CN114009514A - Intelligent temperature-control type pan-frying device for tea production based on low-temperature drying - Google Patents

Abstract

The invention discloses an intelligent temperature-control type pan-frying device for tea production based on low-temperature drying, which comprises a device shell and a driving rod, wherein a heating layer is arranged inside the device shell, a transmission layer is arranged inside the heating layer, an inner device shell is arranged inside the transmission layer, first filter screens are arranged on the periphery of the inner device shell, a feeding port is arranged above the inner device shell, a discharging port is arranged on one side of the inner device shell, and a driven rod is connected to one side of the driving rod. This tealeaves production is with intelligent accuse temperature type fried green device based on low temperature drying is provided with the driving electric fan in device top and bottom, and the driving electric fan can carry out the circulation with the inside heat of device inner shell and flow, carries out the secondary circulation, is favorable to guaranteeing the inside drying of device, is favorable to the energy saving, and the while is at the inside temperature of heat endless in-process controlling means inner shell, prevents that the inner shell temperature is too high, is favorable to the inside temperature of controlling means.

Description

Intelligent temperature-control type pan-frying device for tea production based on low-temperature drying

Technical Field

The invention relates to the technical field of tea, in particular to an intelligent temperature-control type pan-frying device for tea production based on low-temperature drying.

Background

Tea leaves are originated from China, the tea leaves are used as sacrificial articles at first, the tea leaves are developed into medicinal products in the middle stage of Western Han dynasty, the tea leaves are developed into palace high-grade beverages in the later stage of Western Han dynasty, the tea leaves are used as common beverages in China, the common beverages are the things behind the Western jin along with the development of the times, the tea leaves can be used by modern households, the tea leaves are divided into six categories according to varieties, manufacturing modes and product shapes, the tea leaves can be divided into spring tea, summer tea, autumn tea and winter tea according to seasonal picking, the tea leaves are usually processed by the tea leaves picked by workers, in the tea leaf processing process, the tea leaves need to be roasted, the automatic roasting device gradually replaces manual roasting, but the roasting device in the market at present has the following problems:

1. the frying device in the current market cannot accurately and effectively control the internal temperature in the frying process, so that the heating degree of tea leaves is uneven, the finished product quality of the tea leaves is affected, the tea leaves can be burnt even burnt when the temperature is too high, certain potential safety hazards exist, the device consumes a large amount of energy, and the energy is not beneficial to energy conservation and environmental protection;

2. at the fried green in-process of tealeaves, need constantly to overturn tealeaves, the quality of the fried green of upset efficiency direct influence tealeaves even, present fried green device can only control tealeaves and overturn, can't carry out the multi-angle upset to tealeaves, and a large amount of tealeaves are piled up and can't carry out effectual reversal in the device inside and make cost tealeaves quality extremely poor easily, and unqualified tealeaves proportion is high, has brought very big inconvenience for the staff use.

Aiming at the problems, the innovative design is carried out on the basis of the original tea pan-frying device.

Disclosure of the invention

The invention aims to provide an intelligent temperature-control type pan-frying device for tea production based on low-temperature drying, which solves the problems that the pan-frying device in the prior market cannot accurately and effectively control the internal temperature in the pan-frying process, so that the heating degree of tea is uneven, the finished product quality of the tea is influenced, the tea can be burnt and even burnt when the temperature is too high, certain potential safety hazards exist, the device consumes large energy, the energy is not beneficial to energy conservation and environmental protection, the tea needs to be continuously inverted in the pan-frying process of the tea, the overturning efficiency even directly influences the quality of the tea pan-frying, the prior pan-frying device can only overturn the tea left and right, the tea cannot be overturned in multiple angles, a large amount of tea cannot be effectively inverted in the device, the cost of the tea quality is very poor, and the unqualified tea proportion is very high, bringing great inconvenience to the use of the staff.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent temperature-control pan-frying device for tea production based on low-temperature drying comprises a device shell and a driving rod, a heating layer is arranged in the device shell, a transmission layer is arranged in the heating layer, an inner device shell is arranged in the transmission layer, a first filter screen is arranged on the periphery of the inner device shell, a feeding port is arranged above the inner device shell, and one side of the inner shell of the device is provided with a discharge hole, one side of the driving rod is connected with a driven rod, a turning mechanism is arranged below the driven rod, a first driving fan is connected above the driving rod, a second filter screen is arranged below the first driving fan, one side of the driving rod is connected with a spiral fan blade, and the top of the driving rod is connected with a driving motor, a second driving fan is arranged below the driving rod, and a third filter screen is arranged above the second driving fan.

Preferably, the first filter screens are uniformly distributed in the inner part of the inner shell of the device at equal intervals, are positioned in the ventilation openings, and penetrate through the inner shell of the device to be connected with the transmission layer.

Preferably, the turning mechanism comprises a driving screw rod, a rotating gear, a fixed rack, a first auxiliary block, a first connecting rod, a second auxiliary block and a second connecting rod, the driving screw rod is located below the driven rod, the rotating gear is connected below the driving screw rod, one side of the rotating gear is connected with the fixed rack, the fixed racks are uniformly and equidistantly distributed on the inner wall of the inner shell of the device, the driving screw rod is connected with the driven rod in a rotating mode, and the driving screw rod and the fixed racks form a meshing rotating structure through the rotating gear.

Preferably, one side of first supplementary piece is connected with the head rod, be connected with the second connecting rod around the head rod, one side of second connecting rod is connected with the supplementary piece of second, the connected mode of first supplementary piece and drive lead screw is threaded connection, first supplementary piece passes through the fixed block and constitutes screw thread elevation structure with the drive lead screw, first supplementary piece is arc all around, the connected mode of head rod and second connecting rod is for rotating to be connected, the second connecting rod is the integration installation with the supplementary piece of second, the supplementary piece of second is arc all around, the supplementary piece of second is the cross about the central point of head rod.

Preferably, first drive fan is the integration installation with the initiative pole, and the size of first drive fan is unanimous with the size of second filter screen to first drive fan top uniform equidistance distributes has first filter screen, first drive fan bilateral symmetry distributes has the pan feeding mouth.

Preferably, the driving rod and the driven rod rotate integrally, turning mechanisms are symmetrically distributed on two sides of the driven rod, and the driving rod is fixedly connected with the spiral fan blades.

Preferably, the spiral fan blade is wound upwards in a threaded manner, a protective layer is sleeved on the edge of the spiral fan blade, and the sum of the length of the spiral fan blade and the length of the first auxiliary block is equal to the length of the inner shell of the device.

Preferably, the first filter screen is uniformly distributed below the second driving fan at equal intervals, the length of the second driving fan is consistent with that of the third filter screen, the turning direction of the second driving fan is opposite to that of the first driving fan, and the diameter of the second driving fan is consistent with that of the inner shell of the device.

Compared with the prior art, the invention has the beneficial effects that: the intelligent temperature-control pan-frying device for tea production based on low-temperature drying,

1. the driving fans are arranged at the top and the bottom of the device, and can circularly flow heat in the inner shell of the device to carry out secondary circulation, so that the drying in the device is favorably ensured, the energy is favorably saved and utilized, and meanwhile, the temperature in the inner shell of the device is controlled in the heat circulation process, so that the overhigh temperature of the inner shell is prevented, and the temperature in the device is favorably controlled;

2. inside the device has added the mechanism of stirring and spiral flabellum, and spiral flabellum can rise the tealeaves of bottom simultaneously rotating the in-process, and the back is supplementary with the transport top of tealeaves bottom through the mechanism of stirring, and the transport bottom at top is favorable to carrying out the multi-angle upset to tealeaves, is convenient for make tealeaves thermally equivalent, is favorable to improving the qualification efficiency of tealeaves.

Drawings

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

FIG. 2 is a schematic view of the overall top cross-sectional structure of the present invention;

FIG. 3 is a schematic top view of a second driving fan and a first filter according to the present invention;

FIG. 4 is a schematic view of the overall cross-sectional three-dimensional structure of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 6 is a schematic bottom view of the second filter and the feeding port of the present invention;

FIG. 7 is a schematic structural diagram of a side view of the first auxiliary block and the second auxiliary block of the present invention.

In the figure: 1. a device housing; 2. a heating layer; 3. a transport layer; 4. a first filter screen; 5. an apparatus inner housing; 6. a turning mechanism; 601. driving the screw rod; 602. a rotating gear; 603. fixing a rack; 604. a first auxiliary block; 605. a first connecting rod; 606. a second auxiliary block; 607. a second connecting rod; 7. a drive motor; 8. a first drive fan; 9. a second filter screen; 10. a feeding port; 11. a driven lever; 12. a driving lever; 13. a helical fan blade; 14. a discharge port; 15. a protective layer; 16. a second drive fan; 17. and a third filter screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the invention provides an intelligent temperature-controlled pan-frying device for tea production based on low-temperature drying, comprising a device outer shell 1 and a driving rod 12, in order to assist heat to circulate in the device inner shell 5, a heating layer 2 is arranged in the device outer shell 1, a transmission layer 3 is arranged in the heating layer 2, a device inner shell 5 is arranged in the transmission layer 3, first filter screens 4 are arranged around the device inner shell 5, a feeding port 10 is arranged above the device inner shell 5, a discharging port 14 is arranged on one side of the device inner shell 5, the first filter screens 4 are uniformly and equidistantly distributed in the device inner shell 5, the first filter screens 4 are positioned in a ventilation port, the first filter screens 4 penetrate through the device inner shell 5 and are connected with the transmission layer 3, heat in the device inner shell 5 can enter the transmission layer 3 through the first filter screens 4 at any time, the back process first filter screen 4 enters into device inner shell 5 inside again, is favorable to cyclic utilization heat, is convenient for improve and fries tea efficiency.

Referring to fig. 1-7, the present invention provides an intelligent temperature control type pan-frying device for tea production based on low temperature drying, in order to turn over tea leaves in multiple angles and prevent uneven heating of tea leaves, one side of a driving rod 12 is connected with a driven rod 11, a turning mechanism 6 is arranged below the driven rod 11, the turning mechanism 6 comprises a driving screw 601, a rotating gear 602, a fixed rack 603, a first auxiliary block 604, a first connecting rod 605, a second auxiliary block 606 and a second connecting rod 607, the driving screw 601 is arranged below the driven rod 11, the rotating gear 602 is connected below the driving screw 601, one side of the rotating gear 602 is connected with the fixed rack 603, the fixed racks 603 are uniformly and equidistantly distributed on the inner wall of an inner shell 5 of the device, the driving screw 601 is connected with the driven rod 11 in a rotating manner, the driving screw 601 forms a meshing rotating structure with the fixed rack 603 through the rotating gear 602, one side of the first auxiliary block 604 is connected with a first connecting rod 605, the periphery of the first connecting rod 605 is connected with a second connecting rod 607, one side of the second connecting rod 607 is connected with a second auxiliary block 606, the first auxiliary block 604 is in threaded connection with the driving screw 601, the first auxiliary block 604 and the driving screw 601 form a threaded lifting structure through a fixing block, the periphery of the first auxiliary block 604 is in a circular arc shape, the first connecting rod 605 and the second connecting rod 607 are in rotational connection, the second connecting rod 607 and the second auxiliary block 606 are integrally installed, the periphery of the second auxiliary block 606 is in a circular arc shape, the second auxiliary block 606 is in a cross shape relative to the central point of the first connecting rod 605, the spiral fan blades 13 are in an upward surrounding manner in a threaded manner, the edges of the spiral fan blades 13 are sleeved with protective layers 15, and the sum of the lengths of the spiral fan blades 13 and the length of the first auxiliary block is equal to the length inside of the device inner shell 604, drive lever 12 is the integration with driven lever 11 and rotates, and 11 bilateral symmetry of driven lever distributes and have the mechanism 6 that turns over, and drive lever 12 is fixed connection with spiral fan blade 13's connected mode, first auxiliary block 604 can carry out mutual upset interchange with tealeaves bottom and top, second auxiliary block 606 removes when removing along with first auxiliary block 604, overturn about tealeaves, first auxiliary block 604 and the even arc of second auxiliary block 606, be favorable to protecting tealeaves, prevent to overturn in-process damage tealeaves, spiral fan blade 13 will overturn about tealeaves simultaneously, protective layer 15 prevents spiral fan blade 13 scratch tealeaves, be favorable to multi-angle upset tealeaves, be convenient for tealeaves thermally equivalent.

Referring to fig. 1-6, the present invention provides an intelligent temperature-controlled pan frying device for tea production based on low temperature drying, in order to increase heat circulation efficiency, a first driving fan 8 is connected above a driving rod 12, a second filter screen 9 is disposed below the first driving fan 8, a spiral fan 13 is connected to one side of the driving rod 12, a driving motor 7 is connected above the driving rod 12, a second driving fan 16 is disposed below the driving rod 12, a third filter screen 17 is disposed above the second driving fan 16, the first driving fan 8 and the driving rod 12 are integrally installed, the size of the first driving fan 8 is consistent with that of the second filter screen 9, first filter screens 4 are uniformly and equidistantly distributed above the first driving fan 8, feeding ports 10 are symmetrically distributed on both sides of the first driving fan 8, first filter screens 4 are uniformly and equidistantly distributed below the second driving fan 16, and the length of the second driving fan 16 is the same as the length of the third filter screen 17, and the turning direction of the second driving fan 16 is opposite to that of the first driving fan 8, the diameter of the second driving fan 16 is the same as that of the device inner shell 5, the second driving fan 16 sucks heat from the transmission layer 3 and then conveys the heat to the inside of the device inner shell 5, the first driving fan 8 sucks the heat from the device inner shell 5 and conveys the heat to the inside of the transmission layer 3, a whole cycle is completed, secondary utilization of the heat is facilitated, the pan-frying efficiency is improved, and integrated operation of the device is facilitated.

The working principle is as follows: according to the fig. 1-7, firstly, tea leaves are put into the inner casing 5 of the device from the material inlet 10, then the heating layer 2 is opened, the heating layer 2 starts to heat, then the driving motor 7 is opened, the driving rod 12 is driven by the driving motor 7 to rotate, the spiral fan blade 13 is driven by the driving rod 12 to rotate, the bottom tea leaves start to be conveyed upwards, meanwhile, the tea leaves are overturned, the driven rod 11 is driven to rotate by the driving rod 12 during the rotation, the driven rod 11 drives the driving screw rod 601 to start to move along with the movement of the driven rod 11, the transmission gear 602 and the fixed rack 603 perform the meshing motion during the movement of the driving screw rod 601, the driving screw rod 601 rotates and the first auxiliary block 604 to perform the thread motion, the first auxiliary block 604 is lifted due to the fixed block, the first auxiliary block 604 drives the tea leaves to overturn upwards and downwards during the lifting, meanwhile, the first auxiliary block 604 drives the second connecting rod 607 to lift through the first connecting rod 605, in the lifting process of the second connecting rod 607, the tea leaves contact the second auxiliary block 606, so that the second auxiliary block 606 starts to rotate, the tea leaves are turned over at multiple angles, and the tea leaves are uniformly heated;

according to fig. 1-6, in the process of rotating the driving rod 12, the second driving fan 16 is driven to rotate, the second driving fan 16 sucks heat out of the transmission layer 3 through the first filter screen 4, then the heat is sprayed out of the top of the transmission layer to uniformly heat tea leaves, meanwhile, the first driving fan 8 also rotates along with the rotation of the driving rod 12, the heat which cannot be effectively utilized at the top of the inner shell 5 of the device is transmitted into the transmission layer 3 through the first filter screen 4, the second filter screen 9 prevents the tea leaves from entering into the working area of the first driving fan 8, the tea leaves heated by the heating layer 2 reenter into the inner shell 5 through the first filter screens 4 at the two sides of the inner shell 5 of the device, so as to achieve the purpose of heat recycling, along with the reverse rotation process of the driving motor 7, the first driving fan 8 and the second driving fan 16 have opposite effects, the second driving fan 16 starts to absorb heat, at this time, the third filter screen 17 prevents the tea leaves from entering into the second driving fan 16, the tea leaves are discharged through the discharge port 14 after being roasted, which is the working process of the whole device, and the content which is not described in detail in the specification belongs to the prior art which is well known to the professional skilled in the art.

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

Claims (8)

1. The utility model provides a tealeaves production is with intelligent accuse warm type stir-fry device based on low temperature drying, includes device shell (1) and initiative pole (12), its characterized in that: the device is characterized in that a heating layer (2) is arranged inside a device shell (1), a transmission layer (3) is arranged inside the heating layer (2), a device inner shell (5) is arranged inside the transmission layer (3), first filter screens (4) are arranged around the device inner shell (5), a feeding port (10) is arranged above the device inner shell (5), a discharging port (14) is arranged on one side of the device inner shell (5), a driven rod (11) is connected to one side of a driving rod (12), a turning mechanism (6) is arranged below the driven rod (11), a first driving fan (8) is connected to the upper side of the driving rod (12), a second filter screen (9) is arranged below the first driving fan (8), spiral fan blades (13) are connected to one side of the driving rod (12), and a driving motor (7) is connected to the upper side of the driving rod (12), a second driving fan (16) is arranged below the driving rod (12), and a third filter screen (17) is arranged above the second driving fan (16).

2. The intelligent temperature-control pan-frying device for tea production based on low-temperature drying as claimed in claim 1, is characterized in that: the device is characterized in that first filter screens (4) are uniformly distributed in the inner portion of the inner shell (5) at equal intervals, the first filter screens (4) are located in the ventilation openings, and the first filter screens (4) penetrate through the inner shell (5) and are connected with the transmission layer (3).

3. The intelligent temperature-control pan-frying device for tea production based on low-temperature drying as claimed in claim 1, is characterized in that: the turning mechanism (6) comprises a driving screw rod (601), a rotating gear (602), a fixed rack (603), a first auxiliary block (604), a first connecting rod (605), a second auxiliary block (606) and a second connecting rod (607), the driving screw rod (601) is located below the driven rod (11), the rotating gear (602) is connected below the driving screw rod (601), one side of the rotating gear (602) is connected with the fixed rack (603), the fixed racks (603) are uniformly distributed on the inner wall of the device inner shell (5) at equal intervals, the driving screw rod (601) is connected with the driven rod (11) in a rotating mode, and the driving screw rod (601) and the fixed rack (603) form a meshing rotating structure through the rotating gear (602).

4. The intelligent temperature-control pan-frying device for tea production based on low-temperature drying as claimed in claim 3, characterized in that: one side of the first auxiliary block (604) is connected with a first connecting rod (605), a second connecting rod (607) is connected to the periphery of the first connecting rod (605), a second auxiliary block (606) is connected to one side of the second connecting rod (607), the first auxiliary block (604) is in threaded connection with the driving screw rod (601), the first auxiliary block (604) and the driving screw rod (601) form a threaded lifting structure through a fixing block, the periphery of the first auxiliary block (604) is arc-shaped, the connecting mode of the first connecting rod (605) and the second connecting rod (607) is in rotating connection, the second connecting rod (607) and the second auxiliary block (606) are integrally installed, the periphery of the second auxiliary block (606) is arc-shaped, and the center point of the second auxiliary block (606) relative to the first connecting rod (605) is in a cross shape.

5. The intelligent temperature-control pan-frying device for tea production based on low-temperature drying as claimed in claim 1, is characterized in that: first drive fan (8) are the integration installation with drive lever (12), and the size of first drive fan (8) is unanimous with the size of second filter screen (9) to first drive fan (8) top uniform equidistance distributes and has first filter screen (4), first drive fan (8) bilateral symmetry distributes has pan feeding mouth (10).

6. The intelligent temperature-control pan-frying device for tea production based on low-temperature drying is characterized in that: the driving rod (12) and the driven rod (11) integrally rotate, the turning mechanisms (6) are symmetrically distributed on two sides of the driven rod (11), and the driving rod (12) is fixedly connected with the spiral fan blades (13).

7. The intelligent temperature-control pan-frying device for tea production based on low-temperature drying is characterized in that: the spiral fan blade (13) is upwards encircled in a threaded manner, the edge of the spiral fan blade (13) is sleeved with a protective layer (15), and the sum of the length of the spiral fan blade (13) and the length of the first auxiliary block (604) is equal to the length inside the inner shell (5) of the device.

8. The intelligent temperature-control pan-frying device for tea production based on low-temperature drying is characterized in that: second drive fan (16) below uniform spacing distributes has first filter screen (4), and the length of second drive fan (16) is unanimous with the length of third filter screen (17), and turns to with first drive fan (8) opposite second drive fan (16), the diameter of second drive fan (16) is unanimous with the diameter of device inner shell (5).

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