CN102132745B - Roller far infrared tea green-removing machine - Google Patents

Abstract

The invention provides a roller far infrared tea green-removing machine, which comprises bases, a driving device, a coupler, a bearing device, a roller, a radiating element, a feed hopper and a discharge hole. The tea green-removing machine is characterized in that: bearing bases are fixed to the tops of supports; both ends of a revolving shaft of which the middle part is provided with a carrier roller with a trapezoid groove are arranged in bearing base holes by bearings; chain wheels are arranged at the extending ends of a driving shaft and a driven shaft in the revolving shaft; the same chain is hung on the two chain wheels; the outermost extended end of the driving shaft is connected with the output end of the driving device by the coupler; a driving carrier roller mechanism and a driven carrier roller mechanism are arranged on the top of the support I of which the bottom is fixed on the base I simultaneously, and two groups of bearing carrier roller mechanisms are arranged on the top of the support II of which the bottom is fixed on the base II simultaneously; both ends of the roller are supported in the trapezoid groove of the carrier roller by a roller wheel; and a feed hopper is arranged at the feed end of the roller, the discharge hole is formed at the other end of the roller, and the far infrared radiating element is arranged in the center of the roller. The roller far infrared tea green-removing machine has good green-removing effect, and is favorable for the subsequent forming and drying of tea.

Description

Drum-type far infrared tea water-removing machine

Technical field

The present invention provides a kind of drum-type far infrared tea water-removing machine, specifically is a kind of equipment that utilizes the far infrared radiation heating that fresh tea leaf is completed and handles.

Background technology

Tealeaves is drying most important, and its purpose is: the one, and the activity of destructive enzyme, the inhibitory enzyme enzymatic oxidation promotes thermal chemical reaction in the tealeaves, improves fragrance and taste, fixedly tealeaves endoplasm and profile; The 2nd, the moisture content of reduction fresh tea leaf makes it be difficult for taking place qualitative change, so that store and transportation.Green tea is to be raw material with suitable tea tree young sprout, through the tealeaves that completes, kneads, technology such as drying is processed, has rich nutrient contents and good health care effect.Completing is the first drying procedure of green tea, and the activity the tender leaf of plucking comes destructive enzyme through high temperature suppresses fermentation, makes tealeaves keep intrinsic green; Reduce moisture in the leaf simultaneously, make the blade deliquescing, impart depth is convenient to further processing.Dry through kneading then with further, promptly process finished tea.Completing is the critical process that guarantees tealeaves color, shape, and the bright leaf effect that completes is bad, just can not make the tealeaves of high-quality.In the process that completes, temperature controlling is most important, and too high meeting makes water evaporates too much, causes tealeaves sallow, directly affects the quality of tealeaves; Cross that low then moisture entrapment is too much, with the taste that influences tealeaves.

But the tea water-removing machine of institute's widespread usage adopts coal, bavin, wet goods to heat as thermal source more in the market, its difficult control of temperature that completes.Also has and adopt the complete equipment of far infrared, but far infrared radiation is that cylinder is heated that temperature is still wayward as thermal source.In addition, in traditional tea-manufacturing technology, the quality of the effect that completes is generally grasped by frying the tea teacher by rule of thumb, and parameters such as the temperature that completes, time are also accomplished fully by rule of thumb.Therefore, be easy to cause become to sample tea emerald green inadequately, vivid inadequately at the bottom of the leaf, tea flavour is bright refreshing inadequately.

The far infrared radiation heating is a kind of efficient, energy-conservation, oligosaprobic novel drying technology, and it is the process of ability in a kind of radiation object is propagated with electromagnetic mode.When infrared ray shines jobbie; If the infrared frequency of incident and object molecule intrinsic frequency are consistent, then material molecule will show ultrared strong absorption, and that part energy of absorption just is converted into the warm-up movement of molecule; Object temperature is raise, cause its dehydration.The far infrared energy transmission is directly to arrive at material inside with radiation mode, does not need particular intermediaries, opens, shutdown speed is fast, and thermal inertia is little, so temperature control precision is high, and rate of drying is fast, and energy-saving and environmental protection.

In sum, being badly in need of a kind of on the market is the tea green-keeping equipment of thermal source with the far infrared radiation, in the hope of improving the complete effect and the uniformity of tealeaves, helps the moulding and the drying of tealeaves subsequent handling, and can guarantee the fragrance that tealeaves is strong.

Summary of the invention

The present invention provides a kind of and can achieve the above object, and drum-type far infrared tea water-removing machine simple in structure, energy-conserving and environment-protective.Its technical scheme is:

Comprise base I, base II, drive unit, shaft coupling, supporting arrangement, cylinder, radiating element, feed hopper and discharging opening, it is characterized in that: supporting arrangement comprises initiatively carrying roller mechanism, driven carrying roller mechanism and supporting carrying roller mechanism, and various carrying roller mechanism forms by bearing, bearing block, gyroaxis and carrying roller; Bearing block is fixed in a top of the trellis through bolt I, nut I and packing ring I, and diaxon bearing endoporus is coaxial, and the gyroaxis two ends that the middle part is equipped with carrying roller are installed in the bearing saddle bore through bearing; Between bearing block inboard and the gyroaxis sealing ring is housed; Bearing cap is fixed on the bearing block outside through bolt II and packing ring II, and carrying roller along the circumferential direction is provided with dovetail groove wide outside and narrow inside, dovetail groove near the side of drive unit perpendicular to the carrying roller axis; And away from the side of drive unit to away from drive unit lopsidedness one angle; The side that the bottom land of dovetail groove keeps tilting with dovetail groove is vertical, and promptly bottom land formation one is near the big taper seat of drive unit end diameter, and gyroaxis is divided into three kinds of driving shaft, driven shaft and bolsters; Be installed on respectively in active carrying roller mechanism, driven carrying roller mechanism and the supporting carrying roller mechanism; Driving shaft and driven shaft all are equipped with sprocket wheel towards the external part of drive unit direction, hang with same chain, the outermost end that driving shaft stretches out towards the drive unit direction on two sprocket wheels; Be connected with the output of drive unit through shaft coupling; Axis is parallel to each other, is located in the same horizontal plane, along with the perpendicular direction of carrying roller axis active carrying roller mechanism and driven carrying roller mechanism side by side, be installed in the bottom simultaneously and be fixed in the support I top above the base I, axis is parallel to each other, is located in the same horizontal plane, along with the perpendicular direction two groups of supporting carrying roller mechanisms side by side of carrying roller axis; Be installed in the bottom simultaneously and be fixed in the support II top above the base II; The carrying roller axis of two groups of supporting carrying roller mechanisms is positioned at same vertical guide with the carrying roller axis of active carrying roller mechanism and driven carrying roller mechanism respectively, and highly is lower than initiatively carrying roller mechanism and driven carrying roller mechanism, and the taper seat Up Highway UHW that guarantees two groups of supporting carrying roller mechanism middle idler rollers respectively with the taper seat Up Highway UHW conllinear of active carrying roller mechanism and driven carrying roller mechanism middle idler roller; Cylinder comprises barrel, helical blade and roller; Diameter is provided with many helical blades greater than the inner surfaces of the barrel of two groups of supporting carrying roller mechanism centre-to-centre spacing, and the cylindrical two ends are respectively equipped with support in the dovetail groove of active carrying roller mechanism and driven carrying roller mechanism carrying roller and the roller in the dovetail groove of two groups of supporting carrying roller mechanism carrying rollers, and feed hopper comprises hopper body and deflector chute; The hopper body two ends are separately fixed at the bottom and are fixed in the supporting leg I at support I top and support III top and above the supporting leg II; Behind cylinder one end opening, be fixed with the arc deflector chute in the terminal feed end that inserts cylinder, an end bearing that is positioned at centre of the drum, the far-infrared radiation element parallel and isometric with cylinder axis is on the sidewall of hopper body near the cylinder end; The other end is bearing in the bottom and is fixed in the supporting leg III top above the base II; The two ends that the stiff end internal diameter is slightly larger than the arc discharging opening of cylinder cylindrical are fixed on the both sides at supporting leg III top, and curved bottom is fixed in above the base II through the supporting leg IV, in the deep-slotted chip breaker of the supporting leg V of end bearing on the base II is fixed in the bottom.

Described drum-type far infrared tea water-removing machine, drive unit comprise that reducing motor and bottom are fixed on the support III above the base I, and reducing motor is fixed on above the support III through bolt I, nut I and packing ring I, and output is equipped with shaft coupling.

Described drum-type far infrared tea water-removing machine; Drive unit comprises that motor, tape handler, reductor and bottom are fixed on the support III above the base I; Be fixed on the motor above the base I by bolt III, nut III and packing ring III; After the tape handler speed change, be connected with the input that is fixed on the reductor at support III top by bolt I, nut I and packing ring I, the output of reductor is equipped with shaft coupling.

Described drum-type far infrared tea water-removing machine, the barrel outer surface is covered with heat-insulation layer.

Described drum-type far infrared tea water-removing machine, hopper body is a trapezium structure, and is trapezoidal minor face near an end of cylinder.

Described drum-type far infrared tea water-removing machine, hopper body is a rectangular configuration.

Its operation principle is: the bottom of support I and support II is separately fixed at the base I and above the base II; The two ends that the middle part is equipped with driving shaft, driven shaft and two bolsters of carrying roller all are installed in the bearing saddle bore through bearing; The bearing block that driving shaft and driven shaft are housed is fixed on support I top through bolt I, nut I and packing ring I, and the bearing block that bolster is housed is fixed on support II top through bolt I, nut I and packing ring I; Driving shaft and driven shaft all are equipped with sprocket wheel towards the external part of drive unit direction, hang with same chain on two sprocket wheels, and the outermost end that driving shaft stretches out towards the drive unit direction is connected with the output of drive unit through shaft coupling; Because the dovetail groove that carrying roller along the circumferential direction is provided with; Away from the side of drive unit to away from drive unit lopsidedness one angle; And the bottom land of dovetail groove keeps vertical with the side of dovetail groove inclination; Therefore bottom land constitutes one near the big taper seat of drive unit end diameter, the taper seat Up Highway UHW that guarantees two groups of supporting carrying roller mechanism middle idler rollers during installation respectively with the taper seat Up Highway UHW conllinear of active carrying roller mechanism and driven carrying roller mechanism middle idler roller; Inner surface is provided with the cylinder of many helical blades, and the roller support of feed end is in the dovetail groove of active carrying roller mechanism and driven carrying roller mechanism carrying roller, and other end support is in the dovetail groove of two groups of supporting carrying roller mechanism carrying rollers; Cylinder is equipped with feed hopper near drive unit, the higher end in position through supporting leg I and supporting leg II, and the lower end in position is equipped with discharging opening; Centre of the drum is equipped with far-infrared radiation element.

When drive unit drives driving shaft and carrying roller revolution thereof through shaft coupling after; Driving shaft drives driven shaft through sprocket wheel and chain again and carrying roller turns round in the same way, makes reversed turning through the cylinder of roller wheel bearing in the dovetail groove of active carrying roller mechanism and driven carrying roller mechanism and two groups of supporting carrying roller mechanism carrying rollers respectively thereby further drive two ends.Add the fresh tea leaf in the material bin, get into the higher end inner chamber of cylinder through deflector chute after because and frictional force and action of centrifugal force between the inner wall of rotary drum, in addition under the agitaion of helical blade, along with cylinder rotates together.Before bright leaf turns near the cylinder Up Highway UHW, because rotating speed is not high, make the gravity of its centrifugal force, and leave inner wall of rotary drum less than bright leaf self.Because cylinder is feed inlet end height, heeling condition that discharge port end is low, therefore fall back to the bright leaf of inner wall of rotary drum once more, than the position of leaving before the inner wall of rotary drum, towards the discharging opening direction segment distance that squinted.Simultaneously, because centre of the drum is provided with far-infrared radiation element along the whole length of cylinder, therefore bright leaf has all received the radiation effects of far infrared from getting into after the drum cavity in any position.Like this, bright leaf is in multiple rising and whereabouts,, flows out from discharging opening after reaching the degree that requires that completes through the radiation effects of far infrared repeatedly.

The present invention compared with prior art; Heating element heater adopts far-infrared radiation element, because far infrared has stronger penetration capacity, so Far-infrared Heating is actually fresh tea leaf inside is directly heated; Make the thermograde of bright interlobar part heat transmission identical outward with the moist gradient direction that moisture moves; Help the heat mass transfer that completes, reduced the inhibition that thermograde is moved moisture greatly outward, thereby can shorten fixation time; Heat transfer efficiency is high, energy consumption is low, pollution-free, and specific energy consumption reduces about 30%, and the loss of nutritional ingredients of bright leaf reduces about 15%; Open, shutdown speed is fast, thermal inertia is little, so temperature control precision is high.In addition, color and luster was vivid, best in quality after bright leaf completed, and had improved complete effect and uniformity, helped the follow-up moulding and the dry processing of tealeaves, and had guaranteed the fragrance that tealeaves is strong.Therefore, adopting far infrared radiation as thermal source fresh tea leaf to be completed, is a kind of novel equipment that completes that is adapted to the drying production development trend of tealeaves.

Description of drawings

Fig. 1 is the structure diagram of the embodiment of the invention;

Fig. 2 is an A-A cutaway view Amplified image embodiment illustrated in fig. 1;

Fig. 3 is that B embodiment illustrated in fig. 1 is to view;

Fig. 4 is the structure diagram of another embodiment of the present invention;

Fig. 5 is that the present invention C embodiment illustrated in fig. 4 is to view (removing hopper and supporting leg I thereof and supporting leg II);

Fig. 6 is the structural representation of hopper body among Fig. 1 embodiment;

Fig. 7 is the hopper body structural representation of another embodiment of the present invention.

The specific embodiment

1; Base I 2; Base II 3; Shaft coupling 4; Radiating element 5; Discharging opening 6; Bearing 7; Bearing block 8; Carrying roller 9; Bolt I 10; Nut I 11; Packing ring I 12; Sealing ring 13; Bearing cap 14; Bolt II 15; Packing ring II 16; Driving shaft 17; Driven shaft 18; Bolster 19; Sprocket wheel 20; Chain 21; Support I 22; Support II 23; Barrel 24; Helical blade 25; Roller 26; Hopper body 27; Deflector chute 28; Support III 29; Supporting leg I 30; Supporting leg II 31; Supporting leg III 32; Supporting leg IV 33; Supporting leg V 34; Reducing motor 35; Motor 36; Tape handler 37; Reductor 38; Bolt III 39; Nut III 40; Packing ring III 41; Heat-insulation layer

In Fig. 1 ~ 3 and embodiment shown in Figure 6: the bottom of support III 28 is fixed in above the base I 1; Be fixed on the reducing motor 34 at support III 28 tops through bolt I 9, nut I 10 and packing ring I 11, its output shaft is connected with the input of driving shaft 16 through shaft coupling 3.The bottom of support I 21 and support II 22 is individually fixed in base I 1 with above the base II 2, and eight bearing blocks 7 are fixed in the top of higher support I 21 and lower support II 22 respectively in pairs through bolt I 9, nut I 10 and packing ring I 11; The middle part is equipped with the driving shaft 16 of carrying roller 8 and the two ends of driven shaft 17 are installed in bearing block 7 holes through bearing 6 respectively; Driving shaft 16 and driven shaft 17 all are equipped with sprocket wheel 19 towards the external part of drive unit direction; Hang with same chain 20 on two sprocket wheels 19; The outermost end that driving shaft 16 stretches out towards the drive unit direction is connected with the output of drive unit through shaft coupling 3; The two ends that the middle part is equipped with two bolsters 18 of carrying roller 8 are installed in bearing block 7 holes through bearing 6 respectively; Carrying roller 8 along the circumferential direction is provided with dovetail groove wide outside and narrow inside; Dovetail groove away from the side of drive unit to away from drive unit lopsidedness one angle; It is vertical with the side of dovetail groove inclination that the bottom land of dovetail groove keeps, so bottom land constitutes one near the big taper seat of drive unit end diameter; During installation, the taper seat Up Highway UHW that guarantees two groups of supporting carrying roller mechanism middle idler rollers 8 respectively with the taper seat Up Highway UHW conllinear of active carrying roller mechanism and driven carrying roller mechanism middle idler roller 8.Inner surface is provided with the cylinder of four helical blades 24; Near roller 25 supports of an end of feed hopper in the dovetail groove of active carrying roller mechanism and driven carrying roller mechanism carrying roller 8, near roller 25 supports of an end of discharging opening 5 in the dovetail groove of two groups of supporting carrying roller mechanism carrying rollers 8; Because support I 21 is higher than support II 22, therefore make cylinder be feed end height, heeling condition that discharge end is low.The bottom of supporting leg I 29 and supporting leg II 30 is individually fixed in support I 21 and support III 28 tops; Trapezoidal hopper body 26 two ends are separately fixed at supporting leg I 29 with above the supporting leg II 30; Behind the narrower end opening of cylinder, be fixed with the terminal interior arc deflector chute 27 of feed end that inserts cylinder; The bottom of supporting leg III 31 is fixed in above the base II 2; A lower end bearing of far-infrared radiation element 4 is at the top of supporting leg III 31; The other end is bearing on the sidewall of hopper body 26 near the cylinder end, and the radiating element 4 after the installation is positioned at centre of the drum, and length parallel with cylinder axis equates with cylinder; Discharging opening 5 is an arc; The stiff end internal diameter is slightly larger than the cylinder cylindrical; The arc two ends are fixed on the both sides at supporting leg III 31 tops, and curved bottom is fixed in above the base II 2 through supporting leg IV 32, and arcuate end is bearing in the bottom and is fixed in the deep-slotted chip breaker of the supporting leg V 33 above the base II 2.

In the embodiment shown in Fig. 2 ~ 6: the bottom of support III 28 is fixed on above the base I 1; Be fixed on the motor 35 above the base I 1 by bolt III 38, nut III 39 and packing ring III 40; After tape handler 36 speed changes; Be connected with the input that is fixed on the reductor 37 at support III 28 tops by bolt I 9, nut I 10 and packing ring I 11, the output shaft of reductor 37 is connected with the input of driving shaft 16 through shaft coupling 3.

In the embodiment shown in fig. 7: hopper body 26 is a rectangular configuration, and two ends are separately fixed at supporting leg I 29 with above the supporting leg II 30, behind the end opening near cylinder, is fixed with the terminal interior arc deflector chute 27 of feed end that inserts cylinder.

Claims (6)

1. a drum-type far infrared tea water-removing machine comprises base I (1), base II (2), drive unit, shaft coupling (3), supporting arrangement, cylinder, radiating element (4), feed hopper and discharging opening (5), it is characterized in that: supporting arrangement comprises initiatively carrying roller mechanism, driven carrying roller mechanism and supporting carrying roller mechanism; Various carrying roller mechanism forms by bearing (6), bearing block (7), gyroaxis and carrying roller (8), and bearing block (7) is fixed in through bolt I (9), nut I (10) and packing ring I (11) and props up a top of the trellis, and diaxon bearing (7) endoporus is coaxial; The gyroaxis two ends that the middle part is equipped with carrying roller (8) are installed in bearing block (7) hole through bearing (6), and sealing ring (12) is housed between bearing block (7) inboard and the gyroaxis, and bearing cap (13) is fixed on bearing block (7) outside through bolt II (14) and packing ring II (15); Carrying roller (8) along the circumferential direction is provided with dovetail groove wide outside and narrow inside; Dovetail groove near the side of drive unit perpendicular to carrying roller (8) axis, and away from the side of drive unit to away from drive unit lopsidedness one angle, it is vertical with the side of dovetail groove inclination that the bottom land of dovetail groove keeps; Be that bottom land constitutes one near the big taper seat of drive unit end diameter; Gyroaxis is divided into (18) three kinds of driving shaft (16), driven shaft (17) and bolsters, is installed on respectively initiatively in carrying roller mechanism, driven carrying roller mechanism and the supporting carrying roller mechanism, and driving shaft (16) and driven shaft (17) all are equipped with sprocket wheel (19) towards the external part of drive unit direction; Hang with same chain (20) on two sprocket wheels (19); The outermost end that driving shaft (16) stretches out towards the drive unit direction is connected with the output of drive unit through shaft coupling (3), axis is parallel to each other, is located in the same horizontal plane, along with the perpendicular direction of carrying roller (8) axis active carrying roller mechanism and driven carrying roller mechanism side by side; Be installed in the bottom simultaneously and be fixed in bracket I (21) top above the base I (1); Axis is parallel to each other, is located in the same horizontal plane, along with the perpendicular direction two groups of supporting carrying roller mechanisms side by side of carrying roller (8) axis, be installed in the bottom simultaneously and be fixed in bracket I I (22) top above the base II (2), carrying roller (8) axis of two groups of supporting carrying roller mechanisms is positioned at same vertical guide with carrying roller (8) axis of active carrying roller mechanism and driven carrying roller mechanism respectively; And highly be lower than initiatively carrying roller mechanism and driven carrying roller mechanism; And the taper seat Up Highway UHW that guarantees two groups of supporting carrying roller mechanism's middle idler rollers (8) respectively with the taper seat Up Highway UHW conllinear of active carrying roller mechanism and driven carrying roller mechanism's middle idler roller (8), cylinder comprises barrel (23), helical blade (24) and roller (25), diameter is provided with many helical blades (24) greater than two groups of inner surfaces that support the barrel (23) of carrying roller mechanism centre-to-centre spacing; The cylindrical two ends be respectively equipped with support in the dovetail groove of active carrying roller mechanism and driven carrying roller mechanism's carrying roller (8) and two groups the supporting carrying roller mechanism's carrying rollers (8) dovetail groove in roller (25); Feed hopper comprises hopper body (26) and deflector chute (27), and hopper body (26) two ends are separately fixed at the bottom and are fixed in the supporting leg I (29) at bracket I (21) top and bracket I II (28) top and above the supporting leg II (30), behind cylinder one end opening; Be fixed with the terminal interior arc deflector chute (27) of feed end that inserts cylinder; An end bearing that is positioned at centre of the drum, the far-infrared radiation element (4) parallel and isometric with cylinder axis is on the sidewall of hopper body (26) near the cylinder end, and the other end is bearing in the bottom and is fixed in supporting leg III (31) top above the base II (2), and the two ends that the stiff end internal diameter is slightly larger than the arc discharging opening (5) of cylinder cylindrical are fixed on the both sides at supporting leg III (31) top; Curved bottom is fixed in above the base II (2) through supporting leg IV (32), in the deep-slotted chip breaker of the supporting leg V (33) of end bearing on base II (2) is fixed in the bottom.

2. drum-type far infrared tea water-removing machine as claimed in claim 1; It is characterized in that: drive unit comprises that reducing motor (34) and bottom are fixed on the bracket I II (28) above the base I (1); Reducing motor (34) is fixed on above the bracket I II (28) through bolt I (9), nut I (10) and packing ring I (11), and output is equipped with shaft coupling (3).

3. drum-type far infrared tea water-removing machine as claimed in claim 1; It is characterized in that: drive unit comprises that motor (35), tape handler (36), reductor (37) and bottom are fixed on the bracket I II (28) above the base I (1); Be fixed on the motor (35) above the base I (1) by bolt III (38), nut III (39) and packing ring III (40); After tape handler (36) speed change; Be connected with the input that is fixed on the reductor (37) at bracket I II (28) top by bolt I (9), nut I (10) and packing ring I (11), the output of reductor (37) is equipped with shaft coupling (3).

4. drum-type far infrared tea water-removing machine as claimed in claim 1 is characterized in that: barrel (23) outer surface is covered with heat-insulation layer (41).

5. drum-type far infrared tea water-removing machine as claimed in claim 1 is characterized in that: hopper body (26) is a trapezium structure, and is trapezoidal minor face near an end of cylinder.

6. drum-type far infrared tea water-removing machine as claimed in claim 1 is characterized in that: hopper body (26) is a rectangular configuration.

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