CN220308318U - Equipment is broken up to tealeaves integer - Google Patents

Abstract

The utility model relates to the technical field of tea shaping, and provides tea shaping and scattering equipment which comprises a shaping unit, a first conveying unit, a second conveying unit, a third conveying unit, a scattering unit and an air suction unit, wherein the first conveying unit is arranged between an outlet of the shaping unit and an inlet of the scattering unit; the inlet end of the second conveying unit is arranged at the outlet of the scattering unit, and the outlet end of the second conveying unit is positioned in the air suction unit; the inlet end of the third conveying unit is positioned in the air suction unit, the outlet end of the third conveying unit is arranged between the inlet ends of the shaping units, and the outlet end of the second conveying unit is higher than the inlet end of the third conveying unit. According to the utility model, tea leaves enter the inlet end of the third conveying unit in a falling manner at the outlet end of the second conveying unit, and fine tea dust can be sucked by the air suction unit in the falling process, so that the fine tea dust is prevented from entering the shaping unit.

Description

Equipment is broken up to tealeaves integer

Technical Field

The utility model relates to the technical field of tea shaping, in particular to tea shaping and scattering equipment.

Background

In the processing process of tea, certain standards are provided for the preparation of various tea, and the curling, rounding, leveling, sand green and the like of the tea are common characteristics of the shaped tea, so that in order to achieve the quality characteristics, the tea green needs to be treated by repeatedly adopting a fast packing-kneading process after the tea is deactivated, so that the tea shape can meet the quality requirements of the tea.

CN201210099227.7 discloses a tea leaf rolling, scattering and shaping integrated machine, which comprises a machine frame, a tea leaf rolling and shaping device composed of a rolling cavity and a control system, and further comprises a tea leaf scattering device, wherein the tea leaf scattering device comprises a feeding and scattering mechanism capable of loading tea leaves and scattering and a lifting mechanism for controlling the lifting of the feeding and scattering mechanism, the feeding and scattering mechanism is hinged on the tea leaf rolling and shaping device, and a feeding port and a discharging port are arranged on the feeding and scattering mechanism and correspond to the rolling cavity of the tea leaf rolling and shaping device.

According to the technical scheme, tea leaves can be pressed and kneaded in the tea leaf kneading and forming device, after shaping, the tea leaves in the kneading and forming cavity can be automatically poured into the tea leaf scattering device to be evenly scattered and radiated, but in the scattering process, the tea leaves can be scattered by the scattering device to generate fine tea dust, if the tea dust is poured into the tea leaf kneading and forming device, the tea leaf kneading and forming device cannot shape the fine tea dust together, and therefore the tea dust is difficult to clean after being remained in the device.

Disclosure of Invention

The utility model aims to solve the problems, and provides tea shaping and scattering equipment, which is provided with an air suction unit between the outlet end of a second conveying unit and the inlet end of a third conveying unit, wherein the outlet end of the second conveying unit is higher than the inlet end of the third conveying unit, so that tea enters the inlet end of the third conveying unit in a falling way at the outlet end of the second conveying unit, and fine tea dust can be sucked by the air suction unit in the falling process, so that the fine tea dust is prevented from entering the shaping unit.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the tea shaping and scattering equipment comprises a shaping unit, a first conveying unit, a second conveying unit, a third conveying unit, a scattering unit and an air suction unit, wherein the first conveying unit is arranged between an outlet of the shaping unit and an inlet of the scattering unit; the inlet end of the second conveying unit is arranged at the outlet of the scattering unit, and the outlet end of the second conveying unit is positioned in the air suction unit; the inlet end of the third conveying unit is positioned in the air suction unit, the outlet end of the third conveying unit is arranged between the inlet ends of the shaping units, and the outlet end of the second conveying unit is higher than the inlet end of the third conveying unit.

In the tea integer scattering equipment, the air suction unit comprises an outer shell body and an air suction device, a storage box is arranged at the top of the outer shell body, the air suction device is arranged at the top of the outer shell body and is communicated with the storage box, a first opening and a second opening are formed in the side face of the outer shell body, the first opening is higher than the second opening, the outlet end of the second conveying unit is located in the first opening, and the inlet end of the third conveying unit is located in the second opening.

In the tea shaping and scattering device, the tea shaping and scattering device further comprises a blowing device, wherein the blowing device is arranged on the side face of the outer shell, is arranged between the second conveying unit and the third conveying unit and is positioned between the outlet end of the second conveying unit and the inlet end of the third conveying unit.

In the tea integer scattering equipment, the outer shell is of a cylindrical structure.

In the above-mentioned tealeaves integer scattering equipment, integer unit includes the frame, be equipped with in the frame and deposit the chamber, still be equipped with in the frame from the frame top to deposit the first module that compresses tightly that the intracavity moved, from the rear side of frame to the second that the front side moved compress tightly the module, from the left and right sides of frame to deposit the third that the intracavity moved compress tightly the module, be located the upset module of frame front side, the closed cavity that first compress tightly module, second compress tightly the module, third compress tightly the module, upset module constitutes is integer die cavity.

In the tea shaping and scattering device, the first pressing module comprises a first pressing plate positioned at the top of the storage cavity and a first driving assembly for driving the first pressing plate to move from the top of the frame to the storage cavity; the second pressing module comprises a second pressing plate positioned at the rear side of the storage cavity and a second driving assembly for driving the second pressing plate to move to the front side; the third pressing module comprises third pressing plates positioned at the left side and the right side of the storage cavity and a third driving assembly for driving the third pressing plates to move into the storage cavity;

the turnover module comprises a fourth driving assembly positioned in the frame and an L-shaped plate connected with the fourth driving assembly, wherein the L-shaped plate comprises a transverse plate and a vertical plate, the vertical plate is positioned on the front side of the storage cavity, and the transverse plate is positioned at the bottom of the storage cavity.

In the tea integer scattering equipment, the scattering unit is a scattering roller.

In the tea shaping and scattering equipment, the first conveying unit is a first conveying belt; the second conveying unit is a second conveying belt, and the third conveying unit is a third conveying belt.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the air suction unit is arranged between the outlet end of the second conveying unit and the inlet end of the third conveying unit, and the outlet end of the second conveying unit is higher than the inlet end of the third conveying unit, so that tea leaves enter the inlet end of the third conveying unit in a falling manner at the outlet end of the second conveying unit, and fine tea dust can be sucked by the air suction unit in the falling process, so that the fine tea dust is prevented from entering the shaping unit.

Drawings

FIG. 1 is a perspective view of a tea leaf shaping and scattering apparatus of example 1;

figure 2 is a top view of the tea leaf shaping and breaking device of example 1;

fig. 3 is a perspective view of an air suction unit of the tea leaf shaping-scattering apparatus of example 1;

fig. 4 is a perspective view of the shaping unit of the tea shaping and scattering apparatus of example 1.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-4, the tea shaping and scattering equipment comprises a shaping unit 1, a first conveying unit 2, a second conveying unit 3, a third conveying unit 4, a scattering unit 5 and an air suction unit 6, wherein the first conveying unit 2 is arranged between an outlet of the shaping unit 1 and an inlet of the scattering unit 5; the inlet end of the second conveying unit 3 is arranged at the outlet of the scattering unit 5, and the outlet end of the second conveying unit 3 is positioned in the air suction unit 6; the inlet end of the third conveying unit 4 is positioned in the air suction unit 6, the outlet end of the third conveying unit 4 is arranged between the inlet ends of the shaping units 1, and the outlet end of the second conveying unit 3 is higher than the inlet end of the third conveying unit 4.

Under this design, the person skilled in the art pours the tea leaves to be shaped into shaping unit 1, then starts shaping unit 1 to carry out primary shaping to the tea leaves, become the tea brick by the tea leaves, shaping unit 1 carries the tea brick to first conveying unit 2 after the shaping is accomplished, first conveying unit 2 carries the tea brick to break up in the unit 5, break up unit 5 breaks up the tea brick into initial state, then carry to second conveying unit 3 from break up unit 5, break up unit 5 will break up some tealeaves this moment, thereby produce tiny tea dust, these tea dust can carry together in second conveying unit 3, then enter into induced draft unit 6 from second conveying unit 3, because the exit end of second conveying unit 3 is higher than the entry end of third conveying unit 4, such difference in height can make the tealeaves get into third conveying unit 4 in the form of whereabouts, in the process of whereabouts, because the weight of tea dust is lighter, so can be absorbed by induced draft unit 6, and weight is great can fall down, these tea dust can be carried together in second conveying unit 3, then get into the form of granulated tea dust again, and get into step 1 from third conveying unit 3 again, and get into the tea dust into shaping unit 1 again, and get into step in order to get into shape.

In this embodiment, the air suction unit 6 includes an outer housing 61 and an air suction device 62, a storage tank 611 is disposed at the top of the outer housing 61, the air suction device 62 is mounted at the top of the outer housing 61 and communicates the outer housing 61 with the storage tank 611, a first opening 612 and a second opening 613 are disposed on a side surface of the outer housing 61, the first opening 612 is higher than the second opening 613, an outlet end of the second conveying unit 3 is located in the first opening 612, and an inlet end of the third conveying unit 4 is located in the second opening 613.

Specifically, through setting up the casing, not only can prevent when tealeaves whereabouts, the work annular pollution that causes can also reduce the working space of device 62 induced drafts moreover, makes the suction of device 62 induced drafts stronger, and the accurate garrulous piece of tiny tealeaves is sucked away, and tiny tealeaves garrulous piece can be inhaled to bin 611 by device 62 induced drafts.

Preferably, a blowing device 63 is also included, said blowing device 63 being mounted at the side of the outer casing 61, said blowing device 63 being between the second conveying unit 3 and the third conveying unit 4 and being located between the outlet end of the second conveying unit 3 and the inlet end of the third conveying unit 4.

Further, the outer housing 61 is of cylindrical configuration.

The outer casing 61 having a cylindrical structure can make the installation of the blowing device 63 more convenient because the outlet end of the second conveying unit 3 is above the inlet end of the third conveying unit 4, that is, if blowing air at the bottom, the air is blocked by the third conveying unit 4 and cannot be normally blown; if the blowing device 63 is installed on the outer housing 61 away from the outer sides of the second and third conveying units 3 and 4, it is easy to blow out tea dust from the first and second openings 612 and 613 at the time of blowing, so that an optimum installation position is between the second and third conveying units 3 and 4 and between the outlet end of the second conveying unit 3 and the inlet end of the third conveying unit 4, so that not only can blowing out tea dust from the first and second openings 612 and 613 but also dust attached to tea dust can be blown out during the falling process.

In this embodiment, the shaping unit 1 includes a frame 11, a storage cavity 111 is disposed in the frame 11, a first compression module 112 moving from the top of the frame 11 to the storage cavity 111, a second compression module 113 moving from the rear side of the frame 11 to the front side, a third compression module 114 moving from the left and right sides of the frame 11 to the storage cavity 111, and a turnover module 115 located at the front side of the frame 11 are further disposed on the frame 11, and a closed cavity formed by the first compression module 112, the second compression module 113, the third compression module 114, and the turnover module 115 is a shaping cavity.

In practical application, after tealeaves drops to deposit the intracavity 111, firstly carry out preliminary pushing down through first compression module 112 to deposit tealeaves in the intracavity 111, then second compression module 113 moves from the back forward, carry out the secondary extrusion to depositing tealeaves in the chamber 111, then third compression module 114 of the left and right sides of frame 11 extrudees towards depositing chamber 111 center department, carry out the tertiary extrusion to tealeaves, tealeaves is pressed to the tea brick this moment, and lie in upset module 115, the sealed cavity that first compression module 112, second compression module 113, third compression module 114, upset module 115 constitute is the integer chamber, finally third compression module 114, second compression module 113, first compression module 112 reset in proper order, carry the tea brick to first conveying unit 2 by upset module 115.

In this embodiment, the first pressing module 112 includes a first pressing plate 1121 located at the top of the storage cavity 111, and a first driving component 1122 for driving the first pressing plate 1121 to move from the top of the frame 11 into the storage cavity 111; the second pressing module 113 includes a second pressing plate 1131 located at the rear side of the storage cavity 111, and a second driving assembly 1132 for driving the second pressing plate 1131 to move toward the front side; the third pressing module 114 includes a third pressing plate 1141 disposed at the left and right sides of the storage cavity 111, and a third driving assembly 1142 for driving the third pressing plate 1141 to move into the storage cavity 111;

the flipping module 115 includes a fourth drive assembly (not shown) within the housing 11, an L-shaped plate coupled to the fourth drive assembly, the L-shaped plate including a cross plate 1151 and a riser 1152, the riser 1152 being located on a front side of the storage cavity 111, the cross plate 1151 being located at a bottom of the storage cavity 111.

Therefore, in operation, the first pressing plate 1121 moves downward under the driving of the first driving component 1122 to press tea leaves, the second pressing plate 1131 moves forward under the driving of the second driving component 1132 to press tea leaves, the third pressing plate 1141 moves inside the storage cavity 111 under the driving of the third driving component 1142 to squeeze both sides of tea leaves, after the squeezing is completed, the brick tea is located on the transverse plate 1151 of the overturning module 115, and the transverse plate 1151 is driven to swing by the driving of the vertical plate 1152 through the fourth driving component, so that the brick tea is overturned from the storage cavity 111 and falls onto the first conveying unit 2.

Here, the first drive assembly 1122, the second drive assembly 1132, and the third drive assembly 1142 are preferably cylinders because a sufficient force is required for pressing.

Preferably, the breaking unit 5 is a breaking drum. The roller is adopted because the roller is convenient to install and is simple to operate.

Preferably, the first conveying unit 2 is a first conveying belt; the second conveying unit 3 is a second conveying belt, and the third conveying unit 4 is a third conveying belt.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications or variations could be made by those skilled in the art without departing from the principles of the present utility model, and such modifications or variations should also be considered as being within the scope of the present utility model.

Claims (8)

1. The tea shaping and scattering equipment comprises a shaping unit, a first conveying unit, a second conveying unit, a third conveying unit, a scattering unit and an air suction unit, and is characterized in that the first conveying unit is arranged between an outlet of the shaping unit and an inlet of the scattering unit; the inlet end of the second conveying unit is arranged at the outlet of the scattering unit, and the outlet end of the second conveying unit is positioned in the air suction unit; the inlet end of the third conveying unit is positioned in the air suction unit, the outlet end of the third conveying unit is arranged between the inlet ends of the shaping units, and the outlet end of the second conveying unit is higher than the inlet end of the third conveying unit.

2. The tea shaping and scattering device as claimed in claim 1, wherein the air suction unit comprises an outer shell and an air suction device, a storage box is arranged at the top of the outer shell, the air suction device is arranged at the top of the outer shell and enables the outer shell to be communicated with the storage box, a first opening and a second opening are arranged on the side face of the outer shell, the first opening is higher than the second opening, an outlet end of the second conveying unit is located at the first opening, and an inlet end of the third conveying unit is located at the second opening.

3. A tea leaf shaping and breaking device according to claim 2, further comprising a blowing device mounted to the side of the outer casing, the blowing device being between the second and third conveying units and between the outlet end of the second conveying unit and the inlet end of the third conveying unit.

4. A tea leaf shaping and breaking device according to claim 3, wherein the outer housing is of cylindrical configuration.

5. The tea shaping and scattering device as claimed in claim 1, wherein the shaping unit comprises a frame, a storage cavity is arranged in the frame, a first compression module moving from the top of the frame to the storage cavity, a second compression module moving from the rear side to the front side of the frame, a third compression module moving from the left side and the right side of the frame to the storage cavity, and a turnover module positioned at the front side of the frame are further arranged on the frame, and a closed cavity formed by the first compression module, the second compression module, the third compression module and the turnover module is a shaping cavity.

6. A tea leaf shaping and scattering device according to claim 5, wherein the first pressing module comprises a first pressing plate positioned at the top of the storage cavity and a first driving assembly for driving the first pressing plate to move from the top of the frame into the storage cavity; the second pressing module comprises a second pressing plate positioned at the rear side of the storage cavity and a second driving assembly for driving the second pressing plate to move to the front side; the third pressing module comprises third pressing plates positioned at the left side and the right side of the storage cavity and a third driving assembly for driving the third pressing plates to move into the storage cavity;

the turnover module comprises a fourth driving assembly positioned in the frame and an L-shaped plate connected with the fourth driving assembly, wherein the L-shaped plate comprises a transverse plate and a vertical plate, the vertical plate is positioned on the front side of the storage cavity, and the transverse plate is positioned at the bottom of the storage cavity.

7. A tea leaf shaping and breaking-up device according to claim 1, wherein the breaking-up unit is a breaking-up drum.

8. A tea leaf shaping and scattering device as claimed in claim 1, wherein the first conveying unit is a first conveyor belt; the second conveying unit is a second conveying belt, and the third conveying unit is a third conveying belt.