CN113070970B

CN113070970B - Green energy machine-made charcoal forming device

Info

Publication number: CN113070970B
Application number: CN202110254166.6A
Authority: CN
Inventors: 陈斌
Original assignee: Guizhou Linsheng Wood Industry Co ltd
Current assignee: Guizhou Linsheng Wood Industry Co ltd
Priority date: 2021-03-09
Filing date: 2021-03-09
Publication date: 2022-10-28
Anticipated expiration: 2041-03-09
Also published as: CN113070970A

Abstract

The invention discloses a green energy mechanical charcoal forming device. The technical problem of the invention is that: provides a green energy machine-made charcoal forming device which can automatically add raw materials and can be conveniently manufactured. The utility model provides a green energy mechanism charcoal forming device, is including mounting panel, landing leg, fixed plate, unloading mechanism and forming mechanism, and the bottom rigid coupling of mounting panel has four landing legs, and top one side of mounting panel is connected with the fixed plate, installs unloading mechanism on the fixed plate, is provided with forming mechanism between mounting panel and the unloading mechanism. The automatic feeding device can complete automatic feeding of raw materials through the feeding mechanism, and can conveniently process and manufacture the machine-made charcoal through the forming mechanism.

Description

Green energy machine-made charcoal forming device

Technical Field

The invention relates to a forming device, in particular to a green energy mechanism charcoal forming device.

Background

The machine-made charcoal, as its name suggests, is also called artificial charcoal, regenerated charcoal and smokeless clean charcoal, and is a carbon rod-like object made by extruding wood particles. The raw materials of the charcoal are wide in source, rice hulls, peanut shells, cotton shells, corncobs, cornstalks, sorghum stalks and the like can be used as raw materials to produce the charcoal, and sawdust, wood shavings and bamboo chips are the best; it has high density, high heat value, no smoke, smell, pollution, explosion and inflammability, and is a green and environment-friendly product accepted internationally.

Before the preparation of mechanism charcoal, mix multiple standard raw and other materials usually to put into the make-up machine and carry out the machine-shaping, and current equipment mostly is that the workman adds the raw materials, carries out the machine-shaping to mechanism charcoal through equipment afterwards, and the mechanism charcoal that the preparation was accomplished is great, when carrying out follow-up carbonization, needs to cut off the mechanism charcoal, and current mode of cutting off leads to the cut surface untidy easily, so can influence follow-up carbonization.

Aiming at the defects of the prior art, a green energy machine-made charcoal forming device which can automatically add raw materials and can be conveniently manufactured is developed.

Disclosure of Invention

In order to overcome the defects that the conventional equipment is mostly added with raw materials by workers, and the conventional cutting mode easily causes irregular cut surfaces, so that the subsequent carbonization treatment is influenced, the invention has the technical problems that: provides a green energy machine-made charcoal forming device which can automatically add raw materials and can be conveniently manufactured.

The utility model provides a green energy mechanism charcoal forming device, is including mounting panel, landing leg, fixed plate, unloading mechanism and forming mechanism, and the bottom rigid coupling of mounting panel has four landing legs, and top one side of mounting panel is connected with the fixed plate, installs unloading mechanism on the fixed plate, is provided with forming mechanism between mounting panel and the unloading mechanism.

Optionally, the blanking mechanism comprises a mounting frame, a blanking hopper, first slide bars, a baffle plate, a first spring and a discharging box, the mounting frame is connected to the side wall of the fixing plate, the blanking hopper is arranged on the mounting frame, the fixing plate on the upper side of the mounting frame is provided with the two first slide bars in a sliding mode, the baffle plate is fixedly connected between the two first slide bars, the two first springs are connected between the baffle plate and the fixing plate, the two first springs are respectively wound on the corresponding first slide bars, the baffle plate and the blanking hopper are arranged in a sliding mode, and the discharging box is arranged on the lower portion of the blanking hopper.

Optionally, the forming mechanism is including the support, the cylinder, the guide arm, the connecting plate, the holding down plate, promote the piece, the extrusion frame, the second spring, first wedge, the rack, the second wedge, the link, a support frame, the shaping frame, wedge and spacing part, the one side of fixed plate is kept away from on the mounting panel to the leg joint, the cylinder is installed at the top of support, the lower extreme of cylinder telescopic link passes the support, the guide arm is all installed at the support internal top of cylinder both sides, the slidingtype is provided with the connecting plate between two guide arms, the connecting plate is with the telescopic link lower extreme rigid coupling of cylinder, the bottom rigid coupling of connecting plate has five holding down plates, the bottom rigid coupling of holding down plate has the promotion piece, the gliding type is equipped with the extrusion frame on the promotion piece, the rigid coupling has the second spring between two corresponding extrusion frames and the promotion piece, the rigid coupling has two first wedge on the lateral wall of connecting plate, the rigid coupling has the rack on the connecting plate, the rigid coupling has the second wedge on another lateral wall of connecting plate, second wedge cooperates with the mounting bracket with the slidingtype, be provided with the link on the fixed plate of downside, install the support frame, be equipped with the shaping frame on the link, be provided with wedge, be close to wedge and one side of wedge respectively, wedge and the wedge and spacing part.

Optionally, the limiting component includes a first rotating shaft, a one-way bearing, a spur gear, a baffle, a second slide bar, a third wedge-shaped plate and a third spring, the first rotating shaft is rotatably connected to one side, close to the wedge-shaped strip, of the lower portion in the bracket, the one-way bearing is fixedly connected to the first rotating shaft, the spur gear is installed on the one-way bearing, the spur gear is matched with the rack, the baffle is fixedly connected to one side, close to the one-way bearing, of the first rotating shaft, a plurality of second slide bars are slidably arranged on the baffle, a third wedge-shaped plate is fixedly connected between all the second slide bars, the third wedge-shaped plate is respectively matched with the first wedge-shaped plates and the wedge-shaped strips on two sides, a plurality of third springs are fixedly connected between the third wedge-shaped plate and the baffle, and the third springs are respectively wound on the corresponding second slide bars.

Optionally, the feeding device further comprises a sliding frame, a stirring rod, a first belt wheel, a first belt, a second belt wheel, an extension plate, an L-shaped plate, a second rotating shaft, a third belt wheel, a second belt, a first bevel gear, a third rotating shaft, a second bevel gear and a speed reduction motor, wherein the sliding frame is installed at the top of the feeding hopper, two stirring rods are installed on the sliding frame in a rotating mode, the first belt wheel is fixedly connected to the stirring rods, the first belt wheel is wound between the two first belt wheels, the second belt wheel is installed on the stirring rod on the upper side of the first belt wheel on one side, the extension plate is fixedly connected to the side wall in the support on the inner side of the support, the L-shaped plate is installed on the side wall in the support on the lower side of the extension plate, the second rotating shaft is rotatably installed between the L-shaped plate and the extension plate, the third belt wheel is connected to the upper end of the second rotating shaft, the second bevel gear is meshed with the first bevel gear, the second belt wheel is installed on the support on the lower side of the L-shaped plate, the output shaft of the speed reduction motor is fixedly connected with the output shaft of the third speed reduction motor.

Optionally, the touch panel further comprises a contact plate, a first fixing frame, a fourth rotating shaft, a first knocking block, a first torsion spring and a first contact block, the contact plate is installed at the other end of the third rotating shaft, two first fixing frames are fixedly connected to a fixing plate on the lower side of the mounting frame, the fourth rotating shaft is installed between the two first fixing frames in a rotating mode, five first knocking blocks are installed on the fourth rotating shaft, the first torsion spring is sleeved on the fourth rotating shaft on the inner side of the first fixing frame, one end of the first torsion spring is connected with the first fixing frame, the other end of the first torsion spring is fixedly connected with the fourth rotating shaft, the first contact block is fixedly connected to one end of the fourth rotating shaft, and the first contact block is matched with the contact plate.

Optionally, the device further comprises a second fixing frame, a fifth rotating shaft, a second knocking block, a second torsion spring and a second contact block, wherein the two second fixing frames are fixedly connected to the side wall of the forming frame, the fifth rotating shaft is rotatably installed between the two second fixing frames, the five second knocking blocks are installed on the fifth rotating shaft, the second torsion spring is sleeved on the fifth rotating shaft on the inner side of the second fixing frame, one end of the second torsion spring is connected with the second fixing frame, the other end of the second torsion spring is fixedly connected with the fifth rotating shaft, the second contact block is fixedly connected to one end of the fifth rotating shaft, and the second contact block is matched with the contact plate.

Optionally, the collecting box is fixed to one side, close to the connecting frame, of the mounting plate, the two arc-shaped rods are arranged on the inner side wall of the collecting box in a sliding mode, the buffer plate is fixedly connected between the upper ends of the two arc-shaped rods, the two fourth springs are fixedly connected between the buffer plate and the collecting box, and the two fourth springs are respectively wound on the corresponding arc-shaped rods.

Optionally, the buffer plate is made of a soft material.

The beneficial effects are that:

1. the automatic feeding device can complete automatic feeding of raw materials through the feeding mechanism, and can conveniently process and manufacture machine-made charcoal through the forming mechanism;

2. the materials in the blanking hopper can be stirred by clockwise rotation of the front stirring rod and the rear stirring rod, and massive materials can be scattered, so that the blanking hopper can be prevented from being blocked by the materials, and the machine-made charcoal manufacturing is prevented from being hindered;

3. the discharging box can be knocked by the first knocking block swinging leftwards continuously, so that the discharging box can be prevented from being blocked by materials, and inconvenience is caused to the blanking of machine-made charcoal materials;

4. the second beating block continuously swings rightwards to beat the forming frame, so that the forming frame can be prevented from being blocked by materials and the filling of the machine-made carbon materials is prevented from being hindered;

5. can cushion the mechanism charcoal through the buffer board dropping down, so can conveniently collect the mechanism charcoal.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 3 is a schematic perspective view of the forming mechanism of the present invention.

Fig. 4 is a schematic perspective view of a second wedge plate according to the present invention.

Fig. 5 is a schematic perspective view of the lower platen of the present invention.

Fig. 6 is a schematic perspective view of the forming frame of the present invention.

Fig. 7 is a schematic perspective view of the baffle of the present invention.

Fig. 8 is a perspective view of a portion of the present invention.

Fig. 9 is a schematic perspective view of a fourth rotating shaft according to the present invention.

Fig. 10 is a schematic perspective view of a fifth rotating shaft according to the present invention.

Fig. 11 is a schematic view of a partially cut-away perspective structure of the present invention.

Reference numbers in the drawings: 1: mounting plate, 2: leg, 3: fixing plate, 4: unloading mechanism, 401: mounting frame, 402: hopper, 403: first slide bar, 404: striker plate, 405: first spring, 406: go out the workbin, 5: molding mechanism, 501: a stent, 502: cylinder, 503: guide rod, 504: connection plate, 505: lower press plate, 506: push block, 507: extrusion frame, 508: second spring, 509: first wedge plate, 510: rack, 511: second wedge plate, 512: connecting frame, 513: support frame, 514: forming frame, 515: wedge bar, 516: first rotating shaft, 517: one-way bearing, 518: spur gear, 519: baffle, 520: second slide bar, 521: third wedge plate, 522: third spring, 6: sliding frame, 7: puddler, 8: first pulley, 9: first belt, 10: second pulley, 11: a support plate, 12: l-shaped plate, 13: second rotating shaft, 14: third pulley, 15: second belt, 16: first bevel gear, 17: third shaft, 18: second bevel gear, 19: gear motor, 20: contact plate, 21: first mount, 22: fourth rotation shaft, 23: first knock block, 24: first torsion spring, 25: first contact block, 26: second mount, 27: fifth rotating shaft, 28: second knock block, 29: second torsion spring, 30: second contact block, 31: collection box, 32: arc-shaped rod, 33: buffer plate, 34: and a fourth spring.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

The utility model provides a green energy mechanism charcoal forming device, as shown in figure 1, including mounting panel 1, landing leg 2, fixed plate 3, unloading mechanism 4 and forming mechanism 5, the bottom rigid coupling of mounting panel 1 has four landing legs 2, and the top right side of mounting panel 1 is connected with fixed plate 3, and unloading mechanism 4 is installed on the upper portion of fixed plate 3, is provided with forming mechanism 5 between mounting panel 1 and the unloading mechanism 4.

When machining machine-made charcoal needs to be carried out, a user pours materials into the blanking mechanism 4, the materials in the blanking mechanism 4 fall into the forming mechanism 5, after a proper amount of materials fall into the forming mechanism 5, the user starts the forming mechanism 5 to work, the forming mechanism 5 works to manufacture the materials into the machine-made charcoal, and then the user takes out the manufactured machine-made charcoal.

As shown in fig. 2, the blanking mechanism 4 includes a mounting frame 401, a blanking hopper 402, first slide rods 403, a striker plate 404, first springs 405 and a blanking box 406, the mounting frame 401 is connected to the upper portion of the left side wall of the fixed plate 3, the blanking hopper 402 is arranged on the mounting frame 401, two first slide rods 403 are slidably arranged on the fixed plate 3 on the upper side of the mounting frame 401, the striker plate 404 is fixedly connected between the right ends of the front and rear first slide rods 403, two first springs 405 are connected between the striker plate 404 and the fixed plate 3, the front and rear first springs 405 are respectively wound on the corresponding first slide rods 403, the striker plate 404 and the blanking hopper 402 are slidably arranged, and the blanking box 406 is arranged on the lower portion of the blanking hopper 402.

Initially, the first spring 405 is in a compressed state, when machined carbon needs to be machined, a user pours materials into the lower hopper 402, the materials in the lower hopper 402 fall into the discharge box 406 downwards, the materials in the discharge box 406 slide into the forming mechanism 5 leftwards, and then the user repeats the operations to manufacture the machined carbon, the forming mechanism 5 can relieve the limit of the baffle 404 during working, the baffle 404 can move leftwards under the action of the elastic force of the first spring 405, the baffle 404 can move leftwards to block the materials in the lower hopper 402, so that the materials can be prevented from continuously falling downwards to obstruct the manufacture of the machined carbon, after the forming mechanism 5 is reset, the baffle 404 can move rightwards to open the lower hopper 402, and the first spring 405 is compressed therewith, so that the next machined carbon can be conveniently manufactured.

Example 2

On the basis of embodiment 1, as shown in fig. 3, 4, 5, 6 and 7, the forming mechanism 5 includes a bracket 501, a cylinder 502, a guide rod 503, a connecting plate 504, a lower pressing plate 505, a pushing block 506, a squeezing frame 507, a second spring 508, a first wedge-shaped plate 509, a rack 510, a second wedge-shaped plate 511, a connecting frame 512, a supporting frame 513, a forming frame 514, a wedge-shaped bar 515 and a limiting component, the bracket 501 is connected to the top of the mounting plate 1 on the left side of the fixing plate 3, the cylinder 502 is installed in the middle of the top of the bracket 501, the lower end of the telescopic rod of the cylinder 502 passes through the bracket 501, the guide rods 503 are installed on the top of the bracket 501 on the front and rear sides of the cylinder 502, the connecting plate 504 is slidably disposed between the front and rear guide rods 503, the connecting plate 504 is fixedly connected to the lower end of the telescopic rod of the cylinder 502, five lower pressing plates 505 are fixedly connected to the bottom of the lower pressing plate 505, the pushing block 506 is fixedly connected to the bottom of the lower pressing plate 505, promote the piece 506 and go up the gliding style and be equipped with extrusion frame 507, the rigid coupling has second spring 508 between two upper and lower corresponding extrusion frames 507 and the promotion piece 506, the equal rigid coupling in both sides has first wedge plate 509 around the left side wall of connecting plate 504, the rigid coupling has rack 510 on the preceding lateral wall of connecting plate 504, the right side wall rear portion rigid coupling of connecting plate 504 has second wedge plate 511, second wedge plate 511 and striker plate 404 sliding type cooperation, be provided with link 512 on the fixed plate 3 left side wall of mounting bracket 401 downside, install support frame 513 on link 513, be provided with shaping frame 514 on the left side wall of support frame 513, shaping frame 514 is located under extrusion frame 507, the lower part rigid coupling in the support 501 has wedge strip 515, the lower part in the support 501 on wedge strip 515 right side is provided with stop block, stop block cooperates with first wedge plate 509 and wedge strip 515 in both sides around with respectively.

The material in the discharging box 406 slides leftwards to fall on the supporting frame 513, the material on the supporting frame 513 slides leftwards to enter the forming frame 514, when a proper amount of material is in the forming frame 514, a user starts the air cylinder 502 to enable the connecting plate 504 to move downwards, the connecting plate 504 moves downwards to enable the lower pressing plate 505 to move downwards, the lower pressing plate 505 moves downwards to enable the pushing block 506 to move downwards, the pushing block 506 moves downwards to enable the pushing frame 507 to move downwards through the second spring 508, the pushing frame 507 moves downwards to enable the material in the forming frame 514 to be made into machine-made charcoal, meanwhile, the second spring 508 is compressed, the connecting plate 504 moves downwards to enable the first wedge-shaped plate 509, the second wedge-shaped plate 511 and the rack 510 to move downwards, the second wedge-shaped plate 511 moves downwards to be far away from the striker plate 404, the lower pressing plate 404 moves leftwards to shield the lower hopper 402 under the action of the first wedge-shaped plate 509, the pressing limiting component is moved downwards to be far away from the wedge-shaped plate 515, the lower side of the striker plate is opened under the action of gravity, the second spring 405, the lower pressing limiting component is moved upwards to be reset to be matched with the lower hopper 402, and the striker plate 510, and the hopper can be reset, the hopper 402, and the hopper can be reset by the forming frame 510, and reset spring, and reset by the hopper, and the hopper 402, and the hopper can be reset spring, and the hopper can be reset by the hopper 402, and reset spring, and reset by the hopper, and reset spring, the hopper can be reset by the hopper, and reset spring 510, and reset spring, the hopper can be reset spring, and reset by the hopper, and the hopper, so that the hopper can be reset.

As shown in fig. 6 and 7, the limiting component includes a first rotating shaft 516, a one-way bearing 517, a spur gear 518, a baffle 519, a second sliding rod 520, a third wedge-shaped plate 521 and a third spring 522, the first rotating shaft 516 is rotatably connected to the lower portion of the inside of the bracket 501, the first rotating shaft 516 is located on the right side of the wedge-shaped strip 515, the one-way bearing 517 is fixedly connected to the front side of the first rotating shaft 516, the spur gear 518 is mounted on the one-way bearing 517, the spur gear 518 is matched with the rack 510, the baffle 519 is fixedly connected to the first rotating shaft 516 on the rear side of the one-way bearing 517, at least three second sliding rods 520 are slidably arranged on the left side wall of the baffle 519, the third wedge-shaped plate 521 is fixedly connected between the left ends of all the second sliding rods 520, the third wedge-shaped plate 521 is respectively matched with the first wedge-shaped plate 509 and the wedge-shaped strip 515 on the front and the rear sides, at least three third springs 522 are fixedly connected between the third wedge-shaped plate 521 and the baffle 519, and all the third springs 522 are respectively wound on the corresponding second sliding rods 520.

The rack 510 moves downwards to enable the spur gear 518 to rotate anticlockwise, the spur gear 518 rotates anticlockwise to enable the one-way bearing 517 to idle, the second wedge plate 511 moves downwards to enable the third wedge plate 521 to press the third wedge plate 521, the second wedge plate 511 continues to move downwards, so that the third wedge plate 521 can move rightwards, the third spring 522 is compressed along with the third wedge plate, meanwhile, the baffle 519 can swing downwards under the action of gravity to open the discharge port of the forming frame 514, the pressing frame 507 can push out the manufactured charcoal under the action of the second spring 508, meanwhile, a user collects the pushed-out manufactured charcoal, the rack 510 moves upwards to enable the spur gear 518 to rotate clockwise, the first spur gear rotates clockwise through the one-way bearing 517 to enable the first rotating shaft 516 to rotate clockwise, the baffle 519 rotates clockwise to enable the third wedge plate 521 to swing upwards, the third wedge plate 521 swings upwards to swing along with the third wedge plate 518 to contact with the third wedge plate 521, the third wedge plate 521 continues to swing upwards, so that the third wedge plate 521 can move rightwards, the third wedge plate 522 moves upwards to enable the third wedge plate 515 to compress the third wedge plate 515, and the third wedge plate 521 can return to act on the upper side through the baffle plate 515.

Example 3

In addition to embodiment 2, as shown in fig. 3 and 8, the present invention further includes a sliding frame 6, a stirring rod 7, first pulleys 8, first belts 9, second pulleys 10, support plates 11, L-shaped plates 12, second rotating shafts 13, third pulleys 14, second belts 15, first bevel gears 16, third rotating shafts 17, second bevel gears 18, and a speed reduction motor 19, the sliding frame 6 is installed on the top of the lower hopper 402, the stirring rods 7 are rotatably installed on both front and rear sides of the sliding frame 6, the first pulleys 8 are fixedly connected to the upper portions of the stirring rods 7, the first belts 9 are wound between the front and rear first pulleys 8, the second pulleys 10 are installed on the stirring rods 7 on the upper sides of the front first pulleys 8, the support plates 11 are fixedly connected to the upper portions of the front side walls in the supporting frame 501, the L-shaped plates 12 are installed on the side walls in the supporting frame 501 on the lower sides of the support plates 11, the second rotating shafts 13 are rotatably installed between the L-shaped plates 12 and the support plates 11, the upper ends of the second rotating shafts 13 are connected to the third rotating shafts 14, the second pulleys 14 and the second pulleys 14 are fixedly connected to the upper portions of the second pulleys 12, the lower ends of the second pulleys 16, the second pulleys 16 are fixedly connected to the lower ends of the first pulleys 18, the lower shafts 17, the first pulleys 16 are fixedly connected to the lower ends of the third pulleys 16, the third pulleys 16 and the lower ends of the third pulleys 16 are fixedly connected to the lower shafts 17, and the lower ends of the third pulleys 16, and the lower ends of the bevel gears 17, and the lower ends of the third pulleys 16 of the bevel gears 17.

When the machine-made charcoal needs to be manufactured, a user starts the reducing motor 19 to enable the third rotating shaft 17 to rotate clockwise, the third rotating shaft 17 rotates clockwise to enable the second bevel gear 18 to rotate clockwise, the first bevel gear 16 rotates anticlockwise along with the first bevel gear, the first bevel gear 16 rotates anticlockwise through the second rotating shaft 13 to enable the third belt wheel 14 to rotate anticlockwise, the second belt wheel 10 can rotate anticlockwise through the second belt 15, the second belt wheel 10 rotates anticlockwise to enable the front stirring rod 7 to rotate anticlockwise, the front first belt wheel 8 rotates anticlockwise along with the front first belt wheel 8, the rear first belt wheel 8 rotates anticlockwise through the first belt 9, the rear stirring rod 7 rotates anticlockwise through the rear stirring rod 7, materials in the blanking hopper 402 can be stirred through the anticlockwise rotation of the front stirring rod 7 and the rear stirring rod 7, large materials can be scattered, and therefore the blocking of the blanking hopper 402 caused by the materials can be prevented, and the blocking of the machine-made charcoal manufacturing is caused.

As shown in fig. 8 and 9, the portable electronic device further includes a contact plate 20, a first fixing frame 21, a fourth rotating shaft 22, a first striking block 23, a first torsion spring 24 and a first contact block 25, the contact plate 20 is installed at the rear end of the third rotating shaft 17, two first fixing frames 21 are fixedly connected to the left side wall of the fixing plate 3 at the lower side of the mounting frame 401, the fourth rotating shaft 22 is rotatably installed between the left portions of the front and rear first fixing frames 21, five first striking blocks 23 are installed on the fourth rotating shaft 22, the fourth rotating shaft 22 at the inner side of the first fixing frame 21 is sleeved with the first torsion spring 24, one end of the first torsion spring 24 is connected to the first fixing frame 21, the other end of the first torsion spring 24 is fixedly connected to the fourth rotating shaft 22, the front end of the fourth rotating shaft 22 is fixedly connected to the first contact block 25, and the first contact block 25 is matched with the contact plate 20.

When contact plate 20 rotates anticlockwise and extrudes first contact block 25, contact plate 20 continues to rotate, so can make first contact block 25 upwards swing, first contact block 25 upwards swings and can make first beating block 23 swing left through fourth pivot 22, first torsion spring 24 compresses thereupon, when contact plate 20 rotates anticlockwise and does not extrude first contact block 25, can make first beating block 23 swing right and reset through fourth pivot 22 under the effect of first torsion spring 24 elasticity, can beat ejection of compact case 406 through the continuous left swing of first beating block 23, so can prevent that the material from blockking up ejection of compact case 406, cause inconvenience for the unloading of mechanism charcoal material.

Example 4

On the basis of embodiment 3, as shown in fig. 8 and 10, the touch panel further includes a second fixing frame 26, a fifth rotating shaft 27, a second striking block 28, a second torsion spring 29, and a second contact block 30, two second fixing frames 26 are fixedly connected to a right side wall of the forming frame 514, the fifth rotating shaft 27 is rotatably installed between right portions of the front and rear second fixing frames 26, five second striking blocks 28 are installed on the fifth rotating shaft 27, the second torsion spring 29 is sleeved on the fifth rotating shaft 27 inside the second fixing frame 26, one end of the second torsion spring 29 is connected to the second fixing frame 26, the other end of the second torsion spring 29 is fixedly connected to the fifth rotating shaft 27, the front end of the fifth rotating shaft 27 is fixedly connected to the second contact block 30, and the second contact block 30 is matched with the contact plate 20.

When the contact plate 20 rotates counterclockwise to press the second contact block 30, the contact plate 20 continues to rotate, so that the second contact block 30 can swing downward, the second contact block 30 swings downward to swing the second knocking block 28 rightward through the fifth rotating shaft 27, the second torsion spring 29 compresses therewith, when the contact plate 20 rotates counterclockwise without pressing the second contact block 30, the second knocking block 28 can swing leftward to reset under the action of the elastic force of the second torsion spring 29 through the fifth rotating shaft 27, and the forming frame 514 can be knocked through continuous rightward swinging of the second knocking block 28, so that the forming frame 514 can be prevented from being blocked by a material, and the filling of the machine-made charcoal material is prevented from being hindered.

As shown in fig. 11, the portable collecting device further comprises a collecting box 31, arc-shaped rods 32, a buffer plate 33 and fourth springs 34, the collecting box 31 is fixed on the mounting plate 1 on the left side of the connecting frame 512, the arc-shaped rods 32 are slidably arranged on the front side and the rear side of the inner right side wall of the collecting box 31, the buffer plate 33 is fixedly connected between the upper ends of the front arc-shaped rod 32 and the rear arc-shaped rod 32, the two fourth springs 34 are fixedly connected between the buffer plate 33 and the collecting box 31, and the front fourth springs 34 and the rear fourth springs 34 are respectively wound on the corresponding arc-shaped rods 32.

The mechanism charcoal that the preparation was accomplished drops down on buffer board 33 when, can make buffer board 33 luffing motion down under the effect of gravity, fourth spring 34 compresses thereupon, mechanism charcoal on the buffer board 33 drops down in collecting box 31 thereupon, can make buffer board 33 upswing reset under the effect of fourth spring 34 elasticity, can drop down to mechanism charcoal through buffer board 33 and cushion, so can conveniently collect mechanism charcoal, when having proper amount mechanism charcoal in collecting box 31, the user takes out mechanism charcoal in with collecting box 31 can.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims

1. A green energy machine-made charcoal forming device comprises a mounting plate (1), supporting legs (2) and a fixing plate (3), wherein the bottom of the mounting plate (1) is fixedly connected with the four supporting legs (2), one side of the top of the mounting plate (1) is connected with the fixing plate (3), the green energy machine-made charcoal forming device is characterized in that a blanking mechanism (4) and a forming mechanism (5) are arranged on the fixing plate (3), and the forming mechanism (5) is arranged between the mounting plate (1) and the blanking mechanism (4); the blanking mechanism (4) comprises a mounting frame (401), a blanking hopper (402), first slide bars (403), a material baffle plate (404), first springs (405) and a blanking box (406), the mounting frame (401) is connected to the side wall of a fixing plate (3), the blanking hopper (402) is arranged on the mounting frame (401), two first slide bars (403) are arranged on the fixing plate (3) on the upper side of the mounting frame (401) in a sliding mode, the material baffle plate (404) is fixedly connected between the two first slide bars (403), the two first springs (405) are connected between the material baffle plate (404) and the fixing plate (3), the two first springs (405) are respectively wound on the corresponding first slide bars (403), the material baffle plate (404) and the blanking hopper (402) are arranged in a sliding mode, and the blanking box (406) is arranged on the lower portion of the blanking hopper (402); the forming mechanism (5) comprises a support (501), an air cylinder (502), guide rods (503), a connecting plate (504), a lower pressing plate (505), a pushing block (506), a squeezing frame (507), a second spring (508), a first wedge-shaped plate (509), a rack (510), a second wedge-shaped plate (511), a connecting frame (512), a supporting frame (513), a forming frame (514), a wedge-shaped strip (515) and a limiting component, wherein the support (501) is connected to one side of the mounting plate (1) far away from the fixing plate (3), the air cylinder (502) is installed at the top of the support (501), the lower end of a telescopic rod of the air cylinder (502) penetrates through the support (501), the guide rods (503) are installed at the inner tops of the supports (501) on the two sides of the air cylinder (502), the connecting plate (504) is arranged between the two guide rods (503) in a sliding mode, the connecting plate (504) is fixedly connected with the lower end of the telescopic rod of the air cylinder (502), five lower pressing plates (505) are fixedly connected with the bottom of the connecting plate (504), the pushing plate (505) is provided with the pushing block (506), the pushing block (506) is arranged on the pushing block (506) in a sliding mode, the pushing block (507) and the pushing block (508) on the front side and the side of the pushing block (507), the second side of the pushing block (508), a rack (510) is fixedly connected to the connecting plate (504), a second wedge-shaped plate (511) is fixedly connected to the other side wall of the connecting plate (504), the second wedge-shaped plate (511) is in sliding fit with the material blocking plate (404), a connecting frame (512) is arranged on the fixing plate (3) on the lower side of the mounting frame (401), a supporting frame (513) is mounted on the connecting frame (512), a forming frame (514) is arranged on the supporting frame (513), the forming frame (514) is located right below the extrusion frame (507), a wedge-shaped strip (515) is fixedly connected to the lower portion in the support (501), a limiting component is arranged on one side, close to the wedge-shaped strip (515), of the lower portion in the support (501), and the limiting component is respectively matched with the first wedge-shaped plates (509) and the wedge-shaped strips (515) on the two sides; spacing part is including first pivot (516), one-way bearing (517), straight-teeth gear (518), baffle (519), second slide bar (520), third wedge plate (521) and third spring (522), lower part that first pivot (516) rotary type is connected in support (501) is close to one side of wedge strip (515), the rigid coupling has one-way bearing (517) on first pivot (516), install straight-teeth gear (518) on one-way bearing (517), straight-teeth gear (518) and rack (510) cooperation, one side rigid coupling that is close to one-way bearing (517) on first pivot (516) has baffle (519), the gliding formula is equipped with a plurality of second slide bars (520) on baffle (519), the rigid coupling has third wedge plate (521) between all second slide bars (520), third wedge plate (521) cooperate with first wedge plate (509) and wedge strip (515) of both sides respectively, there are a plurality of third springs (522) between third wedge plate (521) and baffle (519), third spring (522) are around respectively on the second slide bar (520).

2. The green energy mechanism carbon forming device as claimed in claim 1, further comprising a sliding frame (6), stirring rods (7), first pulleys (8), a first belt (9), second pulleys (10), support plates (11), L-shaped plates (12), a second rotating shaft (13), a third pulley (14), a second belt (15), a first bevel gear (16), a third rotating shaft (17), a second bevel gear (18) and a speed reduction motor (19), wherein the sliding frame (6) is installed at the top of the blanking hopper (402), two stirring rods (7) are rotatably installed on the sliding frame (6), the first pulleys (8) are fixedly connected on the stirring rods (7), the first belt (9) is wound between the two first pulleys (8), the second pulley (10) is installed on the stirring rod (7) at the upper side of the first pulley (8), the second pulley (11) is fixedly connected on the side wall in the support frame (501), the L-shaped plate (12) is installed on the side wall in the support frame (501) at the lower side of the support plate (11), the second pulley (10) is installed between the support plate (11), the upper end of the second pulley (13) and the third pulley (14) are connected with the rotating shaft (14), the lower end of the second rotating shaft (13) is fixedly connected with a first bevel gear (16), a third rotating shaft (17) is rotatably mounted on an L-shaped plate (12) on the lower side of the first bevel gear (16), one end of the third rotating shaft (17) is fixedly connected with a second bevel gear (18), the second bevel gear (18) is meshed with the first bevel gear (16), a speed reducing motor (19) is mounted on a support (501) on the lower side of the L-shaped plate (12), and an output shaft of the speed reducing motor (19) is fixedly connected with the third rotating shaft (17).

3. The green energy machine-made charcoal forming device according to claim 2, characterized by further comprising a contact plate (20), a first fixing frame (21), a fourth rotating shaft (22), a first striking block (23), a first torsion spring (24) and a first contact block (25), wherein the contact plate (20) is installed at the other end of the third rotating shaft (17), two first fixing frames (21) are fixedly connected to a fixing plate (3) on the lower side of the mounting frame (401), the fourth rotating shaft (22) is rotatably installed between the two first fixing frames (21), five first striking blocks (23) are installed on the fourth rotating shaft (22), the first torsion spring (24) is sleeved on the fourth rotating shaft (22) on the inner side of the first fixing frame (21), one end of the first torsion spring (24) is connected with the first fixing frame (21), the other end of the first torsion spring (24) is fixedly connected with the fourth rotating shaft (22), the one end of the fourth rotating shaft (22) is fixedly connected with the first contact block (25), and the first contact block (25) is matched with the first contact block (20).

4. The green energy mechanism charcoal forming device according to claim 3, further comprising a second fixing frame (26), a fifth rotating shaft (27), a second striking block (28), a second torsion spring (29) and a second contact block (30), wherein the two second fixing frames (26) are fixedly connected to the side wall of the forming frame (514), the fifth rotating shaft (27) is rotatably installed between the two second fixing frames (26), the five second striking blocks (28) are installed on the fifth rotating shaft (27), the second torsion spring (29) is sleeved on the fifth rotating shaft (27) on the inner side of the second fixing frame (26), one end of the second torsion spring (29) is connected with the second fixing frame (26), the other end of the second torsion spring (29) is fixedly connected with the fifth rotating shaft (27), one end of the fifth rotating shaft (27) is fixedly connected with the second contact block (30), and the second contact block (30) is matched with the contact plate (20).

5. The green energy mechanism charcoal forming device according to claim 4, characterized by further comprising a collection box (31), arc-shaped rods (32), a buffer plate (33) and fourth springs (34), wherein the collection box (31) is fixed on one side of the mounting plate (1) close to the connecting frame (512), the two arc-shaped rods (32) are slidably arranged on the inner side wall of the collection box (31), the buffer plate (33) is fixedly connected between the upper ends of the two arc-shaped rods (32), the two fourth springs (34) are fixedly connected between the buffer plate (33) and the collection box (31), and the two fourth springs (34) are respectively wound on the corresponding arc-shaped rods (32).

6. A green energy machine-made charcoal forming apparatus as claimed in claim 5, wherein the material of the buffer plate (33) is soft material.