CN214431501U - A baking equipment for being rich in selenium cyclocarya paliurus tea processing - Google Patents

Abstract

The utility model discloses a baking device for processing selenium-rich cyclocarya paliurus tea, which belongs to the technical field of tea baking equipment and comprises a baking mechanism, a supporting frame and a stirring mechanism, wherein the baking mechanism comprises a shell and a warm air blower, the shell is provided with M air inlet holes, N air outlet holes, an inlet end, an outlet end and a baking chamber, and the warm air blower is communicated with the M air inlet holes; the support frame comprises a feeding end, a discharging end and a hollow part; the stirring mechanism comprises a crank, a stirring shaft, X transverse stirring blades and Y longitudinal stirring blades, one end of the stirring shaft is rotatably connected with the hollow part, and the other end of the stirring shaft penetrates through the inlet end and is detachably connected with the crank; the X transverse stirring blades are fixedly connected with the stirring shaft, and are spirally distributed by taking the stirring shaft as the center; y longitudinal stirring blades are fixedly connected with the stirring shaft. The utility model discloses reach and reduce the tealeaves and cure the required manpower that consumes of in-process for tealeaves is heated more evenly, has improved the technological effect that tealeaves cures efficiency.

Description

A baking equipment for being rich in selenium cyclocarya paliurus tea processing

Technical Field

The utility model belongs to the technical field of tealeaves cures equipment, in particular to a cure device for rich selenium cyclocarya paliurus tea processing.

Background

Tea refers to the leaves and buds of the tea tree, broadly to the leaves of the evergreen bush tea tree which can be used to make tea, and to beverages infused with these leaves, later to be extended to all herbal teas infused with the plant flowers, leaves, seeds, roots. The tea is a daily drink for people, and is beneficial to the health of people.

At present, in current tealeaves cures equipment technique, the process of making of tealeaves often need cure tealeaves dry, takes the manual work to carry tealeaves to spacious outdoor usually, moves away the rainshelter of tealeaves top when treating sunshine sufficient for sunshine penetrates tealeaves directly and cures the drying to tealeaves. However, a large amount of manpower and material resources are needed for carrying tea leaves manually, the tea leaves are susceptible to weather, the efficiency is low, and sunlight can only irradiate the tea leaves on the surface, so that the tea leaves are heated unevenly.

In summary, in the existing tea leaf roasting equipment technology, a great deal of manpower is required to be consumed in the roasting process of tea leaves, the heating is not uniform, and the roasting efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the process of baking of tealeaves needs to consume a large amount of manpowers, is heated inhomogeneously, cures the technical problem of inefficiency.

In order to solve the technical problem, the utility model provides a baking equipment for rich selenium cyclocarya paliurus tea processing, the device includes: a baking mechanism, the baking mechanism comprising: the baking chamber is positioned between the outlet end and the inlet end, each air inlet hole is positioned between the outlet end and the inlet end, each air outlet hole is positioned between the outlet end and the inlet end, M is a positive integer, and N is a positive integer; the warm air blower is communicated with the M air inlet holes; the support frame comprises a feeding end, a discharging end and a hollow part, the inlet end is positioned between the feeding end and the outlet end, the outlet end is positioned between the inlet end and the discharging end, and the fan heater is positioned in the hollow part; rabbling mechanism, the rabbling mechanism includes: a crank; one end of the stirring shaft is rotatably connected with the hollow part, and the other end of the stirring shaft penetrates through the inlet end and is detachably connected with the crank; the X transverse stirring blades are fixedly connected with the stirring shaft, the X transverse stirring blades are spirally distributed by taking the stirring shaft as a center, the X transverse stirring blades are positioned in the baking chamber, and X is a positive integer; y longitudinal stirring blades, wherein the Y longitudinal stirring blades are fixedly connected with the stirring shaft, each longitudinal stirring blade is vertical to each transverse stirring blade, the Y longitudinal stirring blades are positioned in the baking chamber, and Y is a positive integer; wherein the feed end, the inlet end, the roasting chamber and the discharge end form a channel through which the tea leaves pass.

Further, the roasting chamber has a cylindrical shape.

Further, M is equal to N, and each air inlet hole and each corresponding air outlet hole are symmetrically distributed relative to the stirring shaft.

Further, the apparatus further comprises: the first film supplying wheel is arranged in the hollow part; a first drive wheel disposed within the hollow portion; the first limiting wheel is arranged in the hollow part and positioned between the outlet end and the discharge end.

Further, the distance between the first driving wheel and the feeding end is smaller than the distance between the first film supplying wheel and the feeding end, and the distance between the first driving wheel and the feeding end is smaller than the distance between the first limiting wheel and the feeding end.

Further, the apparatus further comprises: a second film supply wheel arranged in the hollow part; a second drive wheel disposed within the hollow, the first drive wheel being located between the second drive wheel and the first drive wheel; the second limiting wheel is arranged in the hollow part, the second limiting wheel is positioned between the second film supply wheel and the first film supply wheel, and the second limiting wheel is positioned between the outlet end and the discharge end.

Further, the distance between the second driving wheel and the feeding end is smaller than the distance between the second film supplying wheel and the feeding end, and the distance between the second driving wheel and the feeding end is smaller than the distance between the second limiting wheel and the feeding end.

Further, the apparatus further comprises: the longitudinal cutter comprises 2 longitudinal ultrasonic cutting pieces which are symmetrically arranged, and the 2 longitudinal ultrasonic cutting pieces are arranged between the first limiting wheel and the discharge end.

Further, the apparatus further comprises: the transverse cutter comprises 2 transverse ultrasonic cutting pieces which are symmetrically arranged, and the 2 transverse ultrasonic cutting pieces are respectively arranged on two sides of the longitudinal ultrasonic cutting piece.

Further, the apparatus further comprises: a feeder disposed at the feed end.

Has the advantages that:

the utility model provides a baking equipment for rich selenium cyclocarya paliurus tea processing, M inlet ports through baking mechanism well electric fan heater and casing communicate each other, it is located between exit end and the entry end to bake the room, each inlet port is located between exit end and the entry end, each venthole is located between exit end and the entry end, the entry end is located between the feed end and the exit end of support frame, the exit end is located between the discharge end of entry end and support frame, the electric fan heater of well kenozooecium inside sets up in the support frame can follow N venthole and discharge after the high-temperature gas that the inlet port was carried gets into to bake the room. Meanwhile, one end of a stirring shaft in the stirring mechanism is rotatably connected with the hollow part of the support frame, the other end of the stirring shaft penetrates through the inlet end and then is detachably connected with the crank, X transverse stirring blades are fixedly connected with the stirring shaft, the X transverse stirring blades are spirally distributed by taking the stirring shaft as the center, and the X transverse stirring blades are positioned in the baking chamber; y longitudinal stirring blades are fixedly connected with the stirring shaft, each longitudinal stirring blade is vertical to each transverse stirring blade, and the Y longitudinal stirring blades are positioned in the baking chamber. At the moment, the feeding end, the inlet end, the baking chamber and the discharging end form a channel for tea to pass through. Like this, when needs bake tealeaves, the high-temperature gas who carries through the electric fan heater dries the tealeaves that enters into in the baking chamber to drive X horizontal stirring vane and Y vertical stirring vane through the manual crank that shakes and rotate, make the tealeaves that falls into in the baking chamber be heated and can be more even. Therefore, manpower in the tea leaf baking process is reduced, tea leaves are heated more uniformly by stirring, and the baking efficiency is improved. Therefore, the manpower consumed in the baking process of the tea leaves is reduced, the tea leaves are heated more uniformly, and the technical effect of improving the baking efficiency of the tea leaves is achieved.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a first schematic view of a baking device for processing selenium-rich cyclocarya paliurus tea provided by an embodiment of the present invention;

fig. 2 is a second schematic view of a baking device for processing selenium-rich cyclocarya paliurus tea provided by an embodiment of the present invention;

fig. 3 is a third schematic view of a baking device for processing selenium-rich cyclocarya paliurus tea according to an embodiment of the present invention;

fig. 4 is a fourth schematic view of the baking device for processing the selenium-rich cyclocarya paliurus tea provided by the embodiment of the present invention.

Detailed Description

The utility model discloses a baking device for processing of rich selenium cyclocarya paliurus tealeaves, M inlet port 1011 through baking mechanism 10 well electric fan heater 102 and casing 101 communicates each other, it is located between exit end 1014 and the entry end 1013 to bake the room 1015, each inlet port 1011 is located between exit end 1014 and the entry end 1013, each venthole 1012 is located between exit end 1014 and the entry end 1013, entry end 1013 is located between feed end 201 and the exit end 1014 of support frame 20, exit end 1014 is located between the discharge end 202 of entry end 1013 and support frame 20, the setting can be followed N venthole 1012 and discharged after the inside electric fan heater 102 of well kenozooecium 203 in support frame 20 gets into to bake the room 1015 for the high-temperature gas that inlet port 1011 carried. Meanwhile, one end of a stirring shaft 302 in the stirring mechanism 30 is rotatably connected with the hollow part 203 of the support frame 20, the other end of the stirring shaft 302 penetrates through the inlet end 1013 and then is detachably connected with the crank 301, X transverse stirring blades 303 are fixedly connected with the stirring shaft 302, the X transverse stirring blades 303 are spirally distributed by taking the stirring shaft 302 as a center, and the X transverse stirring blades 303 are positioned inside the baking chamber 1015; the Y longitudinal stirring vanes 304 are fixedly connected to the stirring shaft 302, each longitudinal stirring vane 304 and each transverse stirring vane 303 are perpendicular to each other, and the Y longitudinal stirring vanes 304 are located inside the roasting chamber 1015. The inlet end 201, inlet end 1013, roasting chamber 1015 and outlet end 202 form a channel through which tea leaves can pass. Like this, when needing to bake tealeaves, the high-temperature gas who delivers through electric fan heater 102 dries the tealeaves that gets into in the roasting chamber 1015 to drive X horizontal stirring vane 303 and Y vertical stirring vane 304 through manual rocking crank 301 and rotate, make the tealeaves that falls into in the roasting chamber 1015 be heated and can be more even. Therefore, manpower in the tea leaf baking process is reduced, tea leaves are heated more uniformly by stirring, and the baking efficiency is improved. Therefore, the manpower consumed in the baking process of the tea leaves is reduced, the tea leaves are heated more uniformly, and the technical effect of improving the baking efficiency of the tea leaves is achieved.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art belong to the protection scope of the present invention; the "and/or" keyword "referred to in this embodiment represents sum or two cases, in other words, a and/or B mentioned in the embodiment of the present invention represents two cases of a and B, A or B, and describes three states where a and B exist, such as a and/or B, representing: only A does not include B; only B does not include A; including A and B.

Also, in embodiments of the invention, when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and similar expressions used in the embodiments of the present invention are for illustrative purposes only and are not intended to limit the present invention.

Please refer to fig. 1, fig. 2, fig. 3 and fig. 4, fig. 1 is a first schematic diagram of a baking device for processing selenium-rich cyclocarya paliurus tea provided by an embodiment of the present invention, fig. 2 is a second schematic diagram of a baking device for processing selenium-rich cyclocarya paliurus tea provided by an embodiment of the present invention, fig. 3 is a third schematic diagram of a baking device for processing selenium-rich cyclocarya paliurus tea provided by an embodiment of the present invention, and fig. 4 is a fourth schematic diagram of a baking device for processing selenium-rich cyclocarya paliurus tea provided by an embodiment of the present invention. The embodiment of the utility model provides a cure device for rich selenium cyclocarya paliurus tea processing, including curing mechanism 10, support frame 20 and rabbling mechanism 30, now carry out following detailed description to curing mechanism 10, support frame 20 and rabbling mechanism 30 respectively:

for the roasting mechanism 10 and the stirring mechanism 30:

the baking mechanism 10 comprises a housing 101 and a warm air blower 102, wherein the housing 101 is provided with M air inlet holes 1011, N air outlet holes 1012, an inlet end 1013, an outlet end 1014 and a baking chamber 1015, the baking chamber 1015 is positioned between the outlet end 1014 and the inlet end 1013, each air inlet hole 1011 is positioned between the outlet end 1014 and the inlet end 1013, each air outlet hole 1012 is positioned between the outlet end 1014 and the inlet end 1013, M is a positive integer, and N is a positive integer; the warm air blower 102 is communicated with the M air inlet holes 1011; wherein the baking chamber 1015 has a cylindrical shape. M and N are equal, and each air inlet 1011 and each corresponding air outlet 1012 are symmetrically distributed relative to the stirring shaft 302.

The stirring mechanism 30 comprises a crank 301, a stirring shaft 302, X transverse stirring blades 303 and Y longitudinal stirring blades 304, one end of the stirring shaft 302 is rotatably connected with the hollow part 203, and the other end of the stirring shaft 302 penetrates through the inlet end 1013 and is detachably connected with the crank 301; the X transverse stirring blades 303 are fixedly connected with the stirring shaft 302, the X transverse stirring blades 303 are spirally distributed by taking the stirring shaft 302 as a center, the X transverse stirring blades 303 are positioned in the baking chamber 1015, and X is a positive integer; the Y longitudinal stirring blades 304 are fixedly connected with the stirring shaft 302, each longitudinal stirring blade 304 is vertical to each transverse stirring blade 303, the Y longitudinal stirring blades 304 are positioned in the baking chamber 1015, and Y is a positive integer; wherein the inlet end 201, the inlet end 1013, the roasting chamber 1015 and the outlet end 202 form a channel for tea leaves to pass through.

Please continue to refer to fig. 1 and fig. 2, M air inlets 1011 are disposed on the left side of the housing 101 of the baking mechanism 10, the M air inlets 1011 refer to 1 air inlet 1011, 2 air inlets 1011, 3 air inlets 1011, 4 air inlets 1011, 5 air inlets 1011, etc., the M air inlets 1011 are communicated with the warm air blower 102, the warm air blower 102 can be fixedly disposed inside the hollow portion 203 of the supporting frame 20, and the warm air blower 102 can deliver high-temperature gas for the M air inlets 1011. The fan heater 102 may be an electric heater, which is an electrical device that uses electric energy to heat air. For example, after the warm air blower 102 sucks in the external normal temperature air, the normal temperature air is heated by the heating wire arranged inside the warm air blower 102 and then is conveyed to the M air inlet holes 1011 through the pipeline. The roasting chamber 1015 of the housing 101 has a space for accommodating the tea leaves and the stirring shaft 302, the X transverse stirring blades 303, and the Y longitudinal stirring blades 304 of the stirring mechanism 30. The high-temperature gas delivered to the M gas inlets 1011 enters the baking chamber 1015 of the housing 101 to dry the tea leaves entering the baking chamber 1015. The right side of the shell 101 in the baking mechanism 10 is provided with N air outlets 1012, the N air outlets 1012 refer to 1 air outlet 1012, 2 air outlets 1012, 3 air outlets 1012, 4 air outlets 1012, 5 air outlets 1012, etc., and the M air outlets 1012 are communicated with the baking chamber 1015. The high temperature gas entering the baking chamber 1015 carries the moisture of the tea leaves out of the N air outlet holes 1012. Make tealeaves be in the environment of dry high temperature for mix with the evaporation rate of moisture in tealeaves, dry tealeaves then, be favorable to the long-term storage of tealeaves. After the high-temperature gas enters the baking chamber 1015 from the gas inlet 1011, because the number of the gas inlet 1011 and the number of the gas outlet 1012 are equal, each gas inlet 1011 and each corresponding gas outlet 1012 are symmetrically distributed relative to the stirring shaft 302, the time for discharging the high-temperature gas carrying tea water vapor from the baking chamber 1015 is shortened, the acceleration of the discharge of water is facilitated, and the efficiency for drying tea is improved. Meanwhile, a temperature sensing sensor may be disposed between the housing 101 and the first limiting wheel 60, and the temperature sensing sensor may sense temperature and convert the sensed temperature into a usable output signal. Can monitor the temperature of tealeaves through temperature-sensing sensor, real-time supervision damages tealeaves from the temperature of baking the room 1015 exhaust tealeaves in the room when avoiding the high temperature, for example when monitoring tealeaves surface temperature and surpassing normal numerical value, can stop the work of electric fan heater 102, in time prevents that tealeaves takes place because high temperature scalds damages rotten.

In addition, one end of stirring shaft 302 is rotatably connected to hollow portion 203, for example by providing a support point within hollow portion 203, which may be located at outlet end 1014 of housing 101, which may be centered on outlet end 1014. Because the other end of (mixing) shaft 302 passes behind entry end 1013 and can dismantle with crank 301 and be connected, when again needing to stir the tealeaves that gets into in baking chamber 1015, can be through linking together crank 301 and (mixing) shaft 302, it can drive X horizontal stirring vane 303 and Y vertical stirring vane 304 of setting on (mixing) shaft 302 to rotate together to wave crank 301. Thus, after the tea leaves enter the roasting chamber 1015 from the feeding end 201 and the inlet end 1013 in sequence, the tea leaves will rotate together with the X transverse stirring blades 303 and the Y longitudinal stirring blades 304, and the tea leaves will be roasted by the high-temperature gas output from the M gas inlet holes 1011 while rotating. The tea leaves falling into the roasting chamber 1015 are then heated more uniformly by stirring the tea leaves. Therefore, manpower in the tea leaf baking process is reduced, tea leaves are heated more uniformly by stirring, and the baking efficiency is improved. After the tea leaves are baked in the baking chamber 1015, the tea leaves move from the outlet end 1014 to the plastic film between the first limiting wheel 60 and the second limiting wheel 90, and the plastic film containing the tea leaves is quickly sealed in the plastic bag formed by the plastic film after moving to the longitudinal ultrasonic cutting part 1001 and the transverse ultrasonic cutting part 1101. Therefore, the time for packaging and sealing the dried tea leaves is shortened, the time for contacting the dried tea leaves with the external space is shortened, and the tea leaves are favorable for keeping dry and long-term storage.

For the cage 20:

the support stand 20 includes a feed end 201, a discharge end 202, and a hollow portion 203, a first loading/unloading port 204, a second loading/unloading port 205, and a feeder 120, the feed end 201 being perpendicular to a plastic film 140130, and the discharge end 202 being perpendicular to the plastic film 140130. The first loading and unloading port 204 is correspondingly arranged at the first film supplying wheel 40, the second loading and unloading port 205 is correspondingly arranged at the second film supplying wheel 70, and the feeder 120 is arranged at the feeding end 201. Inlet end 1013 is located between feed end 201 and outlet end 1014, outlet end 1014 is located between inlet end 1013 and discharge end 202, and warm air blower 102 is located in hollow 203;

specifically, the hollow portion 203 in the support frame 20 has a space for accommodating the first film supply wheel 40, the first drive wheel 50, the first stopper wheel 60, the second film supply wheel 70, the second drive wheel 80, the second stopper wheel 90, the longitudinal cutter 100, and the lateral cutter 110 of the cutting mechanism of the first loading mechanism described below. The first film supplying wheel 40, the first driving wheel 50, the first limiting wheel 60, the second film supplying wheel 70, the second driving wheel 80, the second limiting wheel 90, the longitudinal cutter 100 and the transverse cutter 110 are fixedly arranged in the hollow part 203 of the support frame 20. The feeding end 201 of the supporting frame 20 and the plastic film 140130 are perpendicular to each other, so that the entering direction of tea leaves from the feeding end 201 is also perpendicular to the plastic film 140130, the tea leaves can conveniently enter the hollow part 203 from the feeding end 201, and the residual quantity of the tea leaves at the feeding end 201 is reduced. The feeder 120 may be in the form of a funnel for loading tea leaves, the feeder 120 being arranged at the feed end 201 of the cage 20, the feeder 120 and the feed end 201 being in communication, the diameter of the feeder 120 decreasing towards the feed end 201, such that the tea leaves are poured from the feed end 201 into the hollow 203 by pouring the tea leaves into the feeder 120. The discharge end 202 of the support frame 20 is perpendicular to the plastic film 140130, so that the tea leaves are discharged from the discharge end 202 in a direction perpendicular to the plastic film 140130, the tea leaves are discharged from the discharge end 202 quickly, and the tea leaf discharging efficiency is improved. The first loading and unloading port 204 arranged on the support frame 20 corresponds to the first film supplying wheel 40 in the first loading mechanism, the plastic film for making tea bags is wound on the first film supplying wheel 40, and the first loading and unloading port 204 is used for observing the residual amount of the plastic film on the first film supplying wheel 40, so that the plastic film on the first film supplying wheel 40 can be replaced in time from the first loading and unloading port 204. The second loading/unloading opening 205 provided on the supporting frame 20 corresponds to the second film supplying wheel 70 of the second loading mechanism, the plastic film for making the tea bag is wound on the second film supplying wheel 70, and the second loading/unloading opening 205 is used for observing the residual amount of the plastic film on the second film supplying wheel 70, so that the plastic film on the second film supplying wheel 70 can be replaced in time from the second loading/unloading opening 205.

For the first and second loading mechanisms:

the first loading mechanism comprises a first film supplying wheel 40, a first driving wheel 50 and a first limiting wheel 60, the first film supplying wheel 40 is arranged inside the hollow portion 203, the first driving wheel 50 is arranged inside the hollow portion 203, the first limiting wheel 60 is arranged inside the hollow portion 203, the distance between the first driving wheel 50 and the feeding end 201 is smaller than the distance between the first film supplying wheel 40 and the feeding end 201, and the distance between the first driving wheel 50 and the feeding end 201 is smaller than the distance between the first limiting wheel 60 and the feeding end 201.

Specifically, the first film supplying wheel 40 of the first loading mechanism is rotatably provided in the hollow portion 203 of the support frame 20, and a plastic film for making a tea bag is loaded on the first film supplying wheel 40. The first driving wheel 50 is rotatably arranged in the hollow part 203 of the support frame 20, and the plastic film on the first film supply wheel 40 is connected with the first limiting wheel 60 rotatably arranged in the hollow part 203 of the support frame 20 after bypassing the first driving wheel 50. For example, the first driving wheel 50 is connected to a motor, the motor drives the first driving wheel 50 to rotate, and the rotating first driving wheel 50 drives the plastic film on the first film supplying wheel 40 to move towards the first limiting wheel 60. The first limiting wheel 60 is then connected to the motor so that the plastic film moves from the first limiting wheel 60 toward the discharge end 202. Assume that the center of the first drive wheel 50 is a linear distance A from parallel through the feed end 201 and the plastic film 140130₁The center of the first film supply wheel 40 is parallel to the straight line passing through the feeding end 201 and the plastic film 140130 by a distance B₁The center of the first limiting wheel 60 is parallel to the straight line passing through the feeding end 201 and the plastic film 140130 by a distance C₁Then A is₁＜B₁，C₁＜ B₁. The plastic film sequentially passes through the first film supply wheel 40, the first driving wheel 50 and the first limiting wheel 60, and the distance between the first driving wheel 50 and the feeding end 201 is smaller than the distance between the first film supply wheel 40 and the feeding end 201, so that the first driving wheelThe distance between the first limiting wheel 60 and the feeding end 201 is smaller than the distance between the first limiting wheel 60 and the feeding end 201, so that the plastic film is attached to the first driving wheel 50 and the first limiting wheel 60 more tightly, the friction force between the plastic film and the first driving wheel 50 is increased, the friction force between the plastic film and the first limiting wheel 60 is increased, and the plastic film arranged on the first film supplying wheel 40 is driven to move towards the direction of the discharging end 202 through the first driving wheel 50 and the first limiting wheel 60.

Meanwhile, a gap for passing the plastic film and the tea leaves is arranged between the second limiting wheel 90 and the first limiting wheel 60 in the second loading mechanism, and the numerical value of the distance between the second limiting wheel 90 and the first limiting wheel 60 is set according to the preset tea leaf loading amount. In the second loading mechanism, the second film supplying wheel 70 is rotatably arranged in the hollow part 203 of the support frame 20, and the plastic film for making the tea bag is loaded on the second film supplying wheel 70. The second driving wheel 80 is rotatably arranged in the hollow part 203 of the support frame 20, and the plastic film on the second film supplying wheel 70 is connected with the second limiting wheel 90 rotatably arranged in the hollow part 203 of the support frame 20 after bypassing the second driving wheel 80. For example, the second driving wheel 80 is connected to a motor, the motor drives the second driving wheel 80 to rotate, and the rotating second driving wheel 80 drives the plastic film on the second film supplying wheel 70 to move toward the second limiting wheel 90. The second limiting wheel 90 is connected with the motor, so that the plastic film moves from the second limiting wheel 90 to the direction of the discharge end 202.

It should be noted that the center of the second drive wheel 80 is assumed to be a linear distance A from the center of the second drive wheel parallel to the plane passing through the feed end 201 and the plastic film 140130₂The center of the second film supply wheel 70 is parallel to the straight line passing through the feeding end 201 and the plastic film 140130 by a distance B₂The center of the second limiting wheel 90 is parallel to the plastic film 140130 through the feeding end 201 by a straight line distance C₂Then A is₂＜B₂，C₂＜B₂. The plastic film sequentially passes through the second film supply wheel 70, the second driving wheel 80 and the second limiting wheel 90, and the distance between the second driving wheel 80 and the feeding end 201 is smaller than that between the second film supply wheel 70 and the feeding end 201, and the distance between the second driving wheel 80 and the feeding end 201 is smaller than that between the second driving wheel 80 and the feeding end 201Spacing of second spacing wheel 90 and feed end 201 for the plastic film is inseparabler with second drive wheel 80 and the mutual laminating of second spacing wheel 90 respectively, increases the frictional force between plastic film and the second drive wheel 80, and increases the frictional force between plastic film and the second spacing wheel 90, more is favorable to driving the plastic film that sets up on second confession membrane wheel 70 through second drive wheel 80 and the spacing wheel 90 of second and moves towards the direction of discharge end 202 department. The plastic film arranged on the first film supplying wheel 40 passes through the first driving wheel 50 and the first limiting wheel 60 and then reaches one longitudinal ultrasonic cutting piece 1001 in the following cutting mechanism, the plastic film arranged on the second film supplying wheel 70 passes through the second driving wheel 80 and the second limiting wheel 90 and then reaches the other longitudinal ultrasonic cutting piece 1001 in the following cutting mechanism, tea leaves entering from the feeding end 201 fall between the plastic film arranged on the first film supplying wheel 40 and the plastic film on the second film supplying wheel 70, the tea leaves are wrapped by the plastic films on two sides, and the plastic film filled with the tea leaves is driven by the first driving wheel 50, the first limiting wheel 60, the second driving wheel 80 and the second limiting wheel 90 to move towards the direction of the longitudinal ultrasonic cutting piece 1001.

For the cutting mechanism:

the cutting mechanism comprises a longitudinal cutter 100, a transverse cutter 110, a longitudinal ultrasonic high-frequency vibration generator and a transverse ultrasonic high-frequency vibration generator, wherein the longitudinal cutter 100 is provided with 2 longitudinal ultrasonic cutting pieces 1001 which are symmetrically arranged, and the 2 longitudinal ultrasonic cutting pieces 1001 are arranged between a first limiting wheel 60 and a discharge end 202; the transverse cutter 110 is provided with 2 symmetrically arranged transverse ultrasonic cutting pieces 1101, and the 2 transverse ultrasonic cutting pieces 1101 are arranged between the second limiting wheel 90 and the discharge end 202; a longitudinal ultrasonic high-frequency vibration generator is connected to each of the longitudinal ultrasonic cutting members 1001, respectively. A transverse ultrasonic high-frequency vibration generator is connected to each of the transverse ultrasonic cutters 1101. Wherein, the feed end 201, the first spacing wheel 60, the second spacing wheel 90, 2 longitudinal ultrasonic cutting pieces 1001, 2 transverse ultrasonic cutting pieces 1101 and the discharge end 202 form a channel for tea leaves to pass through.

Specifically, the ultrasonic cutting horn is an ultrasonic cutting horn that transmits a high-frequency vibration wave to the surfaces of the two plastic films to fuse the two plastic films, thereby firmly bonding the two plastic films together. The longitudinal ultrasonic high-frequency vibration generator is respectively connected with 2 longitudinal ultrasonic cutting pieces 1001, and the longitudinal ultrasonic cutting pieces 1001 are controlled by the longitudinal ultrasonic high-frequency vibration generator to control the energy of the longitudinal ultrasonic cutting pieces 1001 acting on the plastic films, such as fusing two plastic films together or cutting at the fused part of the two plastic films. The longitudinal ultrasonic cutting member 1001 refers to an ultrasonic cutting horn disposed in a direction perpendicular to the plastic film 140130, and 2 longitudinal ultrasonic cutting members 1001 are disposed symmetrically with respect to the plastic film, that is, 2 longitudinal ultrasonic cutting members 1001 are disposed on the left and right sides of the plastic film, respectively. One longitudinal ultrasonic cutting member 1001 seals the left side edge of the plastic film, and the other longitudinal ultrasonic cutting member 1001 seals the right side edge of the plastic film, so that the left side edges of the plastic film disposed on the first film supply wheel 40 and the plastic film disposed on the second film supply wheel 70 are sealed together, and the right side edges of the plastic film disposed on the first film supply wheel 40 and the plastic film disposed on the second film supply wheel 70 are sealed together.

With continued reference to fig. 3 and 4, the transverse ultrasonic high-frequency vibration generator is connected to 2 transverse ultrasonic cutting members 1101, respectively, and the transverse ultrasonic high-frequency vibration generator controls the transverse ultrasonic cutting members 1101 to control the amount of energy applied by the transverse ultrasonic cutting members 1101 to the plastic film, for example, to fuse two plastic films together or to cut at the fused portion of two plastic films. The transverse ultrasonic cutter 1101 refers to an ultrasonic cutting horn arranged perpendicular to the longitudinal ultrasonic cutter 1001, and 2 transverse ultrasonic cutters 1101 are arranged symmetrically with respect to the plastic film, that is, 2 transverse ultrasonic cutters 1101 are respectively arranged on the upper and lower sides of the plastic film. One of the transverse ultrasonic cutters 1101 seals the upper side edge of the plastic film, and the other transverse ultrasonic cutter 1101 seals the lower side edge of the plastic film, so that the upper side edges of the plastic films disposed on the first film supply wheel 40 and the second film supply wheel 70 are sealed together, and the lower side edges of the plastic films disposed on the first film supply wheel 40 and the second film supply wheel 70 are sealed together. In this way, the peripheries of the plastic film disposed on the first film supply wheel 40 and the plastic film disposed on the second film supply wheel 70 are sealed by the 2 longitudinal ultrasonic cutting units 1001 and the 2 transverse ultrasonic cutting units 1101, respectively. Thus, after the tea leaves are baked in the baking chamber 1015, the tea leaves move from the outlet end 1014 to the plastic film on the first film supplying wheel 40 and the plastic film on the second film supplying wheel 70, and after the plastic film containing the tea leaves moves to the longitudinal ultrasonic cutting member 1001 and the transverse ultrasonic cutting member 1101, the tea leaves are immediately sealed by the plastic films. The time of packing the tealeaves after will drying is shortened, reduces the tealeaves after the stoving and the time of outside air contact, avoids the steam among the outside air to make tealeaves wet, is favorable to the long-term storage of tealeaves, has improved the drying effect who cures tealeaves, the tealeaves after the production that can be quick cures.

The utility model provides a baking device for rich selenium cyclocarya paliurus tea processing, M inlet ports 1011 through baking mechanism 10 well electric fan heater 102 and casing 101 communicate each other, it is located between exit end 1014 and the entry end 1013 to bake the room 1015, each inlet port 1011 is located between exit end 1014 and the entry end 1013, each venthole 1012 is located between exit end 1014 and the entry end 1013, entry end 1013 is located between feed end 201 and the exit end 1014 of support frame 20, exit end 1014 is located between the discharge end 202 of entry end 1013 and support frame 20, the setting can be followed N venthole 1012 and discharged after the inside electric fan heater 102 of well kenozooecium 203 gets into to bake the room 1015 for the high-temperature gas that inlet port 1011 carried in support frame 20. Meanwhile, one end of a stirring shaft 302 in the stirring mechanism 30 is rotatably connected with the hollow part 203 of the support frame 20, the other end of the stirring shaft 302 penetrates through the inlet end 1013 and then is detachably connected with the crank 301, X transverse stirring blades 303 are fixedly connected with the stirring shaft 302, the X transverse stirring blades 303 are spirally distributed by taking the stirring shaft 302 as a center, and the X transverse stirring blades 303 are positioned inside the baking chamber 1015; the Y longitudinal stirring vanes 304 are fixedly connected to the stirring shaft 302, each longitudinal stirring vane 304 and each transverse stirring vane 303 are perpendicular to each other, and the Y longitudinal stirring vanes 304 are located inside the roasting chamber 1015. The inlet end 201, inlet end 1013, roasting chamber 1015 and outlet end 202 form a channel through which tea leaves can pass. Like this, when needing to bake tealeaves, the high-temperature gas who delivers through electric fan heater 102 dries the tealeaves that gets into in the roasting chamber 1015 to drive X horizontal stirring vane 303 and Y vertical stirring vane 304 through manual rocking crank 301 and rotate, make the tealeaves that falls into in the roasting chamber 1015 be heated and can be more even. Therefore, manpower in the tea leaf baking process is reduced, tea leaves are heated more uniformly by stirring, and the baking efficiency is improved. Therefore, the manpower consumed in the baking process of the tea leaves is reduced, the tea leaves are heated more uniformly, and the technical effect of improving the baking efficiency of the tea leaves is achieved.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the examples, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (10)

1. A baking device for processing selenium-enriched cyclocarya paliurus tea, which is characterized by comprising:

a baking mechanism, the baking mechanism comprising:

the baking chamber is positioned between the outlet end and the inlet end, each air inlet hole is positioned between the outlet end and the inlet end, each air outlet hole is positioned between the outlet end and the inlet end, M is a positive integer, and N is a positive integer;

the warm air blower is communicated with the M air inlet holes;

the support frame comprises a feeding end, a discharging end and a hollow part, the inlet end is positioned between the feeding end and the outlet end, the outlet end is positioned between the inlet end and the discharging end, and the fan heater is positioned in the hollow part;

rabbling mechanism, the rabbling mechanism includes:

a crank;

one end of the stirring shaft is rotatably connected with the hollow part, and the other end of the stirring shaft penetrates through the inlet end and is detachably connected with the crank;

the X transverse stirring blades are fixedly connected with the stirring shaft, the X transverse stirring blades are spirally distributed by taking the stirring shaft as a center, the X transverse stirring blades are positioned in the baking chamber, and X is a positive integer;

y longitudinal stirring blades, wherein the Y longitudinal stirring blades are fixedly connected with the stirring shaft, each longitudinal stirring blade is vertical to each transverse stirring blade, the Y longitudinal stirring blades are positioned in the baking chamber, and Y is a positive integer;

wherein the feed end, the inlet end, the roasting chamber and the discharge end form a channel through which the tea leaves pass.

2. The roasting apparatus for processing of cyclocarya paliurus tea as claimed in claim 1, wherein:

the roasting chamber is in the shape of a cylinder.

3. The roasting apparatus for processing of cyclocarya paliurus tea as claimed in claim 2, wherein:

m is equal to N, and each air inlet and each corresponding air outlet are symmetrically distributed relative to the stirring shaft.

4. The roasting apparatus for processing of cyclocarya paliurus tea of claim 3, wherein the apparatus further comprises:

the first film supplying wheel is arranged in the hollow part;

a first drive wheel disposed within the hollow portion;

the first limiting wheel is arranged in the hollow part and positioned between the outlet end and the discharge end.

5. The roasting apparatus for processing of cyclocarya paliurus tea as claimed in claim 4, wherein:

the distance between the first driving wheel and the feeding end is smaller than the distance between the first film supplying wheel and the feeding end, and the distance between the first driving wheel and the feeding end is smaller than the distance between the first limiting wheel and the feeding end.

6. The roasting apparatus for processing of cyclocarya paliurus tea of claim 5, wherein the apparatus further comprises:

a second film supply wheel arranged in the hollow part;

a second drive wheel disposed within the hollow, the first drive wheel being located between the second drive wheel and the first drive wheel;

the second limiting wheel is arranged in the hollow part, the second limiting wheel is positioned between the second film supply wheel and the first film supply wheel, and the second limiting wheel is positioned between the outlet end and the discharge end.

7. The roasting apparatus for processing of cyclocarya paliurus tea as claimed in claim 6, wherein:

the distance between the second driving wheel and the feeding end is smaller than the distance between the second film supplying wheel and the feeding end, and the distance between the second driving wheel and the feeding end is smaller than the distance between the second limiting wheel and the feeding end.

8. The roasting apparatus for processing of cyclocarya paliurus tea of claim 7, wherein the apparatus further comprises:

the longitudinal cutter comprises 2 longitudinal ultrasonic cutting pieces which are symmetrically arranged, and the 2 longitudinal ultrasonic cutting pieces are arranged between the first limiting wheel and the discharge end.

9. The roasting apparatus for processing of cyclocarya paliurus tea of claim 8, wherein the apparatus further comprises:

the transverse cutter comprises 2 transverse ultrasonic cutting pieces which are symmetrically arranged, and the 2 transverse ultrasonic cutting pieces are respectively arranged on two sides of the longitudinal ultrasonic cutting piece.

10. The roasting apparatus for processing of cyclocarya paliurus tea of claim 9, wherein the apparatus further comprises:

a feeder disposed at the feed end.

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