CN110425860A - A kind of split type roasting plant of biomass fuel - Google Patents

Abstract

The invention discloses a kind of split type roasting plants of biomass fuel, including feed hopper, insulated thermal insulating layer and electromagnetic induction coil, baffle is installed on the inside of the feed hopper, and the bottom of feed hopper offers the first vented cavity and the second vented cavity respectively, and venthole is offered above the second vented cavity, second driving wheel is located at the inside of the second mounting rack, and transmission belt is provided on the second driving wheel, and the second driving wheel is connected with each other by transmission belt and the first driving wheel.The split type roasting plant of the biomass fuel, transmission screw rod can be heated at high temperature by transmitting screw rod and doing the movement of circumference cutting magnetic induction line in the electromagnetic induction coil of energization and realize, high temperature transmission screw rod to be rotated on the first mounting rack and the second mounting rack can sufficiently stir the biomass material in drying bucket, transmit promotion and baking, integration is stirred, transmitted and toasted so as to realize, reduces the baking cost of raw material.

Description

A kind of split type roasting plant of biomass fuel

Technical field

The present invention relates to biomass fuel processing equipment technical field, specially a kind of split type baking of biomass fuel is set It is standby.

Background technique

The present invention relates to biomass fuel processing equipment technical field, specially a kind of split type baking of biomass fuel is set It is standby.

Summary of the invention

The purpose of the present invention is to provide a kind of split type roasting plants of biomass fuel, to solve in above-mentioned background technique The existing roasting plant proposed is mostly to carry out drying and processing to biomass fuel raw material using simple high temperature chamber, cannot It is enough that raw material is sufficiently stirred during the drying process, while being not easy to carry out promotion transmission to raw material, therefore normally result in original Material drying is not thorough, and finished fuels combustion efficiency is poor, is influenced fuel and is carried out normal use, traditional apparatus for baking can not be to baking Waste heat during roasting is made full use of, thus the case where being extremely easy to appear energy waste, while can not to raw material into Row the pre-heat treatment, and then the problem of lead to the drying time for extending moist raw material, reduce processing efficiency.

To achieve the above object, the invention provides the following technical scheme: a kind of split type roasting plant of biomass fuel, packet Feed hopper, insulated thermal insulating layer and electromagnetic induction coil are included, baffle, and the bottom of feed hopper point are installed on the inside of the feed hopper The first vented cavity and the second vented cavity are not offered, and venthole is offered above the second vented cavity, second ventilation Impeller is installed on the inside of chamber, and horizontal axis is installed on impeller, the impeller is connected with each other by horizontal axis and feed hopper, and horizontal axis On shift plate is installed, and shift plate is located at the lower section of baffle, and the right end of the feed hopper is equipped with drying bucket, and dries the outer of bucket Side is provided with insulated thermal insulating layer, and insulated thermal insulating layer and feed hopper are connected with each other, and the inside of the insulated thermal insulating layer is equipped with Electromagnetic induction coil, and electromagnetic induction coil is looped around the outside of drying bucket, and the lower end of insulated thermal insulating layer offers translot, It is provided with cross bar on the inside of the translot, and flabellum is installed on cross bar, the left end of the cross bar and right end are separately installed with axis Hold with the first driving wheel, and cross bar is connected with each other by bearing and insulated thermal insulating layer, and the drying bucket is internally provided with ring-type Pipeline, and gas collection hole is offered on looped pipeline, and gas collection hole is located at the upper end inner wall position of drying bucket, the drying bucket Lower end is provided with horizontal communication pipe, and horizontal communication pipe and looped pipeline are connected with each other, and the horizontal communication pipe and vertical tube are mutual Connection, and vertical tube is opened in the inside of insulated thermal insulating layer, the horizontal communication pipe is connected with each other by vertical tube and translot, and translot It is connected with each other with the first vented cavity, the first mounting rack, transmission screw rod and the second peace is respectively arranged on the inside of the drying bucket It shelves, and transmits screw rod and pass through the first mounting rack and the second mounting rack and drying bucket interconnection, the transmission spiral respectively Ball is provided between bar and the link position of the first mounting rack, and the right end for transmitting screw rod is equipped with the second driving wheel, institute The inside that the second driving wheel is located at the second mounting rack is stated, and is provided with transmission belt on the second driving wheel, and the second driving wheel is logical It crosses transmission belt and the first driving wheel is connected with each other.

Preferably, the number of the impeller is provided with 2, and 2 impellers are symmetrical on transverse axis, and impeller passes through Horizontal axis and feed hopper constitute rotational structure.

Preferably, to be fixedly connected between the shift plate and horizontal axis, and shift plate is cavernous structure, and shift plate passes through horizontal axis Rotational structure is constituted with feed hopper.

Preferably, the drying bucket, the first mounting rack and the second mounting rack are ceramic material, and dry bucket and be nested in absolutely The inside of edge thermal insulation layer.

Preferably, the cross bar constitutes rotational structure by bearing and insulated thermal insulating layer, and is equidistantly equipped on cross bar Flabellum.

Preferably, the looped pipeline is in the inside equidistantly distributed for drying bucket, and looped pipeline spaced at equal angles around has Gas collection hole.

Preferably, second mounting rack and the first mounting rack side view are " ten " font structure, and transmit screw rod with Second mounting rack and the first mounting frame are at rotational structure, and transmitting screw rod is stainless steel metal material.

Compared with prior art, the beneficial effects of the present invention are: the split type roasting plant of the biomass fuel；

1, the movement realization of circumference cutting magnetic induction line can be done in the electromagnetic induction coil of energization to transmission by transmitting screw rod Screw rod is heated at high temperature, so that the high temperature transmission screw rod rotated on the first mounting rack and the second mounting rack can To drying bucket in biomass material sufficiently stirred, transmit push and toast, so as to realize stir, transmit and Baking integration, avoids the need for improving power consumption using excessive power-equipment, reduces the baking cost of raw material；

2, raw material can generate hot gas when drying and carrying out drying and processing in bucket, and hot gas can then pass through gas collection hole, ring Shape pipeline, horizontal communication pipe and translot inject in the first vented cavity, and hot gas is again by the second ventilation of the first vented cavity injection Intracavitary to be discharged via venthole, the convenient biomass material in feed hopper carries out the pre-heat treatment, can reduce biomass material The moisture content on surface, at the same hot gas from the first vented cavity inject the second vented cavity in while impeller can be blown It is dynamic, so that impeller can drive shift plate be rotated in feed hopper by horizontal axis, facilitate shift plate to the raw material in feed hopper into Row is stirred, and is avoided raw material accumulated plugging from cannot be introduced into drying bucket and is carried out drying and processing, what feed hopper and drying bucket two parts were constituted Split type drying and processing structure improves the drying efficiency and degree of drying of raw material；

3, while transmitting screw rod progress circle rotation movement, transmission screw rod can pass through the second driving wheel, transmission belt And first driving wheel drive cross bar to be rotated in translot, cross bar at this time drives flabellum to carry out rotation and generates wind-force, fan The wind-force that leaf takes up enhances the mobility of the hot gas in injection translot, improves hot gas and pours into the first vented cavity Impact force, increase the movement potential energy of hot gas, it is convenient that enough motive forces are generated to impeller.

Detailed description of the invention

Fig. 1 is overall structure of the present invention；

Fig. 2 is blade wheel structure schematic diagram of the present invention；

Fig. 3 is that impeller side of the present invention cuts open mounting structure schematic diagram；

Fig. 4 is the second mounting rack structural schematic diagram of the invention；

Fig. 5 is that present invention drying barrel side cuts open structural schematic diagram；

Fig. 6 is enlarged structure schematic diagram at the A in Fig. 1 of the present invention；

Fig. 7 is enlarged structure schematic diagram at the B in Fig. 1 of the present invention.

In figure: 1, feed hopper；2, baffle；3, the first vented cavity；4, the second vented cavity；5, venthole；6, impeller；7, horizontal Axis；8, shift plate；9, bucket is dried；10, insulated thermal insulating layer；11, electromagnetic induction coil；12, translot；13, cross bar；14, flabellum；15, Bearing；16, the first driving wheel；17, looped pipeline；18, gas collection hole；19, horizontal communication pipe；20, vertical tube；21, the first mounting rack； 22, screw rod is transmitted；23, the second mounting rack；24, ball；25, the second driving wheel；26, transmission belt.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Fig. 1-7 is please referred to, the present invention provides a kind of technical solution: a kind of split type roasting plant of biomass fuel, including Feed hopper 1, insulated thermal insulating layer 10 and electromagnetic induction coil 11, the inside of feed hopper 1 are equipped with baffle 2, and the bottom of feed hopper 1 The first vented cavity 3 and the second vented cavity 4 are offered respectively, and the top of the second vented cavity 4 offers venthole 5, second is logical The inside of wind chamber 4 is equipped with impeller 6, and horizontal axis 7 is equipped on impeller 6, and impeller 6 is connected with each other by horizontal axis 7 and feed hopper 1, And shift plate 8 being installed, and shift plate 8 is located at the lower section of baffle 2 on horizontal axis 7, the right end of feed hopper 1 is equipped with drying bucket 9, and dries The outside of dry bucket 9 is provided with insulated thermal insulating layer 10, and insulated thermal insulating layer 10 and feed hopper 1 are connected with each other, insulated thermal insulating layer 10 Inside electromagnetic induction coil 11 is installed, and electromagnetic induction coil 11 is looped around the outside of drying bucket 9, and insulated thermal insulating layer 10 lower end offers translot 12, and the inside of translot 12 is provided with cross bar 13, and flabellum 14 is equipped on cross bar 13, cross bar 13 Left end and right end are separately installed with bearing 15 and the first driving wheel 16, and cross bar 13 is mutual by bearing 15 and insulated thermal insulating layer 10 Connection, drying bucket 9 is internally provided with looped pipeline 17, and gas collection hole 18 is offered on looped pipeline 17, and gas collection hole 18 Positioned at the upper end inner wall position of drying bucket 9, the lower end of drying bucket 9 is provided with horizontal communication pipe 19, and horizontal communication pipe 19 and ring Shape pipeline 17 is connected with each other, and horizontal communication pipe 19 and vertical tube 20 are connected with each other, and vertical tube 20 is opened in the interior of insulated thermal insulating layer 10 Portion, horizontal communication pipe 19 are connected with each other by vertical tube 20 and translot 12, and translot 12 and the first vented cavity 3 are connected with each other, drying The inside of bucket 9 is respectively arranged with the first mounting rack 21, transmission screw rod 22 and the second mounting rack 23, and transmits screw rod 22 and distinguish It is connected with each other by the first mounting rack 21 and the second mounting rack 23 with drying bucket 9, transmits screw rod 22 and the first mounting rack 21 Ball 24 is provided between link position, and the right end for transmitting screw rod 22 is equipped with the second driving wheel 25, the second driving wheel 25 Positioned at the inside of the second mounting rack 23, and transmission belt 26 is provided on the second driving wheel 25, and the second driving wheel 25 passes through biography Dynamic band 26 and the first driving wheel 16 are connected with each other.

The number of impeller 6 in this example is provided with 2, and 2 impellers 6 are symmetrical on horizontal axis 7, and impeller 6 is logical It crosses horizontal axis 7 and feed hopper 1 constitutes rotational structure, the hot gas of the second vented cavity 4 of injection is facilitated to blow impeller 6, from And impeller 6 is facilitated to be rotated by horizontal axis 7 in the inside of feed hopper 1；

To be fixedly connected between shift plate 8 and horizontal axis 7, and shift plate 8 is cavernous structure, and shift plate 8 passes through horizontal axis 7 and feed hopper 1 Rotational structure is constituted, is conducive to impeller 6 through horizontal axis 7 while the inside of feed hopper 1 is rotated, impeller 6 can pass through Horizontal axis 7 drives shift plate 8 to synchronize rotation, and the shift plate 8 of cavernous structure can facilitate the hot gas sprayed from venthole 5 logical It crosses, avoids that hot gas is stopped to pass through；

Drying bucket 9, the first mounting rack 21 and the second mounting rack 23 is ceramic material, and dries bucket 9 and be nested in insulated thermal insulating layer 10 inside improves the insulating power of the roasting plant, and the heat in drying bucket 9 is avoided to distribute baking of the too fast influence to raw material Dry effect；

Cross bar 13 constitutes rotational structure by bearing 15 and insulated thermal insulating layer 10, and flabellum 14 is equidistantly equipped on cross bar 13, Facilitate cross bar 13 to be able to drive flabellum 14 while being rotated by bearing 15 and synchronize rotation, so as to generate wind Power to injection translot 12 in high-temperature gas blow, the movement potential energy of high-temperature gas can be enhanced, improve to impeller 6 into Row blows the power of promotion；

Looped pipeline 17 is in the inside equidistantly distributed for drying bucket 9, and 17 spaced at equal angles around of looped pipeline has gas collection hole 18, side Just it dries the high-temperature gas in bucket 9 and looped pipeline is injected by the gas collection hole 18 on drying 9 upper end inner wall of bucket in uphill process In 17, to be conducive to guide transfer to the high-temperature gas in drying bucket 9；

Second mounting rack 23 and 21 side view of the first mounting rack are " ten " font structure, and transmit screw rod 22 and the second mounting rack 23 and first mounting rack 21 constitute rotational structure, and transmit screw rod 22 be stainless steel metal material, be conducive to stainless steel gold The transmission screw rod 22 for belonging to material carries out the movement of circumgyration incision electricity magnetic induction line in the inside of electromagnetic induction coil 11, so as to make Transmission screw rod 22 generates high temperature when being rotated, and then be conducive to 9 inside of transmission 22 pairs of drying buckets of screw rod of high temperature Raw material carries out drying and processing.

Working principle: according to Fig. 1 and Fig. 7, when needing to toast biomass fuel raw material, by biomass fuel Material raw material pours into the feed hopper 1 of the roasting plant, and raw material slides into feed hopper 1 via inclined baffle 2, the design of baffle 2 Raw material can be made to be buffered when entering in feed hopper 1, prevent raw material from excessively tamping in feed hopper 1, raw material is avoided to block It cannot be introduced into drying bucket 9 and carry out drying processing, be the electromagnetism inside insulated thermal insulating layer 10 after raw material pours into feed hopper 1 Induction coil 11 is powered, and electromagnetic induction coil 11 at this time, which is powered, generates electric magnetic induction line, at the same time, transmits screw rod 22 The movement of circumgyration incision electricity magnetic induction line is carried out in the inside of drying bucket 9, transmission screw rod 22 passes through ball 24 and the second transmission respectively Wheel 25 is rotated in the inside of the first mounting rack 21 and the second mounting rack 23；

According to Fig. 1, Fig. 2, Fig. 3, Fig. 5 and Fig. 6, existed respectively by ball 24 and the second driving wheel 25 in transmission screw rod 22 While the inside of first mounting rack 21 and the second mounting rack 23 is rotated, screw rod 22 is transmitted in circumgyration incision electromagnetism sense Itself high temperature is generated under the action of line movement, so that the transmission screw rod 22 for generating high temperature enters in drying bucket 9 to by feed hopper 1 Raw material carry out baking processing, and while transmitting screw rod 22 and being toasted to biomass fuel raw material, the transmission of rotation Screw rod 22 is also sufficiently stirred and is pushed conveying to the raw material in drying bucket 9 by the helical blade structure of itself, most The raw material for completing drying eventually moves under the promotion of transmission screw rod 22 completes discharging at the right-end openings of drying bucket 9, improve The drying efficiency and degree of drying of raw material, while conveniently promotion transfer is carried out to raw material, power utilization is adequately achieved, and While biomass fuel raw material in transmission 22 pairs of drying buckets 9 of screw rod is stirred, transmitted and toasted, in raw material Moisture generates high-temperature gas under high temperature action, and high-temperature gas at this time carries out ascension upwards under gas pressure, until high Wet body is contacted with the inner wall of drying 9 upper end of bucket, the gas collection that high-temperature gas at this time passes through drying 9 upper end inner wall position of bucket Hole 18 is filled into looped pipeline 17, and then high-temperature gas is filled into horizontal communication pipe 19 by looped pipeline 17 again, and is perfused It is filled into translot 12 via vertical tube 20 again to the high-temperature gas in horizontal communication pipe 19；

According to Fig. 1, Fig. 2, Fig. 3 and Fig. 6, while high-temperature gas is filled into translot 12 via vertical tube 20, rotation Transmission screw rod 22 drive the first driving wheel 16 to synchronize rotation by the second driving wheel 25 and transmission belt 26, and rotation First driving wheel 16 then drives cross bar 13 to synchronize rotation in the inside of translot 12 by bearing 15, the cross bar 13 rotated at this time It drives flabellum 14 to carry out rotation and generates wind-force, the wind-force that the rotation of flabellum 14 generates then is filled into translot 12 to via vertical tube 20 High-temperature gas is blown, and the movement potential energy of high-temperature gas is increased, and high-temperature gas at this time is filled under the drive of wind-force The inside of first vented cavity 3；

According to Fig. 1, Fig. 2, Fig. 3 and Fig. 6, high-temperature gas is filled into the inside of the first vented cavity 3 under the drive of wind-force And then the inside of the second vented cavity 4 is filled by the first vented cavity 3, and is filled by the first vented cavity 3 in high-temperature gas During two vented cavities 4, high-temperature gas carries out blowing promotion to the impeller 6 of 4 inside of the second vented cavity, and impeller 6 is then in height Blowing for wet body is rotated by horizontal axis 7 in the inside of feed hopper 1 under promotion, and drives horizontal axis 7 to be rotated in impeller 6 While, impeller 6 drives shift plate 8 to synchronize rotation by horizontal axis 7, and shift plate 8 at this time is then put in the inside of feed hopper 1 It is dynamic, facilitate the raw material loosened in feed hopper 1, and the raw material of 8 top of the shift plate then parabolically motion state under the promotion of shift plate 8 It falls into drying bucket 9 and carries out drying processing, facilitate charging, and impeller 6 is completed to push in high-temperature gas and is filled into the second ventilation After in chamber 4, high-temperature gas is injected into hopper 1 by the venthole 5 of 4 top of the second vented cavity to the raw material in feed hopper 1 again Pre-heating drying processing is carried out, biomass fuel raw material surface moisture content can be reduced, shortens baking process time, improves baking Processing efficiency, such a split type roasting plant of biomass fuel facilitate carry out using.

It is to be appreciated that term " center ", " longitudinal direction ", " transverse direction ", "front", "rear", "left", "right", "vertical", " water It is flat ", "top", "bottom", "inner", the instructions such as "outside" orientation or positional relationship be to be based on the orientation or positional relationship shown in the drawings, It is only simplified description of the invention for ease of description, rather than indicating or imply signified device or element must have specifically Orientation is constructed and is operated for specific orientation, thus should not be understood as the limitation to present invention protection content.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (7)

1. a kind of split type roasting plant of biomass fuel, including feed hopper (1), insulated thermal insulating layer (10) and electromagnetic induction coil (11), it is characterised in that: be equipped with baffle (2) on the inside of the feed hopper (1), and the bottom of feed hopper (1) offers respectively First vented cavity (3) and the second vented cavity (4), and venthole (5) are offered above the second vented cavity (4), described second It is equipped on the inside of vented cavity (4) impeller (6), and horizontal axis (7) is installed on impeller (6), the impeller (6) passes through horizontal axis (7) It is connected with each other with feed hopper (1), and shift plate (8) is installed, and shift plate (8) is located at the lower section of baffle (2), institute on horizontal axis (7) The right end for stating feed hopper (1) is equipped with drying bucket (9), and dries and be provided with insulated thermal insulating layer (10) on the outside of bucket (9), and absolutely Edge thermal insulation layer (10) and feed hopper (1) are connected with each other, and the inside of the insulated thermal insulating layer (10) is equipped with electromagnetic induction coil (11), and electromagnetic induction coil (11) is looped around the outside for drying bucket (9), and the lower end of insulated thermal insulating layer (10) offers cross Slot (12) is provided with cross bar (13) on the inside of the translot (12), and is equipped with flabellum (14), the cross bar on cross bar (13) (13) left end and right end is separately installed with bearing (15) and the first driving wheel (16), and cross bar (13) is by bearing (15) and absolutely Edge thermal insulation layer (10) is connected with each other, and drying bucket (9) is internally provided with looped pipeline (17), and opens on looped pipeline (17) Equipped with gas collection hole (18), and gas collection hole (18) is located at the upper end inner wall position of drying bucket (9), the lower end of drying bucket (9) It is provided with horizontal communication pipe (19), and horizontal communication pipe (19) and looped pipeline (17) are connected with each other, the horizontal communication pipe (19) it is connected with each other with vertical tube (20), and vertical tube (20) is opened in the inside of insulated thermal insulating layer (10), the horizontal communication pipe (19) it is connected with each other by vertical tube (20) and translot (12), and translot (12) and the first vented cavity (3) are connected with each other, the drying It is respectively arranged with the first mounting rack (21), transmission screw rod (22) and the second mounting rack (23) on the inside of bucket (9), and transmits spiral Bar (22) is connected with each other by the first mounting rack (21) and the second mounting rack (23) and drying bucket (9) respectively, the transmission spiral It is provided between bar (22) and the link position of the first mounting rack (21) ball (24), and transmits the right end installation of screw rod (22) Have the second driving wheel (25), second driving wheel (25) is located at the inside of the second mounting rack (23), and the second driving wheel (25) On be provided with transmission belt (26), and the second driving wheel (25) is connected with each other by transmission belt (26) and the first driving wheel (16).

2. the split type roasting plant of a kind of biomass fuel according to claim 1, it is characterised in that: the impeller (6) Number be provided with 2, and 2 impellers (6) are symmetrical on horizontal axis (7), and impeller (6) passes through horizontal axis (7) and charging (1) composition that struggles against rotational structure.

3. the split type roasting plant of a kind of biomass fuel according to claim 1, it is characterised in that: the shift plate (8) To be fixedly connected between horizontal axis (7), and shift plate (8) is cavernous structure, and shift plate (8) passes through horizontal axis (7) and feed hopper (1) Constitute rotational structure.

4. the split type roasting plant of a kind of biomass fuel according to claim 1, it is characterised in that: the drying bucket (9), the first mounting rack (21) and the second mounting rack (23) are ceramic material, and dry bucket (9) and be nested in insulated thermal insulating layer (10) inside.

5. the split type roasting plant of a kind of biomass fuel according to claim 1, it is characterised in that: the cross bar (13) Rotational structure is constituted by bearing (15) and insulated thermal insulating layer (10), and flabellum (14) are equidistantly installed on cross bar (13).

6. the split type roasting plant of a kind of biomass fuel according to claim 1, it is characterised in that: the looped pipeline (17) in the inside equidistantly distributed of drying bucket (9), and looped pipeline (17) spaced at equal angles around has gas collection hole (18).

7. the split type roasting plant of a kind of biomass fuel according to claim 1, it is characterised in that: second installation Frame (23) and the first mounting rack (21) side view are " ten " font structure, and transmit screw rod (22) and the second mounting rack (23) and First mounting rack (21) constitutes rotational structure, and transmitting screw rod (22) is stainless steel metal material.