A kind of shock-absorbing type tea drying device
Technical field
This application involves drying unit field, specially a kind of shock-absorbing type tea drying device.
Background technology
Some drying machinery fields in, especially in drying tea leaves machinery field, often using blow dry with incite somebody to action
Moisture, which is blown away, to be left near tealeaves.In order to ensure that tealeaves is equably dried, often in the whole circumference of drying unit comprehensively
Blow openings are uniformly arranged, to purge the entire periphery of tealeaves conveyer belt.
But for tealeaves in the overall drying process, the distribution of moisture is often non-uniform, this for
More times are often wasted for the drying unit uniformly blown by whole drying tea leaves.It is moreover, this uniform
Air blowing is often difficult to cause for tealeaves in the overturning towards some preferential direction, it is difficult to directly turn over the side of tealeaves or bottom surface
It is dynamic.
Moreover, because the features such as operation characteristic of air-flow and more quantity of gas channel, the resistance of this gas channel
Plug situation tends to occur but is not easy to be found or is not easy to be overcome or corrected at once.This gives what is be carried out continuously
Production brings mass defect.And shut down and safeguarded, production efficiency can be reduced and bring additional production cost.
Invention content
The purpose of the present invention is to provide a kind of shock-absorbing type tea drying devices, can overcome of the prior art above-mentioned
Defect.
According to the present invention, a kind of shock-absorbing type tea drying device, including drying airflow blow dress symmetrical in structure
Put, it is described drying airflow blow include be provided with the annular body portion of axially extending cylindric air blowing drying channel with
And the annular outer cover part of the annular body portion is supported on the annular body portion and accommodated by radial struts,
Be provided in the annular body portion in the axial direction equally distributed a plurality of radial direction air blowing air flue with by air-flow along institute
The radial direction input of cylindric air blowing drying channel is stated, the air blowing drying channel is used for the net formula conveyer belt for carrying tealeaves
It passes through, is the distribution of air flow chamber of annular between the annular outer cover part and the annular body portion, for receiving air-flow
It inputs and by distribution of air flow to a plurality of radial direction air blowing air flue, the left and right ends of the distribution of air flow chamber respectively symmetrically are set
Revolvable two air-flows input closed-loop of the mutual mirror symmetry in structure is equipped with, wherein, described two air-flow input envelopes
The air-flow input channel of an axial direction is both provided in each in closed loop, and closed-loop is inputted for described two air-flows
For the air-flow input closed-loop on middle right side, pass through between the left end and the annular body portion of the air-flow input closed-loop
The connection of left side bearing and passing on left left side rotation inner seal ring and seal cooperation in the left side bearing, the air-flow inputs
Exterior seal ring is rotated to seal cooperation by left side between closed-loop and the annular outer cover part;The drying airflow blow dress
The left and right sides put respectively symmetrically is fixedly connected with two that include main body ring part of the mutual mirror symmetry in structure
Air-flow input channel component, for the air-flow input channel component on the right side in described two air-flow input channel components,
Its left side is fixedly installed convex extension part to be stretched out towards the air blowing drying channel so as to the air-flow input channel component
It positions, each in described two air-flow input channel components is respectively arranged with gas in the periphery around the main body ring part
Cavity shell so as between the air cavity housing and the main body ring part formed with air-flow input port annular air cavity, for
For the air-flow input closed-loop on the right side in described two air-flow input closed-loops, right end extend into the annular air cavity
In, it is connect by right bearing between the outer circumference surface of the main body ring part and is revolved on the right side of the right bearing by right side
Turn inner seal ring sealing cooperation, and matched with the inner peripheral surface of the air cavity housing by right side rotation exterior seal ring to seal
It closes;Symmetrical two driving motors, the drive are respectively arranged at the left and right ends of the drying airflow blow
Dynamic motor includes outer rotor and the inner stator being arranged in the outer rotor, and the inner stator is fixed on the annular outer cover portion
Divide the upside with the air cavity housing, the outer rotor is fixed between the annular outer cover part and the air cavity housing simultaneously
And the periphery of the outer rotor is provided with rotor gear to accordingly with being fixed in the middle part of the air-flow input closed-loop
Gear part engagement, be provided with two shock absorption strips on the shell of the driving motor and be fixedly connected with the annular outer cover part,
The shock absorption strip increases the stability of the device, Mei Gesuo to reduce the shaking force that the driving motor generates at runtime
It states air-flow input channel component and is provided with tea leaf delivery channel along central axial direction to connect with the air blowing drying channel
Lead to and the net formula conveyer belt is supplied to pass through;Air-flow is inputted by each air-flow input port so as to via the air-flow as a result,
The air-flow input channel in closed-loop is inputted in the distribution of air flow chamber that arrives, and is then blown via a plurality of radial direction
Gas air flue and air blowing drying is carried out to the tealeaves being carried on the net formula conveyer belt in the air blowing drying channel that arrives, Mei Gesuo
Corresponding air-flow input closed-loop rotation can be driven so as to change the air-flow input channel by stating the outer rotor of driving motor
Circumferential position.
By the present invention, closed-loop is inputted due to the provision of the symmetrical air-flow that can be rotated, can be used single
One gas channel and the circumferential position for being rotated to the single gas channel and air-flow being selected to supply, thereby, it is possible to be formed in
Reinforcement air-flow on a certain preferential direction, that is, in the circumferential close to the insufflation channel of the single gas channel often have compared with
Air volume carries out emphasis purging, moreover, using this selected direction so as to region heavier to moisture as needed
Reinforcement air-flow, tealeaves slightly can be measured in prolonged technical process stirs, so as to being easy to its bottom surface or
Side dries up.And the symmetrical this air-flow input closed-loop that can be rotated in left and right ends is set, it can be ensured that air-flow is in axial direction
Flow loss on direction is minimum, and two this single gas channels is enabled to be transported in same phase or out of phase
Row, to carry out comprehensive purging to the tealeaves in same distance segment.And it can then improve tea using penetrating net formula conveyer belt
Permeability of the leaf on bottom surface, this comprehensive air blowing purging drying of cooperation.The gas not blocked to little obstruction or completely
Circulation road carries out selective close and its windage loss is compensated, and thus, it is possible to correct the even property of the circumferential asymmetry of air-flow.
Maintenance phase can input the rotation of closed-loop to carry out rapid purging to a plurality of radial direction air blowing air flue by the air-flow,
To remove wherein remaining bits shape object or floccule.By setting discrete air-flow input channel component, the air-flow is enabled to
Input closed-loop is easily installed and safeguards, and is easily installed driving motor.The setting of outer rotor cause it is compact-sized, and can
Transmission link is reduced, is adapted to the driving of air-flow input closed-loop.Whole device stabilized structure is reliable, and performance is stable and is convenient for
It safeguards.
Description of the drawings
Fig. 1 is the overall structure diagram of the shock-absorbing type tea drying device of the present invention.
Fig. 2 is along the schematic cross-sectional view of arrow direction in Fig. 1.
Specific embodiment
With reference to Fig. 1-2, the present invention is described in detail.
Shock-absorbing type tea drying device according to the embodiment dries airflow blow 5 including symmetrical in structure,
The drying airflow blow 5 includes the annular body portion 53 for being provided with axially extending cylindric air blowing drying channel 50
And the annular of the annular body portion 53 is supported on the annular body portion 53 and accommodated by radial struts 58
Casing part 54 is provided with equally distributed a plurality of radial direction air blowing air flue 51 in the axial direction in the annular body portion 53
Air-flow to be inputted along the radial direction of the cylindric air blowing drying channel 50, the air blowing drying channel 50 is used for for holding
The net formula conveyer belt 59 for carrying tealeaves passes through, and is the gas of annular between the annular outer cover part 54 and the annular body portion 53
Dispensed chambers 540 are flowed, are inputted for receiving air-flow and by distribution of air flow to a plurality of radial direction air blowing air flue 51, the air-flow divides
Left and right ends with chamber 540 respectively symmetrically are provided with revolvable two air-flows input of the mutual mirror symmetry in structure
Closed-loop 7, wherein, the air-flow input that an axial direction is both provided in each in described two air-flow input closed-loops 7 is logical
Road 71, and described two air-flows are inputted for the air-flow input closed-loop 7 on right side in closed-loop 7, the air-flow input
It is connected and in the left side of the left side bearing by left side bearing 81 between the left end of closed-loop 7 and the annular body portion 53
Inner seal ring 82 is rotated by left side to seal to coordinate, between the air-flow input closed-loop 7 and the annular outer cover part 54
Exterior seal ring 73 is rotated by left side to seal to coordinate;The left and right sides of the drying airflow blow 5 is respectively symmetrically solid
Surely two air-flow input channel components 9 for including main body ring part 93 of the mutual mirror symmetry in structure are connected with, for
For the air-flow input channel component 9 on the right side in described two air-flow input channel components 9, left side, which is fixedly installed, to be protruded out
Portion 98 towards the air blowing drying channel 50 to stretch out to position the air-flow input channel component 9, described two gas
In stream input channel component 9 each around the periphery of the main body ring part 93 be respectively arranged with air cavity housing 94 so as to
The annular air cavity 940 with air-flow input port 941 is formed between the air cavity housing 94 and the main body ring part 93, for
For the air-flow input closed-loop 7 on the right side in described two air-flow input closed-loops 7, right end extend into the annular air cavity
In 940, it is connect by right bearing 91 between the outer circumference surface of the main body ring part 93 and is led on the right side of the right bearing
It crosses right side rotating interior seal circle 92 and seals cooperation, and external seal is rotated by right side with the inner peripheral surface of the air cavity housing 94
It encloses 72 and seals cooperation;Symmetrical two drives are respectively arranged at the left and right ends of the drying airflow blow 5
Dynamic motor 8, the driving motor 8 include outer rotor 6 and the inner stator 60 being arranged in the outer rotor 6, the inner stator 60
The upside of the annular outer cover part 54 and the air cavity housing 94 is fixed on, the outer rotor 6 is fixed on the annular
Between the casing part 54 and the air cavity housing 94 and periphery of the outer rotor 6 is provided with rotor gear 61 to accordingly
It engages with the gear part 77 for being fixed at 7 middle part of air-flow input closed-loop, is provided on the shell of the driving motor 8
Two shock absorption strips 81 are fixedly connected with the annular outer cover part 54, and the shock absorption strip 81 exists to reduce the driving motor 8
The shaking force generated during operation increases the stability of the device, and each air-flow input channel component 9 is along central axis side
To tea leaf delivery channel 90 is provided with connecting with the air blowing drying channel 50 and be passed through for the net formula conveyer belt 59;By
This, air-flow is defeated so as to input the air-flow in closed-loop 7 via the air-flow by each input of air-flow input port 941
Enter channel 71 and in the distribution of air flow chamber 540 that arrives, and described blow that then arrive via a plurality of radial direction air blowing air flue 51
Air blowing drying is carried out to the tealeaves being carried on the net formula conveyer belt 59 in gas drying channel 50, each driving motor 8
Outer rotor 6 corresponding air-flow input closed-loop 7 can be driven to rotate the circumferential position so as to change the air-flow input channel 71
It puts.
Optionally, wherein, the downside of the annular outer cover part 54 and the air cavity housing 94 and fixing base frame 12,
11 are fixedly connected.
Optionally, wherein, the net formula conveyer belt 59 has gas permeability.
Closed-loop is inputted due to the provision of the symmetrical air-flow that can be rotated, single gas channel can be used simultaneously
The circumferential position for being rotated to the single gas channel and air-flow being selected to supply, thereby, it is possible to be formed in a certain preferential direction
On reinforcement air-flow, that is, often have in the circumferential close to the insufflation channel of the single gas channel compared with air volume, so as to
The region heavier to moisture emphasis purging can be carried out as needed, moreover, using the reinforcement air-flow in this selected direction,
Tealeaves slightly can be measured in prolonged technical process stirs, so as to be easy to its bottom surface or side drying.And it sets
Put the symmetrical this air-flow input closed-loop that can be rotated in left and right ends, it can be ensured that the flow damage of air-flow in the axial direction
Lose minimum, and two this single gas channels enabled to be run in same phase or out of phase, with to it is same away from
Comprehensive purging is carried out from the tealeaves in section.And it is saturating on bottom surface then to improve tealeaves using penetrating net formula conveyer belt
Gas performance, this comprehensive air blowing purging drying of cooperation.The gas channel not blocked to little obstruction or completely selects
Property close to and its windage loss is compensated, thus, it is possible to correct the even property of the circumferential asymmetry of air-flow.In maintenance phase, Neng Goutong
It crosses the rotation of air-flow input closed-loop and rapid purging is carried out to a plurality of radial direction air blowing air flue, it is wherein remaining to remove
Consider shape object or floccule to be worth doing.By setting discrete air-flow input channel component, air-flow input closed-loop is enabled to convenient for peace
Dress and maintenance, and it is easily installed driving motor.The setting of outer rotor causes compact-sized, and can reduce transmission link, fit
The driving of closed-loop should be inputted in the air-flow.
In the above manner, those skilled in the art can be made within the scope of the invention according to operating mode it is various
Change.