CN207907647U - Wave feed formula multilayer mesh belt dryer - Google Patents

Abstract

One kind waving feed formula multilayer mesh belt dryer, including waving feeder, chain-type Multilayer Network band, the feeder that waves includes belt conveyor, guiding mechanism, swing mechanism, the feed end of the belt conveyor is equipped with axle sleeve, the first rotation axis being fixed on ground below the axle sleeve and belt conveyor feed end is rotatably connected, and the discharge end of belt conveyor is provided with idler wheel；Guiding mechanism includes guide rail, the guide rail being arranged by baking material conveying direction on above-mentioned belt conveyor, idler wheel is rolled with the guide rail to be coordinated, so that direction bilateral reciprocation of the discharge end of belt conveyor along guide rail, allocation mechanism, material stirring-up mechanism, brush roll are installed on the chain-type Multilayer Network band, what which was arranged, which waves feeder, allocation mechanism, can effectively solve the problems, such as that foraminous conveyer thickness of feed layer is non-uniform；The material stirring-up mechanism of dryer setting, brush roll solve the problems, such as bed of material ventilation in terms of inside and outside two, strengthen effect on moisture extraction.

Description

Wave feed formula multilayer mesh belt dryer

Technical field

The utility model belongs to dehydrated vegetables drying equipment technology, more particularly to one kind waving feed formula Multilayer Network band Dryer.

Background technology

Adoptable dry technology is mainly convective airflow drying in the processing of dehydrated vegetables, and the product of heated-air drying is about The 90% of fully dehydrating yield of vegetables is accounted for, hot-air drying process mostly uses belt drying machine in addition, and conveyer belt feeding is easy to cause net Bandwidth direction forms bed of material uneven distribution, makes the thin bed of material " excessively dry ", and deep bed sintering drying is insufficient, and material uneven heating is even, It is exactly slow drying speed to have again, easily causes the variation of the nutriment loss and color and luster of vegetables；Dewatering time is long, influences to be dehydrated vegetable The quality of dish, therefore low grade products is belonged to using the dehydrated vegetables of convective airflow drying on the market.

Invention content

The purpose of this utility model is in view of the deficiencies of the prior art, to propose that a kind of cloth is uniform, dehumidifying is fireballing Wave feed formula multilayer mesh belt dryer.

One kind waving feed formula multilayer mesh belt dryer, which includes waving feeder, chain-type Multilayer Network band；Institute It includes belt conveyor, guiding mechanism, swing mechanism to state and wave feeder, and the feed end of the belt conveyor is equipped with axle sleeve, The first rotation axis being fixed on ground below the axle sleeve and belt conveyor feed end is rotatably connected, the Belt Conveying The discharge end of machine is connected to the upper layer foraminous conveyer feed zone of above-mentioned chain-type Multilayer Network band, will be sent into chain-type by baking material The upper layer foraminous conveyer of Multilayer Network band is provided with idler wheel in the discharge end of the belt conveyor；The guiding mechanism includes Guide rail, the guide rail being arranged by baking material conveying direction on above-mentioned belt conveyor, the idler wheel and the guide rail Cooperation is rolled, so that direction bilateral reciprocation of the discharge end of belt conveyor along guide rail, the swing mechanism includes fixing Bar, first connecting rod, second connecting rod, motor, one end of the fixed link and the discharging section of belt conveyor connect, the fixed link One end of the other end and the first connecting rod be rotatablely connected, the other end and the second connecting rod of the first connecting rod are rotatablely connected, The output end of the second connecting rod and motor is rotatablely connected, and the motor drives second connecting rod around its circular-rotation, second connecting rod First connecting rod bilateral reciprocation is driven, first connecting rod drives fixed link, and then fixed link drives belt conveyor material discharging wheel again Along the direction bilateral reciprocation of track；The chain-type Multilayer Network band includes several foraminous conveyers, braced frame；The conveying Guipure one end is equipped with guipure driving shaft, and the other end is equipped with guipure driven axle, and guipure driving shaft and guipure driven axle are fixed on In braced frame, by foraminous conveyer to connection, guipure driving shaft and motor reel are same for guipure driving shaft and guipure driven axle Axis connection drives the rotation of guipure driving shaft by motor rotation, so that foraminous conveyer is operated, before and after adjacent levels foraminous conveyer Direction is staggered and the direction of motion is on the contrary, so that being formed from top to bottom by baking material on three layers of adjacent foraminous conveyer is Z-shaped Movement locus is sent by baking material by waving feeder from one end of the upper layer foraminous conveyer of chain-type Multilayer Network band, from chain One end of lower layer's foraminous conveyer of bar formula Multilayer Network band is sent out, the submitting end of lower layer's foraminous conveyer and above-mentioned chain-type Multilayer Network The feeding end of the upper layer foraminous conveyer of band is oppositely arranged；The chain-type Multilayer Network band is additionally provided with allocation mechanism, material stirring-up mechanism, hair Brush roll；The allocation mechanism is set on the foraminous conveyer of upper layer, so as to be sent into being dried for upper layer foraminous conveyer by waving feeder The thickness of feed layer of material is along upper layer foraminous conveyer width direction uniformity；The material stirring-up mechanism is along by baking material conveying direction It is set to the rear of allocation mechanism, will be turned over by lower layer's material of baking material, the brush roll is installed under foraminous conveyer Side, the bristle of brush roll are contacted with the surface of foraminous conveyer, the rotation direction of the brush roll and the mobile advance of foraminous conveyer Direction is opposite.

Preferably, the both sides of the top of the upper layer foraminous conveyer are provided with fixed baffle, are taken between fixed baffle Allocation mechanism is connect, the allocation mechanism includes several material toggling blades being arranged in the second rotation axis and the second rotation axis, described Second rotation axis is rotatablely connected with the fixed baffle, and the material toggling blade is prolate plate body, and several material toggling blades are along second Rotation axis is circumferentially radially evenly arranged, and the width of the material toggling blade is less than height of the rotation axis apart from upper layer foraminous conveyer The length direction of degree, the material toggling blade is axially arranged along the second rotation axis, and the length of the material toggling blade is less than fixed baffle The distance between, the material toggling blade is protruded with respect to second rotation axis one end dentation triangular in shape, is arranged on the material toggling blade Several reinforcing ribs arranged in parallel are shown, the reinforcing rib is vertically arranged with the length direction of material toggling blade.

Preferably, the material stirring-up mechanism is overlapped between fixed baffle, and the material stirring-up mechanism includes the first turner, described First turner includes several first overturning blades being arranged in third rotation axis and third rotation axis, the third rotation axis It is rotatablely connected with the fixed baffle, the first overturning blade is slender rod shaped body, and the first overturning blade turns along third The axial direction and circumferential direction of moving axis are uniformly distributed, and the length of the first overturning blade is less than height of the rotation axis apart from upper layer foraminous conveyer.

Preferably, the material stirring-up mechanism further includes the second turner, and second turner is along by baking material conveying side To the rear for being set to the first turner, if second turner includes being arranged in the 4th rotation axis and the 4th rotation axis Dry second overturning blade, the 4th rotation axis are rotatablely connected with the fixed baffle, and the second overturning blade is strip, Section is in the shape of the letter V, axial direction and circumferential uniformly distributed, the length of the second overturning blade of the second overturning blade along the 4th rotation axis Degree is less than height of the rotation axis apart from upper layer foraminous conveyer.

Preferably, the material stirring-up mechanism further includes third turner, and the third turner is along by baking material conveying side To the rear for being set to the second turner, if the third turner includes being arranged in the 5th rotation axis and the 5th rotation axis Dry third overturns blade, and the 5th rotation axis is rotatablely connected with the fixed baffle, and the third overturns blade along the 5th turn The axial direction and circumferential direction of moving axis are uniformly distributed, and the length of the third overturning blade is less than height of the rotation axis apart from upper layer foraminous conveyer, The third overturning blade includes fixed plate, movable plate, and one end of the fixed plate is fixedly connected with the 5th rotation axis, described solid The other end of fixed board overlap joint parallel with one end of movable plate, the fixed plate are bolted with movable plate, and bolt is worn successively Fixed plate, movable plate and nut are crossed, the spring being set on bolt is installed between movable plate and nut.

Preferably, be also equipped on the chain-type Multilayer Network band and turn hopper, it is described turn hopper be tiltedly put in it is two neighboring Between foraminous conveyer, and the foraminous conveyer of position is below relative to the defeated of top position in two neighboring foraminous conveyer Send the position of guipure jag.

Preferably, it is equipped with to adjust the height of relative distance between allocation mechanism and foraminous conveyer in the braced frame Spend regulating mechanism.

The utility model advantageous effect is：（1）What the drying system was arranged, which waves feeder, allocation mechanism, effectively to solve The certainly non-uniform problem of foraminous conveyer thickness of feed layer；（2）The material stirring-up mechanism of drying system setting, brush roll is from inside and outside two Aspect solves the problems, such as bed of material ventilation, strengthens effect on moisture extraction.

Description of the drawings

Fig. 1 is to wave feed formula multilayer mesh belt dryer along B-B sectional views described in Fig. 2.

Fig. 2 is to wave feed formula multilayer mesh belt dryer along A-A sectional views described in Fig. 4.

Fig. 3 is the left view for waving feed formula multilayer mesh belt dryer.

Fig. 4 is the vertical view for waving feed formula multilayer mesh belt dryer.

Fig. 5 is the partial enlarged view of the allocation mechanism.

Fig. 6 is the partial enlarged view of the third turner.

In figure：Wave feeder 10, belt conveyor 11, axle sleeve 111, the first rotation axis 112, idler wheel 113, guiding mechanism 12, guide rail 121, swing mechanism 13, fixed link 131, first connecting rod 132, second connecting rod 133, motor 134, chain-type Multilayer Network Band 20, foraminous conveyer 21, braced frame 22, guipure driving shaft 23, guipure driven axle 24, allocation mechanism 25, the second rotation axis 251, material toggling blade 252, triangular teeth protrude 2521, reinforcing rib 2522, material stirring-up mechanism 26, the first turner 261, third and turn Moving axis 2611, first overturns blade 2612, the second turner 262, the 4th rotation axis 2621, second overturning blade 2622, third Turner 263, the 5th rotation axis 2631, third overturning blade 2632, fixed plate 26321, movable plate 26322, bolt 26323, Nut 26324, brush roll 27, fixed baffle 28, turns hopper 29, height adjustment mechanism 210 at spring 26325.

Specific implementation mode

In order to illustrate more clearly of the technical solution of the utility model embodiment, specific embodiment of the present utility model knot Attached drawing is closed to be illustrated.It should be evident that the accompanying drawings in the following description is some embodiments of the utility model, for this field For those of ordinary skill, without creative efforts, other drawings may also be obtained based on these drawings.

Referring to Fig. 1 to Fig. 4, one kind waving feed formula multilayer mesh belt dryer, including waves feeder 10, chain-type multilayer Guipure 20；It includes belt conveyor 11, guiding mechanism 12, swing mechanism 13, the charging of belt conveyor 11 to wave feeder 10 End is equipped with axle sleeve 111, and the first rotation axis 112 being fixed on ground below axle sleeve 111 and 11 feed end of belt conveyor can turn Dynamic connection, the discharge end of belt conveyor 11 are connected to 21 feed zone of upper layer foraminous conveyer of above-mentioned chain-type Multilayer Network band 20, The upper layer foraminous conveyer 21 of chain-type Multilayer Network band 20 will be sent by baking material, it is provided in the discharge end of belt conveyor 11 Idler wheel 113；Guiding mechanism 12 includes guide rail 121, being conveyed by baking material on above-mentioned belt conveyor 11 of guide rail 121 Direction is arranged, and idler wheel 113 is rolled with guide rail 121 to be coordinated, so that the discharge end of belt conveyor 11 is along direction of guide rail 121 or so It moves back and forth, swing mechanism 13 includes fixed link 131, first connecting rod 132, second connecting rod 133, motor 134, fixed link 131 One end is connect with the discharging section of belt conveyor 11, and the other end of fixed link 131 is rotatablely connected with one end of first connecting rod 132, The other end of first connecting rod 132 is rotatablely connected with second connecting rod 133, and second connecting rod 133 and the output end rotation of motor 134 connect It connecing, motor 134 drives second connecting rod 133 around its circular-rotation, and second connecting rod 133 drives 132 bilateral reciprocation of first connecting rod, First connecting rod 132 drives fixed link 131, and then fixed link 131 drives 11 material discharging wheel of belt conveyor left along the direction of track again Right reciprocating motion；Chain-type Multilayer Network band 20 includes three layers of foraminous conveyer 21, braced frame 22；21 one end of foraminous conveyer is equipped with net Band driving shaft 23, the other end are equipped with guipure driven axle 24, and guipure driving shaft 23 and guipure driven axle 24 are fixed on support frame On frame 22, guipure driving shaft 23 is connected with guipure driven axle 24 by foraminous conveyer 21, guipure driving shaft 23 and motor reel To be coaxially connected, by motor rotation, guipure driving shaft 23 driven to rotate, foraminous conveyer 21 is made to operate, adjacent levels are defeated Send 21 front-rear direction of guipure be staggered and the direction of motion on the contrary, so that on three layers of adjacent foraminous conveyer 21 by baking material from The Z-shaped movement locus of upper and lower formation, by baking material by waving upper layer transmission net of the feeder 10 from chain-type Multilayer Network band 20 It is sent into, is sent out from one end of lower layer's foraminous conveyer 21 of chain-type Multilayer Network band 20, lower layer's foraminous conveyer 21 with 21 one end Submitting end and the feeding end of the upper layer foraminous conveyer 21 of above-mentioned chain-type Multilayer Network band 20 be oppositely arranged；Please refer to Fig. 4, chain Formula Multilayer Network band 20 is additionally provided with allocation mechanism 25, material stirring-up mechanism 26, brush roll 27；Allocation mechanism 25 is set to upper layer foraminous conveyer 21 On, so as to be sent into the thickness of feed layer by baking material of upper layer foraminous conveyer 21 along upper layer foraminous conveyer 21 by waving feeder 10 Width direction uniformity；Material stirring-up mechanism 26, will be by along the rear for being set to allocation mechanism 25 by baking material conveying direction The lower layer's material for drying material turns over, and brush roll 27 is installed on the lower section of foraminous conveyer 21, the bristle and foraminous conveyer of brush roll 27 21 surface contact, the rotation direction of brush roll 27 are opposite with the mobile direction of advance of foraminous conveyer 21.

Specifically, when being dried, circulates and heat in two side directions or upper and lower directions of above-mentioned chain-type Multilayer Network band 20 Body is oven-dried the moisture of object with removal.

In the above embodiment, waves feeder 10 and toggle realization reciprocating motion may be used；Wave feeding Machine 10 ensure that the uniform distribution in the width direction of foraminous conveyer 21, eliminates conventional material-uploading style and is easy to cause guipure width direction Further control guipure width direction formation bed of material thin and thick is uniform for the problem of forming bed of material uneven distribution, especially allocation mechanism 25 Property, it avoids the thin bed of material " excessively dry " or deep bed sintering drying is insufficient, ensure that the quality of dehydrated vegetables.

Material stirring-up mechanism 26 in present embodiment can effectively solve what deep bed sintering drying course lower layer wet stock was difficult to dry Problem；The conveying Trajectory Design of the zigzag of multilayer foraminous conveyer 21 can realize mass production, overcome conventional enclosed construction heat Pump drying machine, which can not achieve, works continuously, it is difficult to the shortcomings that producing in enormous quantities.

When processing the higher vegetables of some sugared part contents, such as tomato etc. tends to be adhered to belt surface and block Mesh influences thermal current and is infiltrated through inside the bed of material by guipure, influences drying efficiency, the brush roll designed in present embodiment 27, when guipure moves, rubbing action is by bur mechanical removal on guipure between brush roll 27 and guipure, and then ensures drying Effect.

The utility model advantageous effect is：（1）The drying system setting wave feeder 10, allocation mechanism 25 can have Effect solves the problems, such as that 21 thickness of feed layer of foraminous conveyer is non-uniform；（2）The drying system setting material stirring-up mechanism 26, brush roll 27 from Inside and outside two aspects solve the problems, such as bed of material ventilation, strengthen effect on moisture extraction.

Referring to Fig. 4, Fig. 5, further, on upper layer, the both sides of the top of foraminous conveyer 21 are provided with fixed baffle 28, solid Determine to overlap allocation mechanism 25 between baffle 28, allocation mechanism 25 includes being arranged in the second rotation axis 251 and the second rotation axis 251 Several material toggling blades 252, the second rotation axis 251 is rotatablely connected with fixed baffle 28, and material toggling blade 252 is prolate plate body, Several material toggling blades 252 are circumferentially radially evenly arranged along the second rotation axis 251, and the width of material toggling blade 252 is less than rotation Height of the wheelbase from upper layer foraminous conveyer 21, the length direction of material toggling blade 252 is along the axial setting of the second rotation axis 251, material toggling The length of blade 252 is less than the distance between fixed baffle 28, and material toggling blade 252 is in triangle with respect to 251 one end of the second rotation axis Shape dentation protrudes 2521, and several reinforcing ribs 2522 arranged in parallel, reinforcing rib 2522 are arranged on material toggling blade 252 Vertically it is arranged with the length direction of material toggling blade 252.

Referring to Fig. 4, further, material stirring-up mechanism 26 is overlapped between fixed baffle 28, and material stirring-up mechanism 26 includes the first overturning Device 261, the first turner 261 include several first overturning leaves being arranged in third rotation axis 2611 and third rotation axis 2611 Piece 2612, third rotation axis 2611 are rotatablely connected with fixed baffle 28, and the first overturning blade 2612 is slender rod shaped body, and first turns over Rotating vane piece 2612 along the axial direction of third rotation axis 2611 and circumferential uniformly distributed, the length of the first overturning blade 2612 be less than rotation axis away from Height from upper layer foraminous conveyer 21.

Referring to Fig. 4, further, material stirring-up mechanism 26 further includes the second turner 262, and the second turner 262 is along by baking object Material conveying direction is set to the rear of the first turner 261, and the second turner 262 includes the 4th rotation axis 2621 and the 4th turn Several second overturning blades 2622 being arranged on moving axis 2621, the 4th rotation axis 2621 are rotatablely connected with fixed baffle 28, and second Overturning blade 2622 is strip, and section is in the shape of the letter V, axial direction and circumferential direction of the second overturning blade 2622 along the 4th rotation axis 2621 Uniformly distributed, the length of the second overturning blade 2622 is less than height of the rotation axis apart from upper layer foraminous conveyer 21.

Referring to Fig. 4, Fig. 6, further, material stirring-up mechanism 26 further includes third turner 263, and third turner 263 is along quilt It dries material conveying direction and is set to the rear of the second turner 262, third turner 263 includes the 5th rotation axis 2631 and the Several thirds overturning blade 2632 being arranged in five rotation axis 2631, the 5th rotation axis 2631 are rotatablely connected with fixed baffle 28, Third overturns blade 2632 and is evenly distributed with along the axial direction of the 5th rotation axis 2631 and circumferentially, and the length of third overturning blade 2632, which is less than, to be turned Height of the moving axis apart from upper layer foraminous conveyer 21, the 5th overturning blade includes fixed plate 26321, movable plate 26322, fixed plate 26321 one end is fixedly connected with the 5th rotation axis 2631, and the other end of fixed plate 26321 is held level with both hands with the one of movable plate 26322 Row overlap joint, fixed plate 26321 are connect with movable plate 26322 by bolt 26323, and bolt 26323 sequentially passes through fixed plate 26321, movable plate 26322 and nut 26324, being equipped between movable plate 26322 and nut 26324 are set in bolt Spring 26325 on 26323.

Specifically, when vegetables material moves on the guipure of foraminous conveyer 21, vegetables material has certain bed of material thick Degree, material and the thermal current of lower layer cannot be in direct contact, therefore the humidity of materials on opposite upper layer is high, and the speed of drying is slow；At this In embodiment, vegetables material by the first turner 261, the second turner 262, third turner 263 lower section when, lower layer Material is turned over by material stirring-up mechanism 26, to accelerate to dry；Above-mentioned three kinds specific material stirring-up mechanisms 26 have different stirring effects, example Such as when installation site was not likely to occur the phenomenon that third overturning blade 2632 is stuck at that time, what third turner 263 designed consolidates Spring 26325 is installed between fixed board 26321, movable plate 26322, it is elastic between such fixed plate 26321 and movable plate 26322 Connection make fixed plate 26321 and movable plate 26322 can relative deformation, to avoid third overturning blade 2632 from stuck ask occur Topic, ensures the normal operation of equipment.

Referring to Fig. 1, Fig. 2, further, it is also equipped on chain-type Multilayer Network band 20 and turns hopper 29, turned hopper 29 and tiltedly put Between two neighboring foraminous conveyer 21, and it is located at 21 phase of foraminous conveyer that position is below in two neighboring foraminous conveyer 21 For the position of 21 jag of foraminous conveyer of top position.

Referring to Fig. 4, further, it is equipped with to adjust phase between allocation mechanism 25 and foraminous conveyer 21 in braced frame 22 The height adjustment mechanism 210 adjusted the distance.

Module or unit in the utility model embodiment device can be merged, divide and be deleted according to actual needs Subtract.

Above disclosures are merely preferred embodiments of the utility model, with this utility model cannot be limited certainly Interest field, those skilled in the art can understand all or part of the processes for realizing the above embodiment, and according to this reality The equivalent variations made by novel claim, still fall within the scope of the utility model.

Claims (7)

1. one kind waving feed formula multilayer mesh belt dryer, it is characterised in that：The dryer is more including waving feeder, chain-type Layer guipure；The feeder that waves includes belt conveyor, guiding mechanism, swing mechanism, the feed end of the belt conveyor Equipped with axle sleeve, the first rotation axis being fixed on ground below the axle sleeve and belt conveyor feed end is rotatably connected, institute The discharge end for stating belt conveyor is connected to the upper layer foraminous conveyer feed zone of above-mentioned chain-type Multilayer Network band, will be by baking material It is sent into the upper layer foraminous conveyer of chain-type Multilayer Network band, the discharge end of the belt conveyor is provided with idler wheel；The guiding Mechanism includes guide rail, the guide rail being arranged by baking material conveying direction on above-mentioned belt conveyor, the idler wheel It rolls and coordinates with the guide rail, so that direction bilateral reciprocation of the discharge end of belt conveyor along guide rail, the turn-around machine Structure includes fixed link, first connecting rod, second connecting rod, motor, and one end of the fixed link and the discharging section of belt conveyor connect, The other end of the fixed link and one end of the first connecting rod are rotatablely connected, the other end and second connecting rod of the first connecting rod The output end of rotation connection, the second connecting rod and motor is rotatablely connected, and the motor drives second connecting rod around its circular-rotation, Second connecting rod drives first connecting rod bilateral reciprocation, and first connecting rod drives fixed link, and then fixed link drives Belt Conveying again Direction bilateral reciprocation of the machine material discharging wheel along track；The chain-type Multilayer Network band includes several foraminous conveyers, braced frame； Described foraminous conveyer one end is equipped with guipure driving shaft, and the other end is equipped with guipure driven axle, guipure driving shaft and guipure driven axle peace Dress is fixed on the support frame, guipure driving shaft and guipure driven axle by foraminous conveyer to connection, guipure driving shaft with it is electronic Arbor is coaxially connected, drives the rotation of guipure driving shaft by motor rotation, foraminous conveyer is made to operate, adjacent levels conveying Guipure front-rear direction be staggered and the direction of motion on the contrary, so that on three layers of adjacent foraminous conveyer by baking material from top to bottom Z-shaped movement locus is formed, is sent from one end of the upper layer foraminous conveyer of chain-type Multilayer Network band by baking material by waving feeder Enter, is sent out from one end of lower layer's foraminous conveyer of chain-type Multilayer Network band, submitting end and the above-mentioned chain of lower layer's foraminous conveyer The feeding end of the upper layer foraminous conveyer of formula Multilayer Network band is oppositely arranged；The chain-type Multilayer Network band is additionally provided with allocation mechanism, turns over Expect mechanism, brush roll；The allocation mechanism is set on the foraminous conveyer of upper layer, so as to be sent into upper layer transmission net by waving feeder The thickness of feed layer by baking material of band is along upper layer foraminous conveyer width direction uniformity；The material stirring-up mechanism is along by baking material Conveying direction is set to the rear of allocation mechanism, will be turned over by lower layer's material of baking material, the brush roll is installed on conveying The lower section of guipure, the bristle of brush roll are contacted with the surface of foraminous conveyer, the rotation direction of the brush roll and foraminous conveyer Mobile direction of advance is opposite.

2. waving feed formula multilayer mesh belt dryer as described in claim 1, it is characterised in that：In the upper layer foraminous conveyer The both sides of top be provided with fixed baffle, allocation mechanism is overlapped between fixed baffle, the allocation mechanism includes second turn Several material toggling blades being arranged on moving axis and the second rotation axis, second rotation axis are rotatablely connected with the fixed baffle, The material toggling blade is prolate plate body, and several material toggling blades are circumferentially radially evenly arranged along the second rotation axis, described group Expect that the width of blade is less than height of the rotation axis apart from upper layer foraminous conveyer, the length direction of the material toggling blade is along the second rotation Axis is axially arranged, and the length of the material toggling blade is less than the distance between fixed baffle, and the material toggling blade is relative to the second rotation Axis one end dentation triangular in shape protrudes, and several reinforcing ribs arranged in parallel are arranged on the material toggling blade, described to add Strengthening tendons are vertically arranged with the length direction of material toggling blade.

3. waving feed formula multilayer mesh belt dryer as claimed in claim 2, it is characterised in that：The material stirring-up mechanism is overlapped on Between fixed baffle, the material stirring-up mechanism includes the first turner, and first turner includes third rotation axis and third Several first overturning blades being arranged in rotation axis, the third rotation axis are rotatablely connected with the fixed baffle, and described first Overturning blade is slender rod shaped body, and described first overturns blade is evenly distributed with along the axial direction of third rotation axis and circumferentially, and described first turns over The length of rotating vane piece is less than height of the rotation axis apart from upper layer foraminous conveyer.

4. waving feed formula multilayer mesh belt dryer as claimed in claim 3, it is characterised in that：The material stirring-up mechanism further includes Second turner, second turner is along the rear for being set to the first turner by baking material conveying direction, and described second Turner includes several second overturning blades being arranged in the 4th rotation axis and the 4th rotation axis, the 4th rotation axis and institute Fixed baffle rotation connection is stated, the second overturning blade is strip, and section is in the shape of the letter V, and the second overturning blade is along the The axial direction and circumferential direction of four rotation axis are uniformly distributed, and the length of the second overturning blade is less than height of the rotation axis apart from upper layer foraminous conveyer Degree.

5. waving feed formula multilayer mesh belt dryer as claimed in claim 4, it is characterised in that：The material stirring-up mechanism further includes Third turner, the third turner is along the rear for being set to the second turner by baking material conveying direction, the third Turner includes several thirds overturning blade being arranged in the 5th rotation axis and the 5th rotation axis, the 5th rotation axis and institute State fixed baffle rotation connection, axial direction and circumferential uniformly distributed, the third overturning of the third overturning blade along the 5th rotation axis The length of blade is less than height of the rotation axis apart from upper layer foraminous conveyer, and third overturning blade includes fixed plate, movable plate, One end of the fixed plate is fixedly connected with the 5th rotation axis, and the other end of the fixed plate is parallel with one end of movable plate to be taken It connects, the fixed plate is bolted with movable plate, screw bolt passes fixed plate, movable plate and nut, in movable plate Being equipped between nut is set in the spring on bolt.

6. waving feed formula multilayer mesh belt dryer as claimed in claim 5, it is characterised in that：In the chain-type Multilayer Network It takes to be also equipped with and turns hopper, the hopper that turns tiltedly is put between two neighboring foraminous conveyer, and is located at two neighboring transmission net The position of the foraminous conveyer of position relative to the foraminous conveyer jag of top position is below in band.

7. waving feed formula multilayer mesh belt dryer as claimed in claim 6, it is characterised in that：It is installed in the braced frame There is to adjust the height adjustment mechanism of relative distance between allocation mechanism and foraminous conveyer.