CN114534894B - Bidirectional cutter wheel torsion adjusting type carburant crushing production machine - Google Patents

Abstract

The invention discloses a bidirectional cutter wheel torsion adjusting type carburant crushing production machine which comprises an inclined torsion extrusion type bidirectional rotation adjusting crushing device, a driving device, a sensorless self-adaptive adjusting type large particle grinding device and a mixed extrusion forming device. The invention belongs to the field of carburant production, and particularly relates to a bidirectional cutter wheel torsion adjusting type carburant crushing production machine; the invention adopts a mode of increasing limit on the parallelogram in advance, realizes the technical effects of stably adjusting and adjusting the deflection of the cutter wheel and adjusting the crushing degree, increases the crushing degree under the condition of unchanging crushing efficiency, overcomes the technical prejudice that the traditional method only adopts increasing crushing time or increasing the crushing cutter wheel when the crushing degree is increased, and can carry out self-adaptive grinding according to the granularity of the particles to be ground (the particles with large granularity have large compression degree and elasticity and increase grinding efficiency after being ground), thereby completing the production requirement of the carburant.

Description

Bidirectional cutter wheel torsion adjusting type carburant crushing production machine

Technical Field

The invention belongs to the technical field of carburant production, and particularly relates to a bidirectional cutter wheel torsion adjusting type carburant crushing production machine.

Background

In the smelting process of steel products, the smelting loss of carbon elements in molten iron is increased due to factors such as longer smelting time, heat preservation time and overheating time, so that the carbon content in the molten iron is reduced, the carbon content in the molten iron cannot reach the theoretical value expected by smelting, and carbon-containing substances added for complementing the carbon content burnt in the steel smelting process are called carburant.

The carburant for steelmaking consists of a carbon-containing material, a deoxidizer, a specific gravity regulator and a binder, and the production mode of the carburant on the market at present is as follows: crushing various raw materials into particles by a crusher respectively, sieving the particles respectively, leaving small particles meeting the requirements, grinding large particles into finer powder, mixing the raw materials in a stirrer according to weight percentage, adding a binder, mixing, and preparing the mixed material into solid particles by a forming machine.

Therefore, the current technology on the crushing production of the carburant on the market has the following problems:

a: the using steps of the crusher are three steps of feeding, crushing and receiving, but the crusher on the market does not adopt two methods of increasing the number of crushing cutter wheels and prolonging the crushing time in a mode of increasing the crushing efficiency, the former method can increase the production cost when the crusher is produced, and the latter method for prolonging the crushing time cannot change the problem of low crushing efficiency and invisibly increases the crushing cost.

B: in the case where the crushing efficiency (the time required to crush a unit volume of raw material) is not changed, the crushing degree of the crusher when crushing the raw material cannot be adjusted.

C: at present, the crusher on the market can crush the raw materials to the aperture of zero to dozens of millimeters to the maximum extent, and the single crusher can not meet the production requirement.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides a bidirectional cutter wheel torsion adjusting type carburant crushing production machine, which adopts a mode of increasing limit on a parallelogram in advance, realizes the technical effect of stably adjusting and adjusting the deflection of a cutter wheel while keeping flexible parallel movement of a first rotating adjusting rod and a second rotating adjusting rod, adjusts the deflection degree of the cutter wheel in the horizontal and vertical directions by rotating the second rotating adjusting rod and a hydraulic rod, further realizes the technical effect of adjusting the crushing degree, greatly increases the crushing degree under the condition of unchanged crushing efficiency, and overcomes the technical bias that the traditional method only can increase the crushing time or increase the crushing cutter wheel when the crushing degree is increased; according to the characteristic that the particle sizes of the particles to be ground are different, the sensing-free self-adaptive adjustment type large particle grinding device can carry out self-adaptive grinding according to the particle sizes of the particles to be ground under the condition that no sensing element exists (the particles with large particle sizes are ground to enable the compression degree of the elastic element to be large and enable the elasticity to be large, the grinding efficiency to be increased), the mixed extrusion forming device is used for stirring, uniformly mixing and then carrying out extrusion forming on the crushed and ground raw materials, and the production requirement of the carburant is met.

The technical scheme adopted by the invention is as follows: the invention provides a bidirectional cutter wheel torsion adjustment type recarburizing agent crushing production machine which comprises an inclined torsion extrusion type bidirectional rotation adjustment crushing device, a driving device, a non-sensing self-adaptive adjustment type large-particle grinding device and a mixed extrusion forming device, wherein the driving device is arranged on the side wall of the inclined torsion extrusion type bidirectional rotation adjustment crushing device, the inclined torsion extrusion type bidirectional rotation adjustment crushing device achieves two different effects in a forward rotation mode and a reverse rotation mode, the function of controlling a cutter wheel to crush raw materials into fine particles and increasing crushing efficiency is achieved, the non-sensing self-adaptive adjustment type large-particle grinding device is symmetrically arranged on the side wall of the inclined torsion extrusion type bidirectional rotation adjustment type crushing device, the crushed particles with overlarge aperture are ground into fine powder through the non-sensing self-adaptive adjustment type large-particle grinding device, the mixed extrusion forming device is arranged on the bottom wall of the non-sensing self-adaptive adjustment type large-particle grinding device, and the mixed extrusion forming device is used for preparing the fine particles and the fine powder into solid recarburizing agent particles.

Further, the inclined twisting extrusion type bidirectional rotation adjusting and crushing device comprises a crushing barrel, a primary crushing mechanism, a bidirectional adjusting type crushing mechanism, a pneumatic adjusting mechanism and an inner cutter wheel auxiliary mechanism, wherein the bidirectional adjusting type crushing mechanism is arranged in the crushing barrel, the primary crushing mechanism is arranged in the crushing barrel, the bidirectional adjusting type crushing mechanism is driven by a driving device to operate, a product processed by the primary crushing mechanism is further crushed into particles, the pneumatic adjusting mechanism is arranged on the side wall of the crushing barrel, the pneumatic adjusting mechanism is adjusted based on the movement mode of the bidirectional adjusting type crushing mechanism, fine particles are screened, the particles with overlarge apertures are conveyed to a non-sensing self-adaptive adjusting type large particle grinding device to be ground into fine powder, one end of the inner cutter wheel auxiliary mechanism is rotatably arranged in the crushing barrel, the other end of the inner cutter wheel auxiliary mechanism is connected with the driving device, the inner cutter wheel auxiliary mechanism is controlled by the driving device to rotate, and crushing is assisted; the primary crushing mechanism comprises a primary crushing rotating wheel, a multi-level crushing cutter wheel and an annular control rack, one end of the primary crushing rotating wheel is rotatably arranged on the upper wall of the crushing barrel, one end of the annular control rack is arranged at the other end of the primary crushing rotating wheel, the other end of the annular control rack is meshed with the driving device, and the multi-level crushing cutter wheel is arranged on the inner side wall of the primary crushing rotating wheel; the driving device drives the preliminary crushing runner to rotate through the annular control rack, and then drives the multi-level crushing cutter wheel to carry out preliminary crushing treatment on raw materials.

Preferably, the bidirectional adjusting type crushing mechanism comprises a first telescopic rod, an upper control wheel, a second lower rotating wheel, a first rotating adjusting rod, a second rotating adjusting rod and a knife adjusting wheel, wherein the first lower rotating wheel is rotatably arranged in the crushing barrel, the upper control wheel is provided with an upper auxiliary groove, the second lower rotating wheel is provided with a lower auxiliary groove, two sets of upper fixing rods are arranged on two opposite inner side walls of the upper auxiliary groove, two sets of lower fixing rods are arranged on two opposite inner side walls of the lower auxiliary groove, two sets of lower fixing rods are arranged on the lower auxiliary groove, hydraulic rods are arranged on the inner side walls of the lower auxiliary groove, the upper control wheel and the lower rotating wheel are arranged in central symmetry, two ends of the first rotating adjusting rod are provided with first through holes, two ends of the second rotating adjusting rod are provided with second through holes, and the lower end of the first rotating adjusting rod is rotatably arranged on the lower fixing rods through one through the first through holes, the lower end of the rotating adjusting rod II is rotatably arranged on the other lower fixed rod through the through hole II, the upper end of the rotating adjusting rod I is rotatably arranged on the upper fixed rod through the through hole I, the upper end of the rotating adjusting rod II is rotatably arranged on the other upper fixed rod through the through hole II, the upper control wheel is movably connected with the upper ends of the rotating adjusting rod I and the rotating adjusting rod II through the upper fixed rod, when the upper control wheel rotates reversely, the fixed rods below the upper ends of the rotating adjusting rod I and the rotating adjusting rod II are driven to rotate as the circle center, the lower rotating wheel is driven to rotate in the crushing barrel, the movable end of the telescopic rod I is arranged on the upper wall of the upper control wheel, the fixed end of the telescopic rod I is arranged on the bottom wall of the primary crushing rotating wheel, the elastic plates are arranged on the rotating adjusting rod I and the rotating adjusting rod II, and one end of the adjusting knife wheel is rotatably arranged on the rotating adjusting rod I, a torsional spring is arranged on the first rotating adjusting rod, one end of the torsional spring is arranged on the side wall of the elastic plate, and the other end of the torsional spring is arranged on the other end of the adjusting knife flywheel through the first rotating adjusting rod; when the crushing device is normally used, the primary crushing rotating wheel is driven to rotate in the forward direction by the operation of the control driving device, the primary crushing rotating wheel drives the upper control wheel to rotate through the first telescopic rod, the upper control wheel drives the lower rotating wheel to rotate in the crushing barrel through the first rotating adjusting rod and the second rotating adjusting rod, so that the raw material is crushed by the operation of the adjusting knife wheel in the crushing barrel, conversely, the primary crushing rotating wheel is driven to rotate in the reverse direction by the operation of the control driving device, the primary crushing rotating wheel drives the upper control wheel to rotate in the reverse direction through the first telescopic rod, so that the fixed rod below the upper ends of the first rotating adjusting rod and the second rotating adjusting rod is driven to rotate as the center of a circle, the first rotating adjusting rod and the second rotating adjusting rod are reversely inclined in two directions, the angle between the first rotating rod and the lower rotating wheel is gradually reduced from a right angle, so that the lower rotating wheel rotates in the crushing barrel, and in the process, the adjusting knife wheel is extruded inwards under the control of the second rotating adjusting rod, the elastic plate can guarantee that the adjusting knife flywheel can not outwards extrude under the control of the rotation adjusting rod II, the adjusting knife flywheel at the moment can inwards incline in the horizontal direction, the upward incline can be realized in the vertical direction, the inclination degree of the adjusting knife flywheel in the horizontal direction is related to the inner diameter of the rotation adjusting rod II, the inclination time in the vertical direction is related to the length of the hydraulic rod, the rotation adjusting rod I and the rotation adjusting rod II can drive the upper control wheel to slide downwards when rotating and inclining, the movable end of the telescopic rod I extends, the relative distance between the upper control wheel and the lower rotating wheel is reduced, the number of the adjusting knife flywheel is unchanged, so under the condition that the crushing efficiency is unchanged, the crushing time (the descending time of the material) can be far less than the forward running condition of the driving device under the condition that the driving device reversely runs.

As a further preferred aspect of the present invention, the pneumatic adjustment mechanism includes a pneumatic control chamber, a pneumatic control groove, a sliding block, a screen and a screen hole, one end of the pneumatic control chamber is disposed on the outer sidewall of the crushing barrel, the pneumatic control groove is disposed on the outer sidewall of the crusher, one end of the sliding block is disposed on the upper control wheel, the other end of the sliding block is slidably disposed on the pneumatic control groove, an elastic sealing bag is disposed between the pneumatic control groove and the sliding block, one end of the screen is disposed in the crushing barrel, the other end of the screen is communicated with the pneumatic control chamber, and the screen hole is disposed on the screen; when drive arrangement operation drove preliminary broken runner antiport, lower runner rotates, goes up the relative distance between control wheel and the lower runner and diminishes, and then drives the sliding block and at the pneumatic control groove lapse, when it slides, makes the gas in the pneumatic control inslot compressed into in the screen cloth, and then the inside wall deformation of screen hole makes the aperture attenuate.

Further, interior cutter wheel complementary unit includes driven gear, telescopic link two, rotatory blade disc, L type pole and cleaning roller, upward be equipped with the cross-bar on the control wheel inside wall, be equipped with the hole on the cross-bar, driven gear's one end is rotated and is located in broken bucket, driven gear's the other end links to each other with drive arrangement, the stiff end of telescopic link two is located on the outer upper wall of driven gear, the expansion end of telescopic link two is located in the hole, rotatory blade disc is located on the telescopic link two, and through starting drive arrangement, drive arrangement drives driven gear and rotates, and driven gear drives rotatory blade disc through telescopic link two and rotates, accomplishes crushing work with the regulation cutter wheel together, the one end of L type pole is located on the outer diapire of driven gear, cleaning roller one end is rotated and is located on the other end of L type pole, the other end roll of cleaning roller is located on the outer upper wall of screen cloth, and when drive arrangement drives driven gear and rotates the one end that can drive L type pole simultaneously drive the other end of cleaning roller along L type pole and be the rotation of the other end of L type pole on one side of L type pole as the rotation of the centre of a circle, and then reach the outer upper wall of screen cloth and the clean granule that the mesh of the free from falling of the grinding roller that the big granule that the mesh directly gets into the grinding roller, and the clean granule that the dry grinding roller can not get into the clean granule, and the clean granule that the dry grinding device is not had the mesh.

Furthermore, the non-sensing self-adaptive adjustment type large particle grinding device comprises a self-adjustment type grinding cavity, a rotating rod, a rotating cover, a connecting rod, a rotating ring, an elastic part, a grinding body and a discharging pipe, wherein a large particle raw material flowing port is formed in the side wall of the crushing barrel, the self-adjustment type grinding cavity is formed in the side wall of the crushing barrel, a cleaning roller can discharge large particle raw materials into the self-adjustment type grinding cavity through the large particle raw material flowing port, a sliding groove is formed in the inner side wall of the self-adjustment type grinding cavity, a pipe groove is formed in the inner bottom wall of the self-adjustment type grinding cavity, one end of the rotating rod is rotatably arranged in the self-adjustment type grinding cavity, the other end of the rotating rod penetrates through the upper wall of the self-adjustment type grinding cavity to be connected with a driving device, one end of the rotating cover is arranged on one end of the rotating rod, one end of the connecting rod is arranged on the other end of the rotating ring, one end of the rotating ring is arranged on the other end of the connecting rod, the other end of the swivel is arranged in the chute in a sliding manner, one end of the elastic piece is arranged on the inner upper wall of the rotary cover, the elastic piece is in a compression state and can provide downward elastic force, one end of the grinding body is arranged on the other end of the elastic piece, the other end of the grinding body is arranged on the inner bottom wall of the self-adjusting grinding cavity, one end of the discharge pipe is arranged on the other end of the grinding body, the other end of the grinding body penetrates through the pipe groove and is arranged outside the self-adjusting grinding cavity, the grinding body is in a semi-ellipsoid arrangement, the inner bottom wall of the self-adjusting grinding cavity is in a semi-ellipsoid groove arrangement, the long shaft of the grinding body is consistent with the long shaft of the inner bottom wall of the self-adjusting grinding cavity, the short shaft of the grinding body is smaller than the short shaft of the inner bottom wall of the self-adjusting grinding cavity, the distance between the outer wall of the grinding body and the inner bottom wall of the self-adjusting grinding cavity can be ensured to be reduced from top to bottom in sequence by the arrangement of the short shaft with the short shaft which is consistent with the short shaft, the side wall of the discharge pipe is provided with a discharge groove, the driving device can drive the rotating rod to rotate by operation, the rotating rod drives the rotating cover and the connecting rod to rotate, the rotating ring rotates in the sliding groove, large-particle raw materials enter between the outer wall of the grinding body and the bottom wall of the self-adjusting grinding cavity through a space between the large-particle raw material flow port and the connecting rod, the rotating cover can drive the elastic piece to rotate, the grinding piece is further driven to rotate on the bottom wall of the self-adjusting grinding cavity to grind, the distance between the outer wall of the grinding body and the bottom wall of the self-adjusting grinding cavity is sequentially reduced from top to bottom, therefore, when the large-particle raw materials enter between the outer wall of the grinding body and the bottom wall of the self-adjusting grinding cavity, the large-particle raw materials are sequentially arranged in a decreasing order from top to bottom in diameter, as the grinding body rotates, the raw materials with higher positions are ground, the pore diameters of the raw materials can flow downwards, as the positions of the grinding body fall, the grinding body gradually grinds the raw materials to be ground to the lowest point in the bottom wall of the self-adjusting grinding cavity, the position of the grinding body is raised, the discharge pipe slides upwards, the powdered raw materials and the raw materials can be discharged to form fine grinding effect, and the fine grinding powder can be accumulated, so that the raw materials can be used.

Furthermore, the mixed extrusion forming device comprises a mixed stirring cavity, an extrusion forming cavity, an outer roller, an inner extrusion roller, an inner discharging roller and a material storage bag, the mixing and stirring cavity is arranged on the outer bottom wall of the self-adjusting grinding cavity, mixing and stirring teeth are rotatably arranged in the mixing and stirring cavity, raw materials sequentially pass through powder and fall into the mixing and stirring cavity, the mixing and stirring teeth are started to mix and stir the raw materials, the bottom wall of the mixing and stirring cavity is provided with a sliding material stop door in a sliding way, the extrusion molding cavity is arranged on the outer bottom wall of the mixing and stirring cavity, the sliding material stop door is controlled to operate, the mixed raw material powder can fall into the extrusion molding cavity, a discharge door is arranged on the side wall of the extrusion molding cavity, the outer roller is rotatably arranged on the two opposite side walls of the extrusion molding cavity, the outer roller is a cylindrical barrel without a bottom wall, the outer roller is connected with a driving device, one end of the inner extrusion roller is rotatably arranged on the inner side wall of the extrusion molding cavity, the other end of the inner extrusion roller penetrates through the extrusion molding cavity and is arranged outside the extrusion molding cavity, the other end of the inner extrusion roller is provided with a first auxiliary rod, the inner discharging roller and the inner extrusion roller are symmetrically arranged, the other end of the inner discharging roller is provided with a second auxiliary rod, a third conveying belt is arranged on the first auxiliary rod and the second auxiliary rod, the first auxiliary rod is connected with a driving device, on the material storage bag was located the outer cylinder lateral wall, drive arrangement rotated through driving the outer cylinder and made raw materials powder fall into the material storage bag in proper order, and drive arrangement drove interior pinch roll simultaneously and rotates, and interior pinch roll cooperation extrusion molding chamber's inside wall is with the raw materials powder extrusion of material storage bag, and the product after the extrusion rotates along outer cylinder, extrudes this device through the discharge gate with it until interior row material cylinder.

Furthermore, the driving device comprises a driving control cavity, a first driving motor, a first control fluted disc, a second driving motor, a control gear, a first conveyor belt and a second conveyor belt, the driving control cavity is arranged on the outer side wall of the crushing barrel, a support plate is arranged on the outer side wall of the crushing barrel, the first driving motor is arranged on the outer upper wall of the support plate, one end of the first control fluted disc is arranged on the output shaft end of the first driving motor, the other end of the first control fluted disc penetrates through the side wall of the crushing barrel to be meshed with the annular control rack, the first driving motor operates to drive the primary crushing rotating wheel to rotate through the control fluted disc so as to drive the bidirectional adjustment type crushing mechanism to operate, the second driving motor is arranged on the outer bottom wall of the support plate, one end of the control gear is arranged on the output shaft end of the second driving motor, and the other end of the control gear penetrates through the side wall of the crushing barrel to be meshed with the driven gear, the driving motor II operates to drive the driven gear to rotate through the control gear so as to drive the inner cutter wheel auxiliary mechanism to operate, a supporting base is arranged on the side wall of the driving control cavity, a transition rotary drum is rotatably arranged on the supporting base, one end of the first conveying belt is connected with the output shaft end of the driving motor II, the other end of the first conveying belt is arranged on the transition rotary drum, one end of the second conveying belt is arranged on the transition rotary drum, the other end of the second conveying belt is arranged on a rotary rod, the transition rotary drum is driven to rotate through the conveying belt while the driving motor II operates, the rotary rod is driven to rotate through the conveying belt so as to drive the non-sensing self-adaptive adjustment type large-particle grinding device to operate, a control motor I is arranged on the side wall of the extrusion molding cavity, the output shaft end of the control motor I is connected with the outer roller, and the control motor I operates to drive the outer roller to operate, and a second control motor is arranged on the side wall of the extrusion molding cavity, the output shaft end of the second control motor is connected with the first auxiliary rod, and the second control motor operates to drive the inner discharging roller and the inner extrusion roller to operate.

Furthermore, the first driving motor and the second driving motor are bidirectional motors, so that the bidirectional adjusting type crushing mechanism and the inner cutter wheel auxiliary mechanism are driven to rotate in opposite directions to crush.

Furthermore, the elastic sealing bag is made of elastic materials with sealing performance.

The invention adopting the structure has the following beneficial effects:

(1) Compared with the three steps of feeding, crushing and receiving of a common crusher in the market, the feeding, crushing and receiving method has the advantages that operators cannot guarantee that the crushed raw materials are fed into the next process in time, the crushing effect on the raw materials is the same on the premise that the number of the cutter wheels is not changed, and the cost, the time and the manpower resource waste of carburant production are reduced.

(2) The first driving motor arranged by the bidirectional motor can rotate in different directions, when the first driving motor rotates reversely, the unstable parallelogram principle is creatively utilized, the adjusting cutter wheel inclines inwards, the contact area between the adjusting cutter wheel and a crushed raw material is increased, and further, when the raw material with the same volume is crushed, the crushing time is greatly reduced, and the production efficiency is increased.

(3) The adjusting knife flywheel inclines inwards, namely the positions of the adjusting knife flywheel in the horizontal direction and the vertical direction are changed, the inclination degree of the adjusting knife flywheel in the horizontal direction is related to the inner diameter of the rotary adjusting rod II, and the inclination time in the vertical direction is related to the length of the hydraulic rod, so that the crushing degree is adjusted, and the application range of the hydraulic crusher is greatly expanded.

(4) The driving motor II arranged by the bidirectional motor can timely adjust the rotating directions of the bidirectional adjusting type crushing mechanism and the inner cutter wheel auxiliary mechanism, so that the crushing efficiency of the crusher is increased.

(5) Because the reverse rotation of the second driving motor can change the crushing efficiency and the crushing degree of the crusher, in order to sieve particles produced under different conditions, the invention only changes the aperture of the sieve mesh by skillfully compressing gas under the condition that the second driving motor can drive the upper control wheel to move downwards in the crushing barrel without the help of a sensor and an electric control module, thereby reducing the production cost.

(6) The invention is based on the fact that the apertures of the large particles which do not conform to the apertures of the sieve pores are still inconsistent in size, and the invention creatively arranges the grinding bodies with the same major axis and different minor axes and the inner bottom wall of the self-adjusting grinding cavity by utilizing the geometrical knowledge of the ellipse, so that the raw materials of the large particles are arranged according to the apertures to be ground, and the grinding efficiency is increased; meanwhile, the aperture of the large particles can continuously move downwards after being ground to powder and is stacked together, the elasticity of the elastic piece is increased, and the grinding efficiency is greatly improved under the assistance of the elasticity of the grinding body.

(7) The arrangement of the mixed extrusion forming device is used for sequentially mixing and extruding the processed carburant raw materials, and the procedures required by the production of the carburant are combined together, so that the waste of human resources is reduced.

Drawings

FIG. 1 is a perspective view of a bidirectional cutter wheel torsion adjusting type carburant crushing production machine provided by the invention;

FIG. 2 is a right side view of a bi-directional cutter wheel twist adjustment type recarburizer crushing production machine provided by the invention;

FIG. 3 is a front view of a bi-directional cutter wheel torsion regulating carburant crushing production machine provided by the invention;

FIG. 4 isbase:Sub>A cross-sectional view taken along section line A-A' of FIG. 2;

FIG. 5 is a cross-sectional view taken along section line B-B' of FIG. 3;

FIG. 6 is an enlarged view of a portion of FIG. 2 at I;

FIG. 7 is an enlarged view of a portion of FIG. 4 at II;

FIG. 8 is an enlarged view of a portion of FIG. 5 at III;

fig. 9 is a perspective view of a crushing barrel of a bidirectional cutter wheel torsion adjustment type carburant crushing production machine provided by the invention;

fig. 10 is a sectional view of a crushing barrel of a bidirectional cutter wheel torsion adjusting type carburant crushing production machine provided by the invention;

FIG. 11 is a schematic view of an initial state of an adjusting cutter wheel of the bidirectional cutter wheel torsion adjusting type carburant crushing production machine provided by the invention;

fig. 12 is a perspective view of a primary crushing mechanism of a bidirectional cutter wheel torsion adjusting type carburant crushing production machine provided by the invention;

fig. 13 is a bottom view of an upper control wheel of the bidirectional cutter wheel torsion adjustment type carburant crushing production machine provided by the invention;

fig. 14 is a top view of a lower rotating wheel of a bidirectional cutter wheel torsion adjusting type carburant crushing production machine provided by the invention;

FIG. 15 is a drawing showing a connection relationship between a first rotation adjusting rod and a second rotation adjusting rod of the bidirectional cutter wheel torsion adjusting type recarburizer crushing production machine provided by the invention;

fig. 16 is a partial structural transformation diagram of a bidirectional adjusting type crushing mechanism when a driving motor of a bidirectional cutter wheel torsion adjusting type carburant crushing production machine provided by the invention rotates in a reverse direction;

FIG. 17 is a geometric schematic of FIG. 16;

fig. 18 is a schematic structural diagram of an inner cutter wheel auxiliary mechanism of a bidirectional cutter wheel torsion adjustment type carburant crushing production machine provided by the invention;

FIG. 19 is a top view of a screen of a bi-directional cutter wheel twist-adjustment type recarburizer crushing production machine provided by the invention;

fig. 20 is a perspective view of a discharge pipe of the bidirectional cutter wheel torsion adjusting type carburant crushing production machine provided by the invention.

1000, an inclined twisting extrusion type bidirectional rotation adjusting crushing device, 2000, a driving device, 3000, a non-sensing self-adapting adjusting type large particle grinding device, 4000, a mixed extrusion forming device, 1100, a crushing barrel, 1200, a primary crushing mechanism, 1300, a bidirectional adjusting type crushing mechanism, 1400, a pneumatic adjusting mechanism, 1500, an inner cutter wheel auxiliary mechanism, 1600, a large particle raw material flow port, 1201, a primary crushing rotating wheel, 1202, a multi-level crushing cutter wheel, 1203, an annular control rack, 1301, a first telescopic rod, 1302, an upper control wheel, 1303, a lower rotating wheel, 1304, a first rotary adjusting rod, 1305, a second rotary adjusting rod, 1306, an adjusting cutter wheel, 1307, an upper auxiliary groove, 1308, a lower auxiliary groove, 1309, an upper fixing rod, 1310, a lower fixing rod, 1311, a hydraulic rod, 1312, a first through hole, 1313, a second through hole, 1314, an elastic plate, 1315, a torsion spring, 1316, a cross rod, 1317, holes, 1318, screens, 1319, screen holes, 1401, pneumatic control chambers, 1402, pneumatic control grooves, 1403, sliding blocks, 1404, elastic sealing bags, 1501, driven gears, 1502, telescopic links, 1503, rotary cutter discs, 1504, L-shaped rods, 1505, cleaning rollers, 2001, drive control chambers, 2002, drive motors one, 2003, control toothed discs, 2004, drive motors two, 2005, control gears, 2006, conveyor belts one, 2007, conveyor belts two, 2008, support bases, 2009, transition rollers, 2010, control motors one, 2011, control motors two, 2012, support plates, 3001, self-adjusting grinding chambers, 3002, rotating rods, 3003, rotary covers, 3004, connecting rods, 3005, rotating rings, 3006, elastic members, 3007, grinding bodies, 3008, discharge pipes, 3009, sliding chutes, 3010, discharge pipe grooves, 3011, 4001, mixing stirring chambers, 4002, extrusion molding chambers, 4003, outer rollers, 4004, the device comprises an inner extrusion roller 4005, an inner discharging roller 4006, a material storage bag 4007, a sliding material blocking door 4008, a discharging door 4009, an auxiliary rod I, an auxiliary rod II, an auxiliary rod 4011, a conveying belt III, a conveying belt 4012 and mixing and stirring teeth.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, a bidirectional cutter wheel torsion regulation type recarburizer crushing production machine comprises an inclined torsion extrusion type bidirectional rotation regulation crushing device 1000, a driving device 2000, a sensorless adaptive regulation type large-particle grinding device 3000 and a mixed extrusion forming device 4000, wherein the driving device 2000 is arranged on the side wall of the inclined torsion extrusion type bidirectional rotation regulation crushing device 1000, the inclined torsion extrusion type bidirectional rotation regulation crushing device 1000 achieves two different effects in a forward rotation mode and a reverse rotation mode, the function of controlling a cutter wheel to crush raw materials into fine particles and increasing crushing efficiency is achieved, the sensorless adaptive regulation type large-particle grinding device 3000 is symmetrically arranged on the side wall of the inclined torsion extrusion type bidirectional rotation regulation crushing device 1000, particles with overlarge aperture after crushing are ground into fine powder through the sensorless adaptive regulation type large-particle grinding device 3000, the mixed extrusion forming device 4000 is arranged on the bottom wall of the sensorless adaptive regulation type large-particle grinding device 3000, and the mixed extrusion forming device 4000 is used for preparing the fine particles and the fine powder into solid recarburizer particles.

As shown in fig. 2, 4, 5 and 7, the driving device 2000 includes a driving control chamber 2001, a first driving motor 2002, a control fluted disc 2003, a second driving motor 2004, a control gear 2005, a first conveyor belt 2006 and a second conveyor belt 2007, the driving control chamber 2001 is disposed on the outer sidewall of the oblique twisting extrusion type bidirectional rotation adjusting crushing device 1000, a support plate 2012 is disposed on the outer sidewall of the crushing barrel 1100, the first driving motor 2002 is disposed on the outer upper wall of the support plate 2012, one end of the control fluted disc 2003 is disposed on the output shaft end of the first driving motor 2002, the other end of the control fluted disc 2003 penetrates through the sidewall of the oblique twisting extrusion type bidirectional rotation adjusting crushing device 1000 and is disposed in the oblique twisting extrusion type bidirectional rotation adjusting crushing device 1000, the first driving motor 2002 is operated to drive the primary crushing rotating wheel 1201 to rotate through the control fluted disc 2003 and further drive the bidirectional adjusting crushing device 1300 to operate, the second driving motor 2004 is disposed on the outer bottom wall of the support plate 2002, one end of the control fluted disc 2003 is disposed on the output shaft end 2004 of the second driving motor 2006, the driving motor 2004 is disposed on the outer bottom wall of the second driving motor 2004, the driving motor 2004 is disposed on the end of the oblique twisting extrusion type bidirectional rotating extrusion adjusting device 1000 through the transition rod 2009, the transition roller 2008, the transition roller 2009 is disposed on the driving roller 2008, the driving roller 2008 disposed on the driving roller supporting roller 2008 and supporting roller 2008, the driving roller supporting mechanism, the driving roller 2008, the driving roller supporting mechanism 2009 is disposed on the driving roller 2008, the driving roller 2009 and is disposed on the driving roller 2008, transition rotary drum 2009 rotates and drives bull stick 3002 through conveyer belt one 2006 and rotates, and then drives the operation of no sensing self-adaptation regulation formula large granule grinding device 3000, is equipped with control motor one 2010 on the mixed extrusion device 4000 lateral wall, is equipped with control motor two 2011 on the mixed extrusion device 4000 lateral wall, and the output axle head of control motor one 2010 and control motor two 2011 links to each other with mixed extrusion device 4000, and control motor one 2010 and the operation of control motor two 2011 drive mixed extrusion device 4000 operation.

As shown in fig. 3, 9, 10 and 11, the oblique twisting extrusion type bidirectional rotation adjustment crushing device 1000 includes a crushing barrel 1100, a primary crushing mechanism 1200, a bidirectional adjustment type crushing mechanism 1300, a pneumatic adjustment mechanism 1400 and an inner cutter wheel auxiliary mechanism 1500, the bidirectional adjustment type crushing mechanism 1300 is disposed in the crushing barrel 1100, the primary crushing mechanism 1200 is disposed in the crushing barrel 1100, the bidirectional adjustment type crushing mechanism 1300 is driven by a first driving motor 2002 and a second driving motor 2004 to operate, the product processed by the primary crushing mechanism 1200 is further crushed into particles, the pneumatic adjustment mechanism 1400 is disposed on a side wall of the crushing barrel 1100, the pneumatic adjustment mechanism 1400 is adjusted based on the movement mode of the bidirectional adjustment type crushing mechanism 1300 to screen fine particles, and the particles with an excessively large aperture are sent to a non-sensing adaptive adjustment type large particle grinding device 3000 to grind the fine powder, one end of the inner cutter wheel auxiliary mechanism 1500 is rotated and disposed in the crushing barrel 1100, the other end of the inner cutter wheel auxiliary mechanism 1500 is engaged with a control gear 2005, the second driving motor 2004 to drive a driven gear 1501 to rotate through a control gear 2005, and then drive the inner cutter wheel auxiliary mechanism 1500 to operate; the primary crushing mechanism 1200 comprises a primary crushing rotating wheel 1201, a multi-level crushing cutter wheel 1202 and an annular control rack 1203, one end of the primary crushing rotating wheel 1201 is rotatably arranged on the upper wall of the crushing barrel 1100, one end of the annular control rack 1203 is arranged at the other end of the primary crushing rotating wheel 1201, the other end of the annular control rack 1203 is meshed with a control fluted disc 2003, and the multi-level crushing cutter wheel 1202 is arranged on the inner side wall of the primary crushing rotating wheel 1201; the first driving motor 2002 drives the preliminary crushing rotating wheel 1201 to rotate through the annular control rack 1203 in operation, and then drives the multi-layer crushing cutter wheel 1202 to perform preliminary crushing treatment on the raw material.

As shown in fig. 5, 9, 10, 11, 13, 14 and 15, the bidirectional adjusting crushing mechanism 1300 comprises a first expansion link 1301, an upper control wheel 1302, a lower rotation wheel 1303, a first rotation adjusting rod 1304, a second rotation adjusting rod 1305 and a first adjusting cutter wheel 1306, wherein the lower rotation wheel 1303 is rotatably arranged in the crushing barrel 1100, the upper control wheel 1302 is provided with an upper auxiliary groove 1307, the lower rotation wheel 1303 is provided with a lower auxiliary groove 1308, two sets of upper fixing rods 1309 are arranged on two opposite inner side walls of the upper auxiliary groove 1307, two sets of upper fixing rods 1309 are arranged on the upper fixing rods 1309, two sets of lower fixing rods 1310 are arranged on two opposite inner side walls of the lower auxiliary groove 1308, two sets of hydraulic rods 1311 are arranged on the inner side walls of the lower auxiliary groove 1308, the upper control wheel 1302 and the lower rotation wheel 1303 are arranged in central symmetry, two through holes 1313 are arranged at two ends of the first rotation adjusting rod 1304, two through holes 1313 are arranged at two ends of the first rotation adjusting rod 1305, the lower end of the first rotation adjusting rod 1304 is rotatably arranged on the lower fixing rod 1310 through one through hole 1312, the lower end of a second rotating adjusting rod 1305 is rotatably arranged on the other lower fixed rod 1310 through a second through hole 1313, the upper end of a first rotating adjusting rod 1304 is rotatably arranged on an upper fixed rod 1309 through a first through hole 1312, the upper end of a second rotating adjusting rod 1305 is rotatably arranged on the other upper fixed rod 1309 through a second through hole 1313, an upper control wheel 1302 is movably connected with the first rotating adjusting rod 1304 and the upper end of the second rotating adjusting rod 1305 through the upper fixed rod 1309, when the upper control wheel 1302 rotates reversely, the first rotating adjusting rod 1304 and the second rotating adjusting rod 1305 are driven to rotate by taking the fixed rod 1310 below the upper end as the center of a circle, the lower rotating wheel 1303 is driven to rotate in the crushing barrel 1100, the movable end of a first telescopic rod 1301 is arranged on the upper wall of the upper control wheel 1302, the fixed end of the first telescopic rod 1301 is arranged on the bottom wall of the primary crushing rotating wheel 1201, and the first rotating adjusting rod 1304 and the second rotating adjusting rod 1305 are provided with an elastic plate 1314, one end of the adjusting knife flywheel 1306 is rotatably arranged on the first rotating adjusting rod 1304, a torsion spring 1315 is arranged on the first rotating adjusting rod 1304, one end of the torsion spring 1315 is arranged on the side wall of the elastic plate 1314, and the other end of the torsion spring 1315 is arranged on the other end of the adjusting knife flywheel 1306 through the first rotating adjusting rod 1304; during normal use, when the first driving motor 2002 is controlled to operate to drive the primary crushing rotating wheel 1201 to rotate in the forward direction, the primary crushing rotating wheel 1201 drives the upper control wheel 1302 to rotate through the first telescopic rod 1301, the upper control wheel 1302 drives the lower rotating wheel 1303 to rotate in the crushing barrel 1100 through the first rotating adjusting rod 1304 and the second rotating adjusting rod 1305, so that the adjusting knife wheel 1306 in the crushing barrel 1100 operates to crush raw materials, conversely, the first driving motor 2002 is controlled to operate to drive the primary crushing rotating wheel 1201 to rotate in the reverse direction, the primary crushing rotating wheel 1201 drives the upper control wheel 1302 to rotate in the reverse direction through the first telescopic rod 1301, further drives the first rotating adjusting rod 1304 and the lower fixing rod 1310 below the upper end of the second rotating adjusting rod 1305 to rotate as the circle center, the first rotating adjusting rod 1304 and the second rotating adjusting rod 1305 tilt in the reverse direction, the angle between the first rotating wheel 1304 and the lower rotating wheel 1303 becomes gradually smaller from the right angle, and further drives the lower rotating wheel 1303 to rotate in the crushing barrel 1100, in the process, the adjusting knife flywheel 1306 is pressed inwards under the control of the second rotating adjusting rod 1305, the elastic plate 1314 ensures that the adjusting knife flywheel 1306 is not pressed outwards under the control of the second rotating adjusting rod 1305, the adjusting knife flywheel 1306 is inclined inwards in the horizontal direction at the moment and inclined upwards in the vertical direction, the inclination degree of the adjusting knife flywheel 1306 in the horizontal direction is related to the inner diameter of the second rotating adjusting rod 1305, the inclination time in the vertical direction is related to the length of the hydraulic rod 1311, when the first rotating adjusting rod 1304 and the second rotating adjusting rod 1305 rotate and incline, the upper control wheel 1302 is driven to slide downwards, the movable end of the first telescopic rod 1301 extends, the relative distance between the upper control wheel 1302 and the lower rotating wheel 1303 becomes smaller, because the number of the adjusting knife flywheel 1306 is unchanged, under the condition that the crushing efficiency is unchanged, and under the condition that the first driving motor 2002 runs in the reverse direction, the crushing time (and also the falling time) of the material is much shorter than the case of the forward operation of the first drive motor 2002.

Assuming that the direction of the arrow in fig. 16 is defined as the opposite direction, two sets of upper fixing bars 1309 are provided, wherein one set of upper fixing bars 1309 is disposed closely to the side wall of the upper auxiliary slot 1307, the other set of upper fixing bars 1309 is disposed away from the other opposite side wall of the upper auxiliary slot 1307, the lower auxiliary slot 1308 is disposed in central symmetry with the upper auxiliary slot 1307, and the lower fixing bars 1310 and the upper fixing bars 1309 are disposed in central symmetry, which results in that, if the driving motor one 2002 drives the upper control wheel 1302 to rotate in the opposite direction, the margin between the other set of upper fixing bars 1309 and the upper auxiliary slot 1307 and the margin between the other set of lower fixing bars 1310 and the lower auxiliary slot 1308 will give room for the rotation adjusting rod one 1304 and the rotation adjusting rod two 1305 to incline, and at the same time, the hydraulic rod 1311 is disposed on the side wall of the lower auxiliary slot 1308, and the hydraulic rod 1311 will adjust the position of the margin, thereby adjusting the angle of the rotation adjusting rod one 1304 and the rotation adjusting rod two 1305 will be changed since the adjusting wheel 1306 is disposed perpendicular to the rotation adjusting rod 1304.

In fig. 17, a rectangle with width a and length b is compressed to form a parallelogram with short side a and long side b, and a height h is made on the long side of the parallelogram, which will certainly result in h < a, and therefore x > h, so the adjusting knife wheel 1306 is certainly pressed by the second rotating adjusting rod 1305, the existence of the elastic plate 1314 will ensure that the pressing direction of the adjusting knife wheel 1306 is inward, when the crushing is finished, the first rotating adjusting rod 1304 and the second rotating adjusting rod 1305 will return to the initial state, and the adjusting knife wheel 1306 will return to the original position under the action of the torsion spring 1315.

As shown in fig. 2, 9, 10 and 19, the pneumatic adjustment mechanism 1400 includes a pneumatic control chamber 1401, a pneumatic control groove 1402, a sliding block 1403, a screen 1318 and a screen 1319, wherein one end of the pneumatic control chamber 1401 is disposed on the outer sidewall of the crushing barrel 1100, the pneumatic control groove 1402 is disposed on the outer sidewall of the crusher, one end of the sliding block 1403 is disposed on the upper control wheel 1302, the other end of the sliding block 1403 is slidably disposed on the pneumatic control groove 1402, an elastic sealing bag 1404 is disposed between the pneumatic control groove 1402 and the sliding block 1403, one end of the screen 1318 is disposed in the crushing barrel 1100, the other end of the screen 1318 is communicated with the pneumatic control chamber 1401, and the screen 1319 is disposed on the screen 1318; when the first driving motor 2002 runs to drive the primary crushing rotating wheel 1201 to rotate reversely, the lower rotating wheel rotates, the relative distance between the upper control wheel 1302 and the lower rotating wheel 1303 becomes smaller, and then the sliding block 1403 is driven to slide downwards in the pneumatic control groove 1402, when the sliding block slides, the gas in the pneumatic control groove 1402 is compressed into the screen 1318, and then the inner side wall of the screen 1319 deforms to thin the hole diameter.

As shown in fig. 10 and 18, the inner cutter wheel assisting mechanism 1500 includes a driven gear 1501, a second telescopic rod 1502, a rotary cutter 1503, an L-shaped rod 1504 and a cleaning roller 1505, a cross rod 1316 is provided on an inner side wall of the upper control wheel 1302, a hole 1317 is provided on the cross rod 1316, one end of the driven gear 1501 is rotatably provided in the crushing barrel 1100, the other end of the driven gear 1501 is connected with a second driving motor 2004, a fixed end of the second telescopic rod 1502 is provided on an outer upper wall of the driven gear 1501, a movable end of the second telescopic rod 1502 is provided in the hole 1317, the rotary cutter 1503 is provided on the second telescopic rod 1502, the second driving motor 2004 is activated to drive the driven gear 1501 to rotate, the driven gear 1501 is driven by the second telescopic rod to rotate, the rotary cutter 1503 to complete crushing work together with the adjustment cutter wheel 1306, one end of the L-shaped rod is provided on an outer bottom wall of the driven gear, one end of the cleaning roller 1505 is rotatably provided on the other end of the L-shaped rod 1504, the other end of the cleaning roller is rotatably provided on an outer upper wall of the screen 8, when the driven gear 1501 rotates, the driven gear 1501 reaches the end of the cleaning roller 1501, and the cleaning roller 1505, the large-particle milling screen 1313000, and the large-particle milling roller 1319 is directly enters the cleaning roller 1313000, and then passes through the inner-type screen window 1313000, and the cleaning roller 1313000.

As shown in fig. 2, 4 and 7, the sensorless adaptive large particle mill 3000 includes a self-adjusting mill chamber 3001, a rotating rod 3002, a rotating cover 3003, a connecting rod 3004, a rotating ring 3005, an elastic member 3006, a mill body 3007 and a discharge pipe 3008, a large particle material flow port 1600 is formed on the sidewall of the crushing barrel 1100, the self-adjusting mill chamber 3001 is formed on the sidewall of the crushing barrel 1100, a cleaning roller 1505 discharges large particle material into the self-adjusting mill chamber 3001 through the large particle material flow port 1600, a chute 3009 is formed on the inner sidewall of the self-adjusting mill chamber 3001, a pipe 3010 is formed on the inner bottom wall of the self-adjusting mill chamber 3001, one end of the rotating rod 3002 is rotatably disposed in the self-adjusting mill chamber 3001, the other end of the rotating rod 3002 penetrates the upper wall of the self-adjusting mill chamber 3001 to be connected to the output of the second driving motor 2004, one end of the rotating cover 3003 is disposed on one end of the rotating rod 3002, one end of the connecting rod 3004 is disposed on the other end of the rotating cover 3003, one end of the rotating ring 3005 is disposed on the other end of the connecting rod 3004, the other end of the rotating ring 3005 is slidably disposed in the sliding groove 3009, one end of the elastic member 3006 is disposed on the inner upper wall of the rotating cover 3003, the elastic member 3006 is in a compressed state and provides a downward elastic force, one end of the grinding body 3007 is disposed on the other end of the elastic member 3006, the other end of the grinding body 3007 is disposed on the inner bottom wall of the self-adjusting grinding chamber 3001, one end of the discharge pipe 3008 is disposed on the other end of the grinding body 3007, the other end of the grinding body 3007 penetrates through the pipe groove 3010 and is disposed outside the self-adjusting grinding chamber 3001, the grinding body 3007 is disposed in a semi-elliptical shape, the inner bottom wall of the self-adjusting grinding chamber 3001 is disposed in a semi-elliptical shape, the long axis of the grinding body 3007 is identical to the long axis of the bottom wall of the self-adjusting grinding chamber 3001, the short axis of the grinding body 3007 is shorter than the short axis of the bottom wall of the self-adjusting grinding chamber 3001, the arrangement of the same long axis and the different short axes can ensure that the distance between the outer wall of the grinding body 3007 and the inner bottom wall of the self-adjusting grinding cavity 3001 is reduced from top to bottom, the side wall of the discharge pipe 3008 is provided with a discharge groove 3011, the operation of the driving motor II 2004 can drive the rotating rod 3002 to rotate, the rotating rod 3002 can drive the rotating cover 3003 and the connecting rod 3004 to rotate, and the rotating ring 3005 can rotate in the sliding groove 3009, the large-particle raw material enters the space between the outer wall of the grinding body 3007 and the inner bottom wall of the self-adjusting grinding cavity 3001 through the large-particle raw material flowing port 1600 and the connecting rod 3004, the rotating cover 3003 can drive the elastic member 3006 to rotate, so as to drive the grinding member to rotate on the inner bottom wall of the self-adjusting grinding cavity 3001 for grinding, because the distance between the outer wall of the grinding body 3007 and the inner bottom wall of the self-adjusting grinding cavity 3001 is reduced from top to bottom, therefore, when large particle raw materials enter between the outer wall of the grinding body 3007 and the inner bottom wall of the self-adjusting grinding cavity 3001, the large particle raw materials are arranged in a sequence that the aperture is sequentially reduced from top to bottom, as the grinding body 3007 rotates, raw materials with higher positions are ground, the aperture is reduced and flows downwards, as the position of the raw materials is reduced, the grinding body 3007 gradually grinds the raw materials into powder and accumulates at the lowest point of the inner bottom wall of the self-adjusting grinding cavity 3001, and then the position of the grinding body 3007 is raised, so that the arrangement pipe slides upwards in the pipe groove 3010, at the moment, the powdery raw materials and the grinding body 3007 further compress the elastic member 3006, the elastic force of the elastic member 3006 is increased, the grinding effect on the raw materials is enhanced, the raw materials become finer powder, the use requirements are met, and the ground raw materials sequentially flow downwards and are discharged through the discharge groove 3011.

As shown in fig. 4, 5, 6 and 8, the mixing and extrusion molding device 4000 comprises a mixing and stirring cavity 4001, an extrusion molding cavity 4002, an outer roller 4003, an inner extrusion roller 4004, an inner discharging roller 4005 and a material storage bag 4006, the mixing and stirring cavity 4001 is arranged on the outer bottom wall of a self-adjusting grinding cavity 3001, mixing and stirring teeth 4012 are rotatably arranged in the mixing and stirring cavity 4001, raw materials sequentially pass through the powder and fall into the mixing and stirring cavity 4001, the mixing and stirring teeth 4012 are started to mix and stir the raw materials, a sliding material blocking door 4007 is slidably arranged on the bottom wall of the mixing and stirring cavity 4001, the extrusion molding cavity 4002 is arranged on the outer bottom wall of the mixing and stirring cavity 4001, the sliding material blocking door 4007 is controlled to operate, the mixed raw material powder falls into the extrusion molding cavity 4002, a material discharging door 4008 is arranged on the side wall of the extrusion molding cavity 4002, the outer roller 4003 is rotatably arranged on the opposite two side walls of the extrusion molding cavity 4002, the outer roller 4003 is arranged in a cylindrical barrel without a bottom wall, the outer roller 4003 is connected with an output shaft end of a control motor I2010, one end of an inner extrusion roller 4004 is rotatably arranged on the inner side wall of an extrusion molding cavity 4002, the other end of the inner extrusion roller 4004 penetrates through the extrusion molding cavity 4002 and is arranged outside the extrusion molding cavity 4002, an auxiliary rod I4009 is arranged at the other end of the inner extrusion roller 4004, the inner material discharging roller 4005 and the inner extrusion roller 4004 are symmetrically arranged, an auxiliary rod II 4010 is arranged at the other end of the inner material discharging roller 4005, a conveyor belt III 4011 is arranged on the auxiliary rod I4009 and the auxiliary rod II 4010, the auxiliary rod I4009 is connected with an output shaft end of a control motor II 2011, the material storing bag 4006 is arranged on the side wall of the outer roller 4003, the control motor I2010 drives the outer roller 4003 to rotate so that raw material powder sequentially falls into the material storing bag 4006, the control motor II 2011 simultaneously drives the inner roller to rotate, the inner extrusion molding roller 4004 is matched with the inner side wall of the extrusion molding cavity 4002 to extrude raw material powder in the material storing bag 4006 to be extruded and molded, the extruded product rotates along the outer roller 4003 until the inner discharging roller 4005 extrudes the device through the discharge port.

As shown in fig. 5, the first drive motor 2002 and the second drive motor 2004 are bi-directional motors.

As shown in fig. 10, the elastic sealing bag 1404 is made of an elastic material having sealing properties.

When the crushing device is used specifically, the first driving motor 2002 and the second driving motor 2004 are started to be in a running state all the time, and the first driving motor 2002 and the second driving motor 2004 are guaranteed to run in opposite directions all the time, so that the directions of the adjusting knife flywheel 1306 and the rotating knife flywheel 1503 are opposite, and the crushing efficiency is guaranteed; when the first driving motor 2002 operates, the primary crushing rotating wheel 1201 is driven to rotate through the control fluted disc 2003, and then the bidirectional adjusting type crushing mechanism 1300 is driven to operate, and when the second driving motor 2004 operates, the driven gear 1501 is driven to rotate through the control gear 2005, and then the inner cutter wheel auxiliary mechanism 1500 is driven to operate.

An operator adds raw materials above the crushing barrel 1100, and the first driving motor 2002 drives the preliminary crushing rotating wheel 1201 to rotate through the annular control rack 1203 in operation, so as to drive the multi-level crushing cutter wheel 1202 to perform preliminary crushing treatment on the raw materials; when the driving motor I2002 operates to drive the primary crushing rotating wheel 1201 to rotate forwards, the primary crushing rotating wheel 1201 drives the upper control wheel 1302 to rotate through the telescopic rod I1301, the upper control wheel 1302 drives the lower rotating wheel 1303 to rotate in the crushing barrel 1100 through the rotating adjusting rod I1304 and the rotating adjusting rod II 1305, and then the adjusting knife wheel 1306 in the crushing barrel 1100 operates to crush raw materials; on the contrary, the driving motor i 2002 is operated to drive the primary crushing rotating wheel 1201 to rotate reversely, the primary crushing rotating wheel 1201 drives the upper control wheel 1302 to rotate reversely through the first telescopic rod 1301, and further drives the first rotation adjusting rod 1304 and the second rotation adjusting rod 1305 to rotate around the fixed rod 1310 below the upper end, the first rotation adjusting rod 1304 and the second rotation adjusting rod 1305 incline reversely, the angle between the first rotation adjusting rod 1304 and the second rotation adjusting rod 1305 and the lower rotating wheel 1303 is gradually reduced from a right angle, and further drives the lower rotating wheel 1303 to rotate in the crushing barrel 1100, in the process, the adjusting knife wheel 1306 is pressed inwards under the control of the second rotation adjusting rod 1305, the elastic plate 1314 ensures that the adjusting knife wheel 1306 is not pressed outwards under the control of the second rotation adjusting rod 1305, and the adjusting knife wheel 1306 is inclined inwards in the horizontal direction at the moment, the material crushing device can be inclined upwards in the vertical direction, the inclination degree of the adjusting knife flywheel 1306 in the horizontal direction is related to the inner diameter of the rotating adjusting rod II 1305, the inclination time in the vertical direction is related to the length of the hydraulic rod 1311, when the rotating adjusting rod I1304 and the rotating adjusting rod II 1305 rotate and incline, the upper control flywheel 1302 can be driven to slide downwards, the movable end of the telescopic rod I1301 extends, the relative distance between the upper control flywheel 1302 and the lower rotating wheel 1303 becomes smaller, and the number of the adjusting knife flywheel 1306 is unchanged, so that under the condition that the crushing efficiency is unchanged, and under the condition that the driving device 2000 runs in the reverse direction, the crushing time (the descending time) of the material is far shorter than that under the condition that the driving device 2000 runs in the forward direction; when the driving device 2000 drives the primary crushing rotating wheel 1201 to rotate reversely, the lower rotating wheel rotates, the relative distance between the upper control wheel 1302 and the lower rotating wheel 1303 is reduced, and then the sliding block 1403 is driven to slide downwards in the pneumatic control groove 1402, when the sliding block slides, the gas in the pneumatic control groove 1402 is compressed into the screen 1318, and then the inner side wall of the screen hole 1319 deforms to make the hole diameter thinner.

The second driving motor 2004 drives the second driven gear 1501 to rotate, the second driven gear 1501 drives the rotary cutter disc 1503 to rotate through the second telescopic rod 1502 to complete crushing work together with the adjusting cutter wheel 1306, when the driving device 2000 drives the second driven gear 1501 to rotate, the first end of the L-shaped rod 1504 is driven to rotate at the same time, the first end of the L-shaped rod 1504 drives the cleaning roller 1505 to rotate along the other end of the L-shaped rod 1504 as a circle center and to rotate and roll on the outer upper wall of the screen 1318 at the same time, so that crushed products are promoted to be sieved, required small particles can directly fall through the screen holes 1319, undesirable large particles are discharged into the self-adjusting grinding cavity 3001 through the large particle material flow port 1600, a downward elastic force can be provided due to the fact that the elastic piece 3006 is in a compressed state, the second driving motor 2004 drives the transition drum 2009 to rotate through the first conveying belt 2006 while operating, the transition drum 2009 rotates to drive the rotating rod 3002 to rotate through the first conveyor 2006, the rotating rod 3002 drives the rotating cover 3003 and the connecting rod 3004 to rotate, and the rotating ring 3005 rotates in the sliding groove 3009, the large-particle raw material enters between the outer wall of the grinding body 3007 and the inner bottom wall of the self-adjusting grinding cavity 3001 through the space between the large-particle raw material flowing port 1600 and the connecting rod 3004, the rotating cover 3003 rotates to drive the elastic member 3006 to rotate, and further drive the grinding member to rotate on the inner bottom wall of the self-adjusting grinding cavity 3001 for grinding, because the distance between the outer wall of the grinding body 3007 and the inner bottom wall of the self-adjusting grinding cavity 3001 is sequentially reduced from top to bottom, when the large-particle raw material enters between the outer wall of the grinding body 3007 and the inner bottom wall of the self-adjusting grinding cavity 3001, the large-particle raw material with higher position is ground and the aperture is reduced to flow downwards as the grinding body 3007 rotates, along with the descending of the position of the grinding body 3007, the grinding body 3007 can gradually grind the raw materials into powder, the powder is accumulated at the lowest point of the inner bottom wall of the self-adjusting grinding cavity 3001, the position of the grinding body 3007 is further raised, so that the arrangement pipe slides upwards in the pipe groove 3010, at the moment, the elastic piece 3006 is further compressed by the powdery raw materials and the grinding body 3007, the elastic force of the elastic piece 3006 can be increased, the grinding effect on the raw materials is enhanced, the raw materials become finer powder, the use requirement is met, the ground raw materials form powder and sequentially flow downwards and are discharged through the discharge groove 3011 to enter the mixing and stirring cavity 4001, the mixing and stirring teeth 4012 are started to mix and stir the raw materials, the sliding material blocking door 4007 is controlled to operate, the mixed raw materials can fall into the extrusion molding cavity 4002, the control motor I2010 drives the outer roller 4003 to rotate so that the raw materials sequentially fall into the storage bag 4006, the control motor II simultaneously drives the inner pressing roller 4004 to cooperate with the extrusion molding cavity 4002 to press the inner side wall of the storage bag 4006, and the raw materials are extruded and then pass through the extrusion molding device 2011 to extrude the extruded products into the extrusion cavity 4005.

The above is the overall working process of the invention, and the steps are repeated when the device is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (5)

1. The utility model provides a broken production machine of two-way break bar torsion control formula carburant which characterized in that: the device comprises an inclined twisting extrusion type bidirectional rotation adjusting crushing device (1000), a driving device (2000), a sensorless self-adaptive adjusting large-particle grinding device (3000) and a mixed extrusion forming device (4000), wherein the driving device (2000) is arranged on the side wall of the inclined twisting extrusion type bidirectional rotation adjusting crushing device (1000), the sensorless self-adaptive adjusting large-particle grinding device (3000) is symmetrically arranged on the side wall of the inclined twisting extrusion type bidirectional rotation adjusting crushing device (1000), and the mixed extrusion forming device (4000) is arranged on the bottom wall of the sensorless self-adaptive adjusting large-particle grinding device (3000); the inclined twisting extrusion type bidirectional rotation adjusting crushing device (1000) comprises a crushing barrel (1100), a primary crushing mechanism (1200), a bidirectional adjusting crushing mechanism (1300), a pneumatic adjusting mechanism (1400) and an inner cutter wheel auxiliary mechanism (1500), wherein the bidirectional adjusting crushing mechanism (1300) is arranged in the crushing barrel (1100), the primary crushing mechanism (1200) is arranged in the crushing barrel (1100), the pneumatic adjusting mechanism (1400) is arranged on the side wall of the crushing barrel (1100), one end of the inner cutter wheel auxiliary mechanism (1500) is rotatably arranged in the crushing barrel (1100), and the other end of the inner cutter wheel auxiliary mechanism (1500) is connected with a driving device (2000); wherein the primary crushing mechanism (1200) comprises a primary crushing rotating wheel (1201), a multi-layer crushing cutter wheel (1202) and an annular control rack (1203), one end of the primary crushing rotating wheel (1201) is rotatably arranged on the upper wall of the crushing barrel (1100), one end of the annular control rack (1203) is arranged on the other end of the primary crushing rotating wheel (1201), the other end of the annular control rack (1203) is meshed with a driving device (2000), the multi-layer crushing cutter wheel (1202) is arranged on the inner side wall of the primary crushing rotating wheel (1201), the two-way adjusting type crushing mechanism (1300) comprises a first telescopic rod (1301), an upper control wheel (1302), a lower rotating wheel (1303), a first rotating adjusting rod (1304), a second rotating adjusting rod (1305) and an adjusting cutter wheel (1306), the lower rotating wheel (1303) is rotatably arranged in the crushing barrel (1100), an upper auxiliary groove (1307) is arranged on the upper control wheel (1302), two sets of auxiliary fixing rods (1309) are arranged on the upper auxiliary rotating wheel (1307), two sets of lower fixing rods (1310) are arranged on the inner side wall (1310), two sets of auxiliary fixing rods (1308) are arranged on the upper auxiliary fixing rods (1309), and two sets of lower fixing rods (1308) are arranged on the inner side wall (1308), the upper control wheel (1302) and the lower rotating wheel (1303) are arranged in central symmetry, a first through hole (1312) is formed in each of two ends of the first rotating adjusting rod (1304), a second through hole (1313) is formed in each of two ends of the second rotating adjusting rod (1305), the lower end of the first rotating adjusting rod (1304) is rotatably arranged on the lower fixing rod (1310) through the first through hole (1312), the lower end of the second rotating adjusting rod (1305) is rotatably arranged on the other lower fixing rod (1310) through the second through hole (1313), the upper end of the first rotating adjusting rod (1304) is rotatably arranged on the upper fixing rod (1309) through the first through hole (1312), the upper end of the second rotating adjusting rod (1305) is rotatably arranged on the other upper fixed rod (1309) through a second through hole (1313), the upper control wheel (1302) is movably connected with the first rotating adjusting rod (1304) and the second rotating adjusting rod (1305) through the upper fixed rod (1309), the movable end of the first telescopic rod (1301) is arranged on the upper wall of the upper control wheel (1302), the fixed end of the first telescopic rod (1301) is arranged on the bottom wall of the primary crushing rotating wheel (1201), the first rotating adjusting rod (1304) and the second rotating adjusting rod (1305) are provided with elastic plates (1314), one end of the adjusting knife wheel (1306) is rotatably arranged on the first rotating adjusting rod (1304), and the first rotating adjusting rod (1304) is provided with a torsion spring (1315), one end of the torsion spring (1315) is arranged on the side wall of the elastic plate (1314), the other end of the torsion spring (1315) is arranged at the other end of the adjusting knife wheel (1306) through a rotating adjusting rod I (1304), the pneumatic adjusting mechanism (1400) comprises a pneumatic control cavity (1401), a pneumatic control groove (1402), a sliding block (1403), a screen (1318) and a sieve hole (1319), one end of the pneumatic control cavity (1401) is arranged on the outer side wall of the crushing barrel (1100), the pneumatic control groove (1402) is arranged on the outer side wall of the crushing barrel, one end of the sliding block (1403) is arranged on the upper control wheel (1302), the other end of the sliding block (1403) is arranged on the pneumatic control groove (1402) in a sliding mode, an elastic sealing bag (1404) is arranged between the pneumatic control groove (1402) and the sliding block (1403), one end of the screen (8) is arranged in the crushing barrel (1100), the other end of the screen (1318) is communicated with the pneumatic control cavity (1401), the sieve hole (1319) is arranged on the screen (1318), the inner knife wheel (1502) comprises a cross gear (1317) and a cross-shaped rotating rod (1316) and a cross-shaped roller (1316) mechanism (1316), one end of the driven gear (1501) is rotatably arranged in a crushing barrel (1100), the other end of the driven gear (1501) is connected with the driving device (2000), the fixed end of the second telescopic rod (1502) is arranged on the outer upper wall of the driven gear (1501), the movable end of the second telescopic rod (1502) is arranged in the hole (1317), the rotary cutter disc (1503) is arranged on the second telescopic rod (1502), one end of the L-shaped rod (1504) is arranged on the outer bottom wall of the driven gear (1501), one end of the cleaning roller (1505) is rotatably arranged at the other end of the L-shaped rod (1504), the other end of the cleaning roller (1505) is rotatably arranged on the outer upper wall of the screen mesh (1318), the non-sensing self-adaptive regulation type large-particle grinding device (3000) comprises a self-regulation type grinding cavity (3001), a rotary rod (3002), a rotary cover (3003), a connecting rod (3004), a rotary ring (3005), an elastic piece (3006), a grinding body (3007) and a rotary pipe (3008), the side wall of the crushing barrel (1501) is provided with a self-regulation type grinding cavity (3001), the inner side wall of the grinding barrel (3001) is provided with a self-regulation type grinding chute (1600), the inner side wall of the inner side wall (3001), the inner side wall of the self-regulation type grinding tube (3001) is provided with a self-regulation type grinding chute (3009), the other end of the rotating rod (3002) penetrates through the upper wall of the self-adjusting grinding cavity (3001) and is connected with a driving device (2000), one end of the rotary cover (3003) is arranged on one end of the rotary rod (3002), one end of the connecting rod (3004) is arranged on the other end of the rotating cover (3003), one end of the rotating ring (3005) is arranged on the other end of the connecting rod (3004), the other end of the rotating ring (3005) is arranged in the sliding groove (3009) in a sliding way, one end of the elastic piece (3006) is arranged on the inner upper wall of the rotary cover (3003), one end of the grinding body (3007) is arranged on the other end of the elastic piece (3006), the other end of the grinding body (3007) is arranged on the inner bottom wall of the self-adjusting grinding cavity (3001), one end of the discharge pipe (3008) is arranged on the other end of the grinding body (3007), the other end of the grinding body (3007) penetrates through the pipe groove (3010) and is arranged outside the self-adjusting grinding cavity (3001), the grinding body (3007) is arranged in a semi-ellipsoid shape, the bottom wall in the self-adjusting grinding cavity (3001) is arranged in a groove of the semi-ellipsoid shape, the long axis of the grinding body (3007) is consistent with the length of the long axis of the bottom wall in the self-adjusting grinding cavity (3001), the length of the short axis of the grinding body (3007) is less than that of the short axis of the inner bottom wall of the self-adjusting grinding cavity (3001), and a discharge groove (3011) is arranged on the side wall of the discharge pipe (3008).

2. The two-way cutter wheel torsion adjusting type carburant crushing production machine as claimed in claim 1, wherein: the mixed extrusion forming device (4000) comprises a mixed stirring cavity (4001), an extrusion forming cavity (4002), an outer roller (4003), an inner extrusion roller (4004), an inner material discharging roller (4005) and a material storing bag (4006), the mixed stirring cavity (4001) is arranged on the outer bottom wall of the self-adjusting grinding cavity (3001), mixed stirring teeth (4012) are arranged in the mixed stirring cavity (4001) in a rotating way, a sliding material blocking door (4007) is arranged on the bottom wall of the mixed stirring cavity (4001) in a sliding way, the extrusion forming cavity (4002) is arranged on the outer bottom wall of the mixed stirring cavity (4001), a material discharging door (4008) is arranged on the side wall of the extrusion forming cavity (4002), the outer roller (4003) is arranged on the two opposite side walls of the extrusion forming cavity (4002), the outer roller (4003) is arranged on the cylinder without the bottom wall, the outer roller (4003) is connected with a driving device (2000), one end of the inner extrusion roller (4004) is arranged on the extrusion forming cavity (4002), the inner side wall of the inner extrusion forming rod (4004) is arranged on the inner extrusion forming cavity (4005), and the inner side wall of the extrusion forming rod (4004) is arranged on the other end of the extrusion forming roller (4005), and the inner extrusion forming rod (4004) is arranged on the inner side wall of the extrusion forming rod (4005) and the extrusion forming roller (4005) and the extrusion forming rod (4004) which is arranged symmetrically, be equipped with conveyer belt three (4011) on auxiliary rod one (4009) and auxiliary rod two (4010), auxiliary rod one (4009) links to each other with drive arrangement (2000), material storage bag (4006) are located on outer cylinder (4003) lateral wall.

3. The bi-directional cutter wheel torsion adjusting type carburant crushing production machine as claimed in claim 2, wherein: the driving device (2000) comprises a driving control cavity (2001), a first driving motor (2002), a first control fluted disc (2003), a second driving motor (2004), a control gear (2005), a first conveyor belt (2006) and a second conveyor belt (2007), wherein the driving control cavity (2001) is arranged on the outer side wall of the crushing barrel (1100), a supporting plate (2012) is arranged on the outer side wall of the crushing barrel (1100), the first driving motor (2002) is arranged on the outer upper wall of the supporting plate (2012), one end of the control fluted disc (2003) is arranged on the output shaft end of the first driving motor (2002), the other end of the control fluted disc (2003) penetrates through the side wall of the crushing barrel (1100) to be meshed with an annular control rack (1203), the second driving motor (2004) is arranged on the outer bottom wall of the supporting plate (2012), one end of the control gear (2005) is arranged on the output shaft end of the second driving motor (2004), the other end of the control gear (2005) penetrates through the side wall of the crushing barrel (1100) to be meshed with a driven gear (1501), a supporting base (2001) is arranged on the side wall of the supporting base (2001), and a transition conveyor belt (2008) is arranged on the other end of the transition conveyor belt (2008) which is connected with the first driving motor (2009), one end of the second conveying belt (2007) is arranged on the transition rotary drum (2009), the other end of the second conveying belt (2007) is arranged on the rotary rod (3002), a first control motor (2010) is arranged on the side wall of the extrusion molding cavity (4002), the output shaft end of the first control motor (2010) is connected with the outer rotary drum (4003), a second control motor (2011) is arranged on the side wall of the extrusion molding cavity (4002), and the output shaft end of the second control motor (2011) is connected with the first auxiliary rod (4009).

4. The bi-directional cutter wheel torsion adjusting type carburant crushing production machine as claimed in claim 3, wherein: the first driving motor (2002) and the second driving motor (2004) are bidirectional motors.

5. The bi-directional cutter wheel torsion adjusting type carburant crushing production machine as claimed in claim 4, wherein: the elastic sealing bag (1404) is made of elastic material with sealing performance.

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