CN217569184U - Tealeaves and tea dust separator - Google Patents

Abstract

The utility model relates to a tealeaves production facility technical field specifically is a tealeaves and tea dust separator, including the separation frame, the separation frame divide into disengagement zone and guide district, and install in the disengagement zone and revolve from the subassembly, and with revolve from the relative level of installing of subassembly and lead sediment spare, and relative level lead sediment spare extend in the guide district and link up rather than, revolve from the subassembly including a capstan and hoop install a plurality of appearance on the structure under the capstan, wherein the pan feeding mouth has been seted up to the capstan up end, and connect the spiral groove soon with coaxial having seted up of pan feeding mouth, and with having seted up the guide passageway in the capstan in order to be connected the pan feeding mouth with hold the material body, wherein the end cover is installed to detachable on the relative terminal surface of unit appearance material body and level lead sediment spare. The problem of current method of getting rid of the tealeaves powder mainly be manual mode, manual hand-hold dustpan or silkworm basket, throw the tealeaves of stir-fry in the dustpan or silkworm basket, separate tealeaves and tealeaves powder, the mode of manual rejection is selected separately inefficiency is solved.

Description

Tealeaves and tea dust separator

Technical Field

The utility model relates to a tealeaves production facility technical field specifically is a tealeaves and tea dust separator.

Background

Tea products sold on the market are various in types, the tea is processed by fresh leaves, tender shoots and tender branches of tea trees, and the types of the processed tea are different due to different processing methods. The tea processing process generally comprises primary processing and refining, wherein the primary processing generally comprises enzyme deactivation (or steaming), rolling and drying (sun drying or baking), and the refining generally comprises screening, shaking, picking, drying and the like.

During the processing, storage and transportation of tea, because moisture is evaporated, tea becomes fragile, and is easy to break, and these broken tea dust will be mixed in complete tea, influence the quality of tea, consequently, need to separate these tea dust and tea, and current method of getting rid of tea dust is mainly manual mode, and manual hand-held dustpan or silkworm basket throw the tealeaves of stir-fry in the dustpan or silkworm basket, separate tealeaves and tea dust, and the mode of artifical rejection is selected separately inefficiently.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To prior art's not enough, the utility model provides a tealeaves and tealeaves dust separator has solved current method of getting rid of the tealeaves dust and has mainly been artifical mode, and artifical handheld dustpan or silkworm inscribed board throw and move tealeaves after frying in dustpan or the silkworm inscribed board, separate tealeaves and tealeaves dust, the problem that the mode sorting efficiency is low of artifical rejection.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a tealeaves and tea dust separator, includes the separation frame, the separation frame divide into disengagement zone and guide district to install in the disengagement zone and revolve the subassembly, and with revolve the subassembly relative level of installing and lead the sediment spare, and relative level leads the sediment spare and extends in the guide district and link up with it.

The spiral separation assembly comprises a rotary disc and a plurality of material containing bodies arranged on a structure body at the lower end of the rotary disc in the circumferential direction, wherein a material inlet is formed in the upper end face of the rotary disc, a spiral connection screw groove is formed coaxially with the material inlet, a material guide channel is formed in the rotary disc to connect the material inlet with the material containing bodies, end covers are detachably arranged on the opposite end faces of the unit material containing bodies and the level slag guide pieces, and slag overflow holes are formed in material containing body annular plates.

Preferably, the separation frame includes a frame body and a rotatable driving body installed on the upper end face of the frame body, wherein the driving body extends to the annular face on the upper end of the frame body and is sleeved with a rotating ring, the opposite frame body is provided with a suitable annular groove, and the outer annular face of the end face of the driving body opposite to the rotating disc is sleeved with an abutting-joint barrel and is arranged on the inner annular face of the driving body in a threaded manner.

Preferably, the level slag guide part comprises a material guide disc and a plurality of material bearing bins arranged on the upper end face of the material guide disc, wherein the material bearing bins comprise inner layer material bearing bins and outer layer material bearing bins, the inner layer material bearing bins are made of flexible materials, the inner ring surface of the inner layer material bearing bins is provided with slag overflowing holes, the inner layer material bearing bins are matched with the diameters of the slag overflowing holes and are attached to the material containing body, the upper end faces of the inner layer material bearing bins are connected with the upper end face of the outer layer material bearing bins, and the whole length of the inner layer material bearing bins is smaller than that of the outer layer material bearing bins.

Preferably, the diameter of the driving body is matched with the diameter of the feeding opening, and the length of the driving body extending to the feeding opening is equal to the vertical depth of the feeding opening.

Preferably, a cavity is arranged between the outer layer bearing bin and the inner layer bearing bin at a distance, the outer layer bearing bin and the inner layer bearing bin are communicated with each other through a material guide disc, the material guide disc is communicated with the material guide area to discharge slag materials.

Preferably, the butt joint surface between the outer layer bin and the upper end surface of the material guide disc is convexly arranged to form a frustum, and the lower end surface of the material guide disc is in the shape of a frustum.

(III) advantageous effects

Compared with the prior art, the utility model provides a tealeaves and tea dust separator possesses following beneficial effect:

1. through installing in the disengagement zone and revolve from the subassembly to with revolve from the subassembly relative level of installing and lead sediment spare, with when acting on revolving from the subassembly, the slag charge receives the centrifugal force effect and overflows in the hierarchy and lead sediment spare in overflowing the sediment hole, and the hierarchy leads among the sediment spare and the terminal surface that link up in guide district sets up to the frustum form, and then guarantees that the slag charge leaks in the fluency in guide district, reinforcing separation efficiency.

2. Through leading to be provided with in the sediment spare at the level and hold the feed bin in order to carrying the slag charge of separating soon in holding the material body, wherein hold the feed bin and hold the storehouse including the inlayer and outer, wherein the inlayer holds the storehouse and is flexible material, seted up on its interior anchor ring and laminate on holding the material body with excessive sediment hole diameter adaptation, in order to guarantee that the slag charge can not press from both sides and locate and hold between the storehouse to holding the material body and inlayer, and the inlayer holds the storehouse and outer holds the storehouse up end and link up, and the inlayer holds the storehouse overall length and is less than outer holding the storehouse, in order to guarantee the unobstructed nature of deriving of slag charge.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the spin-off assembly of the present invention;

fig. 3 is a schematic view of the structure of the layered slag-guiding component of the present invention.

In the figure: 1. separating the frame; 11. a frame body; 12. a drive body; 2. a spin-off assembly; 21. rotating the disc; 22. a container body; 23. an end cap; 24. a slag overflow hole; 3. a hierarchical slag guide; 31. a material guide plate; 32. A material receiving bin; 321. an inner layer bin; 322. and an outer layer bearing bin.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

Fig. 1-3 show an embodiment of the present invention, which is a tea and tea dust separating device, comprising a separating frame 1, wherein the separating frame 1 is divided into a separating area and a guiding area, and a rotating-separating assembly 2 is installed in the separating area, and a level slag-guiding member 3 is installed opposite to the rotating-separating assembly 2, and the level slag-guiding member 3 extends in the guiding area and is connected therewith.

The spin-off assembly 2 comprises a rotary disc 21 and a plurality of material containing bodies 22 which are annularly arranged on a structure body at the lower end of the rotary disc 21, wherein a feeding port is formed in the upper end surface of the rotary disc 21, a spin-on screw groove is formed coaxially with the feeding port, a material guide channel is formed in the rotary disc 21 to connect the feeding port with the material containing bodies 22, end covers 23 are in threaded connection with the opposite end surfaces of the unit material containing bodies 22 and the level slag guide members 3, discharging of tea leaves after deslagging is facilitated, and slag overflow holes 24 are formed in a ring plate of the material containing bodies 22.

The separation rack 1 comprises a rack body 11 and a rotatable driving body 12 arranged on the upper end face of the rack body 11, wherein the rack body 11 is divided on a structure body thereof, so that the purpose of separating the upper end and the lower end can be realized, an electric cylinder is arranged on a separation face to push the separation distance, and the distance between a spin-off assembly 2 and a level slag guide member 3 is influenced, wherein the driving body 12 extends out of the ring face of the upper end of the rack body 11 and is sleeved with a spin ring, the opposite rack body 11 is provided with a proper ring groove, an abutting barrel is sleeved on the outer ring face of the end face of the driving body 12 opposite to a spin disc 21 and is arranged on the inner ring face of the driving body in a threaded manner to perform embedded abutting joint, a driving motor is coaxially connected on the upper end face of the driving body 12, the rotation direction of the driving motor when the driving body 12 performs autorotation driving is opposite to the spiral line direction of the screw, when the opposite driving body 12 is arranged on a containing body 22, the motor is reversely rotated to realize the disengagement of the driving body 12 and can perform filling, the diameter of the driving body 12 is matched with the diameter of the feeding port, and the length of the driving body 12 is equal to the vertical depth of the extending from the driving body, so as to prevent the material loss of the driving body in the material outlet during the rotating process of the material outlet.

The hierarchical slag guide member 3 comprises a material guide disc 31 and a plurality of material bearing bins 32 arranged on the upper end surface of the material guide disc 31, wherein the material bearing bins 32 comprise an inner layer material bearing bin 321 and an outer layer material bearing bin 322, the inner layer material bearing bin 321 is made of flexible materials, the inner ring surface of the inner layer material bearing bin is provided with a material bearing body 22 which is matched with the diameter of the slag overflow hole 24 and is attached to the material containing body, the diameter of the end cover 23 is smaller than that of the inner layer material bearing bin 321, the inner layer material bearing bin 321 is connected with the upper end surface of the outer layer material bearing bin 322, the integral length of the inner layer material bearing bin 321 is smaller than that of the outer layer material bearing bin 322, a cavity is arranged between the outer layer material bearing bin 322 and the inner layer material bearing bin 321 at a distance, and the material is guided by the material guide disc 31 which is arranged to penetrate through the outer layer material bearing bin 322, and the guide plate 31 runs through the guide area to discharge the slag, the abutting surface between the upper end surface of the outer bearing bin 322 and the upper end surface of the guide plate 31 is convexly provided with a frustum, the lower end surface of the guide plate 31 is in the shape of a frustum, and a discharge hole is formed in the lower end surface of the guide plate, so that when the material container is used specifically, the inner bearing bin 321 wraps the container 22 to ensure that the slag cannot be clamped between the container 22 and the inner bearing bin 321, and then the slag with the diameter smaller than the slag overflow hole 24 is screwed out of the outer bearing bin 322 by centrifugal force to slide into the guide area, and the tray can be placed in the guide area to facilitate collection.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a tealeaves and tea dust separator, includes separation frame (1), its characterized in that: the separation rack (1) is divided into a separation area and a material guide area, a rotary separation assembly (2) is arranged in the separation area, a level slag guide piece (3) is arranged opposite to the rotary separation assembly (2), and the opposite level slag guide piece (3) extends into the material guide area and is communicated with the material guide area;

the spiral-separating component (2) comprises a rotary disc (21) and a plurality of material containing bodies (22) which are arranged on a structure body at the lower end of the rotary disc (21) in the circumferential direction, wherein a material inlet is formed in the upper end face of the rotary disc (21), a spiral connecting screw groove is formed coaxially with the material inlet, a material guide channel is formed in the rotary disc (21) to connect the material inlet with the material containing bodies (22), end covers (23) are detachably arranged on the opposite end faces of the unit material containing bodies (22) and the level slag guide pieces (3), and slag overflow holes (24) are formed in an annular plate of the material containing bodies (22).

2. The tea leaf and tea dust separating apparatus according to claim 1, wherein: the separation frame (1) comprises a frame body (11) and a rotatable driving body (12) installed on the upper end face of the frame body (11), wherein the driving body (12) extends to the annular face of the upper end of the frame body (11) and is sleeved with a rotating ring, the opposite frame body (11) is provided with a ring groove, and the outer annular face of the end face, opposite to the rotating disc (21), of the driving body (12) is sleeved with an abutting-joint cylinder and is arranged on the inner annular face of the driving body in a threaded mode.

3. The tea leaf and tea dust separating apparatus as claimed in claim 1, wherein: level is led sediment spare (3) including guide plate (31) and is installed in a plurality of material holding storehouses (32) of guide plate (31) up end, wherein holds storehouse (32) including inlayer and holds storehouse (321) and outer storehouse (322), wherein inlayer holds storehouse (321) and is flexible material, seted up on its interior anchor ring with overflow sediment hole (24) diameter adaptation and laminate on holding material body (22), and inlayer holds storehouse (321) and outer storehouse (322) up end and links up to inlayer holds storehouse (321) whole length and is less than outer storehouse (322) of holding.

4. The tea leaf and tea dust separating apparatus according to claim 2, wherein: the diameter of the driving body (12) is matched with the diameter of the feeding hole, and the driving body (12) extends to the length of the feeding hole to be equal to the vertical depth of the feeding hole.

5. A tea and dust separating apparatus as claimed in claim 3, wherein: a cavity is arranged between the outer layer bearing bin (322) and the inner layer bearing bin (321) at a distance, the material is guided through a material guide disc (31) which is communicated with the outer layer bearing bin (322), and the material guide disc (31) is communicated with a material guide area to discharge slag materials.

6. A tea leaf and tea dust separating apparatus as claimed in claim 3, wherein: the butt joint surface between the outer layer bearing bin (322) and the upper end surface of the material guide disc (31) is convexly arranged to be in a frustum shape, and the lower end surface of the material guide disc (31) is in a frustum shape.

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