the left side of the handle (133) and the second baffle (132).

8. A high efficiency screening apparatus for the production of fat powders as claimed in claim 7 in which the bottom of the collector bowl (5) is bevelled.

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