CN220777292U - Tea wrap machine - Google Patents

Abstract

The utility model relates to a tea wrap machine, which comprises a roller, and further comprises an air outlet, a first heat absorption cavity, a first heat absorption pipe, a chimney, a first pipeline, a second pipeline and a blower, wherein the chimney, the first heat absorption cavity and the air outlet are sequentially connected from top to bottom and are mutually communicated, the air outlet is arranged at the top end of the roller, the first heat absorption cavity is arranged in an inverted T shape, the first heat absorption pipe is horizontally and uniformly embedded in the first heat absorption cavity, both ends of the first heat absorption pipe penetrate through the first heat absorption cavity, the first pipeline is arranged at one side of the first heat absorption cavity and is used for mutually communicating the first heat absorption pipes at the upper end and the lower end of the first heat absorption cavity, and the blower is arranged at the other side of the first heat absorption cavity and is used for mutually communicating the first heat absorption pipe at the lower end of the first heat absorption cavity with the interior of the roller through the second pipeline. The utility model aims to provide a tea enzyme deactivating machine which can recover heat and save energy when tea enzyme is deactivated.

Description

Tea wrap machine

Technical Field

The utility model relates to the technical field of tea processing equipment, in particular to a tea fixation machine.

Background

In the course of tea coarse processing, tea needs to be subjected to enzyme deactivation processing, namely the picked tea is subjected to high-temperature treatment, and the enzyme activity in the tea is thoroughly stopped, so that the tea is not fermented any more. The existing roller fixation machine equipment is often used for fixation processing of tea, the roller needs to be heated in the processing process, the traditional fixation machine can lose much heat through a chimney in the processing process, the heat efficiency is extremely low, and the productivity is low.

Based on the current situation, a tea fixation machine is needed, heat can be recovered when tea fixation is performed, and energy is saved.

Disclosure of utility model

Based on the expression, the utility model provides the tea enzyme deactivating machine, which can recover heat during tea enzyme deactivation and save energy.

The technical scheme for solving the technical problems is as follows: the utility model provides a tealeaves green removing machine, includes the cylinder, still includes gas outlet, first heat absorption chamber, first heat absorption pipe, chimney, first pipeline, second pipeline and air-blower, chimney, first heat absorption chamber and gas outlet from the top down connect gradually and communicate each other, the gas outlet sets up in the cylinder top, first heat absorption chamber sets up to the type of falling T, first heat absorption pipe level evenly inlays and locates first heat absorption intracavity and its both ends all pass first heat absorption chamber, first pipeline sets up in first heat absorption chamber one side and is used for the first heat absorption pipe intercommunication each other with first heat absorption chamber upper end and lower extreme, the air-blower sets up in first heat absorption chamber opposite side and communicates each other inside first heat absorption pipe and the cylinder of first heat absorption chamber lower extreme through the second pipeline.

On the basis of the technical scheme, the utility model can be improved as follows.

Further, a second heat absorption cavity is arranged on the outer side of the roller, and the second heat absorption cavity is communicated with the air outlet.

Further, the second heat absorption cavity is internally and horizontally embedded with a second heat absorption pipe, two ends of the second heat absorption pipe penetrate through the second heat absorption cavity, one end of the second heat absorption pipe is mutually communicated with the second pipeline, the other end of the second heat absorption pipe is communicated with a third pipeline, and the third pipeline extends to the inside of the roller.

Further, a heat insulation layer is further arranged on the outer side of the second heat absorption cavity, and the air outlet penetrates through the heat insulation layer and is communicated with the second heat absorption cavity.

Further, the second heat absorbing cavity is arranged at the upper half part of the roller.

Further, the two air outlets are symmetrically arranged below the first heat absorption cavity.

Further, an air suction cavity is formed in the upper end of the first heat absorption cavity opposite to the other side of the first pipeline.

Further, a filter screen is arranged on the outer side of the air suction cavity.

Compared with the prior art, the technical scheme of the application has the following beneficial technical effects:

According to the utility model, through the first heat absorption cavity, the first heat absorption pipe, the first pipeline and the second pipeline, heat in the roller can be absorbed, hot air is sent into the roller again through the blower, heat can be recovered, air convection in the roller can be increased due to the hot air, and the fixation effect on tea leaves is improved.

Drawings

Fig. 1 is a front view of a tea wrap machine of the present utility model;

FIG. 2 is a view of the interior and piping of the first and second heat absorption chambers of the present utility model;

FIG. 3 is a side partial cross-sectional view of the present utility model;

in the drawings, the list of components represented by the various numbers is as follows:

1. A roller; 2. an air outlet; 3. a first heat absorption chamber; 4. a first heat absorbing pipe; 5. a chimney; 6. a first pipe; 7. a second pipe; 8. a blower; 9. a second heat absorbing chamber; 10. a second heat absorbing pipe; 11. a third conduit; 12. a thermal insulation layer; 13. an air suction cavity; 14. and (5) a filter screen.

Detailed Description

In order that the application may be readily understood, a more complete description of the application will be rendered by reference to the appended drawings. Embodiments of the application are illustrated in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1-2, the tea wrap machine in this embodiment includes a drum 1, and further includes an air outlet 2, a first heat absorption cavity 3, a first heat absorption pipe 4, a chimney 5, a first pipe 6, a second pipe 7 and a blower 8, the chimney 5, the first heat absorption cavity 3 and the air outlet 2 are sequentially connected from top to bottom and are mutually communicated, the air outlet 2 is disposed at the top end of the drum 1, the first heat absorption cavity 3 is configured as an inverted T, the first heat absorption pipe 4 is horizontally and uniformly embedded in the first heat absorption cavity 3, both ends of the first heat absorption pipe 4 penetrate through the first heat absorption cavity 3, the first pipe 6 is disposed at one side of the first heat absorption cavity 3 and is used for mutually communicating the first heat absorption pipe 4 at the upper end and the lower end of the first heat absorption cavity 3, the blower 8 is disposed at the other side of the first heat absorption cavity 3 and is mutually communicated with the interior of the drum 1 through the second pipe 7. Through adopting above-mentioned technical scheme, cylinder 1 top from the top down has set gradually chimney 5, first heat absorption chamber 3 and gas outlet 2 that communicate each other, and the level of first heat absorption chamber 3 upper end and the lower extreme of falling the T type is inlayed and is equipped with a plurality of first heat absorption pipes 4, and the lateral wall in first heat absorption chamber 3 is all worn out at first heat absorption pipe 4 both ends, and first pipeline 6 communicates first heat absorption pipe 4 that first heat absorption chamber 3 one side upper end and lower extreme set up, and first heat absorption pipe 4 of first heat absorption chamber 3 lower extreme opposite side communicates with cylinder 1 inside through second pipeline 7, and air-blower 8 is used for providing power. The hot air in the roller 1 rises through the air outlet 2 and the first heat absorption cavity 3, the first heat absorption pipe 4 is heated, the air in the pipe can be heated, the ambient temperature air passes through the first heat absorption pipe 4, the first pipeline 6 and the first heat absorption pipe 4 and the second pipeline 7 at the lower end of the first heat absorption cavity 3 in sequence at the upper end of the first heat absorption cavity 3 under the action of the blower 8, and the hot air finally enters the roller 1.

Preferably, referring to fig. 2 to 3, in this embodiment, a second heat absorbing chamber 9 is disposed outside the drum 1, the second heat absorbing chamber 9 is mutually communicated with the air outlet 2, a second heat absorbing pipe 10 is horizontally embedded in the second heat absorbing chamber 9, two ends of the second heat absorbing pipe penetrate through the second heat absorbing chamber 9, one end of the second heat absorbing pipe 10 is mutually communicated with the second pipeline 7, the other end of the second heat absorbing pipe is communicated with a third pipeline 11, the third pipeline 11 extends to the inside of the drum 1, a heat insulating layer 12 is further disposed outside the second heat absorbing chamber 9, the air outlet 2 penetrates through the heat insulating layer 12 and is mutually communicated with the second heat absorbing chamber 9, and the second heat absorbing chamber 9 is disposed at the upper half part of the drum 1. Through adopting above-mentioned technical scheme, thereby the hot air in the cylinder 1 can further heat the air in the second heat absorption pipe 10 through second heat absorption chamber 9, and inside the hot-blast final cylinder 1 of sending through third pipeline 11, heat dissipation in the cylinder 1 can be reduced to insulating layer 12, more preferably, can select the heat preservation material such as heat preservation cotton in the insulating layer 12. By providing the second heat absorbing chamber 9 and the second heat absorbing pipe 10, heat in the drum 1 can be further recovered, and the utilization rate of energy sources can be improved.

Preferably, referring to fig. 1, the air outlets 2 are two in number and symmetrically arranged below the first heat absorbing chamber 3 in this embodiment.

Preferably, referring to fig. 2, in this embodiment, an air suction cavity 13 is disposed at an upper end of the other side of the first heat absorption cavity 3 opposite to the first pipe 6, and a filter screen 14 is disposed outside the air suction cavity 13. Through adopting above-mentioned technical scheme, set up induced draft chamber 13 in the air intake department of first heat pipe 4 to set up filter screen 14 in induced draft chamber 13 outside, the setting of induced draft chamber 13 is convenient for the entering of air, and filter screen 14 can reduce the entering of debris such as dust.

Working principle: when the blower 8 is started, outside air enters the air suction cavity 13 through the filter screen 14 so as to enter the first heat absorption pipe 4 at the upper end of the inverted T-shaped first heat absorption cavity 3, then sequentially passes through the first pipeline 6, the first heat absorption pipe 4 at the lower end of the first heat absorption cavity 3, the second pipeline 7, the second heat absorption pipe 10 and the third pipeline 11, hot air finally enters the roller 1, hot air in the roller 1 rises and sequentially passes through the second heat absorption cavity 9, the air outlet 2 and the first heat absorption cavity 3, water vapor is discharged from the chimney 5, the hot air heats the air in the first heat absorption pipe 4 and the second heat absorption pipe 10, and the heat dissipation in the roller 1 can be reduced by the heat insulation layer 12.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (8)

1. The utility model provides a tealeaves green removing machine, includes cylinder (1), its characterized in that still includes gas outlet (2), first heat absorption chamber (3), first heat absorption pipe (4), chimney (5), first pipeline (6), second pipeline (7) and air-blower (8), chimney (5), first heat absorption chamber (3) and gas outlet (2) connect gradually from the top down and communicate each other, gas outlet (2) set up in cylinder (1) top, first heat absorption chamber (3) set up to the type of falling T, first heat absorption pipe (4) level evenly inlays in first heat absorption chamber (3) and its both ends all pass first heat absorption chamber (3), first pipeline (6) set up in first heat absorption chamber (3) one side be used for with first heat absorption chamber (3) upper end and first heat absorption pipe (4) intercommunication each other of lower extreme, air-blower (8) set up in first heat absorption chamber (3) opposite side and communicate each other with first heat absorption pipe (4) and cylinder (1) inside each other with first chamber (3) lower extreme through second pipeline (7).

2. A tea leaf fixation machine according to claim 1, characterized in that a second heat absorbing cavity (9) is arranged on the outer side of the roller (1), and the second heat absorbing cavity (9) is mutually communicated with the air outlet (2).

3. A tea leaf fixation machine according to claim 2, wherein a second heat absorbing pipe (10) is horizontally embedded in the second heat absorbing cavity (9) and two ends of the second heat absorbing pipe penetrate through the second heat absorbing cavity (9), one end of the second heat absorbing pipe (10) is mutually communicated with the second pipeline (7), the other end of the second heat absorbing pipe is communicated with a third pipeline (11), and the third pipeline (11) extends into the roller (1).

4. A tea leaf fixation machine according to claim 2, characterized in that the outer side of the second heat absorption cavity (9) is further provided with a heat insulation layer (12), and the air outlet (2) penetrates through the heat insulation layer (12) to be mutually communicated with the second heat absorption cavity (9).

5. A tea leaf de-enzyming machine according to claim 2, characterized in that the second heat absorbing chamber (9) is arranged in the upper half of the drum (1).

6. A tea leaf fixation machine according to claim 1, characterized in that the number of air outlets (2) is two and symmetrically arranged below the first heat absorption cavity (3).

7. A tea leaf fixation machine according to claim 1, characterized in that the upper end of the first heat absorbing chamber (3) opposite to the first pipe (6) is provided with a suction chamber (13).

8. A tea wrap machine according to claim 7, wherein a filter screen (14) is provided outside the suction chamber (13).