CN110013042B - Coarse grain tea ball preparation equipment based on heat conduction - Google Patents

Abstract

The invention provides heat conduction-based coarse grain tea ball preparation equipment which comprises supporting legs, a coarse grain tea ball and a plurality of powder rolling trays, wherein the surface of each supporting leg is fixedly connected with a powder rolling box, the inner wall of each powder rolling box is fixedly connected with a supporting hollow steel pipe, the surface of each supporting hollow steel pipe is fixedly connected with a plurality of rolling disc balls, the surface of each powder rolling tray is provided with a through hole, and a plurality of rolling disc balls are inlaid in the inner wall of each through hole. This preparation equipment of coarse grain tea circle based on heat-conduction is through inhaling what hair-dryer circulation induced draft bloies and makes things convenient for the recycling of tea powder, utilize gravity to make the incessant circulation work of whole rolling device, work efficiency has been improved in energy-conserving, the operating temperature of powder incasement portion is rolled in heat-conduction thermostatic control, thereby effectual general coarse grain tea circle preparation equipment of having solved is when rolling the powder, the inhomogeneous condition of powder appears rolling easily, and work efficiency is low, the problem that continuous operation equipment energy consumption is high.

Description

Coarse grain tea ball preparation equipment based on heat conduction

Technical Field

The invention relates to the technical field of coarse grain tea balls, in particular to coarse grain tea ball preparation equipment based on heat conduction.

Background

The roughage tea ball is a potato flour ball in the current market, also called a pearl ball, and is a traditional snack with leisure flavor, the roughage tea ball is prepared by preparing tea powder, roughage and the like into a ball and then rolling the ball into powder, most of the existing roughage tea balls are woven on a rolling machine when the tea powder is rolled, a large amount of tea powder and flour are woven on the surface of the rolling machine, the tea powder and the flour are rolled onto the ball when the rolling machine rolls the ball, when the existing rolling machine rolls the ball, the ball rolls in a rolling disc, a proper amount of the ball needs to be controlled for running, the situation of accumulation of the ball occurs when the number of the balls is large, the ball rolling is not uniform in the rolling process, the ball also needs to be continuously selected and added, the working process is complex, the energy consumption is high, the preparation equipment of the general roughage tea ball rolls the powder, the uneven condition of rolling powder easily appears, and work efficiency is low, and the continuous working equipment energy consumption is high, so need a coarse grain tea ball preparation equipment based on heat conduction.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides coarse grain tea ball preparation equipment based on heat conduction, and solves the problems that when general coarse grain tea ball preparation equipment rolls powder, the powder rolling is uneven, the working efficiency is low, and the energy consumption of continuous working equipment is high.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a coarse grain tea ball preparation device based on heat conduction comprises supporting legs, a coarse grain tea ball and a plurality of powder rolling trays, wherein the surface of each supporting leg is fixedly connected with a powder rolling box, the inner wall of each powder rolling box is fixedly connected with a supporting hollow steel pipe, the surface of each supporting hollow steel pipe is fixedly connected with a plurality of powder rolling balls, the surface of each powder rolling tray is provided with a through hole, the inner wall of each through hole is inlaid with a plurality of powder rolling balls, the surface of each powder rolling ball is connected with the surface of each powder rolling ball in a sliding manner, the inner wall of each powder rolling tray is provided with two arc-shaped powder rolling channels, one side wall of each arc-shaped powder rolling channel is provided with a powder blowing groove, the other side wall of each arc-shaped powder rolling channel is provided with a powder sucking groove, a plurality of arc-shaped heat conduction wires are laid on the inner wall of each arc-shaped powder rolling channel, and one end of each arc-shaped powder rolling channel is provided with a round hole, one end of the round hole is fixedly sleeved with a round pipe, the surface of the powder rolling box is fixedly connected with a first arc-shaped round guide pipe, a second arc-shaped circular guide pipe is fixedly connected to the surface of the powder rolling box, one end of the first arc-shaped circular guide pipe and one end of the second arc-shaped circular guide pipe penetrate through and extend into the powder rolling box, the inner walls of the first arc-shaped round guide pipe and the second arc-shaped round guide pipe are both provided with arc-shaped control grooves, the inner walls of the arc-shaped control grooves are fixedly connected with arc-shaped soft magnetic strips, the inner walls of the first arc-shaped circular guide tube and the second arc-shaped circular guide tube are fixedly connected with fixing beads, the surface of the fixed bead is fixedly connected with an elastic band, one end of the elastic band is fixedly connected with a round blocking ball, keep off the fixed surface of ball and be connected with the connection rope, the one end fixedly connected with of connecting the rope inhales the iron pearl, is located the top the fixed surface who rolls the powder tray is connected with the ejector pad.

The surface of the supporting hollow steel pipe is fixedly sleeved with a first movable pipe, one end of the first movable pipe is fixedly sleeved with a plastic hose, one end of the plastic hose, far away from the first movable pipe, is fixedly sleeved with a second movable pipe, one end of the second movable pipe penetrates through and extends into the powder rolling tray, the surface of the powder rolling box is fixedly connected with a plurality of annular pipes, the surface of each annular pipe is sleeved with a movable powder blowing pipe, the material of each movable powder blowing pipe comprises plastic, one end of each movable powder blowing pipe penetrates through and extends into the powder rolling tray, the surface of the powder rolling box is fixedly connected with a base, the surface of the base is fixedly connected with a powder sucking blower, an air suction opening of the powder sucking blower is sleeved with one end of the supporting hollow steel pipe, an air blowing opening of the powder sucking blower is sleeved with a first powder conveying pipe, and the surface of the first powder conveying pipe is sleeved with a powder conveying pipe, the fixed cover of one end of first powder transmission pipe has connect the second and has passed the powder pipe, the second passes the one end of powder pipe and cup joints, a plurality of with the surface of toroidal tube fixed intercommunication powder pipe has been cup jointed between the toroidal tube, roll the interior diapire fixedly connected with underframe of powder case, the inner wall fixedly connected with pocket circle sack of underframe.

Preferably, the number of the powder rolling trays is the same as that of the powder rolling balls, the powder rolling trays are located above the powder rolling balls, and the powder rolling trays correspond to the powder rolling balls one to one.

Preferably, the two arc-shaped powder rolling channels on each powder rolling tray are distributed in a centrosymmetric manner by taking the circle center of the powder rolling tray as the center.

Preferably, the powder blowing groove and the powder suction groove are distributed oppositely, and the position height of the powder suction groove is higher than that of the powder blowing groove.

Preferably, all the arc heat transfer wires in each arc powder rolling channel are electrically connected with an external power supply through a lead, and the temperature of the arc heat transfer wires is less than or equal to 45 ℃ when the arc heat transfer wires work.

Preferably, first arc is led the pipe and is led the pipe to correspond different arcs respectively with the second arc and roll the powder passageway, first arc is led pipe and second arc and is led the pipe and all be located rather than the corresponding arc and roll the top of powder passageway.

Preferably, the material of the round blocking ball comprises rubber, and the diameter of the magnet bead is larger than the width of the inner wall of the arc control groove.

Preferably, two independent cavities are formed in each powder rolling tray, one cavity is communicated with the air suction groove and the second movable pipe, and the other cavity is communicated with the air blowing groove and the movable powder blowing pipe.

Preferably, the surface of the powder rolling box is hinged with an operating door, a buckle lock is fixedly mounted on the surface of the operating door, and the surface of the operating door is fixedly connected with the surface of the powder rolling box through the buckle lock.

(III) advantageous effects

(1) When the invention is used, tea powder and flour are input into the powder conveying pipe, the air suction blower is started, one end of each end of the air suction blower sucks air, the other end of the air suction blower blows air, the tea powder enters the first powder conveying pipe, the second powder conveying pipe and the annular pipe through the powder conveying pipe, then enters the cavity of the powder rolling tray and is blown to the interior of the arc-shaped powder rolling channel through the powder blowing groove, meanwhile, the air suction end of the air suction blower sucks air through the supporting hollow steel pipe, the first movable pipe, the plastic hose and the second movable pipe, the tea powder enters the second movable pipe through the powder suction groove and the cavity inside the powder rolling tray, coarse grain tea round seeds are continuously and uninterruptedly put into the first arc-shaped guide pipe and the second arc-shaped guide pipe, the powder rolling tray is firstly stirred, so that the push block on the powder rolling tray contacts and pushes the iron suction beads to slide upwards along the arc-shaped control groove, the iron-absorbing beads pull the blocking ball to enter the arc-shaped control groove through the connecting rope, at the moment, the coarse grain tea round inside the first arc-shaped guide round can smoothly slide and enter the right end of the powder rolling tray for aggregation, then the right end of the aggregated coarse grain tea round of the powder rolling tray sinks and tilts the left end until the push block at the left end pushes up the corresponding iron-absorbing bead to enable the coarse grain tea round inside the second arc-shaped guide round to smoothly slide down, then the right end tilts up when the weight of the left end is larger than that of the right end, the coarse grain tea round at the right end rolls along the arc-shaped powder rolling channel, the coarse grain tea round can be continuously sprayed by transverse flow when rolling, when rolling to the falling round hole, the coarse grain tea round enters the next layer of powder rolling tray through the falling round pipeline, and then the tea powder is sprayed again through the rolling, so that the effect of circular rolling without electric power is achieved, and rely on gravity oneself to add the circle, need not manual interpolation, it is good to roll the continuation of powder, uses manpower sparingly, improves work efficiency, and multi-level rolls, and the spraying is even.

(2) According to the invention, by arranging the rolling disc ball and the rolling disc ball, on one hand, the round through hole rolls on the round rolling disc ball under the action of the gravity, so that the contact surface of the coarse grain tea ball and the arc-shaped powder rolling channel can be continuously changed when the coarse grain tea ball rolls, the powder spraying is uniform, the powder spraying effect is good, and on the other hand, the rolling disc ball and the rolling disc ball are matched with the through hole, so that the powder rolling tray can smoothly and regularly rotate.

(3) According to the invention, the arc-shaped heat transfer wires are arranged, so that on one hand, the arc-shaped heat transfer wires are arc-shaped, the turnover of the coarse grain tea round can be intensified, the coarse grain tea round can be continuously shaken and thrown in the rolling process, and the tea powder can be conveniently sprayed, on the other hand, the temperature can be controlled by the arc-shaped heat transfer wires, the temperature in the whole powder rolling box can be well and constantly controlled, the phenomenon that the tea powder is dried and solidified in the arc-shaped powder rolling channel due to low temperature can be avoided, the effect of thermal expansion of the tea round can be realized, and the powder can be conveniently coated.

(4) According to the invention, the round pocket bag is arranged, so that on one hand, the round pocket bag can pocket the coarse grain tea balls, the coarse grain tea balls fall on the round pocket bag along the arc-shaped round pocket sub-set to the middle part, the coarse grain tea balls are prevented from directly falling and being damaged, and on the other hand, the round pocket bag is coated with powder, so that the coarse grain tea balls can be coated with tea powder again when falling.

(5) According to the invention, the circulating use of tea powder is facilitated through the circulating air suction and blowing of the air suction blower, the whole rolling device can continuously and circularly work by utilizing gravity, the working efficiency is improved while energy is saved, and the working temperature in the powder rolling box is controlled by the heat conduction constant temperature, so that the problems of non-uniform powder rolling, low working efficiency and high energy consumption of continuous working equipment of general coarse grain tea ball preparation equipment during powder rolling are effectively solved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1 at A according to the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at B according to the present invention;

FIG. 4 is a perspective view of the powder rolling tray structure of the present invention;

FIG. 5 is a top view of the annular tube structure of the present invention;

fig. 6 is a front view showing the construction of the operating door of the present invention.

Wherein, 1 support leg, 2 roll powder tray, 3 roll powder case, 4 support hollow steel pipe, 5 roll the pan ball, 6 perforating holes, 7 roll the pan pearl, 8 arc rolls the powder passageway, 9 blows the powder groove, 10 sucks the powder groove, 11 arc heat transfer silk, 12 fall round hole, 13 fall round pipe, 14 first arc to lead the pipe, 15 second arc to lead the pipe, 16 arc control slot, 17 arc soft magnetic stripe, 18 fixed bead, 19 elastic band, 20 keep off the ball, 21 connecting rope, 22 inhale the iron pearl, 23 ejector pad, 24 first movable tube, 25 plastic hose, 26 second movable tube, 27 toroidal tube, 28 activity blows the powder pipe, 29 bases, 30 inhale the hair-dryer, 31 first powder pipe, 32 powder pipe, 33 second powder pipe, 34 intercommunication powder pipe, 35 operation door, 36 padlock, 37 coarse tea round grain, 38 underframe, 39 pocket round bag.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings 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.

As shown in fig. 1-6, the embodiment of the invention provides a heat conduction-based coarse grain tea ball preparation device, which comprises a support leg 1, a coarse grain tea ball 37 and a plurality of powder rolling trays 2, wherein the surface of the support leg 1 is fixedly connected with a powder rolling box 3, the inner wall of the powder rolling box 3 is fixedly connected with a support hollow steel pipe 4, the surface of the support hollow steel pipe 4 is fixedly connected with a plurality of powder rolling balls 5, the number of the powder rolling trays 2 is the same as that of the powder rolling balls 5, the powder rolling trays 2 are positioned above the powder rolling balls 5, the powder rolling trays 2 correspond to the powder rolling balls 5 one by one, the surface of each powder rolling tray 2 is provided with a through hole 6, the inner wall of each through hole 6 is inlaid with a plurality of powder rolling balls 7, the surface of each powder rolling ball 7 is slidably connected with the surface of each powder rolling ball 5, the inner wall of each powder rolling tray 2 is provided with two arc-shaped powder rolling channels 8, and the two arc-shaped powder rolling channels 8 on each powder rolling tray 2 are symmetrically distributed by taking the center of the powder rolling tray 2 as the center, a powder blowing groove 9 is arranged on one side wall of the arc-shaped powder rolling channel 8, a powder sucking groove 10 is arranged on the other side wall of the arc-shaped powder rolling channel 8, the powder blowing groove 9 and the powder sucking groove 10 are distributed oppositely, the position height of the powder sucking groove 10 is higher than that of the powder blowing groove 9, a plurality of arc-shaped heat transfer wires 11 are laid on the inner wall of each arc-shaped powder rolling channel 8, all the arc-shaped heat transfer wires 11 in each arc-shaped powder rolling channel 8 are electrically connected with an external power supply through a conducting wire, the temperature of each arc-shaped heat transfer wire 11 is less than or equal to 45 ℃ when the arc-shaped powder rolling channel 8 works, a round dropping hole 12 is arranged at one end of each arc-shaped powder rolling channel 8, a round dropping pipeline 13 is fixedly connected at one end of the round dropping hole 12, a first arc-shaped round guiding pipe 14 is fixedly connected to the surface of the powder rolling box 3, a second arc-shaped round guiding pipe 15 is fixedly connected to the surface of the powder rolling box 3, the first arc-shaped round guiding pipe 14 and the second arc-shaped round guiding pipe 15 respectively correspond to different arc-shaped powder rolling channels 8, the first arc-shaped guide circular tube 14 and the second arc-shaped guide circular tube 15 are both positioned above the corresponding arc-shaped powder rolling channel 8, one end of each of the first arc-shaped guide circular tube 14 and the second arc-shaped guide circular tube 15 penetrates through and extends into the powder rolling box 3, the inner walls of the first arc-shaped guide circular tube 14 and the second arc-shaped guide circular tube 15 are both provided with arc-shaped control grooves 16, the inner wall of each arc-shaped control groove 16 is fixedly connected with an arc-shaped soft magnetic strip 17, the inner walls of the first arc-shaped guide circular tube 14 and the second arc-shaped guide circular tube 15 are both fixedly connected with fixed beads 18, the surfaces of the fixed beads 18 are fixedly connected with elastic belts 19, one ends of the elastic belts 19 are fixedly connected with round blocking balls 20, the surfaces of the round blocking balls 20 are fixedly connected with connecting ropes 21, one ends of the connecting ropes 21 are fixedly connected with iron-attracting beads 22, the materials of the round blocking balls 20 comprise rubber, the diameters of the iron-attracting beads 22 are larger than the widths of the inner walls of the arc-shaped control grooves 16, the surface of the powder rolling tray 2 positioned at the top is fixedly connected with a push block 23.

The surface of the supporting hollow steel pipe 4 is fixedly sleeved with a first movable pipe 24, one end of the first movable pipe 24 is fixedly sleeved with a plastic hose 25, one end of the plastic hose 25, which is far away from the first movable pipe 24, is fixedly sleeved with a second movable pipe 26, one end of the second movable pipe 26 penetrates through and extends into the powder rolling tray 2, the surface of the powder rolling box 3 is fixedly connected with a plurality of annular pipes 27, the surface of each annular pipe 27 is sleeved with a movable powder blowing pipe 28, two independent cavities are respectively arranged in each powder rolling tray 2, one cavity is used for communicating an air suction groove with the second movable pipe 26, the other cavity is used for communicating an air blowing groove with the movable powder blowing pipe 28, the material of the movable powder blowing pipe 28 comprises plastic, one end of the movable powder blowing pipe 28 penetrates through and extends into the powder rolling tray 2, the surface of the powder rolling box 3 is fixedly connected with a base 29, the surface of the base 29 is fixedly connected with an air suction blower 30, the suction inlet of the suction blower 30 is sleeved with one end of the supporting hollow steel pipe 4, the blowing inlet of the suction blower 30 is sleeved with the first powder conveying pipe 31, the surface of the first powder conveying pipe 31 is sleeved with the powder conveying pipe 32, one end of the first powder conveying pipe 31 is fixedly sleeved with the second powder conveying pipe 33, one end of the second powder conveying pipe 33 is sleeved with the surface of the annular pipe 27, the communicating powder pipe 34 is fixedly sleeved between the annular pipes 27, the bottom frame 38 is fixedly connected with the inner bottom wall of the powder rolling box 3, the inner wall of the bottom frame 38 is fixedly connected with the bag round bag 39, the surface of the powder rolling box 3 is hinged with the operation door 35, the surface of the operation door 35 is fixedly provided with the buckle 36, and the surface of the operation door 35 is fixedly connected with the surface of the powder rolling box 3 through the buckle 36.

When the powder rolling tray is used, tea powder and flour are input into the powder conveying pipe 32, the air suction blower 30 is started, one end of each of two ends of the air suction blower 30 sucks air, the other end of each of the two ends blows air, the tea powder enters the first powder conveying pipe 31, the second powder conveying pipe 33 and the annular pipe 27 through the powder conveying pipe 32 and enters the movable powder blowing pipe 28, then enters the cavity of the powder rolling tray 2 and is blown to the inside of the arc-shaped powder rolling channel 8 through the powder blowing groove 9, meanwhile, the air suction end of the air suction blower 30 sucks air through the supporting hollow steel pipe 4, the first movable pipe 24, the plastic hose 25 and the second movable pipe 26, the tea powder enters the second movable pipe 26 through the powder suction groove 10 and the cavity inside the powder rolling tray 2, the coarse grain tea round 37 is continuously and uninterruptedly put into the first arc-shaped circular guide pipe 14 and the second arc-shaped circular guide pipe 15, the powder rolling tray 2 is firstly shifted, so that the push block 23 on the powder rolling tray 2 contacts and pushes the iron suction beads 22 to slide upwards along the arc-shaped control groove 16, the magnet beads 22 drag the blocking ball 20 to enter the arc-shaped control groove 16 through the connecting rope 21, at this time, the coarse grain tea round 37 in the first arc-shaped guide round pipe 14 can smoothly slide down to enter the right end of the powder rolling tray 2 for aggregation, then the right end of the aggregated coarse grain tea round 37 of the powder rolling tray 2 sinks and tilts the left end until the push block 23 at the left end pushes up the corresponding magnet bead 22 to enable the coarse grain tea round 37 in the second arc-shaped guide round pipe 15 to smoothly slide down, then the right end tilts up when the weight at the left end is larger than that at the right end, the coarse grain tea round 37 at the right end rolls along the arc-shaped powder rolling channel 8, the coarse grain tea round 37 can be sprayed by the transversely flowing tea powder continuously when rolling, when the coarse grain tea round 37 rolls to the round falling hole 12, the coarse grain tea round can enter the next layer of powder rolling tray 2 through the round falling pipeline 13, and then the coarse grain tea round can be sprayed again through the rolling process of the rolling process, the arc-shaped heat transfer wires 11 are arc-shaped to intensify the turning of the coarse grain tea ball 37, so that the coarse grain tea ball 37 can be continuously shaken and thrown in the rolling process in a small-amplitude mode, on the other hand, the temperature of the arc-shaped heat transfer wires 11 is controlled, so that the inside of the whole powder rolling box 3 is controlled at a constant temperature, the coarse grain tea ball 37 finally falls on the round pocket 39 of the bottom frame 38, and the use process of the whole coarse grain tea ball preparation equipment based on heat conduction is completed.

Claims (5)

1. The utility model provides a coarse food grain tea ball preparation equipment based on heat-conduction which characterized in that: comprises supporting legs (1), a coarse grain tea ball (37) and a plurality of powder rolling trays (2), wherein the surface of each supporting leg (1) is fixedly connected with a powder rolling box (3), the inner wall of each powder rolling box (3) is fixedly connected with a supporting hollow steel pipe (4), the surface of each supporting hollow steel pipe (4) is fixedly connected with a plurality of powder rolling balls (5), the surface of each powder rolling tray (2) is provided with a through hole (6), the number of the powder rolling trays (2) is the same as that of the powder rolling balls (5), the powder rolling trays (2) are positioned above the powder rolling balls (5), the powder rolling trays (2) correspond to the powder rolling balls (5) one by one, and two arc-shaped powder rolling channels (8) on each powder rolling tray (2) are symmetrically distributed by taking the circle center of the powder rolling tray (2) as the center, and each powder rolling tray (2) is provided with two independent cavities inside, one cavity is used for communicating an air suction groove with a second movable pipe (26), the other cavity is used for communicating an air blowing groove with a movable powder blowing pipe (28), a plurality of rolling balls (7) are inlaid in the inner wall of the through hole (6), the surface of each rolling ball (7) is in sliding connection with the surface of each rolling ball (5), two arc-shaped powder rolling channels (8) are formed in the inner wall of each powder rolling tray (2), a powder blowing groove (9) is formed in one side wall of each arc-shaped powder rolling channel (8), a powder suction groove (10) is formed in the other side wall of each arc-shaped powder rolling channel (8), a plurality of arc-shaped heat transfer wires (11) are laid on the inner wall of each arc-shaped powder rolling channel (8), a round hole (12) is formed in one end of each arc-shaped powder rolling channel (8), and all the arc-shaped heat transfer wires (11) in each arc-shaped powder rolling channel (8) are electrically connected with an external power supply through a lead wire, the temperature of the arc-shaped heat transfer wire (11) is less than or equal to 45 ℃ when the arc-shaped heat transfer wire works, a round falling pipeline (13) is fixedly sleeved at one end of a round falling hole (12), a first arc-shaped guide round pipe (14) is fixedly connected to the surface of a powder rolling box (3), a second arc-shaped guide round pipe (15) is fixedly connected to the surface of the powder rolling box (3), one ends of the first arc-shaped guide round pipe (14) and the second arc-shaped guide round pipe (15) penetrate through and extend into the powder rolling box (3), arc control grooves (16) are formed in the inner walls of the first arc-shaped guide round pipe (14) and the second arc-shaped guide round pipe (15), arc soft magnetic strips (17) are fixedly connected to the inner walls of the arc-shaped control grooves (16), fixing beads (18) are fixedly connected to the inner walls of the first arc-shaped guide round pipe (14) and the second arc-shaped guide round pipe (15), and elastic belts (19) are fixedly connected to the surfaces of the fixing beads (18), one end of the elastic band (19) is fixedly connected with a round blocking ball (20), the surface of the round blocking ball (20) is fixedly connected with a connecting rope (21), one end of the connecting rope (21) is fixedly connected with an iron-absorbing bead (22), and the surface of the powder rolling tray (2) positioned at the top is fixedly connected with a push block (23);

the fixed surface of supporting hollow steel pipe (4) has cup jointed first activity pipe (24), the fixed cover of one end of first activity pipe (24) has connect plastic hose (25), the fixed cover of one end that first activity pipe (24) was kept away from in plastic hose (25) has connect second activity pipe (26), the one end of second activity pipe (26) is run through and is extended to the inside of rolling powder tray (2), the fixed surface of rolling powder case (3) is connected with a plurality of ring pipe (27), the surface of ring pipe (27) has cup jointed activity and has blown powder pipe (28), the material that activity was blown powder pipe (28) includes plastics, the one end that activity was blown powder pipe (28) is run through and is extended to the inside of rolling powder tray (2), the fixed surface of rolling powder case (3) is connected with base (29), the fixed surface of base (29) is connected with inhales hair-dryer (30), inhale the inlet scoop of hair-dryer (30) and cup joint with the one end of supporting hollow steel pipe (4), the mouth of blowing of inhaling hair-dryer (30) has cup jointed first powder transmission pipe (31), the surface of first powder transmission pipe (31) has cup jointed transmission powder pipe (32), the fixed cover of one end of first powder transmission pipe (31) has cup jointed second transmission powder pipe (33), the one end of second transmission powder pipe (33) cup joints with the surface of ring pipe (27), a plurality of fixed intercommunication powder pipe (34) of having cup jointed between ring pipe (27), the interior diapire fixedly connected with underframe (38) of rolling powder case (3), the inner wall fixedly connected with pocket circle sack (39) of underframe (38).

2. The heat conduction-based roughage tea ball preparation device of claim 1, characterized in that: the powder blowing groove (9) and the powder suction groove (10) are distributed oppositely, and the height of the powder suction groove (10) is higher than that of the powder blowing groove (9).

3. The heat conduction-based roughage tea ball preparation device of claim 1, characterized in that: first arc is led pipe (14) and second arc and is led pipe (15) and correspond different arcs respectively and roll powder passageway (8), first arc is led pipe (14) and second arc and is led pipe (15) and all be located rather than the top that corresponding arc rolled powder passageway (8).

4. The heat conduction-based roughage tea ball preparation device of claim 1, characterized in that: the material of the round blocking ball (20) comprises rubber, and the diameter of the iron attracting bead (22) is larger than the width of the inner wall of the arc-shaped control groove (16).

5. The heat conduction-based roughage tea ball preparation device of claim 1, characterized in that: the surface of the powder rolling box (3) is hinged with an operation door (35), a buckle lock (36) is fixedly mounted on the surface of the operation door (35), and the surface of the operation door (35) is fixedly connected with the surface of the powder rolling box (3) through the buckle lock (36).

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