CN114190454A - Tea processing device based on accurate control of moisture - Google Patents

Abstract

The invention discloses a tea processing device based on accurate moisture control, and relates to the technical field of tea processing technology. The tea leaf drying machine can firstly knead tea leaves and discharge part of water in the tea leaves so as to dry the tea leaves under the combined action of the pressurizing device, the compression rod, the kneading disc, the kneading barrel and the rotating handle, can improve the taste of the tea leaves and facilitate storage through kneading, can effectively dry the water in the tea leaves under the combined action of the heating plate, the vent hole, the evaporator, the mounting plate, the condenser and the throttle valve, and can detect the humidity of the tea leaves by the water detector, so that the drying device stops working once the water reaches a fixed value.

Description

Tea processing device based on accurate control of moisture

Technical Field

The invention relates to the technical field of tea processing technologies, in particular to a tea processing device based on accurate moisture control.

Background

In the processing and manufacturing process of tea, fresh tea needs to be processed according to the process requirements, the control of water during processing is particularly critical, such as a de-enzyming link, a pile fermentation link, a moisture link in the compressed tea manufacturing process and the like, at present, the processing degree is mainly judged by manual experience, the uniform stability of the processed water is not ensured by real-time feedback adjusting equipment according to the incoming material condition, and the tea raw materials need to be added with water for moisture regaining and regaining treatment in the Pu' er ripe tea manufacturing process so as to carry out pile fermentation and other treatments on the tea. The water content of the raw tea is generally between 9% and 12%, that is to say, the water content of the tea needs to be increased for fermentation, and the water adding amount of the tea needs to be adjusted in time according to different conditions of the old and tender tea, the air temperature, the air humidity, the season, the fermentation field and the like. According to different moisture contents, different grades and different environmental conditions of tea raw materials, water is generally required to be added to enable the moisture content to reach a certain content. Up to now, the Pu' er tea is processed and fermented by manually adding water, and the method of adding water to the tea raw material is totally and manually sprinkled by a container or a water pipe, and the water adding amount is controlled by experience. The disadvantages are inaccurate water adding amount, poor uniformity of water adding, unstable process quality such as fermentation and the like; in addition, because the tea pile area for pile-covering fermentation is large, in order to ensure that the whole pile of tea can be rewetted, watering personnel must walk back and forth in the tea pile to spray, so that the sanitation and safety are influenced, and picked loose tea is autoclaved at high temperature and processed into compressed tea in various shapes. The 'loose tea' is moisturized at high temperature and autoclaved, the amount of the moisturized water must be accurate and uniform, the water content in the tea is controlled within a reasonable range, the change of the tea quality is prevented, and then the storage and the aging are carried out. At present, water is added roughly in the process of making the compressed tea, and the water content is not controlled accurately. The following problems exist in the prior art:

1. the existing tea processing device cannot accurately calculate tea raw materials and has low working efficiency;

2. the current tea processing device can not effectively get rid of the inside moisture of tealeaves and dry, and sometimes too much moisture leads to tealeaves taste to worsen.

Disclosure of the invention

The invention provides a tea processing device based on accurate moisture control, which aims to realize the drying function and solve the problem of excessive moisture of tea; the other purpose is to solve the problem that the total amount of the tea leaves cannot be calculated so as to achieve the effect of efficient operation.

In order to solve the technical problems, the novel technical scheme adopted by the invention is as follows:

a tea processing device based on accurate moisture control comprises a main body, wherein an air supply pipe is arranged at the upper end of the main body, a moisture detector is arranged on one side of the main body, a fixing buckle is arranged below the moisture detector, a screening device is arranged inside the main body, a quantitative feeding device is arranged below the screening device, a rolling device is arranged on one side of the quantitative feeding device, and a drying device is arranged at the lower end of the rolling device; the rolling device comprises a pressurizing device, a compression rod, a rolling disc, a rolling barrel and a rotating handle, wherein the compression rod is positioned at the upper end of the rolling disc, and the pressurizing device is positioned at the upper end of the compression rod; the device is characterized in that a connecting hole is formed between the pressurizing device and the compression rod, the lower end of the pressurizing device is fixedly connected with the upper end of the compression rod through the connecting hole, a notch is formed between the compression rod and the kneading disc, and the lower end of the compression rod is detachably connected with the upper end of the kneading disc through the notch.

The novel technical scheme of the invention is further improved as follows: the kneading barrel is positioned at one side of the compression rod, and the rotating handle is positioned at the upper end of the kneading barrel.

The novel technical scheme of the invention is further improved as follows: a sliding groove is formed between the kneading barrel and the kneading disc, the lower end of the kneading barrel is movably connected with the upper end of the kneading disc through the sliding groove, a thread groove is formed between the rotating handle and the kneading barrel, and the lower end of the rotating handle is detachably connected with the upper end of the kneading barrel through the thread groove.

The novel technical scheme of the invention is further improved as follows: pressure device includes balancing weight, pneumatic cylinder, reset spring, guide arm, fixture block, rolls the roller, the pneumatic cylinder is located one side of balancing weight, reset spring is located the upper end of balancing weight, the guide arm is located reset spring's top, the fixture block is located one side of guide arm, it is located the upper end of guide arm to roll the roller, it includes mounting groove, blade, rubber ring, film to roll the roller, the blade is located the upper end of mounting groove, the rubber ring is located the lower extreme of mounting groove, the film is located one side of rubber ring.

The novel technical scheme of the invention is further improved as follows: be provided with the interface between balancing weight and the reset spring, the lower extreme fixed connection of interface and reset spring is passed through to the upper end of balancing weight, be provided with the screw between balancing weight and the pneumatic cylinder, one side fixed connection of screw and pneumatic cylinder is passed through to one side of balancing weight, be provided with the bolt between guide arm and the fixture block, one side fixed connection of bolt and guide arm is passed through to the upper end of fixture block, be provided with the movable groove between guide arm and the grinding roller, the upper end swing joint of movable groove and guide arm is passed through to the both sides of grinding roller.

The novel technical scheme of the invention is further improved as follows: drying device includes hot plate, ventilation hole, evaporimeter, mounting panel, condenser, choke valve, the ventilation hole is located the upper end surface of hot plate, the evaporimeter is located the lower extreme of hot plate, the mounting panel is located the lower extreme of evaporimeter, the condenser is located the lower extreme of mounting panel, the choke valve is located the upper end surface of mounting panel.

The novel technical scheme of the invention is further improved as follows: be provided with the screw between hot plate and the evaporimeter, the upper end fixed connection of screw and evaporimeter is passed through to the upper end of hot plate, be provided with the draw-in groove between mounting panel and the choke valve, the lower extreme of choke valve passes through the draw-in groove and can dismantle with the upper end of mounting panel and be connected, be provided with the bolt between mounting panel and the condenser, the lower extreme of mounting panel passes through the upper end fixed connection of bolt and condenser.

The novel technical scheme of the invention is further improved as follows: the quantitative feeding device comprises a conveying cylinder, an electronic scale, a rotating shaft, a sensor, a metering device, a lifting device and a support, wherein the electronic scale is located at the upper end of the conveying cylinder, the metering device is located at the upper end of the electronic scale, the rotating shaft is located on one side of the electronic scale, the sensor is located at the upper end of the rotating shaft, the support is located on one side of the conveying cylinder, and the lifting device is located at the upper end of the support.

The novel technical scheme of the invention is further improved as follows: the improved portable electronic scale is characterized in that a connecting hole is formed between the support and the lifting device, the upper end of the support is fixedly connected with the lower end of the lifting device through the connecting hole, a welding block is arranged between the electronic scale and the conveying cylinder, the lower end of the electronic scale is fixedly connected with the upper end of the conveying cylinder through the welding block, a thread groove is formed between the rotating shaft and the conveying cylinder, the lower end of the rotating shaft is detachably connected with the upper end of the conveying cylinder through the thread groove, a groove is formed between the sensor and the rotating shaft, the lower end of the sensor is detachably connected with the upper end of the rotating shaft through the groove, a fixing bolt is arranged between the metering device and the electronic scale, and the lower end of the metering device is fixedly connected with the upper end of the electronic scale through the fixing bolt.

Due to the adoption of the technical scheme, compared with the prior art, the novel method provided by the invention has the technical progress that:

1. the invention provides a tea processing device based on accurate moisture control, which can knead tea firstly under the combined action of a pressurizing device, a compression rod, a kneading disc, a kneading barrel and a rotating handle, discharge part of the moisture in the tea so as to dry the tea, improve the taste of the tea by kneading and facilitate storage, place the tea on the surface of the kneading disc, rotate the kneading barrel on the surface of the kneading disc by the rotating handle, continuously roll the tea and extrude the moisture in the tea, and the pressurizing device can improve the kneading force and ensure better working effect.

2. The invention provides a tea processing device based on accurate moisture control, which can effectively dry the moisture in tea under the combined action of a heating plate, a vent hole, an evaporator, a mounting plate, a condenser and a throttle valve, and detect the humidity of the tea by a moisture detector, once the moisture reaches a fixed value, the drying device stops working, the tea is firstly twisted, so the drying device can quickly dry and evaporate the residual moisture in the tea and shorten the working time of the tea, the twisted tea is placed on the heating plate, so the tea evaporates the moisture in the tea through the emitted heat, and the evaporator can play a role of heat collection, so the tea can be uniformly heated, and the tea processing device is very efficient and practical.

3. The invention provides a tea processing device based on accurate moisture control, which can quantitatively calculate the quantity of tea to be conveyed under the combined action of a conveying cylinder, an electronic scale, a rotating shaft, a sensor, a metering device and a lifting device so as to accurately control the moisture of the tea.

4. The invention provides a tea processing device based on accurate moisture control, which can increase the rolling pressure degree of tea under the combined action of a balancing weight, a hydraulic cylinder, a reset spring, a guide rod, a clamping block and a rolling roller, so that the working efficiency of the tea processing device is improved.

Drawings

Fig. 1 is a schematic structural diagram of a novel tea processing device based on accurate moisture control according to the present invention;

FIG. 2 is a schematic structural view of the novel kneading device of the present invention;

FIG. 3 is a schematic structural view of the novel pressurizing device of the present invention;

FIG. 4 is a schematic structural diagram of the novel drying apparatus of the present invention;

FIG. 5 is a schematic structural view of the novel quantitative feeding device of the present invention;

fig. 6 is a schematic view of the inner structure of the novel quantitative rolling roller of the present invention.

In the figure: 1. a main body; 2. an air supply pipe; 3. a screening device; 4. a moisture detector; 5. a fixing buckle; 6. a quantitative feeding device; 61. a delivery cartridge; 62. an electronic scale; 63. a rotating shaft; 64. a sensor; 65. a metering device; 66. a lifting device; 67. a support; 7. a twisting device; 71. a pressurizing device; 711. a balancing weight; 712. a hydraulic cylinder; 713. a return spring; 714. a guide bar; 715. a clamping block; 716. rolling; 7161. mounting grooves; 7162. a blade; 7163. a rubber ring; 7164. a film; 72. a compression rod; 73. kneading the disc; 74. kneading a barrel; 75. turning a handle; 8. a drying device; 81. heating plates; 82. a vent hole; 83. an evaporator; 84. mounting a plate; 85. a condenser; 86. a throttle valve.

Detailed Description

The novel process of the present invention is further illustrated in detail below with reference to examples:

example 1

As shown in fig. 1-6, the present invention provides a tea processing device based on moisture precise control, which includes a main body 1, an air supply pipe 2 is arranged at the upper end of the main body 1, a moisture detector 4 is arranged at one side of the main body 1, a fixing buckle 5 is arranged below the moisture detector 4, a screening device 3 is arranged inside the main body 1, a quantitative feeding device 6 is arranged below the screening device 3, a rolling device 7 is arranged at one side of the quantitative feeding device 6, and a drying device 8 is arranged at the lower end of the rolling device 7; the kneading device 7 comprises a pressure device 71, a compression rod 72, a kneading disc 73, a kneading barrel 74 and a rotating handle 75, wherein the compression rod 72 is positioned at the upper end of the kneading disc 73, and the pressure device 71 is positioned at the upper end of the compression rod 72; a connecting hole is arranged between the pressurizing device 71 and the compression rod 72, the lower end of the pressurizing device 71 is fixedly connected with the upper end of the compression rod 72 through the connecting hole, a notch is arranged between the compression rod 72 and the kneading disc 73, and the lower end of the compression rod 72 is detachably connected with the upper end of the kneading disc 73 through the notch.

Example 2

As shown in fig. 1 to 6, on the basis of embodiment 1, the present invention provides a novel technical solution: preferably, the kneading barrel 74 is located at one side of the compression bar 72, the rotating handle 75 is located at the upper end of the kneading barrel 74, a sliding groove is provided between the kneading barrel 74 and the kneading disc 73, the lower end of the kneading barrel 74 is movably connected with the upper end of the kneading disc 73 through the sliding groove, a screw groove is provided between the rotating handle 75 and the kneading barrel 74, and the lower end of the rotating handle 75 is detachably connected with the upper end of the kneading barrel 74 through the screw groove.

In this embodiment, tea leaves can be first rolled to discharge a part of the water inside the tea leaves for drying, and the taste of the tea leaves can be improved by rolling and the tea leaves can be easily stored, the tea leaves are placed on the surface of the rolling disc 73, the rolling barrel 74 is rotated on the surface of the rolling disc 73 by the rotating handle 75, and the tea leaves are continuously rolled to squeeze the water inside the tea leaves, and the pressurizing device 71 is provided to improve the rolling force and make the tea leaves work better.

Example 3

As shown in fig. 1 to 6, on the basis of embodiment 1, the present invention provides a novel technical solution: preferably, the pressurizing device 71 includes a weight block 711, a hydraulic cylinder 712, a return spring 713, a guide rod 714, a fixture block 715, and a roller 716, the hydraulic cylinder 712 is located at one side of the weight block 711, the return spring 713 is located at the upper end of the weight block 711, the guide rod 714 is located above the return spring 713, the fixture block 715 is located at one side of the guide rod 714, the roller 716 is located at the upper end of the guide rod 714, the roller 716 includes a mounting groove 7161, a blade 7162, a rubber ring 7163, and a film 7164, the blade 7162 is located at the upper end of the mounting groove 7161, the rubber ring 7163 is located at the lower end of the mounting groove 7161, the film 7164 is located at one side of the rubber ring 7163, an interface is provided between the weight block 711 and the return spring 713, the upper end of the weight block 711 is fixedly connected with the lower end of the return spring 713 through the interface, a screw is provided between the weight block 711 and the hydraulic cylinder 712, one side of the weight block is fixedly connected with one side of the hydraulic cylinder 712 through the screw, a bolt is provided between the guide rod 714 and the fixture block 715, the upper end of the block 715 is fixedly connected to one side of the guide rod 714 through a bolt, a movable slot is provided between the guide rod 714 and the roller 716, and both sides of the roller 716 are movably connected to the upper end of the guide rod 714 through the movable slot.

In this embodiment, the rolling force of the tea leaves can be increased to improve the working efficiency, the rolling roller 716 and the rolling barrel 74 apply pressure to the tea leaves simultaneously to facilitate the drainage of the moisture therein, the weight of the pressurizing device 71 is increased by the weight block 711 to pressurize the tea leaves, and the return spring 713 is provided to make the rolling roller work at a constant speed to avoid excessive loss.

Example 4

As shown in fig. 1 to 6, on the basis of embodiment 1, the present invention provides a novel technical solution: preferably, the drying device 8 includes a heating plate 81, a vent 82, an evaporator 83, a mounting plate 84, a condenser 85, a throttle valve 86, the vent 82 is located on the outer surface of the upper end of the heating plate 81, the evaporator 83 is located on the lower end of the heating plate 81, the mounting plate 84 is located on the lower end of the evaporator 83, the condenser 85 is located on the lower end of the mounting plate 84, the throttle valve 86 is located on the outer surface of the upper end of the mounting plate 84, screws are arranged between the heating plate 81 and the evaporator 83, the upper end of the heating plate 81 is fixedly connected with the upper end of the evaporator 83 through the screws, a clamping groove is arranged between the mounting plate 84 and the throttle valve 86, the lower end of the throttle valve 86 is detachably connected with the upper end of the mounting plate 84 through the clamping groove, bolts are arranged between the mounting plate 84 and the condenser 85, and the lower end of the mounting plate 84 is fixedly connected with the upper end of the condenser 85 through the bolts.

In this embodiment, can make the inside moisture of tealeaves effectively dry, and detect tealeaves humidity by moisture detector 4, moisture in case reaches the fixed value and makes drying device 8 stop work, tealeaves is because of having carried out earlier to knead so drying device 8 can remain moisture with tealeaves fast and dry the evaporation and shorten its operating time, tealeaves after will kneading is placed on hot plate 81, make it evaporate the inside moisture of tealeaves through the heat that gives off, and be equipped with the effect that evaporimeter 83 can play the thermal-arrest, make tealeaves can thermally equivalent, it is very high-efficient practical.

Example 5

As shown in fig. 1 to 6, on the basis of embodiment 1, the present invention provides a novel technical solution: preferably, the quantitative feeding device 6 comprises a conveying cylinder 61, an electronic scale 62, a rotating shaft 63, a sensor 64, a metering device 65, a lifting device 66 and a support 67, the electronic scale 62 is positioned at the upper end of the conveying cylinder 61, the metering device 65 is positioned at the upper end of the electronic scale 62, the rotating shaft 63 is positioned at one side of the electronic scale 62, the sensor 64 is positioned at the upper end of the rotating shaft 63, the support 67 is positioned at one side of the conveying cylinder 61, the lifting device 66 is positioned at the upper end of the support 67, a connecting hole is formed between the support 67 and the lifting device 66, the upper end of the support 67 is fixedly connected with the lower end of the lifting device 66 through the connecting hole, a welding block is arranged between the electronic scale 62 and the conveying cylinder 61, the lower end of the electronic scale 62 is fixedly connected with the upper end of the conveying cylinder 61 through the welding block, a threaded groove is formed between the rotating shaft 63 and the conveying cylinder 61, the lower end of the rotating shaft 63 is detachably connected with the upper end of the conveying cylinder 61 through the threaded groove, a groove is formed between the sensor 64 and the rotating shaft 63, the lower end of the sensor 64 is detachably connected with the upper end of the rotating shaft 63 through the groove, a fixing bolt is arranged between the metering device 65 and the electronic scale 62, and the lower end of the metering device 65 is fixedly connected with the upper end of the electronic scale 62 through the fixing bolt.

In this embodiment, the amount of tea leaves to be transported can be calculated quantitatively so as to precisely control the moisture content of the tea leaves, the electronic scale 62 and the metering device 65 calculate the weight of the tea leaves and record the data, the sensor 64 transmits the data to the moisture detector 4 for effective analysis, the moisture loss is calculated through the change of the weight of the tea leaves, and the lifting device 66 is provided so as to conveniently adjust the height of the transporting cylinder 61, so that the functionality of the transporting cylinder is enhanced.

The working principle of the tea processing device based on the accurate control of the moisture is described in detail below.

As shown in fig. 1-6, when the tea processing device is in use, tea leaves can be first twisted by the twisting device 7, a part of the water in the tea leaves is discharged to be dried, the taste of the tea leaves can be improved by twisting and the tea leaves can be stored conveniently, the tea leaves are placed on the surface of the twisting plate 73, the twisting barrel 74 is rotated on the surface of the twisting plate 73 by the rotating handle 75, the tea leaves are continuously rolled to extrude the water in the tea leaves, the pressing device 71 is arranged to improve the twisting force and improve the working effect, the pressing device 71 can increase the rolling force of the tea leaves to improve the working efficiency, the rolling roller 716 and the twisting barrel 74 simultaneously apply pressure to the tea leaves to facilitate the discharge of the water in the tea leaves and increase the weight of the pressing device 71 by the balancing weight 711 to pressurize the pressure, and the return spring 713 is arranged to make the rolling roller work at a constant speed, avoid the too big loss, can make the inside moisture of tea dry effectively through drying device 8, and detect the tea humidity by moisture detector 4, once the moisture reaches the fixed value, make drying device 8 stop working, the tea is rolled so drying device 8 can dry and evaporate the residual moisture of tea fast and shorten its operating time earlier because of rolling, will roll the tea on the hot plate 81, make it evaporate the inside moisture of tea through the heat that gives off, and the evaporator 83 can play the role of collecting heat, make the tea heated evenly, it is very efficient and practical, and can calculate the quantity of carrying the tea by quantitative material feeding unit 6, in order to can be to tea moisture accurate control, calculate the weight size of the tea and record the data by electronic scale 62 and metering device 65, convey the data to moisture detector 4 by sensor 64 and carry on the effective analysis, the loss of moisture is calculated by the change of the weight of the tea leaves, and the lifting device 66 is provided to conveniently adjust the height of the conveying cylinder 61, so that the functionality is enhanced.

While the invention has been described in general terms in the foregoing specification, it will be apparent to those skilled in the art that many modifications and variations are possible in light of the above teaching. Therefore, modifications or improvements are possible within the scope of the novel concept of the invention without departing from the spirit of the invention.

Claims (9)

1. The utility model provides a tea processingequipment based on accurate control of moisture, includes main part (1), its characterized in that: an air supply pipe (2) is arranged at the upper end of the main body (1), a moisture detector (4) is arranged on one side of the main body (1), a fixing buckle (5) is arranged below the moisture detector (4), a screening device (3) is arranged inside the main body (1), a quantitative feeding device (6) is arranged below the screening device (3), a rolling device (7) is arranged on one side of the quantitative feeding device (6), and a drying device (8) is arranged at the lower end of the rolling device (7);

the rolling device (7) comprises a pressurizing device (71), a compression rod (72), a rolling disc (73), a rolling barrel (74) and a rotating handle (75), the compression rod (72) is positioned at the upper end of the rolling disc (73), and the pressurizing device (71) is positioned at the upper end of the compression rod (72);

a connecting hole is formed between the pressurizing device (71) and the compression rod (72), the lower end of the pressurizing device (71) is fixedly connected with the upper end of the compression rod (72) through the connecting hole, a notch is formed between the compression rod (72) and the kneading disc (73), and the lower end of the compression rod (72) is detachably connected with the upper end of the kneading disc (73) through the notch.

2. The tea processing device based on accurate moisture control of claim 1, wherein: the kneading barrel (74) is located at one side of the compression bar (72), and the rotating handle (75) is located at the upper end of the kneading barrel (74).

3. The tea processing device based on accurate moisture control of claim 2, wherein: a sliding groove is formed between the kneading barrel (74) and the kneading disc (73), the lower end of the kneading barrel (74) is movably connected with the upper end of the kneading disc (73) through the sliding groove, a threaded groove is formed between the rotating handle (75) and the kneading barrel (74), and the lower end of the rotating handle (75) is detachably connected with the upper end of the kneading barrel (74) through the threaded groove.

4. The tea processing device based on accurate moisture control of claim 1, wherein: the pressurizing device (71) comprises a balancing weight (711), a hydraulic cylinder (712), a return spring (713), a guide rod (714), a clamping block (715) and a rolling roller (716), wherein the hydraulic cylinder (712) is located on one side of the balancing weight (711), the return spring (713) is located at the upper end of the balancing weight (711), the guide rod (714) is located above the return spring (713), the clamping block (715) is located on one side of the guide rod (714), the rolling roller (716) is located at the upper end of the guide rod (714), the rolling roller (716) comprises a mounting groove (7161), a blade (7162), a rubber ring (7163) and a film (7164), the blade (7162) is located at the upper end of the mounting groove (7161), the rubber ring (7163) is located at the lower end of the mounting groove (7161), and the film (7164) is located on one side of the rubber ring (7163).

5. The tea processing device based on accurate moisture control of claim 4, wherein: be provided with the interface between balancing weight (711) and reset spring (713), the lower extreme fixed connection of interface and reset spring (713) is passed through to the upper end of balancing weight (711), be provided with the screw between balancing weight (711) and pneumatic cylinder (712), one side of balancing weight (711) is passed through one side fixed connection of screw and pneumatic cylinder (712), be provided with the bolt between guide arm (714) and fixture block (715), one side fixed connection of bolt and guide arm (714) is passed through to the upper end of fixture block (715), be provided with the activity groove between guide arm (714) and roller (716), the upper end swing joint of activity groove and guide arm (714) is passed through to the both sides of roller (716).

6. The tea processing device based on accurate moisture control of claim 1, wherein: drying device (8) are including hot plate (81), ventilation hole (82), evaporimeter (83), mounting panel (84), condenser (85), choke valve (86), ventilation hole (82) are located the upper end surface of hot plate (81), evaporimeter (83) are located the lower extreme of hot plate (81), mounting panel (84) are located the lower extreme of evaporimeter (83), condenser (85) are located the lower extreme of mounting panel (84), choke valve (86) are located the upper end surface of mounting panel (84).

7. The tea processing device based on accurate moisture control of claim 6, wherein: be provided with the screw between hot plate (81) and evaporimeter (83), the upper end fixed connection of screw and evaporimeter (83) is passed through to the upper end of hot plate (81), be provided with the draw-in groove between mounting panel (84) and choke valve (86), the lower extreme of choke valve (86) can be dismantled through the upper end of draw-in groove with mounting panel (84) and be connected, be provided with the bolt between mounting panel (84) and condenser (85), the upper end fixed connection of bolt and condenser (85) is passed through to the lower extreme of mounting panel (84).

8. The tea processing device based on accurate moisture control of claim 1, wherein: the quantitative feeding device (6) comprises a conveying cylinder (61), an electronic scale (62), a rotating shaft (63), a sensor (64), a metering device (65), a lifting device (66) and a support (67), wherein the electronic scale (62) is located at the upper end of the conveying cylinder (61), the metering device (65) is located at the upper end of the electronic scale (62), the rotating shaft (63) is located on one side of the electronic scale (62), the sensor (64) is located at the upper end of the rotating shaft (63), the support (67) is located on one side of the conveying cylinder (61), and the lifting device (66) is located at the upper end of the support (67).

9. The tea processing device based on accurate moisture control of claim 8, wherein: a connecting hole is arranged between the bracket (67) and the lifting device (66), the upper end of the bracket (67) is fixedly connected with the lower end of the lifting device (66) through the connecting hole, a welding block is arranged between the electronic scale (62) and the conveying cylinder (61), the lower end of the electronic scale (62) is fixedly connected with the upper end of the conveying cylinder (61) through the welding block, a thread groove is arranged between the rotating shaft (63) and the conveying cylinder (61), the lower end of the rotating shaft (63) is detachably connected with the upper end of the conveying cylinder (61) through the thread groove, a groove is arranged between the sensor (64) and the rotating shaft (63), the lower end of the sensor (64) is detachably connected with the upper end of the rotating shaft (63) through the groove, a fixing bolt is arranged between the metering device (65) and the electronic scale (62), the lower end of the metering device (65) is fixedly connected with the upper end of the electronic scale (62) through a fixing bolt.

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