CN111391008A

CN111391008A - Solid fuel and processing system and processing method thereof

Info

Publication number: CN111391008A
Application number: CN202010258352.2A
Authority: CN
Inventors: 王磊
Original assignee: 王磊
Current assignee: Yangzhou Feng Feng Hi Tech Industry Investment Development Group Co Ltd
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-07-10
Anticipated expiration: 2040-04-03
Also published as: CN111391008B

Abstract

The invention relates to fuel preparation, in particular to a solid fuel and a processing system and a processing method thereof. The feeding mechanism comprises an operation table, a table plate I, round steel I, an external frame I, a tension spring, a material rack, a through opening, a middle beam, an upper triangular table, a lower triangular table, an external frame II, a carrying table and an isosceles trapezoid groove, wherein the middle beam can realize rhythmic feeding action, when moving leftwards, the external frame II is convenient to push solid fuel in the material rack to move leftwards, when the middle beam stops, the solid fuel is convenient to stop moving, then the solid fuel is processed when the middle beam stops, and the solid fuel is continuously moved after being processed, so that the cyclic reciprocation of processing and conveying is realized, and the processing efficiency is improved; when the solid fuel in the material rack stops moving, the cutter can automatically reciprocate up and down once, and the solid fuel is cut into blocks.

Description

Solid fuel and processing system and processing method thereof

Technical Field

The invention relates to fuel preparation, in particular to a solid fuel and a processing system and a processing method thereof.

Background

Solid fuels mostly contain carbon or hydrocarbons such as charcoal, coke, briquettes, etc. There are also special varieties of solid fuels, such as solid alcohol, solid rocket fuel. Compared with liquid fuel or gas fuel, the combustion of general solid fuel is difficult to control, the efficiency is lower, the ash content is more, but it can heat food, ignite honeycomb briquette, and self is also ignited conveniently, and is convenient to carry.

Part of solid fuel needs to be shaped by a grinding tool and the like and then cut into blocks during processing, and the existing processing equipment has the phenomena of low blocking efficiency, irregular section, large specification and size error of each block of solid fuel after blocking and the like.

Disclosure of Invention

The invention aims to provide a solid fuel, a processing system and a processing method thereof, which can increase the block making efficiency, make the rear end surface of the block neat and have small error on the specification and the size of each solid fuel.

The purpose of the invention is realized by the following technical scheme:

a solid fuel processing system comprises an operation table, a table plate I, round steel I, an external frame I, tension springs, a material frame, an opening, a middle beam, an upper triangular table, a lower triangular table, an external frame II, a carry table and isosceles trapezoid grooves, wherein the operation table is fixedly connected with the two table plates I, the number of the round steel I is two, two ends of each round steel I are fixedly connected to the two table plates I respectively, the external frame I is fixedly connected to the table plate I at the left end, one end of each tension spring is installed on the external frame I, the other end of each tension spring is fixedly connected to the left end of the middle beam, the upper end of the middle beam is fixedly connected to a plurality of upper triangular tables from left to right, the lower end of the middle beam is fixedly connected to a plurality of lower triangular tables from left to right, the distance between any two adjacent upper triangular tables or lower triangular tables is equal, the number and the size of the upper triangular tables are equal, the right end of each upper triangular table is connected to the left end of, the carry platform is provided with an isosceles trapezoid groove, and the carry platform moves up and down on the middle beam through the isosceles trapezoid groove to clamp the carry platform on the lower triangular platform or the upper triangular platform; the work or material rest rigid coupling is on the operation panel, and the front end of work or material rest sets up the opening, and II rigid couplings of external frame are in the left end of well roof beam, and external frame II passes the opening and is located the work or material rest.

The solid fuel processing system also comprises round steel II, compression springs, cams, a shaft I, a bedplate II and a motor, wherein the lower end of the carry platform is fixedly connected with the two round steel II, the two round steel II are respectively sleeved with one compression spring, the two round steel II are slidably connected to the operating platform, the lower ends of the two compression springs are both contacted with the upper end of the operating platform, the cams are arranged above the carry platform, the cams are fixedly connected to the shaft I, the two ends of the shaft I are respectively rotatably connected to the two bedplates II, the two bedplates II are both fixedly connected to the operating platform, the output shaft of the motor is fixedly connected with the shaft I, and the motor is fixedly connected to the bedplate II which is positioned on the same side with the motor; the cam makes the carry platform move up and down once every turn, and the carry platform moves up and down once to make the middle beam feed twice to the left.

The solid fuel processing system further comprises a disc, a shaft II, a shaft III, a table plate III, a reciprocating frame, a tool rest, a tool and a matching frame, wherein the eccentric position of the left end of the disc is fixedly connected with the shaft II, the disc is fixedly connected onto the shaft III, two sides of the shaft III are rotatably connected onto the two table plates III, the two table plates III are fixedly connected onto an operating table, the shaft II is inserted into the reciprocating frame, the reciprocating frame is fixedly connected onto the upper end of the tool rest, the tool rest is fixedly connected with the tool at the lower end of the tool rest, sliding blocks are fixedly connected to the front end and the rear end of the tool rest, the tool rest is connected into the two matching frames in a sliding mode by the two sliding blocks, the two matching frames.

This solid fuel processing system still includes band pulley I and band pulley II, I rigid coupling of band pulley is on axle I, and II rigid couplings of band pulley are on axle III, and band pulley I and band pulley II pass through drive belt transmission and connect, and the drive ratio of band pulley I and band pulley II is two to one.

The solid fuel processing system also comprises a material pushing part, wherein the material pushing part is positioned in the material rack and is fixedly connected with the left end of the external rack II.

The solid fuel processing system further comprises a motor with a band-type brake function.

The solid fuel processing system also comprises a cylindrical roller which is rotatably connected to the upper end of the carry platform, and the roller is in contact with the cam.

This solid fuel processing system still includes electric telescopic handle I, touches push pedal, electric telescopic handle II, base, I rigid coupling of electric telescopic handle is in the rear side of well roof beam right-hand member, and the push pedal is touched to electric telescopic handle I's lower extreme rigid coupling, and II rigid couplings of electric telescopic handle are on the base, and the base rigid coupling is on the operation panel, and the expansion end extension of electric telescopic handle II is used for promoting the push pedal of touching after descending and moves right.

The processing method for processing the solid fuel by adopting the solid fuel processing system comprises the following steps:

step 1: putting a section of solid fuel into a material rack;

step 2: continuously pushing a section of solid fuel to the left by using intermittent feeding of an external frame II;

and step 3: and repeatedly cutting a section of solid fuel into a plurality of small sections of solid fuel by using a knife pair.

The solid fuel processed by the solid fuel processing method is a long-strip solid fuel.

The solid fuel processing system has the beneficial effects that:

the middle beam can realize rhythmic feeding action, when moving leftwards, the external rack II is convenient to push the solid fuel in the rack to move leftwards, when the middle beam stops, the solid fuel is convenient to stop moving, then the solid fuel is processed when the solid fuel stops, and the solid fuel continues to move after being processed, so that the cyclic reciprocation of processing and conveying is realized, and the processing efficiency is improved; when the solid fuel in the material rack stops moving, the cutter can automatically reciprocate up and down once, and the solid fuel is cut into blocks.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall configuration of a solid fuel processing system of the present invention;

FIG. 2 is a partial schematic view of the first embodiment of the present invention;

FIG. 3 is a second partial schematic structural view of the present invention;

FIG. 4 is a third schematic view of a portion of the present invention;

FIG. 5 is a fourth schematic view of a portion of the present invention;

FIG. 6 is a schematic diagram of a portion of the present invention;

FIG. 7 is a schematic diagram six of a portion of the present invention;

FIG. 8 is a seventh schematic view of a portion of the present invention;

fig. 9 is a partial structural schematic view eight of the present invention.

In the figure: an operation table 1; a bedplate I101; round steel I102; an external frame I103; a tension spring 104; a material rack 2; a through opening 201; a center sill 3; an upper triangular table 301; a lower triangular table 302; an external frame II 303; a pusher section 304; an electric telescopic rod I305; a touch pad 306; a carry stage 4; an isosceles trapezoid-shaped groove 401; a cylindrical roller 402; round steel II 403; a compression spring 404; a cam 5; a shaft I501; a bedplate II 502; a motor 503; a pulley I504; a disc 6; a shaft II 601; a shaft III 602; a pulley II 603; a platen III 604; a reciprocating frame 7; a tool holder 701; a knife 702; a mating frame 703; an electric telescopic rod II 8; a base plate 801.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1-9, a solid fuel processing system comprises an operation table 1, two platens i 101, round steel i 102, an external frame i 103, two tension springs 104, a material rack 2, a through opening 201, a middle beam 3, an upper triangular table 301, a lower triangular table 302, an external frame ii 303, a carry table 4 and an isosceles trapezoid groove 401, wherein the operation table 1 is fixedly connected with the two platens i 101, the round steel i 102 is provided with two, two ends of each round steel i 102 are respectively fixedly connected with the two platens i 101, the external frame i 103 is fixedly connected with the platen i 101 at the left end, one end of each tension spring 104 is arranged on the external frame i 103, the other end of each tension spring 104 is fixedly connected with a plurality of upper triangular tables 301 arranged at the left end of the middle beam 3, the upper end of the middle beam 3 is fixedly connected with a plurality of upper triangular tables 301 from left to right, the lower end of the middle beam 3 is fixedly connected with a plurality of lower triangular tables 302 from left to right, the distance between any two adjacent, the number and the size of the upper triangular table 301 and the lower triangular table 302 are equal, the right end of each upper triangular table 301 is connected with the left end of one lower triangular table 302, an isosceles trapezoid groove 401 is arranged on the carry table 4, and the carry table 4 moves up and down on the middle beam 3 through the isosceles trapezoid groove 401 to clamp the carry table on the lower triangular table 302 or the upper triangular table 301; work or material rest 2 rigid coupling is on operation panel 1, and the front end of work or material rest 2 sets up through port 201, and II 303 rigid couplings of external frame are in the left end of well roof beam 3, and II 303 of external frame pass through port 201 and are located work or material rest 2. Referring to fig. 1, 4 and 5, in the initial state of fig. 1, the carry table 4 can move downwards on the middle beam 3 and the upper triangular table 301 at the leftmost end through the space provided by the isosceles trapezoid slot 401 until the carry table 4 does not engage with the lower triangular table 302 at the leftmost end when the end surface of the carry table 4 at the upper side of the isosceles trapezoid slot 401 engages with the upper end surface of the upper triangular table 301 at the leftmost end, the carry table 4 is not blocked by the lower triangular table 302 at this time so that the middle beam 3 moves leftwards under the tensile force of the tension spring 104, the movement distance is until the carry table 4 engages with the second upper triangular table 301 calculated from the left, similarly, the carry table 4 moves upwards at this time, after the end surface of the carry table 4 at the lower side of the isosceles trapezoid slot 401 engages with the lower end surface of the second lower triangular table 302 calculated from the left, the carry table 4 does not block the left movement from the second upper triangular table 301 calculated from the left, the moving distance is until the carry stage 4 is clamped with the third lower triangular stage 302 calculated from the left, and by analogy, the carry stage 4 is clamped with the fourth upper triangular stage 301 and then is clamped with the fifth lower triangular stage 302, and the carry stage instantaneously moves by one end distance before each clamping and stops after movement. And then can realize the rhythmic feeding action, the solid fuel in the rack 2 is conveniently pushed to move leftwards by the external rack II 303 when the middle beam 3 moves leftwards, the solid fuel is conveniently stopped when the middle beam 3 stops, then the solid fuel is processed when the solid fuel stops, and the solid fuel continues to move after the solid fuel is processed, so that the cyclic reciprocation of processing and conveying is realized, the processing efficiency is improved, the processing quality can be ensured when the solid fuel stops, for example, a cutting surface is flat when the solid fuel is cut, and the unevenness of the end surface caused by the cutting when the solid fuel moves can be avoided.

The second embodiment is as follows:

as shown in fig. 1-9, the solid fuel processing system further includes round steel ii 403, a compression spring 404, a cam 5, a shaft i 501, a platen ii 502 and a motor 503, the lower end of the carry table 4 is fixedly connected with two round steel ii 403, the two round steel ii 403 are respectively sleeved with one compression spring 404, the two round steel ii 403 are slidably connected to the operation table 1, the lower ends of the two compression springs 404 are both contacted with the upper end of the operation table 1, the cam 5 is arranged above the carry table 4, the cam 5 is fixedly connected to the shaft i 501, the two ends of the shaft i 501 are respectively rotatably connected to the two platens ii 502, the two platens ii 502 are both fixedly connected to the operation table 1, the output shaft of the motor 503 is fixedly connected to the shaft i 501, and the motor 503 is fixedly connected to the platen ii 502 located on the same side with the motor 503; the cam 5 makes the carry table 4 move up and down once every time the cam rotates one circle, and the carry table 4 moves up and down once to make the middle beam 3 feed twice to the left. Starting the motor 503, the output shaft of the motor 503 drives the shaft i 501 to rotate, the shaft i 501 drives the cam 5 to rotate, referring to fig. 1, in the initial state of fig. 1, the cam 5 rotates 180 degrees and then the carry table 4 moves downward once, then the cam 5 continues to rotate 180 degrees, the carry table 4 is reset through the compression spring 404, and therefore the cam 5 is used for enabling the carry table 4 to move up and down in a fully automatic and reciprocating manner.

The third concrete implementation mode:

as shown in fig. 1-9, the solid fuel processing system further includes a disk 6, a shaft ii 601, a shaft iii 602, platens iii 604, a reciprocating frame 7, a tool rest 701, a tool 702, and a matching frame 703, the eccentric position of the left end of the disk 6 is fixedly connected to the shaft ii 601, the disk 6 is fixedly connected to the shaft iii 602, two sides of the shaft iii 602 are rotatably connected to the two platens iii 604, the two platens iii 604 are fixedly connected to the operating table 1, the shaft ii 601 is inserted into the reciprocating frame 7, the reciprocating frame 7 is fixedly connected to the upper end of the tool rest 701, the lower end of the tool rest 701 is fixedly connected to the tool 702, the front end and the rear end of the tool rest 701 are both fixedly connected to sliders, the tool rest 701 is slidably connected to the two matching frames 703 by using the two sliders, the two matching frames 703 are fixedly connected to the operating table 1, and the tool 702. When the solid fuel in the rack 2 stops moving, the knife 702 reciprocates up and down once, the solid fuel is cut into blocks, and the number of the solid fuel blocks is increased by one when the knife 702 reciprocates up and down once.

The fourth concrete implementation mode:

as shown in fig. 1-9, the solid fuel processing system further includes a pulley i 504 and a pulley ii 603, wherein the pulley i 504 is fixedly connected to the shaft i 501, the pulley ii 603 is fixedly connected to the shaft iii 602, the pulley i 504 and the pulley ii 603 are in transmission connection through a transmission belt, and the transmission ratio of the pulley i 504 to the pulley ii 603 is two to one. Referring to fig. 1, in the initial state of fig. 1, when the pulley i 504 rotates for 180 degrees every half turn, the cam 5 rotates for 180 degrees, the pulley ii 603 rotates for 360 degrees, the pulley ii 603 drives the shaft iii 602 to rotate for 360 degrees, the disc 6 rotates for 360 degrees, the shaft ii 601 drives the reciprocating frame 7 to reciprocate up and down once, and further the knife 702 reciprocates up and down once, the linkage mode causes the solid fuel to be pushed leftward and then to stop moving after exposing a distance from one end of the left end of the rack 2, the knife 702 only reciprocates up and down once, the principle is that when the carry table 4 moves to the lowest position or the highest position, the middle beam 3 only moves leftward under the pulling force of the tension spring 104, and the carry table 4 keeps being clamped with the upper triangular table 301 or the lower triangular table 302 during the movement to stop the middle beam 3, so as to cooperate with the cutting of the knife 702 to make the end face of the solid fuel cut more flat.

The fifth concrete implementation mode:

as shown in fig. 1 to 9, the solid fuel processing system further includes a material pushing portion 304, wherein the material pushing portion 304 is located in the material rack 2 and is fixedly connected to the left end of the external rack ii 303. The left end face of the pushing part 304 should be polished to avoid adhering to the solid fuel. Referring to fig. 1, a platform may be disposed at the left end of the rack 2, and the platform does not affect the descending of the knife 702, but can support the solid fuel protruding out of the left end of the rack 2, so that the solid fuel is more stable when being cut, and the cut block may be left on the platform and will not fall down, thereby facilitating other processing or recycling.

The sixth specific implementation mode:

as shown in fig. 1 to 9, the solid fuel processing system further includes that the motor 503 is provided with a band-type brake function.

The seventh embodiment:

as shown in fig. 1 to 9, the solid fuel processing system further includes a cylindrical roller 402, the cylindrical roller 402 being rotatably coupled to an upper end of the carry stage 4, the roller 402 being held in contact with the cam 5.

The specific implementation mode is eight:

as shown in fig. 1-9, this solid fuel processing system still includes electric telescopic handle I305, touches push pedal 306, electric telescopic handle II 8, base 801, the rear side of electric telescopic handle I305 rigid coupling at the 3 right-hand members of centre sill, the lower extreme rigid coupling of electric telescopic handle I305 touches push pedal 306, and electric telescopic handle II 8 rigid coupling is on base 801, and base 801 rigid coupling is on operation panel 1, and the expansion end extension of electric telescopic handle II 8 is used for promoting the push pedal 306 that touches after descending and moves to the right. After solid fuel in work or material rest 2 is accomplished by whole propelling movement cutting, drive through electric telescopic handle I305 and touch push pedal 306 and descend, utilize the expansion end of electric telescopic handle II 8 to move right and promote to touch push pedal 306 and move right, and then touch push pedal 306 and make well 3 move right and reset.

The specific implementation method nine:

as shown in fig. 1 to 9, a processing method for processing a solid fuel using the above solid fuel processing system, the processing method comprising the steps of:

step 1: putting a section of solid fuel into the material rack 2;

step 2: continuously pushing a section of solid fuel to the left by using intermittent feeding of an external frame II 303;

and step 3: a length of solid fuel is repeatedly cut into multiple small pieces of solid fuel using a knife 702.

The detailed implementation mode is ten:

as shown in fig. 1-9, the solid fuel is an elongated solid fuel.

The invention relates to a solid fuel processing system, which has the working principle that:

referring to fig. 1, 4 and 5, in the initial state of fig. 1, the carry table 4 can move downwards on the middle beam 3 and the upper triangular table 301 at the leftmost end through the space provided by the isosceles trapezoid slot 401 until the carry table 4 does not engage with the lower triangular table 302 at the leftmost end when the end surface of the carry table 4 at the upper side of the isosceles trapezoid slot 401 engages with the upper end surface of the upper triangular table 301 at the leftmost end, the carry table 4 is not blocked by the lower triangular table 302 at this time so that the middle beam 3 moves leftwards under the tensile force of the tension spring 104, the movement distance is until the carry table 4 engages with the second upper triangular table 301 calculated from the left, similarly, the carry table 4 moves upwards at this time, after the end surface of the carry table 4 at the lower side of the isosceles trapezoid slot 401 engages with the lower end surface of the second lower triangular table 302 calculated from the left, the carry table 4 does not block the left movement from the second upper triangular table 301 calculated from the left, the moving distance is until the carry stage 4 is clamped with the third lower triangular stage 302 calculated from the left, and by analogy, the carry stage 4 is clamped with the fourth upper triangular stage 301 and then is clamped with the fifth lower triangular stage 302, and the carry stage instantaneously moves by one end distance before each clamping and stops after movement. And then can realize the rhythmic feeding action, the solid fuel in the rack 2 is conveniently pushed to move leftwards by the external rack II 303 when the middle beam 3 moves leftwards, the solid fuel is conveniently stopped when the middle beam 3 stops, then the solid fuel is processed when the solid fuel stops, and the solid fuel continues to move after the solid fuel is processed, so that the cyclic reciprocation of processing and conveying is realized, the processing efficiency is improved, the processing quality can be ensured when the solid fuel stops, for example, a cutting surface is flat when the solid fuel is cut, and the unevenness of the end surface caused by the cutting when the solid fuel moves can be avoided. Starting the motor 503, the output shaft of the motor 503 drives the shaft i 501 to rotate, the shaft i 501 drives the cam 5 to rotate, referring to fig. 1, in the initial state of fig. 1, the cam 5 rotates 180 degrees and then the carry table 4 moves downward once, then the cam 5 continues to rotate 180 degrees, the carry table 4 is reset through the compression spring 404, and therefore the cam 5 is used for enabling the carry table 4 to move up and down in a fully automatic and reciprocating manner. When the solid fuel in the rack 2 stops moving, the knife 702 reciprocates up and down once, the solid fuel is cut into blocks, and the number of the solid fuel blocks is increased by one when the knife 702 reciprocates up and down once. Referring to fig. 1, in the initial state of fig. 1, when the pulley i 504 rotates for 180 degrees every half turn, the cam 5 rotates for 180 degrees, the pulley ii 603 rotates for 360 degrees, the pulley ii 603 drives the shaft iii 602 to rotate for 360 degrees, the disc 6 rotates for 360 degrees, the shaft ii 601 drives the reciprocating frame 7 to reciprocate up and down once, and further the knife 702 reciprocates up and down once, the linkage mode causes the solid fuel to be pushed leftward and then to stop moving after exposing a distance from one end of the left end of the rack 2, the knife 702 only reciprocates up and down once, the principle is that when the carry table 4 moves to the lowest position or the highest position, the middle beam 3 only moves leftward under the pulling force of the tension spring 104, and the carry table 4 keeps being clamped with the upper triangular table 301 or the lower triangular table 302 during the movement to stop the middle beam 3, so as to cooperate with the cutting of the knife 702 to make the end face of the solid fuel cut more flat. The left end face of the pushing part 304 should be polished to avoid adhering to the solid fuel. Referring to fig. 1, a platform may be disposed at the left end of the rack 2, and the platform does not affect the descending of the knife 702, but can support the solid fuel protruding out of the left end of the rack 2, so that the solid fuel is more stable when being cut, and the cut block may be left on the platform and will not fall down, thereby facilitating other processing or recycling. After solid fuel in work or material rest 2 is accomplished by whole propelling movement cutting, drive through electric telescopic handle I305 and touch push pedal 306 and descend, utilize the expansion end of electric telescopic handle II 8 to move right and promote to touch push pedal 306 and move right, and then touch push pedal 306 and make well 3 move right and reset.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a solid fuel system of processing, includes operation panel (1), platen I (101), round steel I (102), external frame I (103), extension spring (104), work or material rest (2), opening (201), well roof beam (3), goes up triangular platform (301), lower triangular platform (302), external frame II (303), carry platform (4) and isosceles trapezoid groove (401), its characterized in that: the operating table (1) is fixedly connected with two table plates I (101), the round steel I (102) is provided with two round steel I (102), two ends of each round steel I (102) are fixedly connected to the two table plates I (101) respectively, the external frame I (103) is fixedly connected to the table plate I (101) positioned at the left end, one end of a tension spring (104) is installed on the external frame I (103), the other end of the tension spring (104) is installed at the left end of the middle beam (3), the upper end of the middle beam (3) is fixedly connected with a plurality of upper triangular tables (301) from left to right, the lower end of the middle beam (3) is fixedly connected with a plurality of lower triangular tables (302) from left to right, the distance between any two adjacent upper triangular tables (301) or lower triangular tables (302) is equal, the number and the size of the upper triangular tables (301) and the lower triangular tables (302) are equal, the right end of each upper triangular table (301) is connected with the left end of one lower triangular table (302), and the isosceles trapezoid-shaped groove (401) is arranged on, the carry platform (4) moves up and down on the middle beam (3) through the isosceles trapezoid-shaped groove (401) to clamp the carry platform on the lower triangular platform (302) or the upper triangular platform (301); work or material rest (2) rigid coupling is on operation panel (1), and the front end of work or material rest (2) sets up opening (201), and external II (303) rigid couplings of putting up are in the left end of well roof beam (3), and external II (303) of putting up pass opening (201) and lie in work or material rest (2).

2. The solid fuel processing system of claim 1, wherein: the solid fuel processing system also comprises round steel II (403), a compression spring (404), a cam (5), a shaft I (501), a bedplate II (502) and a motor (503), the lower end of the carry table (4) is fixedly connected with two round steel II (403), the two round steel II (403) are respectively sleeved with a compression spring (404), the two round steel II (403) are connected to the operating table (1) in a sliding mode, the lower ends of the two compression springs (404) are respectively contacted with the upper end of the operating table (1), the cam (5) is arranged above the carry table (4), the cam (5) is fixedly connected to the shaft I (501), the two ends of the shaft I (501) are respectively and rotatably connected to the two bedplate II (502), the two bedplate II (502) are respectively and fixedly connected to the operating table (1), the output shaft of the motor (503) is fixedly connected with the shaft I (501), and the motor (503) is fixedly connected to the bedplate II (502) which is located on the same side with the motor; the cam (5) moves the carry table (4) up and down once every time the cam rotates one circle, and the carry table (4) moves up and down once to enable the middle beam (3) to do feeding motion twice leftwards.

3. The solid fuel processing system of claim 2, wherein: the solid fuel processing system also comprises a disc (6), a shaft II (601), a shaft III (602), a bedplate III (604), a reciprocating frame (7), a tool rest (701), a tool (702) and a matching frame (703), the eccentric position department rigid coupling axle II (601) of disc (6) left end, disc (6) rigid coupling is on axle III (602), the both sides of axle III (602) rotate and connect on two platen III (604), two platen III (604) rigid couplings are on operation panel (1), axle II (601) insert in reciprocating frame (7), reciprocating frame (7) rigid coupling is in the upper end of knife rest (701), the lower extreme rigid coupling sword (702) of knife rest (701), both ends all rigid coupling sliders in the front and back of knife rest (701), knife rest (701) utilize two slider sliding connection in two cooperation frames (703), two cooperation frames (703) rigid coupling are on operation panel (1), sword (702) set up the top in work or material rest (2) left end.

4. The solid fuel processing system of claim 3, wherein: the solid fuel processing system further comprises a belt wheel I (504) and a belt wheel II (603), wherein the belt wheel I (504) is fixedly connected to the shaft I (501), the belt wheel II (603) is fixedly connected to the shaft III (602), the belt wheel I (504) and the belt wheel II (603) are in transmission connection through a transmission belt, and the transmission ratio of the belt wheel I (504) to the belt wheel II (603) is two-to-one.

5. The solid fuel processing system of claim 1, wherein: the solid fuel processing system also comprises a material pushing part (304), wherein the material pushing part (304) is positioned in the material rack (2) and is fixedly connected with the left end of the external rack II (303).

6. The solid fuel processing system of claim 1, wherein: the solid fuel processing system also comprises a motor (503) with a band-type brake function.

7. The solid fuel processing system of claim 2, wherein: the solid fuel processing system also comprises a cylindrical roller (402), wherein the cylindrical roller (402) is rotatably connected to the upper end of the carry platform (4), and the roller (402) is kept in contact with the cam (5).

8. The solid fuel processing system of claim 4, wherein: this solid fuel processing system still includes electric telescopic handle I (305), touches push pedal (306), electric telescopic handle II (8), base (801), electric telescopic handle I (305) rigid coupling is in the rear side of well roof beam (3) right-hand member, and the lower extreme rigid coupling of electric telescopic handle I (305) touches push pedal (306), and electric telescopic handle II (8) rigid coupling is on base (801), and base (801) rigid coupling is on operation panel (1), and the expansion end extension of electric telescopic handle II (8) is used for promoting the push pedal (306) that touches after descending and moves right.

9. A method of processing solid fuel using the solid fuel processing system of claim 8, wherein the method of processing comprises the steps of:

step 1: putting a section of solid fuel into the material rack (2);

step 2: continuously pushing a section of solid fuel to the left by using intermittent feeding of an external frame II (303);

and step 3: a section of solid fuel is repeatedly cut into a plurality of small sections of solid fuel by a knife (702).

10. A solid fuel processed by the solid fuel processing method of claim 9, characterized in that: the solid fuel is a long strip solid fuel.