CN114532418B

CN114532418B - Tea stir-frying equipment with screening mechanism and stir-frying method thereof

Info

Publication number: CN114532418B
Application number: CN202210187610.1A
Authority: CN
Inventors: 请求不公布姓名
Original assignee: Langao Lvfengyuan Agricultural Development Co ltd
Current assignee: Langao Lvfengyuan Agricultural Development Co ltd
Priority date: 2022-02-28
Filing date: 2022-02-28
Publication date: 2023-12-12
Anticipated expiration: 2042-02-28
Also published as: CN114532418A

Abstract

The invention discloses tea stir-frying equipment with a screening mechanism and a stir-frying method thereof, belonging to the field of tea stir-frying; including the motor mounting bracket, the motor mounting bracket below is equipped with first mounting disc, first mounting disc below is equipped with tea processing sieve, be equipped with first motor on the motor mounting bracket, tea processing sieve is the polygon, first recess has been seted up to the side of tea processing sieve, a plurality of vibrations pieces have been seted up on the first mounting disc, be equipped with the vibrations slider in the vibrations piece, the spout of stepping down has been seted up to first installation spout below, vibrations slider below is equipped with first spliced pole, first spliced pole and first recess interconnect, vibrations slider slides and drives tea processing sieve shake and make the piece in the tea processing sieve screen out from the lower extreme, so including the problem that there is garrulous piece in the tealeaves after reducing processing, the change of multiple spot position drives tea processing sieve vibrations, pass through the spring simultaneously, can guarantee faster vibration frequency and avoid vibrations range too big cause new piece.

Description

Tea stir-frying equipment with screening mechanism and stir-frying method thereof

Technical Field

The disclosure belongs to the field of tea stir-frying, and in particular relates to tea stir-frying equipment with a screening mechanism and a stir-frying method thereof.

Background

At present, the stir-frying of tea leaves is carried out in a manual mode and a mechanical mode, the efficiency is low, the process is difficult to control, the crushed tea is more, the labor intensity of workers is high, meanwhile, at present, the tea frying machine widely used is used for stirring the tea leaves in the tea leaf stir-frying process, so that the stirring of the tea leaves is realized, but when the mechanical automatic processing stirring blades are in contact with the tea leaves, the tea leaves are easy to damage, the tea leaf dust is increased, the quality of the stir-fried tea leaves is reduced, the sales is influenced, and the tea leaf stir-frying equipment with the screening mechanism is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the purpose of the present disclosure is to provide tea stir-frying equipment with a screening mechanism and a stir-frying method thereof, which solve the problem of excessive tea dust in mechanical processing in the prior art.

The purpose of the disclosure can be achieved by the following technical scheme:

the utility model provides a tealeaves stir-fry equipment with screening mechanism, which comprises a motor mounting rack, motor mounting rack below is equipped with first mounting disc, first mounting disc below is equipped with tealeaves processing sieve, be equipped with first motor on the motor mounting rack, tealeaves processing sieve is the polygon, first recess has been seted up to tealeaves processing sieve's side, be equipped with first installation axle on the first recess, movable mounting has first connecting block on the first installation axle, movable mounting has the second connecting block on the first connecting block, second connecting block upper end is equipped with first spring installation boss, be equipped with first spring on the first spring installation boss, first spring upper end is equipped with the second spring installation boss, a plurality of vibrations piece mounting groove have been seted up on the first mounting disc, the connecting chute has been seted up to vibrations piece mounting groove below, movable mounting has vibrations piece in the vibrations piece, the vibrations slider below has been seted up and has been put down the spout, the first spliced pole is equipped with first spliced pole in the vibrations slider below, first spliced pole passes and put down spout and connecting chute and second spring installation boss, first pivot, the first pivot has been installed to connect the pivot on the first mounting disc, the first pivot has been connected with first pivot, the first movable mounting blade, the through-hole is connected to the first pivot on the first mounting disc.

Further, the screening groove has been seted up on the stirring vane, has seted up a plurality of first screening through-holes on the screening groove outer wall, and stirring vane is equipped with a plurality of second screening through-holes towards one side of direction of motion, and second screening through-hole area is greater than the area of first screening through-hole, and the screening groove outside is equipped with the sealing plug that can dismantle.

Further, stirring vane is the slope setting, is equipped with the one end height that stirring vane sealing plug was located to be less than the height that the blade mounting groove was located.

Further, the guide chute has been seted up to first installation spout side, and vibrations slider both sides are equipped with the guide boss, and guide boss movable mounting is in the guide chute, is equipped with first pivot in the first installation spout, installs first cam in the first pivot, and the terminal surface of first cam is contradicted each other with the terminal surface of vibrations slider, is equipped with the second spring between vibrations slider and the first installation spout, and first pivot passes through the motor and drives.

Further, be equipped with first carousel in the stirring pivot, first carousel is located first mounting disc top, and first carousel lower extreme is equipped with crown gear, and the axis of first pivot is equipped with drive gear in the first pivot through the axis of stirring pivot, drive gear and crown gear intermeshing.

Further, the crown gear is a tooth-missing gear.

Further, a plurality of circumferentially distributed tooth missing sections are arranged on the crown gear.

Further, be equipped with first carousel in the stirring pivot, first carousel is located first mounting disc top, and first carousel lower extreme is equipped with crown gear, and the axis of first pivot is tangent with first carousel, is equipped with drive gear in the first pivot, is equipped with the second pivot on the first installation spout, and the axis of second pivot passes through the axis of stirring pivot, installs second gear and first bevel gear in the second pivot, and drive gear is bevel gear, drive gear and first bevel gear intermeshing, second gear and crown gear intermeshing.

Further, a plurality of tooth-missing sections are arranged on the crown gear.

Further, the specific operation steps of the tea stir-frying equipment comprise,

step one: the method comprises the steps that tea leaves to be processed are placed into a tea processing screen to be processed, a first motor is started to drive a stirring rotating shaft to rotate, the tea leaves are stir-fried through stirring blades, in the stir-frying process, the tea leaves are gradually curled into balls, then enter the screening tank from a first screening through hole and a second screening through hole in front of the screening tank, ball-packed tea leaves in the screening tank flow out from the first screening through hole on the back of the screening tank along with the continuous rotation of the stirring blades, and larger tea leaves entering from the second screening through hole cannot flow out from the first screening through hole and can be continuously left in the screening tank;

step two: the rotation of stirring pivot drives first carousel rotation, and first carousel passes through crown gear and drives first carousel rotation, and first carousel rotation is contradicted vibrations slider through first cam and is made its slip in first installation spout, and vibrations slider slip drives second spring installation boss motion through first spliced pole, and the motion of second spring installation boss drives tealeaves processing sieve shake through the transmission of first spring, second connecting block and first connecting block and makes the piece in the tealeaves processing sieve screen out from the lower extreme.

The beneficial effects of the present disclosure are:

the tea to be processed is placed into the tea processing screen to be processed, the first motor is started to drive the stirring rotating shaft to rotate and stir-fry the tea through the stirring blade, the vibration sliding block slides in the first installation sliding groove, the vibration sliding block slides and drives the second spring installation boss to move through the first connecting column, the movement of the second spring installation boss drives the tea processing screen to shake, so that scraps in the tea processing screen are screened out from the lower end through the transmission of the first spring, the second connecting block and the first connecting block, the problem that scraps exist in the tea processing screen after processing is reduced, the tea processing screen is driven to vibrate through the change of multipoint positions through the design, meanwhile, the spring is used for transmitting, on one hand, the quick vibration frequency can be guaranteed, and on the other hand, the phenomenon that the vibration amplitude is too large to cause new scraps can be avoided.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described, and it will be apparent to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic overall construction of an embodiment of the present disclosure;

FIG. 2 is a schematic view of the installation of a tea processing screen according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of the structure of a tea processing screen according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of the structure of a stirring shaft according to an embodiment of the present disclosure;

FIG. 5 is a schematic structural view of a stirring blade according to an embodiment of the present disclosure

FIG. 6 is a schematic structural view of a first mounting plate according to an embodiment of the present disclosure;

FIG. 7 is a schematic diagram of a seismic block according to an embodiment of the disclosure;

fig. 8 is a schematic transmission diagram of an embodiment of the present disclosure.

Detailed Description

The following description of the technical solutions in the embodiments of the present disclosure will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are only some embodiments of the present disclosure, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments in this disclosure without inventive faculty, are intended to fall within the scope of this disclosure.

As shown in fig. 1-8, a tea stir-frying device with screening mechanism comprises a motor mounting frame 1, a first mounting plate 3 is arranged below the motor mounting frame 1, a tea processing screen 2 is arranged below the first mounting plate 3, a first motor 11 is arranged on the motor mounting frame 1, the tea processing screen 2 is polygonal, a first groove 21 is arranged on the side edge of the tea processing screen 2, a first mounting shaft 22 is arranged on the first groove 21, a first connecting block 23 is movably mounted on the first mounting shaft 22, a second connecting block 24 is movably mounted on the first connecting block 23, a first spring mounting boss 25 is arranged at the upper end of the second connecting block 24, a first spring 26 is arranged on the first spring mounting boss 25, a second spring mounting boss 27 is arranged at the upper end of the first spring 26, a plurality of vibrating block mounting grooves 32 are arranged on the first mounting plate 3, a connecting chute 33 is formed below the vibration block mounting groove 32, a vibration block 5 is movably mounted in the vibration block mounting groove 32, a first mounting chute 51 is formed in the vibration block 5, a vibration sliding block 54 is movably mounted in the first mounting chute 51, a yielding chute is formed below the first mounting chute 51, a first connecting column 57 is arranged below the vibration sliding block 54, the first connecting column 57 penetrates through the yielding chute and the connecting chute 33 to be connected with a second spring mounting boss 27, a first through hole 31 is formed in the first mounting disc 3, a stirring rotating shaft 4 is movably mounted in the first through hole 31, the stirring rotating shaft 4 is connected with a main shaft of the first motor 11, a plurality of blade mounting grooves 41 are formed in the stirring rotating shaft 4, and stirring blades 6 are mounted on the blade mounting grooves 41; through so designing, to wait to process tealeaves and put into tealeaves processing sieve 2 and process, start first motor 11 and drive stirring pivot 4 rotation and stir-fry tealeaves through stirring vane 6, shake slider 54 slides in first installation spout 51, shake slider 54 slides and drives second spring installation boss 27 motion through first spliced pole 57, the motion of second spring installation boss 27 passes through first spring 26, the transmission of second connecting block 24 and first connecting block 23 drives tealeaves processing sieve 2 shake and make the piece in the tealeaves processing sieve 2 screen out from the lower extreme, so including the problem that tealeaves exists the piece after reducing processing, the change of so designing through the multiple spot position drives tealeaves processing sieve 2 vibrations, pass through the spring simultaneously, so on the one hand can guarantee faster vibration frequency, on the other hand can avoid vibrations range too big to cause new piece.

In some disclosures, the stirring vane 6 is provided with a screening groove 61, the outer wall of the screening groove 61 is provided with a plurality of first screening through holes 62, one side of the stirring vane 6 facing the moving direction is provided with a plurality of second screening through holes 63, the area of the second screening through holes 63 is larger than that of the first screening through holes 62, and the outer side of the screening groove 61 is provided with a detachable sealing plug; through the design, tea leaves to be processed are placed into the tea processing screen 2 for processing, the first motor 11 is started to drive the stirring rotating shaft 4 to rotate to stir and fry the tea leaves through the stirring blades 6, the tea leaves gradually roll up and shrink into balls in the stir and then enter the screening groove 61 from the first screening through holes 62 and the second screening through holes 63 in front of the screening groove 61, ball-packed tea leaves in the screening groove 61 flow out from the first screening through holes 62 on the back of the screening groove 61 along with the continuous rotation of the stirring blades 6, larger tea leaves entering from the second screening through holes 63 cannot flow out from the first screening through holes 62 and can be kept in the screening groove 61, and the sealing plug is opened to pour out the larger tea leaves in the screening groove 61; thus, larger blades in the tea processing screen 2 can be screened out.

In some disclosures, the stirring blades 6 are inclined, and the height of the end provided with the sealing plug of the stirring blade 6 is lower than the height of the blade mounting groove 41.

In some disclosures, the side of the first installation chute 51 is provided with a guide chute 52, two sides of the vibration slide 54 are provided with guide bosses 55, the guide bosses 55 are movably installed in the guide chute 52, the first installation chute 51 is internally provided with a first rotating shaft 53, the first rotating shaft 53 is provided with a first cam 59, the end face of the first cam 59 is in mutual collision with the end face of the vibration slide 54, a second spring 56 is arranged between the vibration slide 54 and the first installation chute 51, and the first rotating shaft 53 is driven by a motor.

In some disclosures, a first rotary table 42 is arranged on the stirring rotating shaft 4, the first rotary table 42 is positioned above the first mounting plate 3, a crown gear is arranged at the lower end of the first rotary table 42, the axis of the first rotary shaft 53 passes through the axis of the stirring rotating shaft 4, a transmission gear 58 is arranged on the first rotary shaft 53, the transmission gear 58 is meshed with the crown gear, the stirring rotating shaft 4 is provided with the first rotary table 42, the first rotary table 42 is positioned above the first mounting plate 3, the lower end of the first rotary table 42 is provided with the crown gear, the axis of the first rotary shaft 53 is tangential to the first rotary table 42, a transmission gear 58 is arranged on the first rotary shaft 53, a second rotary shaft 7 is arranged on the first mounting chute 51, the axis of the second rotary shaft 7 passes through the axis of the stirring rotating shaft 4, a second gear 71 and a first bevel gear 72 are arranged on the second rotary shaft 7, the transmission gear 58 is a bevel gear, the transmission gear 58 is meshed with the first bevel gear 72, and the second gear 71 is meshed with the crown gear; through the design, the rotation of the stirring rotating shaft 4 drives the first rotating disc 42 to rotate, the first rotating disc 42 drives the first rotating shaft 53 to rotate through the crown gear, the first rotating shaft 53 rotates to prop against the vibration sliding block 54 through the first cam 59 so as to enable the vibration sliding block 54 to slide in the first installation sliding groove 51, the vibration sliding block 54 slides through the first connecting column 57 to drive the second spring installation boss 27 to move, and the movement of the second spring installation boss 27 drives the tea processing screen 2 to shake through the transmission of the first spring 26, the second connecting block 24 and the first connecting block 23 so as to enable scraps in tea in the tea processing screen 2 to be screened out from the lower end;

in some disclosures, the different positions of the first shaft 53 and the axis of the stirring shaft 4 may provide different vibration effects to the tea processing sifter 2.

In some disclosures, the crown gear is provided with a plurality of tooth missing sections; through so design, can make a plurality of vibrations slider 54 move in proper order and drive tealeaves processing sieve 2 and be wave vibrations, so can make tealeaves in the tealeaves processing sieve 2 rotate to a direction, rotate reverse and stirring pivot 4 rotation reverse unanimity, avoid because unordered vibrations lead to tealeaves broken in the time of so can guaranteeing the screening effect.

In some disclosures, the crown gear is a tooth-missing gear; through such design, can make transmission gear 58 lose restraint instantaneously, shake slider 54 quick return through second spring 56, so can make tealeaves processing sieve 2 shake away the piece that will block in the sieve mesh of tealeaves processing sieve 2 below promptly and avoid the jam.

In some disclosures, the specific working steps of the tea leaf stir-frying equipment comprise,

step one: the tea leaves to be processed are placed into a tea processing sieve 2 to be processed, a first motor 11 is started to drive a stirring rotating shaft 4 to rotate to stir-fry the tea leaves through stirring blades 6, the tea leaves gradually roll up and shrink into balls in the stir-frying process and then enter the screening groove 61 from a first screening through hole 62 and a second screening through hole 63 in front of the screening groove 61, ball-packed tea leaves in the screening groove 61 flow out from the first screening through hole 62 on the back of the screening groove 61 along with the continuous rotation of the stirring blades 6, and larger tea leaves entering from the second screening through hole 63 cannot flow out from the first screening through hole 62 and can be kept in the screening groove 61;

step two: the rotation of the stirring rotating shaft 4 drives the first rotating disc 42 to rotate, the first rotating disc 42 drives the first rotating shaft 53 to rotate through the crown gear, the first rotating shaft 53 rotates to abut against the vibration sliding block 54 through the first cam 59 to enable the vibration sliding block 54 to slide in the first installation sliding groove 51, the vibration sliding block 54 slides through the first connecting column 57 to drive the second spring installation boss 27 to move, and the movement of the second spring installation boss 27 drives the tea processing screen 2 to shake through the transmission of the first spring 26, the second connecting block 24 and the first connecting block 23, so that scraps in tea in the tea processing screen 2 are screened out from the lower end.

Working principle:

the tea to be processed is placed into the tea processing sieve 2 for processing, the first motor 11 is started to drive the stirring rotating shaft 4 to rotate and stir-fry the tea through the stirring blade 6, the vibration sliding block 54 slides in the first installation sliding groove 51, the vibration sliding block 54 slides to drive the second spring installation boss 27 to move through the first connecting column 57, the movement of the second spring installation boss 27 drives the tea processing sieve 2 to shake through the transmission of the first spring 26, the second connecting block 24 and the first connecting block 23, so that scraps in the tea processing sieve 2 are sieved out from the lower end, the problem that scraps exist in the processed tea is solved, the tea processing sieve 2 is driven to shake through the change of the multi-point positions through the design, and meanwhile, the spring is transmitted, so that on one hand, the quick vibration frequency can be guaranteed, and on the other hand, the phenomenon that the vibration amplitude is too large to cause new scraps can be avoided.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims

1. The utility model provides a tealeaves stir-fry equipment with screening mechanism, including motor mounting bracket (1), a serial communication port, motor mounting bracket (1) below is equipped with first mounting disc (3), first mounting disc (3) below is equipped with tealeaves processing sieve (2), be equipped with first motor (11) on motor mounting bracket (1), tealeaves processing sieve (2) are the polygon, first recess (21) have been seted up to the side of tealeaves processing sieve (2), be equipped with first installation axle (22) on first recess (21), movable mounting has first connecting block (23) on first installation axle (22), movable mounting has second connecting block (24) on first connecting block (23), second connecting block (24) upper end is equipped with first spring installation boss (25), be equipped with first spring (26) on first spring installation boss (25), first spring (26) upper end is equipped with second spring installation boss (27), a plurality of vibrations piece mounting grooves (32) have been seted up on first mounting disc (3), connecting chute (33) have been seted up to vibrations piece mounting groove (32) below, movable mounting has seted up in vibrations piece (5) in vibrations piece (51), a yielding chute is formed below the first mounting chute (51), a first connecting column (57) is arranged below the vibration sliding block (54), the first connecting column (57) penetrates through the yielding chute and the connecting chute (33) to be connected with the second spring mounting boss (27), a first through hole (31) is formed in the first mounting disc (3), a stirring rotating shaft (4) is movably mounted in the first through hole (31), the stirring rotating shaft (4) is connected with a main shaft of the first motor (11), a plurality of blade mounting grooves (41) are formed in the stirring rotating shaft (4), and stirring blades (6) are mounted on the blade mounting grooves (41);

a screening groove (61) is formed in the stirring blade (6), a plurality of first screening through holes (62) are formed in the outer wall of the screening groove (61), a plurality of second screening through holes (63) are formed in one side, facing the moving direction, of the stirring blade (6), the area of each second screening through hole (63) is larger than that of each first screening through hole (62), and a detachable sealing plug is arranged on the outer side of the screening groove (61);

the side of the first installation chute (51) is provided with a guide chute (52), two sides of the vibration slide block (54) are provided with guide bosses (55), the guide bosses (55) are movably installed in the guide chute (52), the first installation chute (51) is internally provided with a first rotating shaft (53), the first rotating shaft (53) is provided with a first cam (59), the end face of the first cam (59) is mutually abutted against the end face of the vibration slide block (54), a second spring (56) is arranged between the vibration slide block (54) and the first installation chute (51), and the first rotating shaft (53) is driven by a motor;

the specific operation steps of the tea stir-frying equipment comprise,

step one: the tea to be processed is placed into a tea processing sieve (2) to be processed, a first motor (11) is started to drive a stirring rotating shaft (4) to rotate to stir-fry tea through a stirring blade (6), the tea is gradually curled and contracted into a sphere in the stir-frying process, then enters the screening groove (61) from a first screening through hole (62) and a second screening through hole (63) in front of the screening groove (61), ball-packaged tea in the screening groove (61) flows out from the first screening through hole (62) on the back of the screening groove (61) along with the continuous rotation of the stirring blade (6), and larger tea entering from the second screening through hole (63) cannot flow out from the first screening through hole (62) and can be continuously left in the screening groove (61);

step two: the rotation of stirring pivot (4) drives first carousel (42) rotation, first carousel (42) drive first pivot (53) rotation through crown gear, first pivot (53) rotation is through first cam (59) conflict vibrations slider (54) make it slide in first installation spout (51), vibrations slider (54) slide and drive second spring installation boss (27) motion through first spliced pole (57), the motion of second spring installation boss (27) drives tealeaves processing sieve (2) shake through the transmission of first spring (26), second spliced pole (24) and first spliced pole (23) and makes the piece in the tealeaves in tealeaves processing sieve (2) screen out from the lower extreme.

2. The tea leaf stir-frying equipment with the screening mechanism according to claim 1, wherein the stirring blades (6) are obliquely arranged, and the height of one end provided with the sealing plug of the stirring blades (6) is lower than the height of the blade mounting groove (41).

3. The tea leaf stir-frying equipment with the screening mechanism according to claim 1, wherein a first rotary table (42) is arranged on the stirring rotating shaft (4), the first rotary table (42) is located above the first mounting plate (3), a crown gear is arranged at the lower end of the first rotary table (42), the axis of the first rotary shaft (53) passes through the axis of the stirring rotating shaft (4), a transmission gear (58) is arranged on the first rotary shaft (53), and the transmission gear (58) is meshed with the crown gear.

4. A tea leaf stirring and frying device with a screening mechanism as claimed in claim 3, wherein the crown gear is a tooth-missing gear.

5. A tea leaf stirring and frying device with a screening mechanism as claimed in claim 4, wherein a plurality of circumferentially distributed tooth-missing sections are arranged on the crown gear.

6. A tea leaf stir-frying device with a screening mechanism according to claim 1, characterized in that the stirring rotating shaft (4) is provided with a first rotary table (42), the first rotary table (42) is located above the first mounting plate (3), the lower end of the first rotary table (42) is provided with a crown gear, the axis of the first rotary shaft (53) is tangential to the first rotary table (42), the first rotary shaft (53) is provided with a transmission gear (58), the first mounting chute (51) is provided with a second rotary shaft (7), the axis of the second rotary shaft (7) passes through the axis of the stirring rotating shaft (4), the second rotary shaft (7) is provided with a second gear (71) and a first bevel gear (72), the transmission gear (58) is a bevel gear, the transmission gear (58) is meshed with the first bevel gear (72), and the second gear (71) is meshed with the crown gear.

7. A tea leaf stirring and frying device with a screening mechanism as claimed in claim 6, wherein the crown gear is provided with a plurality of tooth-missing sections.