CN108559565A - A kind of biomass solid fuel densification material molding technology - Google Patents

Abstract

The invention discloses a kind of biomass solid fuel densification material molding technologies,Including the babinet D being fixedly arranged on ground,It is provided with power cavity in the babinet D,It is installed with motor B in the power cavity lower end wall,The output shaft of the motor B is connect with the reducer power being set in the power cavity,Retarder upper surface be connected by power is provided with solid axis E,The solid axis E rotatably passes through the power cavity upper end wall and stretches out exterior space,The solid upper surfaces the axis E be connected by power is provided with babinet B,Opening up atrium B is provided in the babinet B,The atrium B lower end walls are provided with the opening being connected to exterior space,Present device is simple in structure,It is easy to use,This equipment uses grinding to work at the same time the fine and close processing for realizing biomass solid slag with extruding,To realize the one of process of biomass solid fuel densification material molding technology,Effectively improve the practicality andreliabiliry of equipment.

Description

A kind of biomass solid fuel densification material molding technology

Technical field

The present invention relates to biological fields, and in particular to a kind of biomass solid fuel densification material molding technology.

Background technology

With the development of science and technology, social progress, country promotes always high-tech development, in biological field, especially It is biosolids fuel manufacture field, often relates to fine and close processing, existing densification processing technology cannot achieve very high cause Close characteristic often carries many stomatas in product, this technical equipment will effectively solve fine and close processing technology problem, improve yield.

Invention content

The purpose of the present invention is to provide a kind of biomass solid fuel densification material molding technologies, can overcome existing skill The drawbacks described above of art.

According to the present invention, a kind of biomass solid fuel densification material molding technology of present device, including be fixedly arranged on It is provided with power cavity in babinet D, the babinet D on ground, motor B, the motor B are installed in the power cavity lower end wall Output shaft connect with the reducer power being set in the power cavity, retarder upper surface be connected by power is provided with solid Axis E, the solid axis E rotatably across the power cavity upper end wall and stretch out exterior space, and the solid upper surfaces the axis E power connects Connect to be provided in babinet B, the babinet B and be provided with opening up atrium B, the atrium B lower end walls be provided with outside The opening of portion space connection, the lower faces the babinet B, which are installed in babinet E, the babinet E, is provided with sliding chamber, and the sliding chamber is right Side be provided with run through up and down and with the opposite through-hole of the opening, be provided in the through-hole and slided with end wall above and below the sliding chamber The block of mating connection, the block left side are rotatably provided with the slide bar extended to the left, the slide bar and the sliding chamber Left end wall screw-thread fit connects and runs through the sliding chamber left end wall and stretches out exterior space, and the tops babinet B are provided with and wall It is provided with opening up atrium A in the fixed babinet A in face, the babinet A, it is symmetrical in the atrium A lower end walls It is provided with cylinder, the push rod upper surface of the cylinder is installed with the lower faces push plate A, the push plate A and is installed with transmission shaft, the biography Moving axis slidably passes through the atrium A lower end walls and extends downwardly into the atrium B, and the transmission shaft lower face is solid Equipped with babinet C, it is provided with drive cavity in the babinet C, the spring cavity A of opening inwardly is provided in the drive cavity left hand end wall With spring cavity B, the left sides push plate B, the push plate B are slidably provided in the spring cavity A and are installed with solid axis B, it is described solid Axis B slidably runs through the spring cavity A left ends wall and extends to the left, and the solid left sides axis B are installed with and the atrium B It is provided with the spring being connected with the push plate B elastic force, institute in the side plate A, the spring cavity A of lower end wall sliding connection It states and is slidably provided with the right sides push plate C, the push plate C in spring cavity B and is installed with solid axis D, the solid axis D is slidably passed through It wears the spring cavity A right ends wall and extends to the right, the solid right sides axis D are installed with matches with atrium B lower end walls sliding It closes in the side plate B, the spring cavity B of connection and is provided with the spring being connected with the push plate C elastic force, the push plate B right ends Face is installed with the right sides connecting rod A, the connecting rod A and is installed with ball A, and the right sides ball A, which offset, is provided with cam A, institute It states cam A and is rotatably assorted with the solid axis A for being fixedly arranged on the drive cavity aft bulkhead and connect, the cam A front end faces are installed with and institute It states the be rotatably assorted left sides driven pulley A, the push plate C of connection solid axis A and is installed with the left sides connecting rod B, the connecting rod B It is installed with to offset on the left of ball B, the ball B and is provided with cam B, the cam B and is fixedly arranged on the drive cavity aft bulkhead The connection Gu axis C is rotatably assorted, the cam B front end faces are installed with to be rotatably assorted the driven pulley B connecting with the solid axis C, institute It states and is provided with the output shaft outer surface be connected by power of motor A, the motor A in drive cavity aft bulkhead and is provided with driving pulley, institute Driving pulley is stated by belt and the driven pulley A and driven pulley B be connected by powers, to form complete biosolids combustion The fine and close process equipment of material, is conducive to subsequent reprocessing, improves production efficiency.

Further technical solution, the babinet B inner walls, the side plate A left ends wall and the side plate B right end walls, setting There are several friction balls, the function that the densification to improve equipment rolls improves equipment dependability.

The relatively large radius of further technical solution, the cam A and cam B are partially toward inside, when to make operation It is with good stability.

Further technical solution, the block is slided by the end wall up and down of the sliding chamber in the through-hole to be led to described Hole right end wall offsets, to improve the finished product collection efficiency of equipment.

Further technical solution, the side plate A and side plate B are arcuate structure, the center of circle of the side plate A and side plate B with The center of circle of the babinet B overlaps, to improve the practicability of equipment.

The beneficial effects of the invention are as follows：

In the initial state due to present device, the cylinder is in stop working state, and the push plate A is in minimum Inwardly, the push plate B and push plate C are in most internal limit position for the maximum radius part of extreme position, the cam A and belt, The block offsets with the through-hole right end wall, and the motor B and motor A are in stop working state, thus by each of equipment A construction recovery is that original state facilitates repair and installation.

When equipment is run, biomass solid slag mixed liquor is toppled over into the atrium B, starts the motor A, is made described Driving pulley drives the driven pulley A and driven pulley B rotations, then periodically pushes institute after the cam A and cam B rotations Ball A and ball B telescopic movings are stated, the periodical telescopic movings of described side plate A and side plate B or so, the motor B work, warp are made The solid axis E rotations are made by retarder transmission, drives the babinet B to rotate, then makes the biomass in the atrium B solid Slag mixed liquor obtains grinding and squeezes, and forms fine and close mixed liquor, stops above-mentioned work structuring after completion of processing, turn the cunning Bar makes the block be slided to the left into the sliding intracavitary, and the mixed liquor in the atrium B is flowed down by the through-hole into holding Container, to improve the fine and close working ability of equipment.

When equipment is run, centrifugal force is generated under the rotation of the babinet B keeps the larger biology in the atrium B solid Slag enters abrasive areas, is ground into smaller biological solid slag and enters central area, to improve the configuration flexibility of equipment.

When needing to clean equipment, the cylinder operation drives the push plate A to move up, then the transmission Axis drives the babinet C to move up, and after the babinet C removes the atrium B, is cleaned to equipment, to improve The servicing ease of equipment.

Present device is simple in structure, easy to use, this equipment, which is worked at the same time using grinding with extruding, realizes biomass The fine and close processing of solid slag, to realize the one of process of biomass solid fuel densification material molding technology, effectively improves The practicality andreliabiliry of equipment.

The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention It should be determined by the scope of protection defined in the claims.

Description of the drawings

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing is briefly described needed in technology description, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of overall structure diagram of biomass solid fuel densification material molding technology of the present invention；

Fig. 2 is the schematic diagram in the directions A-A in Fig. 1；

Fig. 3 is the enlarged diagram of B in Fig. 1；

Fig. 4 is the vertical view of Fig. 1.

Specific implementation mode

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

This specification（Including any accessory claim, abstract and attached drawing）Disclosed in any feature, except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

As shown in Figs 1-4, a kind of biomass solid fuel densification material molding technology of the invention, including it is fixedly arranged on ground On babinet D131, the babinet D131 in be provided with power cavity 133, be installed with motor in 133 lower end wall of the power cavity B135, the output shaft of the motor B135 and 134 be connected by power of retarder being set in the power cavity 133, the deceleration 134 upper surface be connected by power of device is provided with solid axis E132, and the solid axis E132 rotatably passes through 133 upper end wall of the power cavity And exterior space is stretched out, the solid upper surfaces the axis E132 be connected by power, which is provided in babinet B106, the babinet B106, to be provided with Opening up atrium B107, the atrium B107 lower end walls are provided with the opening being connected to exterior space, the babinet The lower faces B106, which are installed in babinet E200, the babinet E200, is provided with sliding chamber 201, and 201 right side of the sliding chamber is provided with Run through down and with the opposite through-hole 203 of the opening, be provided in the through-hole 203 and the sliding of about 201 end wall of the sliding chamber The block 204 of mating connection, 204 left side of the block are rotatably provided with the slide bar 202 extended to the left, the slide bar 202 connect and are run through with 201 left end wall screw-thread fit of the sliding chamber 201 left end wall of the sliding chamber and stretch out exterior space, described Be provided with above babinet B106 with the fixed babinet A100 of metope, be provided with opening up atrium in the babinet A100 A101 is symmetrically set with cylinder 104 in the atrium A101 lower end walls, and the push rod upper surface of the cylinder 104 is fixed There are the lower faces push plate A102, the push plate A102 to be installed with transmission shaft 103, the transmission shaft 103 slidably passes through described open Oral cavity A101 lower end walls simultaneously extend downwardly into the atrium B107, and 103 lower face of the transmission shaft is installed with babinet C109, It is provided with drive cavity 110 in the babinet C109, the spring cavity of opening inwardly is provided in 110 left hand end wall of the drive cavity It is solid that the left sides push plate B119, the push plate B119 are slidably provided in A120 and spring cavity B128, the spring cavity A120 Equipped with solid axis B121, the solid axis B121 slidably runs through the spring cavity A120 left ends wall and extends to the left, the solid axis The left sides B121 are installed in the side plate A105, the spring cavity A120 being slidably connected with the atrium B107 lower end walls It is provided with the spring being connected with the push plate B119 elastic force, push plate is slidably provided in the spring cavity B128 The right side C127, the push plate C127 is installed with solid axis D129, and the solid axis D129 slidably runs through the spring cavity A120 Right end wall simultaneously extends to the right, and the solid right sides axis D129 are installed with to be slidably connected with the atrium B107 lower end walls It is provided with the spring being connected with the push plate C127 elastic force, the push plate B119 in side plate B130, the spring cavity B128 Right side is installed with the right sides connecting rod A118, the connecting rod A118 and is installed with phase on the right side of ball A117, the ball A117 It is rotatably assorted company to being provided with cam A114, the cam A114 and being fixedly arranged on the solid axis A116 of 110 aft bulkhead of the drive cavity It connects, the cam A114 front end faces are installed with to be rotatably assorted the driven pulley A115 connecting with the solid axis A116, the push plate The left sides C127 are installed with the left sides connecting rod B126, the connecting rod B126 and are installed with ball B125, the left sides ball B125 Side, which offsets to be provided with cam B122, the cam B122 and rotate with the solid axis C124 for being fixedly arranged on 110 aft bulkhead of the drive cavity, matches Close connection, the cam B122 front end faces are installed with the driven pulley B123 for being rotatably assorted and connecting with the solid axis C124, described The output shaft outer surface be connected by power that motor A111, the motor A111 are provided in 110 aft bulkhead of drive cavity is provided with actively Belt wheel 112, the driving pulley 112 by belt 113 and the driven pulley A115 and driven pulley B123 be connected by powers, from And complete biosolids fuel densification process equipment is formed, be conducive to subsequent reprocessing, improve production efficiency.

Valuably, wherein the babinet B106 inner walls, the side plate A105 left ends wall and the side plate B130 right end walls, Several friction balls are provided with, the function that the densification to improve equipment rolls improves equipment dependability.

Valuably, wherein the relatively large radius of the cam A114 and cam B122 is partially toward inside, when to make operation It is with good stability.

Valuably, wherein the block 204 is slided into the through-hole 203 by the end wall up and down of the sliding chamber 201 and institute It states 203 right end wall of through-hole to offset, to improve the finished product collection efficiency of equipment.

Valuably, wherein the side plate A105 and side plate B130 is arcuate structure, the side plate A105 and side plate B130's The center of circle is overlapped with the center of circle of the babinet B106, to improve the practicability of equipment.

In the initial state, the cylinder 104 is in stop working state to present device, at the push plate A102 In lowest limit position, the maximum radius part of the cam A114 and belt 113 inwardly, the push plate B119 and push plate C127 In most internal limit position, the block 204 offsets with 203 right end wall of the through-hole, at the motor B135 and motor A111 In stop working state.

When equipment is run, biomass solid slag mixed liquor is toppled over into the atrium B107, starts the motor A111, The driving pulley 112 is set to drive the driven pulley A115 and driven pulley B123 rotations, then the cam A114 and cam The ball A117 and ball B125 telescopic movings are periodically pushed after B122 rotations, keeps the side plate A105 and side plate B130 left Right periodicity telescopic moving, the motor B135 work make the solid axis E132 rotations, band via the transmission of the retarder 134 The dynamic babinet B106 rotations, then make the biomass solid slag mixed liquor in the atrium B107 obtain grinding and squeeze, formed Fine and close mixed liquor stops above-mentioned work structuring after completion of processing, and turning the slide bar 202 makes the block 204 slide to the left Into in the sliding chamber 201, the mixed liquor in the atrium B107 is flowed down by the through-hole 203 into container.

When equipment is run, generation centrifugal force makes larger in the atrium B107 under the rotation of the babinet B106 Biological solid slag enters abrasive areas, is ground into smaller biological solid slag and enters central area.

When needing to clean equipment, the cylinder 104 works, and drives the push plate A102 to move up, then institute Stating transmission shaft 103 drives the babinet C109 to move up, after the babinet C109 removes the atrium B107, to equipment into Row cleaning.

The beneficial effects of the invention are as follows：In the initial state due to present device, the cylinder, which is in, stops work Make state, the push plate A is in lowest limit position, the maximum radius part of the cam A and belt inwardly, the push plate B It is in most internal limit position with push plate C, the block offsets with the through-hole right end wall, and the motor B and motor A are in and stop Working condition, to be that original state facilitates repair and installation by each construction recovery of equipment.

When equipment is run, biomass solid slag mixed liquor is toppled over into the atrium B, starts the motor A, is made described Driving pulley drives the driven pulley A and driven pulley B rotations, then periodically pushes institute after the cam A and cam B rotations Ball A and ball B telescopic movings are stated, the periodical telescopic movings of described side plate A and side plate B or so, the motor B work, warp are made The solid axis E rotations are made by retarder transmission, drives the babinet B to rotate, then makes the biomass in the atrium B solid Slag mixed liquor obtains grinding and squeezes, and forms fine and close mixed liquor, stops above-mentioned work structuring after completion of processing, turn the cunning Bar makes the block be slided to the left into the sliding intracavitary, and the mixed liquor in the atrium B is flowed down by the through-hole into holding Container, to improve the fine and close working ability of equipment.

When equipment is run, centrifugal force is generated under the rotation of the babinet B keeps the larger biology in the atrium B solid Slag enters abrasive areas, is ground into smaller biological solid slag and enters central area, to improve the configuration flexibility of equipment.

When needing to clean equipment, the cylinder operation drives the push plate A to move up, then the transmission Axis drives the babinet C to move up, and after the babinet C removes the atrium B, is cleaned to equipment, to improve The servicing ease of equipment.

Present device is simple in structure, easy to use, this equipment, which is worked at the same time using grinding with extruding, realizes biomass The fine and close processing of solid slag, to realize the one of process of biomass solid fuel densification material molding technology, effectively improves The practicality andreliabiliry of equipment.

The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention It should be determined by the scope of protection defined in the claims.

Claims (5)

1. a kind of biomass solid fuel densification material molding technology, including in the babinet D, the babinet D that are fixedly arranged on ground It is provided with power cavity, is installed with motor B in the power cavity lower end wall, the output shaft of the motor B and is set to the power The reducer power of intracavitary connects, and retarder upper surface be connected by power is provided with solid axis E, and the solid axis E is rotatably worn It crosses the power cavity upper end wall and stretches out exterior space, the solid upper surfaces the axis E be connected by power is provided with babinet B, the babinet B It is inside provided with opening up atrium B, the atrium B lower end walls are provided with the opening being connected to exterior space, the case The lower faces body B, which are installed in babinet E, the babinet E, is provided with sliding chamber, be provided on the right side of the sliding chamber run through up and down and with it is described Be open opposite through-hole, and the block being slidably connected with end wall above and below the sliding chamber, the block are provided in the through-hole Left side is rotatably provided with the slide bar extended to the left, and the slide bar connect and runs through with the sliding chamber left end wall screw-thread fit The sliding chamber left end wall and stretch out exterior space, be provided with above the babinet B with the fixed babinet A of metope, in the babinet A It is provided with opening up atrium A, cylinder, the push rod of the cylinder are symmetrically set in the atrium A lower end walls Upper surface is installed with the lower faces push plate A, the push plate A and is installed with transmission shaft, and the transmission shaft slidably passes through the opening Chamber A lower end walls simultaneously extend downwardly into the atrium B, and the transmission shaft lower face is installed in babinet C, the babinet C and sets It is equipped with drive cavity, is provided in the drive cavity left hand end wall in the spring cavity A and spring cavity B, the spring cavity A of opening inwardly The slidable left sides push plate B, the push plate B that are provided with are installed with solid axis B, and the solid axis B slidably runs through the spring Chamber A left ends wall simultaneously extends to the left, and the solid left sides axis B are installed with the side being slidably connected with the atrium B lower end walls It is provided with the spring being connected with the push plate B elastic force in plate A, the spring cavity A, is slidably set in the spring cavity B It is equipped with the right sides push plate C, the push plate C and is installed with solid axis D, the solid axis D slidably runs through the spring cavity A right ends wall simultaneously Extend to the right, the solid right sides axis D are installed with the side plate B being slidably connected with the atrium B lower end walls, the spring The spring being connected with the push plate C elastic force is provided in chamber B, the right sides the push plate B are installed with connecting rod A, the company The right sides extension bar A are installed with to offset on the right side of ball A, the ball A and are provided with cam A, the cam A and are fixedly arranged on the transmission The solid axis A of cavity rear end wall is rotatably assorted connection, the cam A front end faces be installed be rotatably assorted with the solid axis A connect from The left sides movable belt pulley A, the push plate C are installed with the left sides connecting rod B, the connecting rod B and are installed with ball B, the left sides ball B Side offsets to be provided with cam B, the cam B and be rotatably assorted with the solid axis C for being fixedly arranged on the drive cavity aft bulkhead and connect, described convex Wheel B front end faces are installed with to be rotatably assorted the driven pulley B connecting with the solid axis C, and electricity is provided in the drive cavity aft bulkhead The output shaft outer surface be connected by power of machine A, the motor A are provided with driving pulley, the driving pulley by belt with it is described Driven pulley A and driven pulley B be connected by powers.

2. a kind of biomass solid fuel densification material molding technology as described in claim 1, it is characterised in that：The babinet B inner walls, the side plate A left ends wall and the side plate B right end walls, are provided with several friction balls.

3. a kind of biomass solid fuel densification material molding technology as described in claim 1, it is characterised in that：The cam The relatively large radius of A and cam B are partially toward inside.

4. a kind of biomass solid fuel densification material molding technology as described in claim 1, it is characterised in that：The block It is slided into the through-hole by the end wall up and down of the sliding chamber and is offseted with the through-hole right end wall.

5. a kind of biomass solid fuel densification material molding technology as described in claim 1, it is characterised in that：The side plate A and side plate B is arcuate structure, and the center of circle of the side plate A and side plate B are overlapped with the center of circle of the babinet B.