CN109210913A - A kind of stalk drying system for charcoal production - Google Patents

Abstract

The invention discloses a kind of stalk drying systems for charcoal production, are related to agricultural crop straw recovery technology field.The present invention includes drying device, feeding device and gas-circulating system；Drying device includes outer cover body, at least provided with one for shunting the feeding distribution mechanism of material at the feed inlet of outer cover body, the inside of outer cover body is equipped with multiple first Buffer Units, and the bottom of outer cover body offers discharge port, and discharge port is connected to the feed inlet of feeding device；Gas-circulating system includes air-heater, and air-heater is connected to outer cover body, feeding device respectively by admission line, is connected to and is formed circulation loop inside admission line and outer cover body by return-air duct, and the return-air duct is equipped with rotary fan.A kind of stalk drying system structure for charcoal production provided by the invention is simple, the hot-air of desiccation, drying efficiency with higher and preferable drying effect has largely been utilized, while reducing energy consumption.

Description

A kind of stalk drying system for charcoal production

Technical field

The present invention relates to agricultural crop straw recovery technology fields, more particularly to a kind of straw for charcoal production Stalk drying system.

Background technique

Charcoal refers to the biomass such as agriculture and forestry organic waste material, and the rich carbon that formation is pyrolyzed under the conditions of anoxic and certain temperature produces Object can allow the agricultural wastes such as stalk to be turned waste into wealth.Charcoal has fabulous adsorption-buffering ability and fertilizer conservation water retention property, Soil texture can be effectively improved, builds up fertility, solve the problems, such as soil degradation, to realize that agricultural production circulates benignly.Exist at present It needs just to can be carried out its pulverized particles into subsequent carbonization work in the recovery processing engineering of agricultural waste material, be carbonized It needs for stalk particle to be dried before work, so that the humidity of stalk particle is maintained at lower level, at present stalk particle Drying be to be realized by the drying room of carbide furnace, but since the limited drying efficiency in carbide furnace inner space is not high, in addition greatly The material accumulation of amount is also unfavorable for scattering and disappearing for moisture.

In addition to this, at present there are also crushing, the device of drying integrated, such device is usually to pass through hot wind or use Electrically heated mode is thermally dried smashed particle, but retention time of the smashed particle in crushing chamber compared with It is short, along with accumulation leads to dry effect so that hot-air can not come into full contact with particle frequent occurrence between smashed particle Fruit is bad.In addition, the hot-air of processed particle is usually to be discharged directly to the external world, the waste of the energy is caused.

Summary of the invention

The purpose of the present invention is to provide a kind of stalk drying systems for charcoal production to solve current stalk The grain problem that drying efficiency is low and energy consumption is big.

The present invention specifically uses following technical scheme to achieve the goals above:

A kind of stalk drying system for charcoal production, including drying device, the conveying positioned at drying device bottom Device and gas-circulating system；The drying device includes up and down and the outer cover body of the inner hollow shell sheet Feed inlet is offered at the top of body, is used to shunt the feeding distribution mechanism of material, the shell at the feed inlet at least provided with one Multiple first Buffer Units are set inside the body, the Buffer Unit includes the first buffer board, is opened on first buffer board Equipped with several through-holes arranged in arrays, the both ends of first buffer board are equipped with through the first elastomeric element and outer cover body Inner wall connection, and first elastomeric element is vertically arranged；The bottom of the outer cover body is inverted cone-shaped structure, the shell The bottom of ontology offers discharge port, and the discharge port is connected to the feed inlet of feeding device；The gas-circulating system includes Air-heater, the air-heater are connected to outer cover body, feeding device respectively by admission line, the admission line and shell sheet The connectivity part of body is located at the side-walls between the first buffer board of the lowermost and outer cover body discharge port, the admission line and outer Shell body interior is connected to by return-air duct and is formed circulation loop, and the return-air duct is equipped with rotary fan, the return-air Side-walls of the connectivity part of pipeline and outer cover body between feeding distribution mechanism and first buffer board of the top.

In preferred embodiments of the present invention, the admission line includes main pipeline, the first branch pipe(tube), the second branch pipe(tube), First branch pipe(tube), the second branch pipe(tube) pass through main pipeline and are connected to air-heater, in first branch pipe(tube) and outer cover body Portion's connection, the gas outlet of first branch pipe(tube) are equipped with gas diverter, the gas outlet of the gas diverter and the first buffering Plate is opposite, and second branch pipe(tube) is connected to feeding device, and the return-air duct is connected to admission line.

In preferred embodiments of the present invention, the return-air duct connects the cyclone separator for removing dust particles, The cyclone separator is between rotary fan and air-heater.

The return-air duct also row of being communicated in preferred embodiments of the present invention, between the cyclone separator and air-heater Feed channel, the exhaust pipe are equipped with the first valve, and return-air duct between the cyclone separator and air-heater is equipped with the Two valves.

In preferred embodiments of the present invention, the top side wall that the outer cover body is located at the first buffer board is equipped with upper gear Plate, the lower sidewalls that the outer cover body is located at the first buffer board are equipped with lower baffle plate, first buffer board and overhead gage, lower block It is connected by the first elastomeric element between plate.

In preferred embodiments of the present invention, the plate face between the first buffer board adjacent through-holes is the plate to raise upward Face structure.

In preferred embodiments of the present invention, the feeding distribution mechanism includes the first fixing axle, the first deflector, the second water conservancy diversion Plate, first deflector, the second deflector are rotatablely connected with the first fixing axle, first fixing axle and outer cover body Inner wall is fixedly connected, and is arranged along the length direction of outer cover body discharge port, first deflector and the second deflector about First fixing axle is symmetrical arranged, and is connected between the first deflector and the second deflector by the second elastomeric element.

In preferred embodiments of the present invention, the outer cover body is between the feeding distribution mechanism and the first Buffer Unit Side wall on, be equipped with the second Buffer Unit on the side wall between two adjacent first Buffer Units, described second is slow Rushing component includes the second fixing axle, the second buffer board, and second fixing axle is fixedly connected and along outer with the inner wall of outer cover body The length direction of shell ontology feed inlet is arranged, and second buffer board and the second fixing axle are rotatablely connected, second buffer board Bottom surface and the inner wall of outer cover body connected by third elastomeric element.

Compared with prior art, beneficial effects of the present invention are as follows: it is provided by the invention it is a kind of for charcoal production Stalk drying system will be shunted and be dispersed into the stalk particle inside drying device by feeding distribution mechanism, slow by first The effect for rushing component and the second Buffer Unit, extends the drying time of stalk particle, while ensure that stalk particle and heat are empty Abundant basis between gas substantially increases the drying efficiency and drying effect of stalk particle.Secondly, in the bottom of drying device The feeding device of setting is passed through hot-air simultaneously, carries out further heat drying to stalk particle, and hot-air later is passed through Inside drying device, recycling for hot-air is strengthened.Again, the present invention in by rotary fan to drying device inside Hot-air is recycled, and then continues to act on stalk particle as supplement gas source, while during recovery processing Processing is collected to dust, prevents from polluting the environment.

To sum up, a kind of stalk drying system structure for charcoal production provided by the invention is simple, largely The hot-air of desiccation, drying efficiency with higher and preferable drying effect has been utilized, while having reduced energy consumption.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the use of the new type embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not to be seen as It is the restriction to range, it for those of ordinary skill in the art, without creative efforts, can be with root Other relevant attached drawings are obtained according to these attached drawings.

Fig. 1 is a kind of schematic diagram of stalk drying system for charcoal production provided by the invention；

Fig. 2 is the structural schematic diagram of feeding distribution mechanism provided by the invention.

Appended drawing reference: 1- drying device, 2- feeding device, 10- outer cover body, 11- feeding distribution mechanism, the first water conservancy diversion of 111a- Plate, the second deflector of 111b-, the first fixing axle of 113-, the second elastomeric element of 115-, the first Buffer Unit of 13-, 131- first are slow Punching, the first elastomeric element of 132-, 133a- upper stopper, 133b- lower stopper, the second Buffer Unit of 15-, the second buffer board of 151-, The second fixing axle of 153-, 155- third elastomeric element, 31- air-heater, 33- rotary fan, 35- cyclone separator, 41- supervisor Road, the first branch pipe(tube) of 411-, the second branch pipe(tube) of 413-, 43- return-air duct, the first valve of 431-, the second valve of 432-.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Referring to Fig.1 and 2, mainly being wrapped the present embodiment provides a kind of stalk drying system for charcoal production Include drying device 1, feeding device 2 and gas-circulating system positioned at 1 bottom of drying device.

Drying device 1 includes up and down and the outer cover body 10 of inner hollow, the inside of outer cover body 10 are rectangle Shape.Feed inlet is offered at the top of outer cover body 10, is used to shunt object at least provided with one at the feed inlet of outer cover body 10 The feeding distribution mechanism 11 of material.Specifically, feeding distribution mechanism 11 includes the first fixing axle 113, the first deflector 111a, the second deflector 111b, the first fixing axle 113 are fixedly connected with the inner wall of outer cover body 10, and are set along the length direction of 10 discharge port of outer cover body It sets, the first deflector 111a, the second deflector 111b are rotatablely connected with the first fixing axle 113.First deflector 111a and The end of two deflector 111b is equipped with sleeve, and the sleeve of the first deflector 111a and the second deflector 111b are sheathed on the first fixation To realize rotation connection on axis 113.In addition, the first deflector 111a and the second deflector 111b is right about the first fixing axle 113 Claim setting, is connected between the first deflector 111a and the second deflector 111b by the second elastomeric element 115, the second elastomeric element 115 between the first deflector 111a and the second deflector 111b, to support the first deflector 111a and the second deflector Spacing is kept between 111b.

It also can be one, three for above-mentioned it should be noted that feeding distribution mechanism 11 herein is not limited to two in figure A etc., particular number is depending on the treating capacity of material and the size of feed inlet.When stalk particle by outer cover body 10 into When material mouth enters 10 inside of outer cover body, 10 discharge port of outer cover body is divided into multiple by 11 one side of feeding distribution mechanism, reaches shunting Effect, on the other hand, stalk particle drops down on the first deflector 111a and the second deflector 111b, so that stalk particle carries out Dispersion prevents excessive material from entering 1 inside of drying device and forming the fluid in pencil, guarantees between stalk particle and hot wind It comes into full contact with, to improve the drying effect of stalk particle.

Further, the inside of outer cover body 10 is equipped with multiple the first Buffer Units 13 from top to bottom set gradually, the One Buffer Unit 13 includes the first buffer board 131, offers several through-holes arranged in arrays on the first buffer board 131, and first Plate face between 131 adjacent through-holes of buffer board is the board face structure to raise upward, stalk particle a part directly pass through through-hole after Continuous to move downwards, a part drops down onto the plate face of the first buffer board 131, since plate face is the board face structure to raise upward, just In stalk particle slide downward, to be moved downward by through-hole, being in addition arranged such can prevent stalk particle in the first buffering It is detained on plate 131.

The both ends of first buffer board 131 pass through the first elastomeric element 132 and connect with the inner wall of outer cover body 10, and first Elastomeric element 132 is vertically arranged.Specifically, the top side wall that outer cover body 10 is located at the first buffer board 131 is equipped with overhead gage, outside The lower sidewalls that shell ontology 10 is located at the first buffer board 131 are equipped with lower baffle plate, the first buffer board 131 and overhead gage, lower baffle plate it Between by the first elastomeric element 132 connect.Stalk particle can act on the first buffer board 131 during the falling process, thus Making the first elastomeric element 132, deformation occurs, and when material is reduced, the first buffer board 131 is under the action of the first elastomeric element 132 The reciprocating motion of up and down direction is done, the first buffer board 131 acts on stalk particle, increases stalk particle in outer cover body 10 The residence time in portion, to increase the drying effect of stalk particle.

Preferably, outer cover body 10 is located on the side wall between feeding distribution mechanism 11 and the first Buffer Unit 13, adjacent two The second Buffer Unit 15 is equipped on side wall between a first Buffer Unit 13, the second Buffer Unit 15 includes the second fixing axle 153, the second buffer board 151, the second fixing axle 153 are fixedly connected with the inner wall of outer cover body 10 and along 10 feed inlets of outer cover body Length direction setting, the second buffer board 151 and the rotation connection of the second fixing axle 153, the bottom surface of the second buffer board 151 and shell The inner wall of ontology 10 is connected by third elastomeric element 155.In addition, turning between the second buffer board 151 and the second fixing axle 153 Rotation connection mode of the dynamic connection type referring to above-mentioned first deflector 111a and the first fixing axle 113.Second Buffer Unit 15 Stalk particle can be further acted on, increases stalk particle and the residence time inside outer cover body 10, to enhance stalk The drying efficiency of particle.In addition, convection current is generated between hot-air and stalk particle since hot-air moves from the bottom to top, And by the flow direction of the changeable part hot-air of the setting of the second buffer board 151, the hot-air in edge is filled In diversity.

Herein it should be noted that the first above-mentioned elastomeric element 132, the second elastomeric element 115 and third elastic portion Part 155 is hard spring, the length and coefficient of elasticity for hard spring as the case may be depending on.

The bottom of outer cover body 10 is inverted cone-shaped structure, and the bottom of outer cover body 10 offers discharge port, discharge port with it is defeated Expect the feed inlet connection of device 2.Gas-circulating system includes air-heater 31, air-heater 31 by admission line respectively with shell sheet Body 10, feeding device 2 are connected to, the connectivity part of admission line and outer cover body 10 be located at the first buffer board of the lowermost 131 with outside Side-walls between 10 discharge port of shell ontology, admission line with pass through return-air duct 43 inside outer cover body 10 and be connected to and formed and follow Loop back path, return-air duct 43 are equipped with rotary fan 33, and return-air duct 43 and the connectivity part of outer cover body 10 are located at feeding distribution mechanism Side-walls between 11 and first buffer board 131 of the top.

Specifically, admission line includes main pipeline 41, the first branch pipe(tube) 411, the second branch pipe(tube) 413, the first branch pipe(tube) 411, the second branch pipe(tube) 413 is connected to by main pipeline 41 with air-heater 31, is connected inside the first branch pipe(tube) 411 and outer cover body 10 Logical, the gas outlet of the first branch pipe(tube) 411 is equipped with gas diverter, and the gas outlet of gas diverter is opposite with the first buffer board 131, Gas separator disperses hot-air, keeps the flow of hot-air at various locations uniformly, to make stalk particle Degree of drying is consistent.Second branch pipe(tube) 413 is connected to the side wall of feeding device 2, and the preferred spiral of feed device herein is sent Material machine, screw feeding function quantitatively convey stalk particle, and hot-air carries out hot wind again to the stalk particle of its inside and handles, mentions High drying effect is entered inside drying device 1 by the discharge port that the gas that feeding device 2 flows out has outer cover body 10, is continued Heat is provided for stalk particle, accelerates the loss of moisture in particle.

In addition return-air duct 43 is connected to main pipeline 41, and hot-air is recycled, and is reduced in drying process Energy consumption.

Since hot-air while moisture, has also taken away part dust, therefore in return-air duct in taking away stalk particle 43 connections by the cyclone separator 35 for removing dust particles, cyclone separator 35 be located at rotary fan 33 and air-heater 31 it Between.For rotary fan 33 by the hot-air inside outer cover body 10 into cyclone separator 35, cyclone separator 35 can be by hot-air In dust and part steam separated, it is processed after hot-air can be used as dry air and continue to use.Further, The settable compressed air drier on return-air duct 43, sufficiently to remove the vapor in hot-air.

Further, the return-air duct 43 between cyclone separator 35 and air-heater 31 is also communicated with exhaust pipe, exhaust Pipeline is equipped with the first valve 431, and the return-air duct 43 between cyclone separator 35 and air-heater 31 is equipped with the second valve 432. When being not required to recycle hot-air, the second valve 432 is closed, the first valve 431 is opened, hot-air is discharged；When When needing to recycle hot-air, the first valve 431 is closed, opens the second valve 432, hot-air enters main pipeline 41.Herein it should be noted that the first valve 431 and the second valve 432 are manually-operated gate or electrically operated valve.In addition above-mentioned Cyclone separator 35, air-heater 31, compressed air drier are the prior art, and this will not be repeated here.

It also should be noted that in order to reach better drying effect, the preferred interval of the feeding manner of stalk particle Charging.

The above, only presently preferred embodiments of the present invention, are not intended to limit the invention, patent protection model of the invention It encloses and is subject to claims, it is all to change with equivalent structure made by specification and accompanying drawing content of the invention, similarly It should be included within the scope of the present invention.

Claims (8)

1. a kind of stalk drying system for charcoal production, which is characterized in that including drying device (1), be located at dry dress Set the feeding device (2) and gas-circulating system of (1) bottom；

The drying device (1) includes up and down and the outer cover body of inner hollow (10) top of the outer cover body (10) Portion offers feed inlet, is used to shunt the feeding distribution mechanism of material at the feed inlet of the outer cover body (10) at least provided with one (11), the inside of the outer cover body (10) is equipped with multiple the first Buffer Units (13) being from top to bottom sequentially distributed, and described the One Buffer Unit (13) includes the first buffer board (131), is offered on first buffer board (131) several arranged in arrays Through-hole, the inner wall that the both ends of first buffer board (131) pass through the first elastomeric element (132) and outer cover body (10) connect It connects, and first elastomeric element (132) is vertically arranged；

The bottom of the outer cover body (10) is inverted cone-shaped structure, and the bottom of the outer cover body (10) offers discharge port, institute Discharge port is stated to be connected to the feed inlet of feeding device (2)；

The gas-circulating system includes air-heater (31), the air-heater (31) by admission line respectively with outer cover body (10), feeding device (2) is connected to, and the connectivity part of the admission line and outer cover body (10) is located at the first buffer board of the lowermost (131) side-walls between outer cover body (10) discharge port, the admission line and outer cover body (10) inside pass through return-air Pipeline (43) is connected to and is formed circulation loop, and the return-air duct (43) is equipped with rotary fan (33), the return-air duct (43) and the connectivity part of outer cover body (10) is located at the side wall between feeding distribution mechanism (11) and first buffer board (131) of the top Place.

2. a kind of stalk drying system for charcoal production according to claim 1, which is characterized in that the air inlet Pipeline includes main pipeline (41), the first branch pipe(tube) (411), the second branch pipe(tube) (413), first branch pipe(tube) (411), second Pipeline (413) is connected to by main pipeline (41) with air-heater (31), in first branch pipe(tube) (411) and outer cover body (10) The gas outlet of portion's connection, first branch pipe(tube) (411) is equipped with gas diverter, the gas outlet of the gas diverter and first Relatively, second branch pipe(tube) (413) is connected to buffer board (131) with feeding device (2), the return-air duct (43) and main pipeline (41) it is connected to.

3. a kind of stalk drying system for charcoal production according to claim 2, which is characterized in that the return-air Pipeline (43) is connected with the cyclone separator (35) for removing dust particles, and the cyclone separator (35) is located at rotary fan (33) between air-heater (31).

4. a kind of stalk drying system for charcoal production according to claim 3, which is characterized in that the whirlwind Return-air duct (43) between separator (35) and air-heater (31) is also communicated with exhaust pipe, and the exhaust pipe is equipped with the One valve (431), the return-air duct (43) between the cyclone separator (35) and air-heater (31) are equipped with the second valve (432)。

5. a kind of stalk drying system for charcoal production according to claim 1, which is characterized in that the shell The top side wall that ontology (10) is located at the first buffer board (131) is equipped with overhead gage, and the outer cover body (10) is located at the first buffering The lower sidewalls of plate (131) are equipped with lower baffle plate, pass through first between first buffer board (131) and overhead gage, lower baffle plate Elastomeric element (132) connection.

6. a kind of stalk drying system for charcoal production according to claim 1, which is characterized in that described first Plate face between buffer board (131) adjacent through-holes is the board face structure to raise upward.

7. a kind of stalk drying system for charcoal production according to claim 1, which is characterized in that the sub-material Mechanism (11) includes the first fixing axle (113), the first deflector (111a), the second deflector (111b), first fixing axle (113) it is fixedly connected with the inner wall of outer cover body (10), and is arranged along the length direction of outer cover body (10) discharge port；Described One deflector (111a), the second deflector (111b) are rotatablely connected with the first fixing axle (113), first deflector (111a) and the second deflector (111b) are symmetrical arranged about the first fixing axle (113), first deflector (111a) and the It is connected between two deflectors (111b) by the second elastomeric element (115).

8. a kind of stalk drying system for charcoal production according to claim 1, which is characterized in that the shell It is ontology (10) on the side wall between the feeding distribution mechanism (11) and the first Buffer Unit (13), adjacent two first described It is equipped on side wall between Buffer Unit (13) the second Buffer Unit (15), second Buffer Unit (15) includes second solid Dead axle (153), the second buffer board (151), second fixing axle (153) is fixedly connected with the inner wall of outer cover body (10) and edge The length direction of outer cover body (10) feed inlet is arranged, and second buffer board (151) and the second fixing axle (153) rotation connect It connects, the bottom surface of second buffer board (151) is connect with the inner wall of outer cover body (10) by third elastomeric element (155).