CN210497277U - Winnowing equipment of high efficiency tea processing - Google Patents

Abstract

The utility model provides a winnowing equipment of high efficiency tea processing, includes the winnowing box, there is first fixed plate winnowing box left end the first half and the latter half respectively fixed mounting, first fixed plate top fixed mounting has first fan, the utility model discloses profitable effect is: the utility model discloses simple structure, and is easy and simple to handle, the tealeaves of selecting the grade difference that can be quick, can be timely with silt in the tealeaves, the tea stalk, impurity such as iron fillings is cleared up, prevent to cause the damage to equipment and lead to the fact the influence to the tea quality in the screening process, can remove dust to tealeaves before tealeaves selection by winnowing process, and can prevent the filter screen blocking who removes dust, the frequency of artifical clearance has been reduced, can dry tealeaves before the selection by winnowing, and carry out the selection by winnowing again after cooling down the tealeaves after drying, prevent that the tealeaves value from taking place rotten, simple high efficiency, convenient and fast.

Description

Winnowing equipment of high efficiency tea processing

Technical Field

The utility model relates to a tea processing winnowing equipment technical field especially relates to a winnowing equipment of high efficiency tea processing.

Background

At present, in the processing and production process of tea, tea leaves can be screened to select tea leaves with different grades, and in the process, wind such as dust, tea leaves and the like is selected to improve the quality of the tea leaves, so that air separation is an essential link in tea processing, the principle of the existing air separator is that the tea leaves with different weights have different aerodynamic characteristics and different drift distances under the action of wind power, the advantages and the disadvantages of the tea leaves are distinguished according to the drift position of the tea leaves, and in the actual production, the following problems exist, firstly, the tea leaves with different sizes and the same weight and other impurities with the same quality as high-quality tea leaves can not be effectively distinguished, therefore, the tea leaves separated by the air separator are further screened to clean out the impurities such as the tea leaves with sizes not conforming to the specification, the silt, the peduncle tea leaves, the scrap iron and the like, therefore, additional processes are required for supplementary screening, which wastes labor; secondly, the leaves need to be subjected to a dust removal process in the production process, a filter screen of the existing tea leaves is easy to block during dust removal, the working reliability of the device is affected, the frequency of cleaning and maintenance of a user is increased, and the use burden of the user is increased; third, and current tealeaves selection by winnowing equipment can not dry tealeaves, and fourth, tealeaves high temperature after the stoving, need cool off fast, regain moisture and spread out cool, if tealeaves can not be cooled off, too high heat can cause the matter of tealeaves to become and the fermentation, consequently need cool off fast after tealeaves dries.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that above-mentioned prior art exists, the utility model provides a selection by winnowing equipment of high efficiency tea processing, can be quick select the different tealeaves of grade, can be timely clear up impurity such as silt, tea stalk, iron fillings in the tealeaves, can remove dust to tealeaves before the tealeaves selection by winnowing process, and can prevent the filter screen that removes dust and block up, can dry tealeaves before the selection by winnowing, and carry out the selection by winnowing again after cooling down the tealeaves after drying, simple high efficiency, convenient and fast.

The utility model provides a technical scheme that its technical problem adopted: the winnowing device for high-efficiency tea processing comprises a winnowing box, wherein the upper half part and the lower half part of the left end of the winnowing box are respectively and fixedly provided with a first fixed plate, the top of the first fixed plate is fixedly provided with a first fan, the upper half part and the lower half part of the inner wall of the right end of the winnowing box are respectively provided with an air inlet, the left end of the first fan is provided with a first air pipe fixedly connected with the inner wall of the air inlet, winnowing plates are connected between the inner walls of the winnowing boxes in a sliding manner, the inner wall of the right end of the winnowing box is provided with a discharge port corresponding to the air inlet, the right half part inside the winnowing box is provided with a fixed sliding column, the top and the bottom of the fixed sliding column are fixedly connected with the inner wall of the top part and the inner wall of the bottom part of the winnowing box, the, the bottom of the first motor is provided with a lead screw which is rotatably connected with the inner wall of the bottom of the winnowing box after penetrating through the bottom of the cooling box and the top of the winnowing box, the outer side of the lead screw is in threaded connection with the inner part of the winnowing plate, the inner walls of the left end and the right end of the cooling box are provided with heat dissipation ventilation holes, the center of the top of the cooling box is provided with a first material guide hole, the center of the inner wall of the top of the cooling box is fixedly provided with a cooling cylinder, the top of the cooling cylinder is communicated with the first material guide hole, the outer side of the cooling cylinder is fixedly provided with a refrigerator, the outer side of the cooling cylinder is fixedly provided with a first driven gear positioned below the refrigerator, the right end of the inner wall of the bottom of the cooling box is fixedly provided with a second motor, the outer side of an output shaft at the top of the second motor is fixedly, the outer side of the material guide pipe is rotatably connected with the bottom of the cooling tank and the top of the winnowing tank, the inner wall of the material guide pipe is conical from top to bottom, and in sum, the inner diameter of the first material guide opening in the device is smaller than that of the cooling cylinder.

For further improvement, an impurity removing box is fixedly installed at the top of the cooling box, displacement channels are respectively arranged at the top and the bottom of the impurity removing box, the displacement channel of the inner wall of the bottom of the impurity removing box is communicated with a first material guiding opening, an impurity removing barrel is arranged in the impurity removing box, the top of the impurity removing barrel penetrates through the displacement channel at the top of the impurity removing box and then reaches the upper part of the impurity removing box, the bottom of the impurity removing barrel penetrates through the displacement channel at the bottom of the impurity removing box and the first material guiding opening and then reaches the inside of the cooling barrel, a displacement chute is arranged in the displacement channel, a rotary disc which is in sliding connection with the displacement chute is rotatably connected to the outer side of the impurity removing barrel, a reset spring which is fixedly connected with the inner wall of the displacement chute is fixedly installed at one end of the rotary disc, which is far away from the impurity removing barrel, the inner wall of the air guide cylinder is fixedly provided with an air heater, the inner wall of the impurity removing cylinder is fixedly provided with a cross positioned below the blocking nets, the center of the cross is fixedly provided with a rotating shaft extending between the blocking nets, the outer side of the rotating shaft is fixedly provided with a stirring rod in an array manner, the outer side of the impurity removing cylinder is fixedly provided with a second driven gear positioned below the air guide cylinder, the right side of the air guide cylinder is provided with a third motor, the outer side of an output shaft at the top of the third motor is fixedly provided with a second driving gear meshed with the second driven gear, the bottom of the third motor is fixedly provided with a second fixed plate fixedly arranged with the right end of the impurity removing cylinder, the outer side of the impurity removing cylinder is rotatably connected with a shaft sleeve positioned below the second fixed plate, the inner wall at the bottom of the impurity removing box, the device comprises an impurity removing box, a baffle net, an air guide cylinder, an electromagnetic net, an air guide cylinder, an impurity removing box and a control box, wherein the impurity removing box is arranged in the middle of the impurity removing box, the baffle net is arranged on the inner wall of the impurity removing box, the control box is arranged in the middle of the impurity removing box, the baffle net is arranged on the inner wall of the impurity.

The utility model discloses profitable effect is: the utility model discloses simple structure, and is easy and simple to handle, the tealeaves of selecting the grade difference that can be quick, can be timely with silt in the tealeaves, the tea stalk, impurity such as iron fillings is cleared up, prevent to cause the damage to equipment and lead to the fact the influence to the tea quality in the screening process, can remove dust to tealeaves before tealeaves selection by winnowing process, and can prevent the filter screen blocking who removes dust, the frequency of artifical clearance has been reduced, can dry tealeaves before the selection by winnowing, and carry out the selection by winnowing again after cooling down the tealeaves after drying, prevent that the tealeaves value from taking place rotten, simple high efficiency, convenient and fast.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a partial enlarged view a in fig. 1.

Description of reference numerals: the device comprises an air separation box 1, a screw rod 2, an air separation plate 3, a discharge hole 4, a material guide pipe 5, a first motor 6, a first driven gear 7, a heat dissipation vent hole 8, a refrigerator 9, an impurity removal barrel 10, a shaft sleeve 11, a third motor 12, a second driven gear 13, a cross 14, a hot air blower 15, a stirring rod 16, an air guide barrel 17, an ultraviolet lamp 18, a feeding funnel 19, an electromagnetic net 20, an impurity removal box 21, a cloth bag 22, a blocking net 23, a rotating shaft 24, a second driving gear 25, a cooling box 26, a cam 27, a fourth motor 28, a first material guide opening 29, a cooling barrel 30, a second motor 32, a first fan 33, a first air pipe 34, a first fixing plate 35, a fixed sliding column 36, a vibrator 37, a displacement chute 38, a return spring 39, a rotary table 40, an air inlet 41, a displacement channel 42 and a second fixing plate 43.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

with reference to figures 1, 2: the embodiment of the invention relates to a winnowing device for high-efficiency tea processing, which comprises a winnowing box 1, wherein the upper half part and the lower half part of the left end of the winnowing box 1 are respectively and fixedly provided with a first fixing plate 35, the top of the first fixing plate 35 is fixedly provided with a first fan 33, the upper half part and the lower half part of the right end inner wall of the winnowing box 1 are respectively provided with an air inlet 41, the left end of the first fan 33 is provided with a first air pipe 34 fixedly connected with the inner wall of the air inlet 41, the inner walls of the winnowing boxes 1 are slidably connected with a winnowing plate 3, the right end inner wall of the winnowing box 1 is provided with a discharge hole 4 corresponding to the air inlet 41, the right half part of the inside of the winnowing box 1 is provided with a fixed sliding column 36, the top and the bottom of the fixed sliding column 36 are fixedly connected with, the top of the winnowing box 1 is fixedly provided with a cooling box 26, the bottom of the left end of the cooling box 26 is fixedly provided with a first motor 6, the bottom of the first motor 6 is provided with a lead screw 2 which is rotatably connected with the inner wall of the bottom of the winnowing box 1 after penetrating through the bottom of the cooling box 26 and the top of the winnowing box 1, the outer side of the lead screw 2 is in threaded connection with the inner part of the winnowing plate 3, the inner walls of the left end and the right end of the cooling box 26 are provided with heat dissipation ventilation holes 8, the center of the top of the cooling box 26 is provided with a first material guide port 29, the center of the inner wall of the top of the cooling box 26 is fixedly provided with a cooling cylinder 30 of which the top is communicated with the first material guide port 29, the outer side of the cooling cylinder 30 is fixedly provided with a refrigerator 9, the outer side of the cooling cylinder 30 is fixedly provided with a first driven gear 7 positioned below the refrigerator 9, the first motor 6 is located below the first driven gear 7, the material guide pipe 5 is fixedly installed on the inner wall of the bottom of the cooling cylinder 30, the bottom of the material guide pipe penetrates through the bottom of the cooling box 26 and the top of the winnowing box 1, the outer side of the material guide pipe 5 is rotatably connected with the bottom of the cooling box 26 and the top of the winnowing box 1, and the inner wall of the material guide pipe 5 is conical from top to bottom.

With reference to figures 1, 2: the top of the cooling box 26 is fixedly provided with an impurity removing box 21, the top and the bottom of the impurity removing box 21 are respectively provided with a displacement channel 42, the displacement channel 42 of the inner wall of the bottom of the impurity removing box 21 is communicated with a first material guiding opening 29, an impurity removing barrel 10 is arranged in the impurity removing box 21, the top of the impurity removing barrel 10 passes through the displacement channel 42 of the top of the impurity removing box 21 and then reaches the upper part of the impurity removing box 21, the bottom of the impurity removing barrel 10 passes through the displacement channel 42 of the bottom of the impurity removing box 21 and the first material guiding opening 29 and then reaches the inside of the cooling barrel 30, a displacement chute 38 is arranged in the displacement channel 42, the outer side of the impurity removing barrel 10 is rotatably connected with a turntable 40 which is in sliding connection with the displacement chute 38, a return spring 39 which is fixedly connected with the inner wall of the displacement chute 38 is fixedly arranged at one end of the turntable 40 far away from the impurity removing barrel 10 in an array manner, a blocking, the inner wall of the air duct 17 is fixedly provided with an air heater 15, the inner wall of the impurity removing barrel 10 is fixedly provided with a cross 14 positioned below the blocking nets 23, the center of the cross 14 is fixedly provided with a rotating shaft 24 extending between the blocking nets 23, the outer side of the rotating shaft 24 is fixedly provided with a stirring rod 16 in an array manner, the outer side of the impurity removing barrel 10 is fixedly provided with a second driven gear 13 positioned below the air duct 17, the right side of the air duct 17 is provided with a third motor 12, the outer side of the output shaft at the top of the third motor 12 is fixedly provided with a second driving gear 25 engaged with the second driven gear 13, the bottom of the third motor 12 is fixedly provided with a second fixing plate 43 fixedly arranged at the right end of the impurity removing barrel 10, the outer side of the impurity removing barrel 10 is rotatably connected with a shaft sleeve 11 positioned below the second fixing plate 43, and, the outer side of an output shaft at the top of the fourth motor 28 is fixedly provided with a cam 27 which is propped against the shaft sleeve 11, the inner wall array of the impurity removing cylinder 10 is fixedly provided with an ultraviolet lamp 18 which is positioned above the blocking net 23, the top of the impurity removing cylinder 10 is hermetically connected with a feeding funnel 19, the inner wall of the lower half part of the feeding funnel 19 is fixedly provided with an electromagnetic net 20, and the right end of an air guide cylinder 17 at the inner wall of the right end of the impurity removing box 21 is fixedly provided with a cloth bag 22 which is positioned.

When the tea leaf cleaning machine is used, tea leaves to be selected are poured into the feeding funnel 19, the electromagnetic net 20 can adsorb scrap iron in the tea leaves, when the tea leaves enter the impurity removing cylinder 10, the ultraviolet lamp 18 can sterilize the tea leaves, the third motor 12 is started to drive the second driving gear 25 to rotate, the second driving gear 25 rotates to drive the second driven gear 13 to rotate, the second driven gear 13 rotates to drive the impurity removing cylinder 10 to rotate, the impurity removing cylinder 10 rotates to drive the cross 14 to rotate, the cross 14 rotates to drive the stirring rod 16 to scatter the tea leaves and increase the retention time of the tea leaves in the impurity removing cylinder 10, the hot air blower 15 is started at the same time to blow impurities such as soil, dust and gravel in the tea leaves into the cloth bag 22 through the blocking net 23 to be collected, air pollution is prevented, the tea leaves are dried, the fourth motor 28 is started periodically, the fourth motor 28 drives the cam 27 to rotate and knock the impurity removing cylinder 10 so as to remove the impurities blocked on, tealeaves falls into cooling cylinder 30 through removing miscellaneous section of thick bamboo 10 and starts second motor 32 after, second motor 32 starts the back and drives first driving gear 31 rotatory, first driving gear 31 is rotatory to drive first driven gear 7 rotatory, it is rotatory that first driven gear 7 is rotatory to drive cooling cylinder 30, start refrigerator 9 simultaneously, tealeaves in cooling cylinder 30 is cooled by even dispersion, evenly fall at air separator 3 top through passage 5 after the tealeaves cools off, it drives air separator 3 up-and-down motion to discharge gate 4 below to start first motor 6 afterwards, first fan 33 can blow off different wind-force and carry out the selection by winnowing to tealeaves, electromagnetic shaker 37 can shake tealeaves so that better carrying out the selection by winnowing

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (2)

1. The utility model provides a winnowing equipment of high efficiency tea processing, includes winnowing box (1), characterized by: the air separation box is characterized in that the upper half part and the lower half part of the left end of the air separation box (1) are respectively and fixedly provided with a first fixing plate (35), the top of the first fixing plate (35) is fixedly provided with a first fan (33), the upper half part and the lower half part of the right end inner wall of the air separation box (1) are respectively provided with an air inlet (41), the left end of the first fan (33) is provided with a first air pipe (34) fixedly connected with the inner wall of the air inlet (41), the inner wall of the air separation box (1) is in sliding connection with an air separation plate (3), the right end inner wall of the air separation box (1) is provided with a discharge port (4) corresponding to the air inlet (41), the right half part inside the air separation box (1) is provided with a fixed sliding column (36) fixedly connected with the top and the bottom and the inner wall of the top and the, winnowing plate (3) inside electromagnetic shaker (37) that is equipped with, winnowing box (1) top fixed mounting has cooler bin (26), cooler bin (26) left end bottom fixed mounting has first motor (6), install lead screw (2) of being connected with winnowing box (1) bottom inner wall rotation after passing cooler bin (26) bottom and winnowing box (1) top in first motor (6) bottom, lead screw (2) outside and winnowing plate (3) internal thread are connected, both ends inner wall is equipped with heat dissipation ventilation hole (8) about cooler bin (26), cooler bin (26) top center is equipped with first guide opening (29), cooler bin (26) top inner wall center fixed mounting has cooling cylinder (30) of top and first guide opening (29) intercommunication, cooling cylinder (30) outside fixed mounting has refrigerator (9), cooling cylinder (30) outside fixed mounting has first driven gear (7) that are located refrigerator (9) below ) The utility model discloses a cooler bin (26) bottom inner wall right-hand member fixed mounting has second motor (32), second motor (32) top output shaft outside fixed mounting has first driving gear (31) with first driven gear (7) meshing, first motor (6) are located first driven gear (7) below, cooler bin (30) bottom inner wall fixed mounting has passage (5) that the bottom passed cooler bin (26) bottom and winnowing box (1) top, passage (5) outside is rotated with cooler bin (26) bottom and winnowing box (1) top and is connected, passage (5) inner wall from the top down is the toper.

2. The air separation apparatus for high efficiency tea processing as claimed in claim 1, wherein: the device is characterized in that an impurity removing box (21) is fixedly mounted at the top of the cooling box (26), displacement channels (42) are respectively arranged at the top and the bottom of the impurity removing box (21), the displacement channel (42) of the inner wall of the bottom of the impurity removing box (21) is communicated with a first material guide opening (29), an impurity removing barrel (10) is arranged inside the impurity removing box (21), the top of the impurity removing barrel (10) penetrates through the displacement channel (42) at the top of the impurity removing box (21) and then reaches the upper part of the impurity removing box (21), the bottom of the impurity removing barrel (10) penetrates through the displacement channel (42) at the bottom of the impurity removing box (21) and the first material guide opening (29) and then reaches the inside of the cooling barrel (30), a displacement chute (38) is arranged inside the displacement channel (42), a rotary disc (40) which is connected with the displacement chute (38) in a rotating mode is rotatably arranged on the outer side of the impurity removing barrel (10), a return spring (39) which is fixedly, a blocking net (23) is arranged in the middle of the impurity removing barrel (10), air guide barrels (17) which are aligned with the blocking net (23) and communicated with the outside are fixedly installed on the inner walls of the left end and the right end of the impurity removing barrel (10), hot air blowers (15) are fixedly installed on the inner walls of the air guide barrels (17), a cross frame (14) which is located below the blocking net (23) is fixedly installed on the inner wall of the impurity removing barrel (10), a rotating shaft (24) which extends to the position between the blocking nets (23) is fixedly installed in the center of the cross frame (14), stirring rods (16) are fixedly installed on the outer side of the rotating shaft (24) in an array mode, a second driven gear (13) which is located below the air guide barrel (17) is fixedly installed on the outer side of the impurity removing barrel (10), a third motor (12) is arranged on the right side of the air guide barrel (17), and a second driving gear (25), a second fixing plate (43) fixedly arranged at the right end of the impurity removing barrel (10) is fixedly arranged at the bottom of the third motor (12), the outer side of the impurity removing barrel (10) is rotationally connected with a shaft sleeve (11) positioned below the second fixing plate (43), a fourth motor (28) is fixedly arranged on the inner wall of the bottom of the impurity removing box (21), a cam (27) abutting against the shaft sleeve (11) is fixedly arranged on the outer side of an output shaft at the top of the fourth motor (28), ultraviolet lamps (18) positioned above the blocking net (23) are fixedly arranged on the inner wall array of the impurity removing barrel (10), the top of the impurity removing barrel (10) is hermetically connected with a feeding funnel (19), the inner wall of the lower half part of the feeding funnel (19) is fixedly provided with an electromagnetic net (20), the right end of the air duct (17) on the inner wall of the right end of the impurity removing box (21) is fixedly provided with a cloth bag (22) outside the impurity removing box (21).

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