CN111829330B - Progressive heating type tea drying equipment - Google Patents

Abstract

The invention is suitable for the field of tea processing, and particularly discloses progressive heating type tea drying equipment, which comprises: the primary drying box comprises a primary drying box and a secondary drying box; a filter screen plate structure is connected inside the primary drying box, and the filter screen plate structure is connected to the reciprocating mechanism; the secondary drying box is internally provided with a drying belt structure; the drying belt structure comprises a hot air box and a drying belt arranged on the surface of the hot air box, and a plurality of heat conducting blades in rotary connection are arranged on the drying belt; the hot air box is connected with an air heater; the tea leaves are dried in a progressive heating way by utilizing a primary drying box, a secondary drying box and a secondary drying box; the filter screen plate structure and the reciprocating mechanism are used for screening and crushing the slag on the basis of dispersing and drying the tea leaves; the heat conduction blade is pushed to air heater intermittent type nature top for the tealeaves is dried in the multiple spot dispersion, and drying efficiency is high effectual.

Description

Progressive heating type tea drying equipment

Technical Field

The invention belongs to the field of plate processing, and particularly discloses progressive heating type tea drying equipment.

Background

The tea processing is also called tea making, which is a process of making various semi-finished or finished tea from fresh tea leaves through various processing procedures. According to different processing procedures, the method can be divided into primary processing (primary processing), refining (fine processing), reprocessing and deep processing. Different tea types can be formed by different processing technologies, and the quality of the tea leaves of each tea type depends on the coordination and coordination of the processing procedures; the high-quality fresh leaf raw material can produce various high-quality tea leaves only under the excellent processing conditions.

Most of the existing tea frying methods are manual or mechanical stir-frying on a boiler, but the stir-frying at a fixed temperature has higher precision on manual or mechanical operation of stir-frying, and the manual or mechanical stir-frying in a large range easily generates impurities.

Disclosure of Invention

The embodiment of the invention aims to provide progressive heating type tea drying equipment and aims to solve the problems that the conventional tea frying is mainly carried out manually or mechanically on a boiler, the manual or mechanical operation accuracy of the tea frying is higher in the tea frying of fixed temperature, and impurities are easily generated in the manual or mechanical large-range tea frying. In order to achieve the purpose, the invention provides the following technical scheme:

a progressive warming type tea drying apparatus comprising:

the tea leaf drying device comprises a primary drying box, a secondary drying box and a control system, wherein the primary drying box comprises a primary drying box and a secondary drying box which are communicated, and the primary drying box and the secondary drying box are used for setting different temperatures to dry tea leaves;

the primary drying box is internally connected with a plurality of filter screen plate structures which are distributed in a cross inclined mode in a sliding mode, the filter screen plate structures are connected to the reciprocating mechanism and transversely reciprocate by the reciprocating mechanism to screen crushed slag and dust on the basis of dispersing and drying tea leaves;

the filter screen plate structure utilizes a fixed plate structure and a plurality of filter screen pipes arranged on the fixed plate structure to screen impurities;

the secondary drying box is internally provided with a plurality of drying belt strip structures which are distributed in a layered and inclined manner;

the drying belt structure comprises a hot air box and a drying belt arranged on the surface of the hot air box, and a plurality of heat conducting blades in rotary connection are arranged on the drying belt;

the hot air box is connected with an air heater, and the air heater is used for intermittently providing hot air.

The primary drying box is communicated with the secondary drying box, and the secondary drying box is used for drying the tea leaves in a progressive heating manner by setting different temperatures; when the tea leaves are in the primary drying box, a plurality of filter screen plate structures which are in cross inclined distribution and are connected in a sliding mode are utilized, and the reciprocating mechanism is matched for transverse reciprocating movement so as to screen crushed slag and dust on the basis of dispersing and drying the tea leaves; and the tea leaves are placed in the secondary drying box, layered drying is carried out by utilizing a plurality of drying belt strip structures which are in layered inclined distribution and are arranged in the secondary drying box, meanwhile, the air heater intermittently provides hot air to the hot air box, the hot air pushes the drying belt strips arranged on the surface of the hot air box, and then the intermittent pushing drying belt strips are provided with a plurality of heat conducting blades which are rotatably connected, so that the tea leaves are dried in a multi-point dispersing manner, and the drying efficiency is high and good.

According to a further scheme of the progressive heating type tea drying equipment, a plurality of filter screen plate structures are in inverted splayed crossed inclined distribution;

the fixing plate structure on the filter screen plate structure is internally provided with a storage cavity, and the plurality of filter screen pipes are distributed on the storage cavity at equal intervals.

Preferably, the cross section of the filter net pipe is in a right trapezoid shape, and after the tea leaves are along the filter net plate structure rollers which are distributed obliquely, the filter net pipe with the cross section in the right trapezoid shape screens and collects the broken slag and dust in the tea leaves into the storage cavity.

According to a further scheme of the progressive heating type tea drying equipment, a moving plate is arranged on the compound moving mechanism and is connected to the inside of the primary drying box in a sliding manner;

the movable plate is provided with a gear frame, an incomplete gear is meshed in the gear frame, and the incomplete gear is fixed on an output shaft of the motor.

Optimized, the tooth frame includes the framework, is located inside being provided with of framework and is parallel distribution's last rack and lower rack.

The incomplete gear is driven to alternately engage with the upper rack and the lower rack after the motor is started, the reciprocating driving of the gear frame is completed, the multiple filter screen plate structures which are in crossed inclined distribution are driven by the complex moving mechanism to move transversely in a reciprocating mode, and accordingly the filter screen plate structures are used for screening broken slag and dust on the basis of the tea leaves which are dispersedly dried.

According to a further scheme of the progressive heating type tea drying equipment, the primary drying box is communicated with the secondary drying box through the discharging hole.

Preferably, a charging hopper is additionally arranged on the primary drying box.

According to a further scheme of the progressive heating type tea drying equipment, a plurality of drying screen plates are arranged in the secondary drying box, one end of each drying screen plate is fixed on the re-moving mechanism, the other end of each drying screen plate is hinged in the secondary drying box through a connecting seat, and the re-moving mechanism is used for driving vibration drying.

According to a further scheme of the progressive heating type tea drying equipment, a dehumidifier is mounted at the top of the secondary drying box and used for removing moisture in air, so that efficient drying is facilitated.

According to the further scheme of the progressive heating type tea drying equipment, the secondary drying box is hinged with a sealing door, and a handle is mounted on the sealing door;

the two sides of the drying belt structure are provided with baffles, and the drying belt structure is fixed inside the secondary drying box through a fixing base.

The invention relates to progressive heating type tea drying equipment, which comprises: the tea leaf drying device comprises a primary drying box, a secondary drying box and a control system, wherein the primary drying box comprises a primary drying box and a secondary drying box which are communicated, and the primary drying box and the secondary drying box are used for setting different temperatures to dry tea leaves; the primary drying box is internally connected with a plurality of filter screen plate structures which are distributed in a cross inclined mode in a sliding mode, and the filter screen plate structures are connected to the reciprocating mechanism and transversely reciprocate by the reciprocating mechanism; the filter screen plate structure utilizes a fixed plate structure and a plurality of filter screen pipes arranged on the fixed plate structure to screen impurities; the secondary drying box is internally provided with a plurality of drying belt strip structures which are distributed in a layered and inclined manner; the drying belt structure comprises a hot air box and a drying belt arranged on the surface of the hot air box, and a plurality of heat conducting blades in rotary connection are arranged on the drying belt; the hot air box is connected with an air heater, and the air heater is used for intermittently providing hot air; the primary drying box is communicated with the secondary drying box, and the secondary drying box is used for drying the tea leaves in a progressive heating manner by setting different temperatures; when the tea leaves are in the primary drying box, a plurality of filter screen plate structures which are in cross inclined distribution and are connected in a sliding mode are utilized, and the reciprocating mechanism is matched for transverse reciprocating movement so as to screen crushed slag and dust on the basis of dispersing and drying the tea leaves; and the tea leaves are placed in the secondary drying box, layered drying is carried out by utilizing a plurality of drying belt strip structures which are in layered inclined distribution and are arranged in the secondary drying box, meanwhile, the air heater intermittently provides hot air to the hot air box, the hot air pushes the drying belt strips arranged on the surface of the hot air box, and then the intermittent pushing drying belt strips are provided with a plurality of heat conducting blades which are rotatably connected, so that the tea leaves are dried in a multi-point dispersing manner, and the drying efficiency is high and good.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which

FIG. 1 is a schematic view of a progressive heating type tea drying apparatus according to the present invention;

FIG. 2 is a schematic transverse cross-sectional view of the primary drying box of FIG. 1;

FIG. 3 is a schematic view of the structure of the filter screen plate in FIG. 2;

FIG. 4 is a schematic view of a moving plate in the progressive warming type tea drying apparatus of the present invention;

FIG. 5 is a schematic view of the secondary drying box of FIG. 1;

FIG. 6 is a schematic view of a drying belt structure in the progressive heating type tea drying apparatus of the present invention;

fig. 7 is an enlarged schematic view of a portion a in fig. 6.

In the figure:

1-a dehumidifier, 2-a secondary drying box, 3-a primary drying box, 4-a secondary drying box, 5-a primary drying box and 6-a charging hopper;

21-sealing door, 22-handle, 23-drying belt structure, 24-baffle, 25-drying belt, 26-hot air box, 27-fixing base and 28-heat conducting blade;

41-connecting seat, 42-drying screen plate;

51-filter screen plate structure, 52-discharge port, 53-filter screen pipe, 54-fixed plate structure, 55-movable plate and 56-toothed frame.

Detailed Description

The embodiment of the invention aims to provide progressive heating type tea drying equipment and aims to solve the problems that the conventional tea frying is mainly carried out manually or mechanically on a boiler, the manual or mechanical operation accuracy of the tea frying is higher in the tea frying of fixed temperature, and impurities are easily generated in the manual or mechanical large-range tea frying. In order to achieve the purpose, the invention provides the following technical scheme:

in the embodiment of the present invention, as shown in fig. 1 to 3 and 6 to 7, a progressive heating type tea drying apparatus includes:

the tea leaf drying device comprises a primary drying box 3, wherein the primary drying box 3 comprises a primary drying box 5 and a secondary drying box 4 which are communicated, and different temperatures are set by the primary drying box 5 and the secondary drying box 4 for drying tea leaves; wherein, the inside of the primary drying box 5 is connected with a plurality of filter screen plate structures 51 which are distributed in a cross inclined way in a sliding way, and the filter screen plate structures 51 are connected on a reciprocating mechanism and transversely reciprocate by utilizing the reciprocating mechanism for screening crushed slag and dust on the basis of dispersing and drying the tea leaves; the filtering screen plate structure 51 utilizes a fixed plate structure 54 and a plurality of filtering screen pipes 53 arranged on the fixed plate structure 54 to screen impurities;

the secondary drying box 2 is internally provided with a plurality of drying belt strip structures 23 which are distributed in a layered and inclined manner; the drying belt structure 23 comprises a hot air box 26 and a drying belt 25 arranged on the surface of the hot air box 26, and a plurality of heat conducting blades 28 rotatably connected to the drying belt 25; an air heater is connected to the hot air tank 26, and hot air is intermittently supplied by the air heater.

In the embodiment of the invention, the primary drying box 3 utilizes the communicated primary drying box 5 and secondary drying box 4, and the secondary drying box 2 to progressively heat and dry tea leaves by setting different temperatures; when the tea leaves are in the primary drying box 5, a plurality of filter screen plate structures 51 which are in cross inclined distribution and are connected in a sliding way are utilized, and the filter screen plate structures are matched with a reciprocating mechanism to carry out transverse reciprocating movement so as to sieve broken slag and dust on the basis of dispersing and drying the tea leaves; and, put into the secondary drying case 2 inside at tealeaves to utilize a plurality of drying strip structure 23 that are the layering slope and distribute that secondary drying case 2 is inside to be provided with to carry out the layering stoving, air heater provides hot air to hot-air tank 26 intermittent type nature simultaneously, and hot air is through pushing up the drying strip 25 that sets up on hot-air tank 26 surface, and then intermittent type nature top is moved drying strip 25 and is equipped with a plurality of heat conduction blades 28 of rotating the connection, is used for the tealeaves of multiple spot dispersion stoving, and it is effectual to dry efficiently.

In the embodiment of the present invention, as shown in fig. 2 and 3, a plurality of filter screen plate structures 51 are distributed in an inverted "eight" shape and are crossed and inclined; a storage cavity is formed in the fixing plate structure 54 on the filter screen plate structure 51, and a plurality of filter screen pipes 53 are distributed on the storage cavity at equal intervals; optimally, the cross section of the filter net pipe 53 is in a right trapezoid shape, and after the tea leaves are along the rollers of the filter net plate structure 51 which is distributed obliquely, the filter net pipe 53 with the cross section in the right trapezoid shape screens and collects the broken slag and dust in the tea leaves into the storage cavity.

In the embodiment of the present invention, as shown in fig. 4, a moving plate 55 is arranged on the reciprocating mechanism, and the moving plate 55 is slidably connected inside the primary drying box 3; a gear frame 56 is arranged on the moving plate 55, an incomplete gear is meshed inside the gear frame 56, and the incomplete gear is fixed on an output shaft of the motor; preferably, the rack frame 56 comprises a frame body, and an upper rack and a lower rack which are distributed in parallel are arranged in the frame body; after the motor is started, the incomplete gear is driven to alternately engage with the upper rack and the lower rack, the reciprocating driving of the gear frame 56 is completed, and the multiple filter screen plate structures 51 which are in crossed inclined distribution are driven by the reciprocating mechanism to move transversely and reciprocally for screening broken slag and dust on the basis of dispersing and drying tea leaves.

In the embodiment of the present invention, as shown in fig. 1 and fig. 2, the primary drying box 5 and the secondary drying box 4 are communicated through a discharge port 52; preferably, a charging hopper 6 is additionally arranged on the primary drying box 5.

In the embodiment of the invention, as shown in fig. 2, a plurality of drying screen plates 42 are arranged inside the secondary drying box 4, one end of each drying screen plate 42 is fixed on the re-moving mechanism, the other end of each drying screen plate 42 is hinged inside the secondary drying box 4 through a connecting seat 41, and the re-moving mechanism is used for driving vibration drying.

In the embodiment of the invention, as shown in fig. 1 and 5, a dehumidifier 1 is installed at the top of the secondary drying box 2, and the dehumidifier 1 is used for removing moisture in air, so that efficient drying is facilitated; the secondary drying box 2 is hinged with a sealing door 21, and a handle 22 is arranged on the sealing door 21; the two sides of the drying belt structure 23 are provided with baffles 24, and the drying belt structure 23 is fixed inside the secondary drying box 2 through a fixing base 27.

The invention relates to progressive heating type tea drying equipment, which comprises: the tea leaf drying device comprises a primary drying box 3, wherein the primary drying box 3 comprises a primary drying box 5 and a secondary drying box 4 which are communicated, and different temperatures are set by the primary drying box 5 and the secondary drying box 4 for drying tea leaves; wherein, the inside of the primary drying box 5 is connected with a plurality of filter screen plate structures 51 which are distributed in a cross inclined way in a sliding way, and the filter screen plate structures 51 are connected on a reciprocating mechanism and perform transverse reciprocating movement by utilizing the reciprocating mechanism; the filtering screen plate structure 51 utilizes a fixed plate structure 54 and a plurality of filtering screen pipes 53 arranged on the fixed plate structure 54 to screen impurities; the secondary drying box 2 is internally provided with a plurality of drying belt strip structures 23 which are distributed in a layered and inclined manner; the drying belt structure 23 comprises a hot air box 26 and a drying belt 25 arranged on the surface of the hot air box 26, and a plurality of heat conducting blades 28 rotatably connected to the drying belt 25; the hot air tank 26 is connected with an air heater, and the air heater is used for intermittently providing hot air; the primary drying box 3 uses a communicated primary drying box 5 and a communicated secondary drying box 4, and the secondary drying box 2 to carry out progressive heating type drying on the tea leaves by setting different temperatures; when the tea leaves are in the primary drying box 5, a plurality of filter screen plate structures 51 which are in cross inclined distribution and are connected in a sliding way are utilized, and the filter screen plate structures are matched with a reciprocating mechanism to carry out transverse reciprocating movement so as to sieve broken slag and dust on the basis of dispersing and drying the tea leaves; and, put into the secondary drying case 2 inside at tealeaves to utilize a plurality of drying strip structure 23 that are the layering slope and distribute that secondary drying case 2 is inside to be provided with to carry out the layering stoving, air heater provides hot air to hot-air tank 26 intermittent type nature simultaneously, and hot air is through pushing up the drying strip 25 that sets up on hot-air tank 26 surface, and then intermittent type nature top is moved drying strip 25 and is equipped with a plurality of heat conduction blades 28 of rotating the connection, is used for the tealeaves of multiple spot dispersion stoving, and it is effectual to dry efficiently.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are used in a broad sense, and for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. Those skilled in the art can understand the above specific meanings included in the present invention according to specific situations.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a formula of rising temperature tealeaves drying equipment that goes up, its characterized in that includes:

the tea leaf drying device comprises a primary drying box, a secondary drying box and a control system, wherein the primary drying box comprises a primary drying box and a secondary drying box which are communicated, and the primary drying box and the secondary drying box are used for setting different temperatures to dry tea leaves;

the primary drying box is internally connected with a plurality of filter screen plate structures which are distributed in a cross inclined mode in a sliding mode, and the filter screen plate structures are connected to the reciprocating mechanism and transversely reciprocate by the reciprocating mechanism;

the filter screen plate structure utilizes a fixed plate structure and a plurality of filter screen pipes arranged on the fixed plate structure to screen impurities;

the secondary drying box is internally provided with a plurality of drying belt strip structures which are distributed in a layered and inclined manner;

the drying belt structure comprises a hot air box and a drying belt arranged on the surface of the hot air box, and a plurality of heat conducting blades in rotary connection are arranged on the drying belt;

the hot air box is connected with an air heater, and the air heater is used for intermittently providing hot air.

2. The progressive heating type tea drying apparatus according to claim 1,

the filter screen plate structures are distributed in an inverted splayed crossed inclined mode;

the fixing plate structure on the filter screen plate structure is internally provided with a storage cavity, and the plurality of filter screen pipes are distributed on the storage cavity at equal intervals.

3. The progressive warming tea leaf drying apparatus of claim 2 wherein the filter mesh tube has a right trapezoid cross-section.

4. The progressive heating type tea drying apparatus according to claim 1,

the reciprocating mechanism is provided with a moving plate, and the moving plate is connected inside the primary drying box in a sliding manner;

the movable plate is provided with a gear frame, an incomplete gear is meshed in the gear frame, and the incomplete gear is fixed on an output shaft of the motor.

5. The progressive heating type tea drying equipment according to claim 4, wherein the gear frame comprises a frame body, and an upper rack and a lower rack which are distributed in parallel are arranged inside the frame body.

6. The progressive warming tea drying apparatus of claim 1 wherein the primary drying oven and the secondary drying oven are in communication through a drain.

7. The progressive warming tea leaf drying apparatus of claim 6 wherein the primary drying oven is provided with a hopper.

8. The progressive heating type tea drying equipment as claimed in claim 1, wherein a plurality of drying screens are arranged inside the secondary drying box, one end of each drying screen is fixed on the reciprocating mechanism, the other end of each drying screen is hinged inside the secondary drying box through a connecting seat, and the reciprocating mechanism is used for driving vibration drying.

9. The progressive heating type tea drying apparatus according to any one of claims 1 to 8, wherein a dehumidifier is installed at the top of the secondary drying box.

10. The progressive heating type tea drying apparatus according to any one of claims 1 to 8,

the secondary drying box is hinged with a sealing door, and a handle is arranged on the sealing door;

the two sides of the drying belt structure are provided with baffles, and the drying belt structure is fixed inside the secondary drying box through a fixing base.

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