CN217664507U - Gold spring onions powder sieving mechanism - Google Patents

Abstract

The utility model provides a glitter powder sieving mechanism, including frame and rotatory bucket mechanism, rotatory bucket mechanism includes left rotation axis, right rotation axis, drive assembly one, outer bucket, outer bung, drive assembly two, interior bucket and interior bung, left side rotation axis and right rotation axis all can rotate and connect in the frame, drive assembly one sets firmly in the frame and is connected with the right rotation axis drive, outer bucket sets firmly between left rotation axis and right rotation axis, outer bung can be dismantled and connects on the opening of outer bucket, drive assembly one drive right rotation axis drives outer bucket and is rotary motion, drive assembly two sets firmly on outer bucket, the output shaft of drive assembly one penetrates outer bucket and is connected with interior bucket drive, interior bucket is located outer bucket, a plurality of filtration pores have been seted up on the circumference wall of interior bucket, interior bung can be dismantled and connect on the opening of interior bucket, rotary motion is done in the drive assembly two drive buckets. The utility model discloses can accomplish golden shallot powder screening process automatically.

Description

Gold spring onions powder sieving mechanism

Technical Field

The utility model relates to a sieving mechanism field specifically is a gold shallot powder sieving mechanism.

Background

Glitter powder, also called glitter sheet or glitter powder, is suitable for various ornaments nowadays, and in glitter powder production process, inevitably produces glitter powder of bigger particle diameter, glitter powder needs the screening can use as the finished product, otherwise can influence decorative effect. The traditional glitter powder screening process is generally manually operated, the glitter powder is firstly paved on a screen disc manually, then the screen disc is shaken, so that the glitter powder with the particle size meeting the requirement is screened out through the filter holes of the screen disc, and the process has the defects of high labor intensity and low working efficiency.

Disclosure of Invention

An object of the utility model is to provide a gold spring onions powder sieving mechanism to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a glitter powder screening device comprises a rack and a rotary barrel mechanism, wherein the rotary barrel mechanism comprises a left rotary shaft, a right rotary shaft, a first driving assembly, an outer barrel cover, a second driving assembly, an inner barrel and an inner barrel cover, the left rotary shaft and the right rotary shaft can be rotatably connected to the rack, the first driving assembly is fixedly arranged on the rack and is in driving connection with the right rotary shaft, the outer barrel is fixedly arranged between the left rotary shaft and the right rotary shaft, the outer barrel cover is detachably connected to an opening of the outer barrel, the first driving assembly drives the right rotary shaft to drive the outer barrel to do rotary motion, the second driving assembly is fixedly arranged on the outer barrel, an output shaft of the first driving assembly penetrates through the outer barrel and is in driving connection with the inner barrel, the inner barrel is located in the outer barrel, a plurality of filtering holes are formed in the circumferential wall of the inner barrel, the inner barrel cover is detachably connected to the opening of the inner barrel, and the second driving assembly drives the inner barrel to do rotary motion.

Further, the inner barrel also comprises a stirring blade which is fixedly arranged in the inner barrel.

The inner wall cleaning mechanism is arranged on the rack and located under the rotary barrel mechanism, the inner wall cleaning mechanism comprises a lifting assembly, an inner brush strip and a first support, the inner brush strip is used for cleaning the inner wall of the inner barrel, the inner brush strip is arranged on the lifting assembly through the first support, and the lifting assembly drives the first support to drive the inner brush to move up and down.

The inner barrel is protruded out of the outer barrel cover, the upper gear ring is sleeved on the outer end of the inner barrel, and a first gear ring is arranged on one surface of the upper gear ring, which faces away from the driving component II.

Further, still including outer brush strip, two and cavity carousels and the ring gear down that is used for cleaning outer bucket inner wall, outer brush strip passes through two supports and installs on the cavity carousel, the cavity carousel cover is established outside interior brush strip and rotatable coupling on lifting unit, the ring gear cover is established outside interior brush strip and is set firmly on the cavity carousel down, the upper surface of ring gear is equipped with can with ring gear one meshed ring gear two down.

Further, the lifting device further comprises a sleeve, the sleeve is sleeved on the lifting assembly, and the inner diameter of the sleeve is larger than the outer diameter of the outer barrel.

Furthermore, the dust collection device further comprises a dust collection mechanism and a dust collection pipe, wherein a dust collection port and an air inlet are formed in the sleeve, and the dust collection port is communicated with the dust collection mechanism through the dust collection pipe.

The utility model has the advantages that:

before the screening machine works, the driving assembly I drives the right rotating shaft to sequentially drive the inner barrel to rotate around the axis of the right rotating shaft through the outer barrel and the driving device II, so that the openings of the outer barrel and the inner barrel are inclined upwards, the outer barrel cover is manually closed, glitter powder to be screened is poured into the inner barrel, and then the inner barrel cover is closed;

when the glitter screening machine works, the first driving assembly drives the right rotating shaft to sequentially drive the inner barrel through the outer barrel and the second driving device to rotate around the axis of the right rotating shaft, so that the axes of the outer barrel and the inner barrel are in the same direction with the front and back direction, the second driving device drives the inner barrel to rotate, so that glitter powder rolls in the inner barrel, and in the process, glitter powder meeting the particle size requirement falls onto the outer barrel through the filter holes of the inner barrel to be collected, and finally automatic screening is realized;

it shows above the utility model has the advantage that degree of automation is high, can replace artifical completion gold spring onions powder screening process, can use manpower sparingly and improve work efficiency.

Drawings

FIG. 1: a schematic view of a glitter powder screening device.

FIG. 2: a schematic partial section view of a glitter powder screening device.

FIG. 3: a schematic view of an inner wall cleaning mechanism of a glitter powder screening device.

FIG. 4: a schematic sectional view of a glitter powder screening device.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

referring to fig. 1 and 2, a glitter screening device includes a frame 1 and a rotary drum mechanism 2, the rotary drum mechanism 2 includes a left rotary shaft 21, a right rotary shaft 22, a first driving assembly 23, an outer drum 24, an outer drum cover 25, a second driving assembly 26, an inner drum 27 and an inner drum cover 28, the left rotary shaft 21 and the right rotary shaft 22 are rotatably connected to the frame 1, the first driving assembly 23 is fixedly disposed on the frame 1 and drivingly connected to the right rotary shaft 22, the outer drum 24 is fixedly disposed between the left rotary shaft 21 and the right rotary shaft 22, the outer drum cover 25 is detachably connected to an opening of the outer drum 24, the first driving assembly 23 drives the right rotary shaft 22 to drive the outer drum 24 to rotate, the second driving assembly 26 is fixedly disposed on the outer drum 24, an output shaft of the first driving assembly 23 penetrates through the outer drum 24 and drivingly connected to the inner drum 27, the inner drum 27 is disposed in the outer drum 24, a plurality of filter holes are disposed on a circumferential wall of the inner drum 27, the inner drum cover 28 is detachably connected to the opening of the inner drum 27, and the second driving assembly 26 drives the inner drum 27 to rotate.

Referring to fig. 2, the inner tub 27 further includes a stirring blade 29, and the stirring blade 29 is fixedly disposed in the inner tub 27.

Referring to fig. 1 and 3, the inner wall cleaning device 3 is further included, the inner wall cleaning device 3 is mounted on the frame 1 and located under the rotating drum mechanism 2, the inner wall cleaning device 3 includes a lifting assembly 31, an inner brush strip 32 for cleaning the inner wall of the inner drum 27, and a first support 33, the inner brush strip 32 is mounted on the lifting assembly 31 through the first support 33, and the lifting assembly 31 drives the first support 33 to drive the inner brush to move up and down.

Referring to fig. 2, the inner barrel 27 protrudes out of the outer barrel cover 25, the upper toothed ring 34 is sleeved on the outer end of the inner barrel 27, and a first toothed ring is arranged on a surface of the upper toothed ring 34 facing away from the second driving component 26.

Referring to fig. 3, the washing machine further includes an outer brush strip 35 for cleaning the inner wall of the outer tub 24, a second bracket 36, a hollow rotary disc 37 and a lower toothed ring 38, the outer brush strip 35 is mounted on the hollow rotary disc 37 through the second bracket 36, the hollow rotary disc 37 is sleeved outside the inner brush strip 32 and rotatably connected to the lifting assembly 31, the lower toothed ring 38 is sleeved outside the inner brush strip 32 and fixedly mounted on the hollow rotary disc 37, and the upper surface of the lower toothed ring 38 is provided with a second toothed ring capable of meshing with the first toothed ring.

Referring to fig. 1 and fig. 3, the barrel assembly further includes a sleeve 4, the sleeve 4 is sleeved on the lifting assembly 31, and an inner diameter of the sleeve 4 is greater than an outer diameter of the outer barrel 24.

Referring to fig. 4, the device further includes a dust suction mechanism and a dust suction pipe, a dust suction port 41 and an air inlet 42 are provided on the sleeve 4, and the dust suction port 41 is communicated with the dust suction mechanism through the dust suction pipe.

The first driving assembly 23, the second driving assembly 26, the lifting assembly 31 and the dust collection mechanism are all electrically connected with and controlled by the controller, and the first driving assembly 23, the second driving assembly 26, the lifting assembly 31, the dust collection mechanism and the controller are all electrically connected with the power supply.

The working principle is as follows:

before the operation, the first driving assembly 23 drives the right rotating shaft 22 to sequentially drive the inner barrel 27 to rotate around the axis of the right rotating shaft 22 through the outer barrel 24 and the second driving device, so that the openings of the outer barrel 24 and the inner barrel 27 are inclined upwards, the outer barrel cover 25 is manually closed, glitter powder to be screened is poured into the inner barrel 27, and then the inner barrel cover 28 is closed;

when the glitter screening machine works, the first driving assembly 23 drives the right rotating shaft 22 to sequentially drive the inner barrel 27 to rotate around the axis of the right rotating shaft 22 through the outer barrel 24 and the second driving device, so that the axes of the outer barrel 24 and the inner barrel 27 are in the same direction with the front and back directions, the second driving device drives the inner barrel 27 and the stirring blades to rotate, so that glitter powder rolls in the inner barrel 27, and in the process, glitter powder is stirred through the stirring blades 29, the probability of screen leakage is reduced, glitter powder meeting the particle size requirement falls onto the outer barrel 24 through the filtering holes of the inner barrel 27 to be collected, and automatic screening is finally realized;

after screening is completed, manually taking off the outer barrel cover 25 and placing a finished product box beside the rack 1, driving the right rotating shaft 22 by the first driving assembly 23 to drive the inner barrel 27 to rotate along the axis of the right rotating shaft 22 through the outer barrel 24 and the second driving assembly, so that the openings of the outer barrel 24 and the inner barrel 27 are inclined downwards, finally automatically pouring out the finished glitter powder to the finished product box, manually moving the finished product box to a specified position, manually placing the sundry box beside the rack 1, then taking off the inner barrel cover 28, pouring out the glitter powder in the inner barrel 27 to the sundry box, and finally moving the sundry box to a specified position;

when the glitter powder remained on the inner barrel 27 and the outer barrel 24 needs to be cleaned so as to be screened by replacing another glitter powder, the first driving assembly 23 drives the right rotating shaft 22 to sequentially drive the inner barrel 27 to rotate along the axis of the right rotating shaft 22 through the outer barrel 24 and the second driving device, so that the openings of the outer barrel 24 and the inner barrel 27 face downwards, referring to fig. 3 and 4, the lifting assembly 31 drives the sleeve 4, the first support 33 and the hollow turntable 37 to move upwards, so that the sleeve 4 is sleeved outside the outer barrel 24, the first support 33 drives the inner bristle strips 32 to move upwards, so that the bristle parts of the inner barrel 27 are attached to the inner wall of the outer barrel, the hollow turntable 37 drives the outer bristle strips 35 to move upwards through the second support 36, so that the bristle parts of the outer barrel 24 are attached to the inner wall of the outer barrel 24, and meanwhile, the hollow turntable 37 also drives the lower toothed ring 38 to move upwards to be engaged with the upper toothed ring 34;

the second driving device drives the inner barrel 27 and the stirring blades to do rotary motion, so that the inner brush strip 32 cleans the inner wall of the inner barrel 27, in the process, the inner barrel 27 drives the lower toothed ring 38 through the upper toothed ring 34 to drive the hollow turntable 37 to do rotary motion through the second bracket 36 to drive the outer brush strip 35, so that the outer brush strip 35 cleans the inner wall of the outer barrel 24, swept glitter powder can be prevented from floating around through the sleeve 4, the glitter powder works through the dust collection mechanism, and the glitter powder enters the dust collection mechanism through the dust collection port 41 and the dust collection pipe, and finally automatic cleaning is realized.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a gold shallot powder sieving mechanism which characterized in that: the rotary drum mechanism comprises a left rotating shaft, a right rotating shaft, a first driving assembly, an outer drum cover, a second driving assembly, an inner drum and an inner drum cover, wherein the left rotating shaft and the right rotating shaft can be rotatably connected to the frame, the first driving assembly is fixedly arranged on the frame and is in driving connection with the right rotating shaft, the outer drum is fixedly arranged between the left rotating shaft and the right rotating shaft, the outer drum cover is detachably connected to an opening of the outer drum, the first driving assembly drives the right rotating shaft to drive the outer drum to do rotary motion, the second driving assembly is fixedly arranged on the outer drum, an output shaft of the first driving assembly penetrates through the outer drum and is in driving connection with the inner drum, the inner drum is located in the outer drum, a plurality of filter holes are formed in the circumferential wall of the inner drum, the inner drum cover is detachably connected to the opening of the inner drum, and the second driving assembly drives the inner drum to do rotary motion.

2. The glitter powder screening device of claim 1, wherein the glitter powder screening device comprises: the inner barrel is characterized by further comprising a stirring blade, and the stirring blade is fixedly arranged in the inner barrel.

3. The glitter powder screening device of claim 1, wherein the glitter powder screening device comprises: the inner wall cleaning mechanism is installed on the rack and located under the rotary barrel mechanism, the inner wall cleaning mechanism comprises a lifting assembly, an inner brush strip and a first support, the inner brush strip is used for cleaning the inner wall of the inner barrel, the inner brush strip is installed on the lifting assembly through the first support, and the lifting assembly drives the first support to drive the inner brush to move up and down.

4. The glitter powder screening device of claim 3, wherein the glitter powder screening device comprises: the inner barrel protrudes out of the outer barrel cover, the upper gear ring is sleeved on the outer end of the inner barrel, and a first gear ring is arranged on one surface, back to the driving component II, of the upper gear ring.

5. The glitter powder screening device of claim 4, wherein the glitter powder screening device comprises: still including being used for carrying out outer brush strip, support two and cavity carousel and lower ring gear that cleans outer bucket inner wall, outer brush strip passes through support two to be installed on the cavity carousel, the cavity carousel cover is established outside interior brush strip and rotatable coupling on lifting unit, the ring gear cover is established outside interior brush strip and is set firmly on the cavity carousel down, the upper surface of ring gear is equipped with can with ring gear one meshed ring gear two down.

6. The glitter powder screening device of claim 3, wherein the glitter powder screening device comprises: the lifting assembly is characterized by further comprising a sleeve, the sleeve is sleeved on the lifting assembly, and the inner diameter of the sleeve is larger than the outer diameter of the outer barrel.

7. The glitter powder screening device of claim 6, wherein: the sleeve is provided with a dust suction port and an air inlet, and the dust suction port is communicated with the dust suction mechanism through the dust suction pipe.

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