CN109968727B - Punch forming machine for preparing biomass energy by using straws - Google Patents

Abstract

The invention provides a punch forming machine for preparing biomass energy by utilizing straws, which comprises a base, a power source, a quantitative containing device, a punch forming device and a power transmission device, wherein straw powder is stored in the quantitative containing device, the base is horizontally arranged on the ground, the quantitative containing device is used for providing a die for straw powder punch forming and can quantitatively contain the straw powder and enable the straw powder to be right opposite to the die, the punch forming device is used for carrying out a punching process on the straw powder, the power source is used for providing power for the work of the quantitative containing device and the punch forming device, and the power transmission device is used for power connection transmission among the power source, the quantitative containing device and the punch forming device.

Description

Punch forming machine for preparing biomass energy by using straws

Technical Field

The invention relates to the field of straw processing, in particular to equipment for stamping straw powder into blocks.

Background

The straw is the discarded object of agricultural product originally, can be burnt as grass at most, not only does not have any benefit, and the polluted environment still, the advanced technology of present can turn into the macromolecular material of fungible petroleum base energy with agricultural discarded object such as straw, rice husk to can adjust degradation time at will, but no matter be the straw whole, the straw powder after the straw is smashed, all be difficult for the transportation, it is imperative to punch into the cubic of being convenient for the transportation with the straw powder.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide equipment for stamping straw powder into blocks, the feeding, stamping and demolding processes of the straw powder and the operation of the pneumatic motor all use compressed gas provided by an air pump as a power source, the whole process is full-automatic, manual operation is not needed, the labor intensity is reduced, and meanwhile, the pneumatic motor has long service life and is not influenced by external factors, so that the equipment is safer and more reliable.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

Utilize straw to prepare stamping forming machine of biomass energy, including base, power supply, ration splendid attire get the device, stamping forming device, power transmission device, the straw powder store in the ration take the device greatly, base horizontal installation is in ground, the ration is taken the device greatly and is used for providing the mould and can quantitatively take the straw powder greatly and make it just right to the mould for straw powder stamping forming, stamping forming device is used for carrying out the punching press process to the straw powder, the power supply is used for taking device and stamping forming device work greatly for the ration and provides power, power transmission device is used for the power supply, the ration is taken the device greatly, power between the stamping forming device three is connected the transmission.

As a further improvement of the present solution.

The power source comprises a pneumatic motor, an air valve, an air inlet pipeline and a transition guide pipe, wherein the pneumatic motor is fixed on the base, the air valve is of a rectangular shell structure provided with an inner cavity, an air inlet interface is arranged at the bottom of the air valve, three groups of air outlet interfaces are arranged on the side surface of the air valve, and the three groups of air outlet interfaces are respectively an air outlet interface I, an air outlet interface II and an air outlet interface III;

one end of the air inlet pipeline is connected and communicated with an external air pump, the other end of the air inlet pipeline is connected and communicated with an air inlet interface, one end of the transition guide pipe is connected and communicated with an air outlet interface, and the other end of the transition guide pipe is connected and communicated with the pneumatic motor.

As a further improvement of the present solution.

The quantitative containing device comprises a storage bin for storing straw powder, a die mechanism for providing a die for straw powder stamping, and a containing mechanism for containing the straw powder and enabling the straw powder to be opposite to the die mechanism;

the storage bin is of a shell structure provided with a storage inner cavity, the storage bin is fixed on the base, and a feed inlet for feeding straw powder is formed in the storage bin;

the containing mechanism is arranged in the storage bin and comprises a driving roller and a driven roller which are horizontally arranged, the axial directions of the driving roller and the driven roller are parallel to the width direction of the storage bin, the driving roller and the driven roller are movably arranged in the storage bin and can rotate around the axial direction of the driving roller and the driven roller, the driving roller is positioned right below the driven roller, the power input end of the driving roller and the power output end of the driven roller extend out of the storage bin, and the driving roller and the driven roller are respectively positioned on one side of the storage bin along the width direction of the storage bin;

the conveying belt is arranged between the driving roller and the driven roller and is in power connection transmission through the conveying belt, the containing scoops with extension directions parallel to the axial direction of the driving roller are further arranged on the conveying belt, a plurality of groups of containing scoops are arranged in an array mode along the extension directions of the conveying belt, and the containing scoops positioned on one side, facing a feed inlet of the storage bin, of the conveying belt are bent towards a direction away from the ground;

the wall of the storage bin between the feed inlet and the driving roller is obliquely arranged, and the distance between the wall of the storage bin and the conveyor belt is increased from bottom to top;

the material storage bin feed inlet department match and install feed hopper, feed hopper is both ends opening and the platform body structure on extending direction perpendicular to ground, feed hopper's tip and storage bin feed inlet are connected the switch-on.

As a further improvement of the present solution.

The die mechanism is arranged on the side surface of the storage bin, and the die mechanism and the power output end of the driven roller are positioned on the same side of the storage bin;

the die mechanism comprises a die body and a sealing end cover, wherein the die body is of a cylindrical structure and is coaxially fixed outside the power output end of the driven roller, punching grooves penetrating through the die body in the axial direction are further formed in the die body, four groups of the punching grooves are arrayed in the circumferential direction of the die body, one group of the punching grooves are located at the uppermost part of the die body, one group of the punching grooves are located at the lowermost part of the die body, one group of the punching grooves face towards the feed port of the storage bin, and one group of the punching grooves depart from the feed port of the storage bin;

a fixing support is arranged between the sealing end cover and the storage bin, the sealing end cover and the storage bin are fixedly installed through the fixing support, the sealing end cover is positioned on one side, away from the storage bin, of the die body, and the sealing end cover is used for sealing an opening, away from the storage bin, of the stamping groove;

the end face, away from the storage bin, of the sealing end cover is provided with a discharge pipeline, and the discharge pipeline is communicated with the stamping groove positioned at the lowest part in the four groups of stamping grooves;

the end surface of the sealing end cover, which is far away from the storage bin, is also provided with a guide piece, the guide piece is of a shell structure with openings at two ends, the free end of the discharge pipeline is positioned in the guide piece, the upper/lower end surface of the guide piece is obliquely arranged, and the distance between the upper/lower end surface and the sealing end cover is gradually reduced from bottom to top;

the upper cavity wall of the guide piece is provided with a cushion pad in a matching way.

As a further improvement of the present solution.

The punching forming device comprises a punching mechanism for punching straw powder, a control mechanism for controlling the opening and closing of the punching mechanism and a demoulding mechanism for demoulding the straw blocks after punching forming;

the stamping mechanism is arranged on the side surface of the storage bin, and the stamping mechanism and the power input end of the driving roller are positioned on the same side of the storage bin;

the stamping mechanism comprises a mounting shell, a piston, a stamping rod and a first air guide pipe, wherein the mounting shell is of a shell structure with one open end and one closed end, the open end of the mounting shell is matched with a mounting end cover, the closed end of the mounting shell is fixed on the side surface of the storage bin, a first through hole is formed in the closed end of the mounting shell, and a second through hole which is coaxially arranged with the first through hole is formed in the side surface of the storage bin;

the piston is arranged in the mounting shell and forms sliding guide fit between the piston and the mounting shell, one end of the stamping rod is fixedly connected with the piston, the other end of the stamping rod is a stamping end, the stamping end penetrates through the first penetrating hole and the second penetrating hole and is positioned in the storage bin, and the stamping end of the stamping rod is aligned to a stamping groove facing to a feed inlet of the storage bin in the four sets of stamping grooves;

the part of the stamping rod, which is positioned in the mounting shell, is sleeved with a return spring, and the elastic force of the return spring enables the stamping rod to move close to the mounting end cover;

the mounting end cover is provided with a connecting nozzle, and the first air duct is communicated with the connecting nozzle.

As a further improvement of the present solution.

The control mechanism is arranged on the side surface of the storage bin, and the control mechanism and the punching mechanism are positioned on the same side of the storage bin;

the control mechanism comprises a control valve, a reset component, a trigger component and a gas guide tube II, the control valve comprises a control valve casing, a control valve core and a control valve rod, the control valve casing is of a casing structure with an opening at one end and a closed end, the opening end of the control valve casing is matched with a valve cover, the closed end of the control valve casing is fixed on the side surface of the storage bin, three groups of ventilation interfaces are arranged on the outer surface of the control valve casing and are respectively a first ventilation interface located on the side surface facing the feed inlet of the storage bin, a second ventilation interface located on the lower end surface and a third ventilation;

the control valve core is arranged in the control valve shell, a sealed rotation fit is formed between the control valve core and the control valve shell, a fourth ventilation interface is arranged on the outer surface of the control valve core, and a fifth ventilation interface is arranged on the end face of the control valve core, which is far away from the valve cover;

the valve cover is provided with a first avoidance hole, the extending direction of the control valve rod is parallel to the axial direction of the driving roller, one end of the control valve rod is fixedly connected with the control valve core, and the other end of the control valve rod penetrates through the avoidance hole and is positioned outside the control valve shell;

the reset component comprises a containing shell and a coil spring, the containing shell is of a shell structure with an opening at one end and a closed end, the opening end of the containing shell is fixed on the valve cover, a second avoiding hole coaxially arranged with the second avoiding hole is formed in the closed end of the containing shell, the free end of the control valve rod penetrates through the second avoiding hole and is positioned outside the containing shell, the coil spring is arranged between the wall of the containing shell and the control valve rod, the control valve rod is driven by the elasticity of the coil spring to rotate the control valve core, and finally the vent interface IV is communicated with the vent interface II;

the trigger component comprises a rotating shaft, a rotating rod and a trigger rod, the rotating shaft is axially parallel to the axial direction of the control valve rod, the rotating shaft is fixed on the side surface of the storage bin and is positioned right below the control valve, the rotating rod is fixed outside the rotating shaft, the trigger rod is fixed outside the control valve rod, the trigger rod is positioned on one side of the rotating rod, which faces the feed inlet of the storage bin, and the rotating shaft, the rotating rod and the trigger rod are in contact;

one end of the air guide pipe II is communicated with the air outlet interface III of the air valve, and the other end of the air guide pipe II is communicated with the air vent interface;

the motion state of the control mechanism can be divided into a closed state that the vent interface four is communicated with the vent interface two and compressed gas cannot flow, an open state that the vent interface four is communicated with the vent interface one and compressed gas can flow, and the initial state of the control mechanism is the closed state.

As a further improvement of the present solution.

The demolding mechanism comprises a demolding pipeline and a third air guide pipe, a through hole is formed in the side face, facing the punching mechanism, of the storage bin, the demolding pipeline is fixed in the storage bin, one end of the demolding pipeline penetrates through the through hole and is located outside the storage bin, and the other end of the demolding pipeline is communicated with the punching groove located at the lowest position in the four groups of punching grooves;

one end of the air duct III is communicated with the demoulding pipeline, and the other end of the air duct III is communicated with the air outlet interface II of the air valve;

the inner cavity of the demoulding pipeline is divided into two sections which are respectively a circular table section close to the air guide pipe III and a cylindrical section close to the mould body, and the cylindrical section is communicated with the large end of the circular table section.

As a further improvement of the present solution.

The power transmission device comprises a power linkage mechanism and a power transmission mechanism, wherein the power linkage mechanism is used for connecting the rotating shaft and the driving roller in a power way and enabling the rotating shaft and the driving roller to rotate periodically;

the power linkage mechanism is a sheave intermittent mechanism and comprises a driving drive plate and a sheave, the driving drive plate is coaxially fixed outside the rotating shaft, and a convex locking arc and a cylindrical pin are arranged on the end face of the driving drive plate, which is far away from the storage bin.

The grooved pulley is a rectangular plate body, the grooved pulley is fixed outside the power input end of the driving roller, the fixing point is positioned in the middle of the grooved pulley, arc-shaped notches bent towards the direction away from the driving roller are arranged at the four corners of the grooved pulley, and the arc surface formed at the arc-shaped notches is a concave locking arc matched with the convex locking arc;

the grooved pulley is characterized in that the part of the grooved pulley between two adjacent concave locking arcs is an intermittent section, the intermittent section is provided with four groups of radial grooves, the four groups of radial grooves are correspondingly arranged, and the free end of the cylindrical pin is positioned in any one group of radial grooves in the four groups of radial grooves.

As a further improvement of the present solution.

The power transmission mechanism comprises a gear shaft, the axial direction of the gear shaft is parallel to the axial direction of the driving roller, and the gear shaft is fixed on the side surface of the storage bin;

a belt transmission member is arranged between the gear shaft and the pneumatic motor, power connection and transmission are carried out between the gear shaft and the pneumatic motor through the belt transmission member, a gear member is arranged between the gear shaft and the rotating shaft, and power connection and transmission are carried out between the gear shaft and the rotating shaft through the gear member.

Compared with the prior art, the straw powder feeding, stamping, demolding processes and the operation of the pneumatic motor all use compressed gas provided by the air pump as a power source, the whole process is full-automatic, manual operation is not needed, the labor intensity is reduced, meanwhile, the service life of the pneumatic motor is long and is not influenced by external factors, and the pneumatic motor is safer and more reliable.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic view of the power source of the present invention.

Fig. 4 is a cross-sectional view of the gas valve of the present invention.

Fig. 5 is a view showing the combination of the quantitative receiving device and the press-molding device according to the present invention.

Fig. 6 is a view showing the internal arrangement of the quantitative receiving device and the press molding device according to the present invention.

Fig. 7 is a view showing the internal arrangement of the quantitative receiving device and the press molding device according to the present invention.

FIG. 8 is a schematic view of the holding mechanism of the present invention.

Fig. 9 is a schematic structural view of the die mechanism of the present invention.

Fig. 10 is a schematic structural view of the die mechanism of the present invention.

Fig. 11 is a view showing the engagement of the mold body and the end cap according to the present invention.

Fig. 12 is a cross-sectional view of a guide of the present invention.

Fig. 13 is a view showing a press molding apparatus according to the present invention in cooperation with a mold body.

Fig. 14 is a cross-sectional view of a press mechanism of the present invention.

Fig. 15 is a schematic structural view of the control mechanism of the present invention.

Fig. 16 is a cross-sectional view of the control valve housing of the present invention.

Fig. 17 is a cross-sectional view of the control valve of the present invention.

Fig. 18 is a schematic structural view of the trigger member of the present invention.

Fig. 19 is a view showing a combination of the mold releasing mechanism and the mold body according to the present invention.

Fig. 20 is a cross-sectional view of a stripper tube of the present invention.

Fig. 21 is a schematic configuration diagram of the power transmission device of the present invention.

Fig. 22 is a schematic structural view of the power transmission mechanism of the present invention.

FIG. 23 is a schematic view showing the power linkage mechanism, the rotating shaft, and the driving roller according to the present invention.

Fig. 24 is a schematic structural view of the power linkage mechanism of the present invention.

Detailed Description

The quantitative containing device and the punch forming device are matched to punch and form the straw powder, and the invention has the advantages that the feeding, punching and demoulding processes of the straw powder and the operation of the pneumatic motor all use the compressed gas provided by the air pump as a power source, the whole process is full-automatic, manual operation is not needed, the labor intensity is reduced, meanwhile, the service life of the pneumatic motor is long, the pneumatic motor is not influenced by external factors, and the pneumatic motor is safer and more reliable.

Utilize straw to prepare stamping forming machine of biomass energy, including base, power supply 100, ration splendid attire get device 200, stamping forming device 300, power transmission device 400, the straw powder store in the ration take device 200 greatly, base horizontal installation is on ground, the ration is taken device 200 greatly and is used for providing the mould and can quantitatively take the straw powder and make it just right to the mould for straw powder stamping forming, stamping forming device 300 is used for carrying out the punching press process to the straw powder, power supply 100 is used for taking device 200 and stamping forming device 300 work for the ration greatly and provides power, power transmission device 400 is used for power supply 100, the ration is taken device 200 greatly, the power connection transmission between the stamping forming device 300 three.

Dumping straw powder into the quantitative containing device 200 through the prior art or manual operation, allowing the quantitative containing device 200 to operate and containing the straw powder to the die stamping port right opposite to the inside of the quantitative containing device 200, allowing the stamping forming device 300 to operate and performing stamping forming on the straw powder, allowing the quantitative containing device 200 to continue to move and enabling the formed straw block to be right opposite to the die stripping port after the stamping is completed, and allowing the straw block to be stripped in the die by the stamping forming device 300.

The power source 100 comprises a pneumatic motor 110, an air valve 120, an air inlet pipeline 130 and a transition duct 140, wherein the pneumatic motor 110 is fixed on a base, the air valve 120 is a rectangular shell structure provided with an inner cavity, an air inlet interface 121 is arranged at the bottom of the air valve 120, and three groups of air outlet interfaces, namely an air outlet interface I122, an air outlet interface II 123 and an air outlet interface III 124, are arranged on the side surface of the air valve 120.

One end of the air inlet pipe 130 is connected and communicated with an external air pump, the other end of the air inlet pipe is connected and communicated with the air inlet port 121, one end of the transition duct 140 is connected and communicated with the first air outlet port 122, and the other end of the transition duct is connected and communicated with the pneumatic motor 110.

Compressed air provided by an external air pump can enter the air motor 110 through the air inlet pipe 130, the air valve 120 and the transition duct 140, and operate the air motor 110.

The quantitative holding device 200 comprises a storage bin 210 for storing straw powder, a die mechanism 220 for providing a die for straw powder stamping, and a holding mechanism 230 for holding straw powder and making the straw powder right opposite to the die mechanism 220.

The storage bin 210 is a shell structure provided with a storage inner cavity, the storage bin 210 is fixed on the base, and a feed inlet for feeding straw powder is further formed in the storage bin 210.

The containing mechanism 230 is arranged in the storage bin 210, the containing mechanism 230 comprises a driving roller 231 and a driven roller 232 which are horizontally arranged, the axial directions of the driving roller 231 and the driven roller 232 are all parallel to the width direction of the storage bin 210, the driving roller 231 and the driven roller 232 are movably arranged in the storage bin 210 and can rotate around the axial direction of the driving roller 231, the driving roller 231 is located under the driven roller 232, the power input end of the driving roller 231 and the power output end of the driven roller 232 are both extended out of the storage bin 210, and the driving roller 231 and the driven roller 232 are respectively located on one side of the storage bin 210 in the width direction of the driving roller and.

Drive roll 231 and driven roller 232 between be provided with conveyer belt 233 and carry out the power connection transmission through conveyer belt 233 between the two, still be provided with the extending direction on the conveyer belt 233 and be on a parallel with drive roll 231 axial and hold and get spoon 234, and hold and get spoon 234 and be provided with a plurality of groups along the extending direction array of conveyer belt 233 to be located conveyer belt 233 and get the spoon 234 towards holding of storage silo 210 feed inlet one side and bend towards the direction that deviates from ground.

The driving roller 231 rotates and pulls the conveying belt 233 to move, the conveying belt 233 moves and pulls the containing spoon 234 to move synchronously, and the containing spoon 234 moves and simultaneously scoops the straw powder stored in the storage bin 210.

Preferably, the cavity wall of the storage bin 210 between the feeding port and the driving roller 231 is arranged obliquely, and the distance between the cavity wall and the conveyor belt 233 increases from bottom to top; after the straw powder enters the storage bin 210 through the feeding hole, the straw powder can be stacked near the driving roller 231, the containing spoon 234 can conveniently shovel the straw powder to the inside of the straw powder, and if the cavity wall is horizontally arranged, the punch forming machine can horizontally place part of the straw powder to the bottom of the cavity of the storage bin 210 and cannot obtain punching when the punch forming machine operates to the end.

Preferably, in order to facilitate the straw powder to enter the storage bin 210 through the feeding hole, the feeding hole of the storage bin 210 is provided with a feeding funnel 211 in a matching manner, the feeding funnel 211 is a table structure with two open ends and an extending direction perpendicular to the ground, and the small end of the feeding funnel 211 is communicated with the feeding hole of the storage bin 210.

The mold mechanism 220 is installed on the side of the storage bin 210, and the power output ends of the mold mechanism 220 and the driven roller 232 are located on the same side of the storage bin 210.

The die mechanism 220 includes a die body 221 and a sealing end cover 222, the die body 221 is a cylindrical structure and is coaxially fixed outside the power output end of the driven roller 232, punching grooves running through the die body 221 in the axial direction are further arranged in the die body 221, the punching grooves are arranged in four groups along the circumferential direction of the die body 221 in an array manner, one group of the punching grooves is located at the top of the die body 221, one group of the punching grooves is located at the bottom of the die body 221, one group of the punching grooves faces the feed port of the storage bin 210, and the other group of the punching grooves faces away from the feed port of the storage bin 210.

A fixing support is arranged between the sealing end cover 222 and the storage bin 210, the sealing end cover 222 and the storage bin 210 are fixedly mounted through the fixing support, the sealing end cover 222 is located on one side, away from the storage bin 210, of the die body 221, and the sealing end cover 222 is used for sealing an opening, away from the storage bin 210, of the stamping groove.

The end face of the sealing end cover 222, which faces away from the storage bin 210, is provided with a discharge pipe 223, and the discharge pipe 223 is communicated with the stamping groove located at the lowest position in the four sets of stamping grooves.

The containing mechanism 230 contains straw powder through the containing spoon 234 and makes the straw powder face a stamping groove facing a feeding hole of the storage bin 210 in four groups of stamping grooves, then the stamping forming device 300 operates and pushes the straw powder into the stamping groove and performs a stamping process, after stamping is completed, the containing mechanism 230 continues to operate for three periods and pulls the die body 221 through the driven roller 232 to synchronously operate for three periods, the stamping groove is located at the lowest part of the four groups of stamping grooves, and then the stamping forming device 300 operates and performs a demoulding process on straw blocks in the stamping groove, namely the straw blocks are taken out through the stamping groove and the discharging pipeline 223; in the process that the containing mechanism 230 continues to operate for three periods, the containing mechanism 230 is matched with the punch forming device 300 and can sequentially push the straw powder into the remaining three groups of punching grooves for punching.

Preferably, the end surface of the end cap 222 facing away from the storage bin 210 is further provided with a guide 224, the guide 224 is a shell structure with two open ends, the free end of the discharge duct 223 is located in the guide 224, the upper/lower end surface of the guide 224 is arranged in an inclined manner, and the distance between the upper/lower end surface and the end cap 222 decreases from bottom to top; the straw pieces are smoothly guided by the upper/lower end surfaces of the guide member 224 to slide down to the ground after being taken out from the free end of the discharge duct 223.

Preferably, in order to prevent the straw pieces from colliding with the upper cavity wall of the guide member and causing the straw pieces to be cracked in the process that the straw pieces are taken out from the free end of the discharge duct 223 and then guided by the guide member 224 to slide down, the upper cavity wall of the guide member 224 is provided with a cushion pad 225 in a matching manner.

The stamping forming device 300 comprises a stamping mechanism 310 for stamping straw powder, a control mechanism 320 for controlling the stamping mechanism 310 to open and close, and a demoulding mechanism 330 for demoulding the straw blocks after stamping forming.

The stamping mechanism 310 is installed on the side of the storage bin 210, and the stamping mechanism 310 and the power input end of the driving roller 231 are located on the same side of the storage bin 210.

The punching mechanism 310 comprises an installation shell 311, a piston 312, a punching rod 313 and a first air duct 315, the installation shell 311 is of a shell structure with one open end and one closed end, the open end of the installation shell 311 is matched with an installation end cover, the closed end of the installation shell 311 is fixed on the side surface of the storage bin 210, a first through hole is formed in the closed end of the installation shell 311, and a second through hole which is coaxially arranged with the first through hole is formed in the side surface of the storage bin 210.

The piston 312 is arranged in the mounting shell 311 and forms sliding guide fit between the piston and the mounting shell, one end of the stamping rod 313 is fixedly connected with the piston 312, the other end of the stamping rod is a stamping end, the stamping end penetrates through the first penetrating hole and the second penetrating hole and is positioned in the storage bin 210, and the stamping end of the stamping rod 313 is aligned to the stamping groove facing to the feeding hole of the storage bin 210 in the four sets of stamping grooves.

The part of the stamping rod 313 in the mounting shell 311 is sleeved with a return spring 314, and the elastic force of the return spring 314 enables the stamping rod 313 to move close to the mounting end cover.

The mounting end cover is provided with a connecting nozzle, and the first air duct 315 is communicated with the connecting nozzle.

Compressed air provided by an external air pump enters an area between the mounting end cover and the piston 312 in the mounting shell 311 through the air inlet pipeline 130, the air valve 120, the control mechanism 320 and the first air guide pipe 315, so that the piston 312 and the stamping rod 313 are pushed to move close to the die body 221, namely, the stamping mechanism 310 performs a stamping forming process on straw powder in the stamping grooves facing the feed inlet of the storage bin 210 in the four sets of stamping grooves, after stamping is completed, the control mechanism 320 prevents the compressed air from entering the stamping mechanism 310, and the stamping mechanism 310 is restored to an original state under the elastic force of the return spring 314.

The control mechanism 320 is installed on the side of the storage bin 210, and the control mechanism 320 and the stamping mechanism 310 are located on the same side of the storage bin 210.

Control mechanism 320 include the control valve, the component resets, the trigger component, air duct two 328, the control valve includes control valve casing 321, control valve core 322, control valve rod 323, control valve casing 321 is one end opening, one end confined shell structure, and its open end matches and installs the valve gap, control valve casing 321 blind end is fixed in the storage silo 210 side, three groups of interfaces of ventilating and respectively for being located towards the first 3211 interface of ventilating of the side of storage silo 210 feed inlet have been seted up to control valve casing 321's surface, be located the two 3212 interfaces of ventilating of terminal surface down, be located the three 3213 interfaces of ventilating of up end.

The control valve core 322 is arranged in the control valve casing 321, a sealed rotation fit is formed between the control valve core and the control valve casing 321, a vent port four 3221 is arranged on the outer surface of the control valve core 322, and a vent port five 3222 is arranged on the end surface of the control valve core 322, which is away from the valve cover.

The valve cover is provided with a first avoiding hole, the extending direction of the control valve rod 323 is parallel to the axial direction of the driving roller 231, one end of the control valve rod 323 is fixedly connected with the control valve core 322, and the other end of the control valve rod 323 penetrates through the avoiding hole and is positioned outside the control valve shell 321.

The reset member comprises a containing shell and a coil spring 324, the containing shell is of a shell structure with one open end and one closed end, the open end of the containing shell is fixed on the valve cover, a second avoiding hole coaxially arranged with the second avoiding hole is formed in the closed end of the containing shell, the free end of the control valve rod 323 penetrates through the second avoiding hole and is located outside the containing shell, the coil spring 324 is arranged between the wall of the containing shell and the control valve rod 323, the control valve rod 323 is driven by the elasticity of the coil spring 324 to rotate the control valve core 322, and finally the ventilation interface IV 3221 is communicated with the ventilation interface II 3212.

The trigger member comprises a rotating shaft 325, a rotating rod 326 and a trigger rod 327, wherein the rotating shaft 325 is axially parallel to the axial direction of the control valve rod 323, the rotating shaft 325 is fixed on the side surface of the storage bin 210 and is positioned right below the control valve, the rotating rod 326 is fixed outside the rotating shaft 325, the trigger rod 327 is fixed outside the control valve rod 323, the trigger rod 327 is positioned on one side of the rotating rod 326 facing the feeding hole of the storage bin 210, and the two are in contact.

One end of the air duct II 328 is connected and communicated with the air outlet interface III 124 of the air valve 120, and the other end is connected and communicated with the air inlet interface I3211.

The motion state of the control mechanism 320 can be divided into a closed state in which the four ventilation ports 3221 are communicated with the two ventilation ports 3212 and compressed gas cannot flow, an open state in which the four ventilation ports 3221 are communicated with the first ventilation ports 3211 and compressed gas can flow, and an initial state of the control mechanism 320 is a closed state.

The rotating shaft 325 rotates and pulls the rotating rod 326 to rotate synchronously, the rotating rod 326 pushes the trigger rod 327 and rotates the control valve rod 323 in the rotating process, finally the control mechanism 320 is switched to an open state, external compressed gas can flow into the stamping mechanism 310 through the control mechanism 320, and the stamping mechanism 310 can perform a stamping process; after the punching is completed, the rotating rod 326 is separated from the contact with the trigger rod 327, the control mechanism 320 is restored to the original state under the elastic force of the coil spring 324, i.e. switched to the closed state, and at this time, the control mechanism 320 prevents the compressed gas from entering the punching mechanism 310.

The demolding mechanism 330 comprises a demolding pipeline 331 and a third air duct 332, a through hole is formed in the side face, facing the punching mechanism 310, of the storage bin 210, the demolding pipeline 331 is fixed in the storage bin 210, one end of the demolding pipeline passes through the through hole and is located outside the storage bin 210, and the other end of the demolding pipeline is communicated with the lowest punching slot in the four groups of punching slots.

One end of the air duct III 332 is connected and communicated with the demoulding pipeline 331, and the other end is connected and communicated with the air outlet interface II 123 of the air valve 120.

Compressed air provided by an external air pump enters the demolding pipeline 331 through the air inlet pipeline 130, the air valve 120 and the air guide pipe three 332, and finally straw blocks in the lowest punching groove in the four groups of punching grooves are blown away by the compressed air, so that the demolding procedure is completed.

Preferably, the inner cavity of the demolding pipeline 331 is divided into two sections, namely a circular table section close to the air guide pipe III 332 and a cylindrical section close to the mold body 221, and the cylindrical section is communicated with the large end of the circular table section; the significance is that the process of compressed gas passing through the demoulding pipeline 331 is more smooth, and the cyclone phenomenon is avoided, namely, the noise is reduced.

The power transmission device 400 includes a power linkage mechanism 420 for connecting the rotation shaft 325 and the drive roller 231 and making them periodically rotate, and a power transmission mechanism 410 for receiving the power of the air motor 110 and transmitting it to the power linkage mechanism 420.

The power linkage mechanism 420 is a sheave intermittent mechanism, the power linkage mechanism 420 comprises an active dial 421 and a sheave 423, the active dial 421 is coaxially fixed outside the rotating shaft 325, and a convex locking arc and a cylindrical pin 422 are arranged on the end surface of the active dial 421 departing from the storage bin 210.

The grooved pulley 423 is a rectangular plate, the grooved pulley 423 is fixed outside the power input end of the driving roller 231, the fixing point is located in the middle of the grooved pulley 423, arc-shaped notches bent towards the direction away from the driving roller 231 are arranged at four corners of the grooved pulley 423, and the arc surface formed at each arc-shaped notch is a concave locking arc 424 matched with the convex locking arc.

The part of the grooved pulley 423 between two adjacent concave locking arcs 424 is an intermittent section 425, the intermittent section 425 is provided with four radial grooves 426, the four radial grooves 426 are correspondingly provided, and the free end of the cylindrical pin 422 is positioned in any one radial groove 426 of the four radial grooves 426.

The rotating shaft 325 rotates and pulls the driving dial 421 to rotate synchronously, the driving dial 421 rotates and enables the grooved pulley 423 to rotate synchronously through the matching of the cylindrical pin 422 and the radial groove 426, the grooved pulley 423 rotates and pulls the driving roller 231 to rotate synchronously, when the rotating shaft 325 rotates for one fourth period, the cylindrical pin 422 is separated from the radial groove 426, in the three-fourth period, the rotating shaft 325 rotates and does not pull the grooved pulley 423 to rotate any more, meanwhile, the convex locking arc locks the concave locking arc 424, the grooved pulley 423 is stationary, after the last three-fourth period of the rotating shaft 325 is completed, the cylindrical pin 422 is located in the radial groove 426 again, and the convex locking arc is separated from the concave locking arc 424 again, so that the next wheel can move, and the operation is repeated.

The power transmission mechanism 410 comprises a gear shaft 411, the gear shaft 411 is axially parallel to the axial direction of the driving roller 231, and the gear shaft 411 is fixed on the side surface of the storage bin 210.

A belt transmission member 412 is provided between the gear shaft 411 and the air motor 110, and the gear shaft 411 and the rotary shaft 325 are connected and transmitted by the belt transmission member 412, and a gear member 413 is provided between the gear shaft 411 and the rotary shaft 325, and the gear shaft is connected and transmitted by the gear member 413.

The air motor 110 operates and transmits power to the rotation shaft 325 through the belt transmission member 412, the gear shaft 411, and the gear member 413 such that the rotation shaft 325 can be axially rotated about itself.

During actual work, compressed air provided by an external air pump enables the pneumatic motor 110 to operate, the pneumatic motor 110 operates and enables the rotating shaft 325 to rotate around the self axial direction through the power transmission mechanism 410, the rotating shaft 325 rotates in the front quarter period and pulls the driving roller 231 to rotate synchronously through the power linkage mechanism 420, and the pulling driving roller 231 stops rotating in the back three-quarter period;

in the first quarter of the period, the driving roller 231 operates to enable a group of containing scoops 234 to be fully shoveled with straw powder and face the punching grooves of the four groups of punching grooves facing the feeding hole of the storage bin 210, and meanwhile, the rotating rod 326 is in contact with the trigger rod 327; in the last three-quarter period, the rotating shaft 325 rotates and enables the control mechanism 320 to be switched to the open state through the matching of the rotating rod 326 and the trigger rod 327, external compressed gas can enter the stamping mechanism 310 through the control mechanism 320 and enables the stamping mechanism 310 to push straw powder into stamping grooves of the four sets of stamping grooves facing the feed inlet of the storage bin 210, and a stamping process is performed, after the stamping is completed, the rotating rod 326 is separated from contact with the trigger rod 327, the control mechanism 320 is switched to the closed state, and meanwhile, the stamping mechanism 310 is restored to the original state under the elastic force of the return spring 314;

then the rotating shaft 325 continues to rotate for three cycles, the driving roller 231 continues to rotate for three-fourths of cycles, at this time, the punching grooves facing the feeding hole of the storage bin 210 in the four groups of punching grooves rotate to be positioned at the lowest part, and meanwhile, the compressed gas enters the demolding pipeline 331 and blows away the straw blocks in the punching grooves, namely demolding is finished;

during the three-cycle continuous rotation of the rotating shaft 325 and the three-quarter continuous rotation of the driving roller 231, the quantitative receiving device 200 and the punching mechanism 310 sequentially perform feeding and punching on the remaining three sets of punching grooves.

Claims (3)

1. The punching and forming machine for preparing the biomass energy by utilizing the straws is characterized by comprising a base, a power source, a quantitative containing device, a punching and forming device and a power transmission device, wherein the straw powder is stored in the quantitative containing device;

the power source comprises a pneumatic motor, an air valve, an air inlet pipeline and a transition guide pipe, wherein the pneumatic motor is fixed on the base, the air valve is of a rectangular shell structure provided with an inner cavity, an air inlet interface is arranged at the bottom of the air valve, three groups of air outlet interfaces are arranged on the side surface of the air valve, and the three groups of air outlet interfaces are respectively an air outlet interface I, an air outlet interface II and an air outlet interface III;

one end of the air inlet pipeline is connected and communicated with an external air pump, the other end of the air inlet pipeline is connected and communicated with an air inlet interface, one end of the transition guide pipe is connected and communicated with an air outlet interface, and the other end of the transition guide pipe is connected and communicated with the pneumatic motor;

the quantitative containing device comprises a storage bin for storing straw powder, a die mechanism for providing a die for straw powder stamping, and a containing mechanism for containing the straw powder and enabling the straw powder to be opposite to the die mechanism;

the storage bin is of a shell structure provided with a storage inner cavity, the storage bin is fixed on the base, and a feed inlet for feeding straw powder is formed in the storage bin;

the containing mechanism is arranged in the storage bin and comprises a driving roller and a driven roller which are horizontally arranged, the axial directions of the driving roller and the driven roller are parallel to the width direction of the storage bin, the driving roller and the driven roller are movably arranged in the storage bin and can rotate around the axial direction of the driving roller and the driven roller, the driving roller is positioned right below the driven roller, the power input end of the driving roller and the power output end of the driven roller extend out of the storage bin, and the driving roller and the driven roller are respectively positioned on one side of the storage bin along the width direction of the storage bin;

the conveying belt is arranged between the driving roller and the driven roller and is in power connection transmission through the conveying belt, the containing scoops with extension directions parallel to the axial direction of the driving roller are further arranged on the conveying belt, a plurality of groups of containing scoops are arranged in an array mode along the extension directions of the conveying belt, and the containing scoops positioned on one side, facing a feed inlet of the storage bin, of the conveying belt are bent towards a direction away from the ground;

the wall of the storage bin between the feed inlet and the driving roller is obliquely arranged, and the distance between the wall of the storage bin and the conveyor belt is increased from bottom to top;

the feeding port of the storage bin is provided with a feeding funnel in a matching way, the feeding funnel is of a platform body structure with two open ends and the extending direction vertical to the ground, and the small end of the feeding funnel is communicated with the feeding port of the storage bin;

the die mechanism is arranged on the side surface of the storage bin, and the die mechanism and the power output end of the driven roller are positioned on the same side of the storage bin;

the die mechanism comprises a die body and a sealing end cover, wherein the die body is of a cylindrical structure and is coaxially fixed outside the power output end of the driven roller, punching grooves penetrating through the die body in the axial direction are further formed in the die body, four groups of the punching grooves are arrayed in the circumferential direction of the die body, one group of the punching grooves are located at the uppermost part of the die body, one group of the punching grooves are located at the lowermost part of the die body, one group of the punching grooves face towards the feed port of the storage bin, and one group of the punching grooves depart from the feed port of the storage bin;

a fixing support is arranged between the sealing end cover and the storage bin, the sealing end cover and the storage bin are fixedly installed through the fixing support, the sealing end cover is positioned on one side, away from the storage bin, of the die body, and the sealing end cover is used for sealing an opening, away from the storage bin, of the stamping groove;

the end face, away from the storage bin, of the sealing end cover is provided with a discharge pipeline, and the discharge pipeline is communicated with the stamping groove positioned at the lowest part in the four groups of stamping grooves;

the end surface of the sealing end cover, which is far away from the storage bin, is also provided with a guide piece, the guide piece is of a shell structure with openings at two ends, the free end of the discharge pipeline is positioned in the guide piece, the upper/lower end surface of the guide piece is obliquely arranged, and the distance between the upper/lower end surface and the sealing end cover is gradually reduced from bottom to top;

a cushion pad is arranged on the upper cavity wall of the guide piece in a matching way;

the punching forming device comprises a punching mechanism for punching straw powder, a control mechanism for controlling the opening and closing of the punching mechanism and a demoulding mechanism for demoulding the straw blocks after punching forming;

the stamping mechanism is arranged on the side surface of the storage bin, and the stamping mechanism and the power input end of the driving roller are positioned on the same side of the storage bin;

the stamping mechanism comprises a mounting shell, a piston, a stamping rod and a first air guide pipe, wherein the mounting shell is of a shell structure with one open end and one closed end, the open end of the mounting shell is matched with a mounting end cover, the closed end of the mounting shell is fixed on the side surface of the storage bin, a first through hole is formed in the closed end of the mounting shell, and a second through hole which is coaxially arranged with the first through hole is formed in the side surface of the storage bin;

the piston is arranged in the mounting shell and forms sliding guide fit between the piston and the mounting shell, one end of the stamping rod is fixedly connected with the piston, the other end of the stamping rod is a stamping end, the stamping end penetrates through the first penetrating hole and the second penetrating hole and is positioned in the storage bin, and the stamping end of the stamping rod is aligned to a stamping groove facing to a feed inlet of the storage bin in the four sets of stamping grooves;

the part of the stamping rod, which is positioned in the mounting shell, is sleeved with a return spring, and the elastic force of the return spring enables the stamping rod to move close to the mounting end cover;

the mounting end cover is provided with a connecting nozzle, and the first air duct is communicated with the connecting nozzle;

the control mechanism is arranged on the side surface of the storage bin, and the control mechanism and the punching mechanism are positioned on the same side of the storage bin;

the control mechanism comprises a control valve, a reset component, a trigger component and a gas guide tube II, the control valve comprises a control valve casing, a control valve core and a control valve rod, the control valve casing is of a casing structure with an opening at one end and a closed end, the opening end of the control valve casing is matched with a valve cover, the closed end of the control valve casing is fixed on the side surface of the storage bin, three groups of ventilation interfaces are arranged on the outer surface of the control valve casing and are respectively a first ventilation interface located on the side surface facing the feed inlet of the storage bin, a second ventilation interface located on the lower end surface and a third ventilation;

the control valve core is arranged in the control valve shell, a sealed rotation fit is formed between the control valve core and the control valve shell, a fourth ventilation interface is arranged on the outer surface of the control valve core, and a fifth ventilation interface is arranged on the end face of the control valve core, which is far away from the valve cover;

the valve cover is provided with a first avoidance hole, the extending direction of the control valve rod is parallel to the axial direction of the driving roller, one end of the control valve rod is fixedly connected with the control valve core, and the other end of the control valve rod penetrates through the avoidance hole and is positioned outside the control valve shell;

the reset component comprises a containing shell and a coil spring, the containing shell is of a shell structure with an opening at one end and a closed end, the opening end of the containing shell is fixed on the valve cover, a second avoiding hole coaxially arranged with the second avoiding hole is formed in the closed end of the containing shell, the free end of the control valve rod penetrates through the second avoiding hole and is positioned outside the containing shell, the coil spring is arranged between the wall of the containing shell and the control valve rod, the control valve rod is driven by the elasticity of the coil spring to rotate the control valve core, and finally the vent interface IV is communicated with the vent interface II;

the trigger component comprises a rotating shaft, a rotating rod and a trigger rod, the rotating shaft is axially parallel to the axial direction of the control valve rod, the rotating shaft is fixed on the side surface of the storage bin and is positioned right below the control valve, the rotating rod is fixed outside the rotating shaft, the trigger rod is fixed outside the control valve rod, the trigger rod is positioned on one side of the rotating rod, which faces the feed inlet of the storage bin, and the rotating shaft, the rotating rod and the trigger rod are in contact;

one end of the air guide pipe II is communicated with the air outlet interface III of the air valve, and the other end of the air guide pipe II is communicated with the air vent interface;

the motion state of the control mechanism can be divided into a closed state that a ventilation interface four is communicated with a ventilation interface two and compressed gas cannot flow, an open state that the ventilation interface four is communicated with the ventilation interface one and compressed gas can flow, and the initial state of the control mechanism is a closed state;

the demolding mechanism comprises a demolding pipeline and a third air guide pipe, a through hole is formed in the side face, facing the punching mechanism, of the storage bin, the demolding pipeline is fixed in the storage bin, one end of the demolding pipeline penetrates through the through hole and is located outside the storage bin, and the other end of the demolding pipeline is communicated with the punching groove located at the lowest position in the four groups of punching grooves;

one end of the air duct III is communicated with the demoulding pipeline, and the other end of the air duct III is communicated with the air outlet interface II of the air valve;

the inner cavity of the demoulding pipeline is divided into two sections which are respectively a circular table section close to the air guide pipe III and a cylindrical section close to the mould body, and the cylindrical section is communicated with the large end of the circular table section;

the power transmission device comprises a power linkage mechanism and a power transmission mechanism, wherein the power linkage mechanism is used for connecting the rotating shaft and the driving roller in a power way and enabling the rotating shaft and the driving roller to rotate periodically;

the power linkage mechanism is a sheave intermittent mechanism and comprises a driving drive plate and a sheave, the driving drive plate is coaxially fixed outside the rotating shaft, and a convex locking arc and a cylindrical pin are arranged on the end face of the driving drive plate, which is far away from the storage bin.

2. The punching and forming machine for preparing the biomass energy by utilizing the straws as claimed in claim 1, wherein the grooved wheel is a rectangular plate body, the grooved wheel is fixed outside the power input end of the driving roller, the fixed point is located at the middle position of the grooved wheel, arc-shaped notches bent towards the direction away from the driving roller are arranged at the four corners of the grooved wheel, and the arc surface formed at the arc-shaped notches is a concave locking arc matched with the convex locking arc;

the grooved pulley is characterized in that the part of the grooved pulley between two adjacent concave locking arcs is an intermittent section, the intermittent section is provided with four groups of radial grooves, the four groups of radial grooves are correspondingly arranged, and the free end of the cylindrical pin is positioned in any one group of radial grooves in the four groups of radial grooves.

3. The punching and forming machine for preparing the biomass energy by utilizing the straws as claimed in claim 2, wherein the power transmission mechanism comprises a gear shaft, the axial direction of the gear shaft is parallel to the axial direction of the driving roller, and the gear shaft is fixed on the side surface of the storage bin;

a belt transmission member is arranged between the gear shaft and the pneumatic motor, power connection and transmission are carried out between the gear shaft and the pneumatic motor through the belt transmission member, a gear member is arranged between the gear shaft and the rotating shaft, and power connection and transmission are carried out between the gear shaft and the rotating shaft through the gear member.