CN113680298B - Preparation equipment of porous high-activity non-noble metal catalyst - Google Patents

Abstract

The invention discloses a preparation device of a porous high-activity non-noble metal catalyst, and relates to the technical field of catalyst production. This preparation equipment of porous high activity non-noble metal catalyst, including handling a section of thick bamboo, processing subassembly and drive assembly, the pan feeding entrance to a cave has been seted up at the top of handling a section of thick bamboo, and the ejection of compact entrance to a cave has been seted up to the bottom of handling a section of thick bamboo, and pan feeding entrance to a cave department fixed mounting has the cooling chamber, and ejection of compact entrance to a cave department fixed mounting has the reacting chamber, and the bottom of reacting chamber is equipped with the waste discharge mouth. This preparation equipment of porous high activity non-noble metal catalyst leads to the stage that can not solidify completely after non-noble metal catalyst raw materials cools off, disperses and the breakage to it, promotes crushing efficiency and quality, can also alleviate the loss to breaker, utilizes the flabellum to carry out the forced air cooling to the melt simultaneously, promotes cooling solidification shaping efficiency, adopts the multiunit spiral pipe to reposition of redundant personnel non-noble metal catalyst raw materials melt for the melt after the cooling is dispersed, does benefit to follow-up broken handle.

Description

Preparation equipment of porous high-activity non-noble metal catalyst

Technical Field

The invention relates to the technical field of catalyst production, in particular to a preparation device of a porous high-activity non-noble metal catalyst.

Background

The preparation of porous high-activity non-noble metal catalyst, such as porous high-activity skeleton nickel, mainly adopts the leaching method: the alloy is crushed into small particles, and is soaked by sodium hydroxide aqueous solution, most of aluminium is dissolved out (sodium metaaluminate is generated), and then porous high-activity skeleton nickel is formed.

In the existing partial catalyst preparation equipment, cooled molten materials are in a plate shape and a block shape in the using process, for example, in the patent with the publication number of CN210030837U, poor treatment of raw materials can affect the subsequent crushing efficiency and quality, and scraps generated in crushing are easy to adhere in the equipment, so that waste is caused, and the preparation quality is affected.

Disclosure of Invention

The invention aims to solve at least one of the technical problems in the prior art, and provides a preparation device of a porous high-activity non-noble metal catalyst, which can solve the problems of low raw material treatment efficiency and low quality of the porous high-activity non-noble metal catalyst.

In order to achieve the purpose, the invention provides the following technical scheme: the preparation equipment of the porous high-activity non-noble metal catalyst comprises a treatment barrel, a treatment assembly and a driving assembly, wherein the top of the treatment barrel is provided with a feeding hole, the bottom of the treatment barrel is provided with a discharging hole, the feeding hole is fixedly provided with a cooling chamber, the discharging hole is fixedly provided with a reaction chamber, and the bottom of the reaction chamber is provided with a waste discharge hole;

the treatment assembly comprises a crushing assembly, a cooling mechanism and a reaction mechanism, the crushing assembly is arranged on the inner side of the treatment barrel, the cooling mechanism is arranged on the inner side of the cooling chamber, the reaction mechanism is arranged on the inner side of the reaction chamber, an installation rod is arranged on the inner side of the treatment barrel, a crushing blade, a rubber rod and a fan blade are fixedly arranged on the outer wall of the installation rod, and the crushing blade is positioned right below the cooling mechanism;

the driving assembly comprises a transmission assembly and a linkage assembly, the transmission assembly is connected with the crushing assembly, and the linkage assembly is connected with the reaction mechanism.

Preferably, the crushing component comprises an installation rod, a crushing blade, a rubber rod, a fan blade and an exhaust pipe, the installation plate is fixedly installed on the inner wall of the treatment barrel, the installation rod is rotatably installed between the outer wall of one side of the installation plate and the inner wall of one side of the treatment barrel, an exhaust hole is formed in the outer wall of the treatment barrel, and the exhaust pipe is fixedly installed at the exhaust hole.

Preferably, cooling body includes closing plate, spiral pipe, inlet tube and raceway, and fixed mounting has two sets of closing plates on the inner wall of cooling chamber, has all seted up the intercommunicating pore on two sets of closing plates and has been longitudinal distribution, fixedly connected with spiral pipe between two sets of intercommunicating pores of longitudinal distribution, increase and the area of contact and the time of cooling water, promote the cooling effect, have seted up two sets of mounting holes on the outer wall of cooling chamber, and there are inlet tube and raceway in two sets of mounting holes respectively fixed mounting.

Preferably, reaction mechanism is including straining a section of thick bamboo, the arc heat pipe, the outlet pipe and annotate the liquid pipe, the inboard bottom of reacting chamber is rotated and is installed and strain a section of thick bamboo, fixed mounting has the arc heat pipe on the inner wall of reacting chamber, perforation and connecting hole have been seted up on the both sides outer wall of reacting chamber respectively, the one end of raceway pass the perforation extend to the inside of reacting chamber and with arc heat pipe fixed connection, the raceway communicates with each other with arc heat pipe is inside, fixed mounting has the outlet pipe in the connecting hole, the one end of outlet pipe extends to the inside of arc heat pipe, annotate the liquid hole has been seted up at the top of reacting chamber, the downthehole fixed mounting of notes liquid pipe has been annotated.

Preferably, the transmission assembly comprises a driving motor, a chain wheel and a chain, the top of the treatment barrel is fixedly provided with a support plate, the top of the support plate is fixedly provided with the driving motor, the output shaft of the driving motor is fixedly provided with a group of chain wheels through a coupler, one end of the installation rod extends to the outside of the treatment barrel and is fixedly provided with a group of chain wheels, the two groups of chain wheels are sleeved with the chain, and the two groups of chain wheels are connected through chain transmission.

Preferably, the linkage component comprises a connecting rod, bevel gears, a transmission rod, belt pulleys and a belt, the connecting rod is rotatably installed between the bottom of the reaction chamber and the bottom of the inner side of the treatment cylinder, one end of the connecting rod extends to the inside of the reaction chamber and is connected with the bottom of the treatment cylinder, a group of bevel gears are fixedly installed on the outer wall of the connecting rod, a support plate is fixedly installed on the bottom of the inner side of the treatment cylinder, the transmission rod is rotatably installed on the support plate, a group of bevel gears are fixedly installed at one end of the transmission rod and are meshed with each other, a group of belt pulleys are fixedly installed at the other end of the transmission rod, a group of belt pulleys are fixedly installed on one section of outer wall, located on the outer side of the treatment cylinder, of the installation rod, the belt is installed on the two groups of belt pulleys in a sleeved mode, and the two groups of belt pulleys are connected through belt transmission.

Preferably, the front side of the reaction chamber is provided with a material taking hole, the material taking hole is hinged with a magnetic suction sealing door, and the magnetic suction sealing door is provided with an observation window and a pull handle.

Preferably, the inner wall is embedded with a filter screen and activated carbon, the activated carbon is close to the outer side of the treatment cylinder to purify blown gas, and pollution of harmful substances in the raw materials to air is reduced.

Compared with the prior art, the invention has the beneficial effects that:

(1) This preparation equipment of porous high activity non-noble metal catalyst, through crushing blade, the cooperation of rubber pole and flabellum is used, can be at the not completely solidified's of non-noble metal catalyst raw materials cooling back stage yet, disperse and breakage it, promote crushing efficiency and quality on the one hand, on the other hand can also alleviate the loss to broken part, utilize the flabellum to carry out forced air cooling to the melt simultaneously, promote cooling solidification shaping efficiency, the rubber pole can strike a processing section of thick bamboo, produce and the piece shake of adhesion on processing section of thick bamboo inner wall in the fragmentation process, avoid the piece to pile up and cause equipment trouble to damage, it is extravagant to reduce unnecessary.

(2) This preparation equipment of porous high activity non-noble metal catalyst, through the closing plate, the spiral pipe, the cooperation of inlet tube and raceway is used, adopt the multiunit spiral pipe to shunt non-noble metal catalyst raw materials melt, make the melt after the cooling dispersed, do benefit to follow-up crushing treatment, slow down the melt unloading velocity of flow simultaneously, increase and the area of contact and the time of cooling water, promote the cooling effect, the cooperation of arc heat pipe is used in addition, water after the cooling can also be used for heating the sodium hydroxide aqueous solution, promote reaction rate and effect between raw materials and the sodium hydroxide aqueous solution, promote energy utilization, the environmental protection is high-efficient.

(3) This preparation equipment of porous high activity non-noble metal catalyst, through straining a section of thick bamboo, bevel gear and transfer line's cooperation is used, can drive and strain a section of thick bamboo and the interior broken back raw materials rotation of section of thick bamboo, the raw materials is attached to on straining a section of thick bamboo inner wall under the centrifugal force effect, compare in piling up and place and react, the area of contact between raw materials and the sodium hydroxide aqueous solution has been increased, make the two fully react, promote preparation efficiency and effect, reaction mechanism is driven by drive assembly and linkage assembly interlock, reach a tractor serves several purposes effect, the holistic cost of device and running cost have been reduced, do benefit to popularization and use.

Drawings

The invention is further illustrated with reference to the following figures and examples:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is an enlarged view of the portion A of the present invention;

FIG. 4 is a top view of the cooling chamber of the present invention;

FIG. 5 is an enlarged view of section B of the present invention;

FIG. 6 is an enlarged view of the section C of the present invention.

Reference numerals are as follows: the device comprises a treatment barrel 1, a cooling chamber 2, a reaction chamber 3, a crushing assembly 4, a mounting rod 401, a crushing blade 402, a rubber rod 403, fan blades 404, an exhaust pipe 405, a cooling mechanism 5, a sealing plate 501, a spiral pipe 502, a water inlet pipe 503, a water conveying pipe 504, a reaction mechanism 6, a filter cartridge 601, an arc-shaped heat conduction pipe 602, a water outlet pipe 603, a liquid injection pipe 604, a transmission assembly 7, a driving motor 701, a chain wheel 702, a chain 703, a linkage assembly 8, a connecting rod 801, a bevel gear 802, a transmission rod 803, a belt pulley 804 and a belt 805.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, greater than, less than, exceeding, etc. are understood as excluding the present numbers, and the above, below, inside, etc. are understood as including the present numbers. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

The first embodiment is as follows:

referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a preparation equipment of porous high activity non-noble metal catalyst, including a processing section of thick bamboo 1, processing module and drive assembly, the pan feeding entrance to a cave has been seted up at the top of a processing section of thick bamboo 1, ejection of compact entrance to a cave has been seted up to the bottom of a processing section of thick bamboo 1, pan feeding entrance to a cave department fixed mounting has cooling chamber 2, ejection of compact entrance to a cave department fixed mounting has reaction chamber 3, the bottom of reaction chamber 3 is equipped with the mouth of wasting discharge, processing module includes broken subassembly 4, cooling mechanism 5 and reaction mechanism 6, broken subassembly 4 locates the inboard of a processing section of thick bamboo 1, cooling mechanism 5 locates the inboard of cooling chamber 2, reaction mechanism 6 locates the inboard of reaction chamber 3, the inboard of a processing section of thick bamboo 1 is provided with installation pole 401, fixed mounting has broken blade 402 on the outer wall of installation pole 401, rubber pole and flabellum 404, broken blade 402 is located cooling mechanism 5 under, drive assembly includes transmission module 7 and interlock subassembly 8, transmission module 7 is connected with broken subassembly 4, interlock subassembly 8 is connected with reaction mechanism 6, can still not cause the stage of complete solidification after non-noble metal catalyst raw materials cools off, disperse the loss to it, promote crushing efficiency and quality, can also alleviate the solidification piece to the processing module of the solidification piece in the solidification processing section of a processing section of rubber, it can utilize the solidification piece to promote the solidification piece to the solidification processing section of thick bamboo to the cooling rod 403, it.

Further, broken subassembly 4 includes installation pole 401, broken blade 402, rubber pole 403, flabellum 404 and blast pipe 405, and fixed mounting has the mounting panel on the inner wall of a processing section of thick bamboo 1, and installation pole 401 rotates to be installed between one side outer wall of mounting panel and one side inner wall of a processing section of thick bamboo 1, has seted up the exhaust hole on the outer wall of a processing section of thick bamboo 1, and exhaust hole department fixed mounting has blast pipe 405.

Still further, cooling body 5 includes closing plate 501, spiral pipe 502, inlet tube 503 and raceway 504, fixed mounting has two sets of closing plate 501 on the inner wall of cooling chamber 2, the intercommunicating pore has all been seted up on two sets of closing plate 501 and is longitudinal distribution, fixedly connected with spiral pipe 502 between two sets of intercommunicating pores of longitudinal distribution, two sets of mounting holes have been seted up on the outer wall of cooling chamber 2, in two sets of mounting holes respectively fixed mounting have inlet tube 503 and raceway 504, adopt multiunit spiral pipe 502 to shunt non-noble metal catalyst raw materials melt, make the melt after the cooling dispersed, do benefit to follow-up broken handle, slow down the melt unloading velocity of flow simultaneously, increase and the area of contact and the time of cooling water, promote the cooling effect, the cooperation of arc heat pipe 602 is used in addition.

Furthermore, a material taking hole is formed in the front side of the reaction chamber 3, a magnetic suction sealing door is hinged to the material taking hole, and an observation window and a pull handle are arranged on the magnetic suction sealing door.

Secondly, inlay on the inner wall of blast pipe 405 and install filter screen and active carbon, the active carbon is close to the outside of handling section of thick bamboo 1.

Example two:

referring to fig. 1-6, based on the first embodiment, the reaction mechanism 6 includes a filter cartridge 601, an arc-shaped heat pipe 602, a water outlet pipe 603, and a liquid injection pipe 604, the filter cartridge 601 is rotatably installed at the bottom of the inner side of the reaction chamber 3, the arc-shaped heat pipe 602 is fixedly installed on the inner wall of the reaction chamber 3, through holes and connection holes are respectively opened on the outer walls of both sides of the reaction chamber 3, one end of the water pipe 504 passes through the through hole and extends into the reaction chamber 3 and is fixedly connected with the arc-shaped heat pipe 602, the water pipe 504 is communicated with the interior of the arc-shaped heat pipe 602, the water outlet pipe 603 is fixedly installed in the connection hole, one end of the water outlet pipe 603 extends into the interior of the arc-shaped heat pipe 602, the liquid injection hole is opened at the top of the reaction chamber 3, the liquid injection pipe 604 is fixedly installed in the liquid injection hole, the cooled water can be used to heat the sodium hydroxide aqueous solution, thereby increasing the reaction rate and effect between the raw material and the sodium hydroxide aqueous solution, and increasing the energy utilization rate.

Further, the transmission assembly 7 comprises a driving motor 701, a chain wheel 702 and a chain 703, a supporting plate is fixedly mounted at the top of the treatment barrel 1, the driving motor 701 is fixedly mounted at the top of the supporting plate, a group of chain wheels 702 are fixedly mounted on an output shaft of the driving motor 701 through a coupler, one end of the mounting rod 401 extends to the outside of the treatment barrel 1 and is fixedly mounted with a group of chain wheels 702, the two groups of chain wheels 702 are sleeved with the chain 703, and the two groups of chain wheels 702 are in transmission connection through the chain 703.

Still further, the linkage assembly 8 includes a connecting rod 801, a bevel gear 802, a transmission rod 803, a belt pulley 804 and a belt 805, the connecting rod 801 is rotatably installed between the bottom of the reaction chamber 3 and the bottom of the inner side of the treatment cylinder 1, one end of the connecting rod 801 extends into the reaction chamber 3 and is connected with the bottom of the filter cylinder 601, a set of bevel gears 802 is fixedly installed on the outer wall of the connecting rod 801, a support plate is fixedly installed on the bottom of the inner side of the treatment cylinder 1, the transmission rod 803 is rotatably installed on the support plate, a set of bevel gears 802 is fixedly installed at one end of the transmission rod 803, the two sets of bevel gears 802 are engaged with each other, a set of belt pulley 804 is fixedly installed at the other end of the transmission rod 803, a set of belt pulley 804 is fixedly installed on a section of the outer wall of the installation rod 401 located at the outer side of the treatment cylinder 1, a belt 805 is installed on the two sets of belt pulleys 804, the two sets of belt pulleys 804 are in transmission connection through a belt, the filter cylinder 601 and the raw material after being crushed therein can be driven to rotate, the raw material is adhered to the inner wall of the filter cylinder 601 under the centrifugal force, the effect of the filter cylinder 601, the reaction is performed in a stacking arrangement, the reaction, the contact area between the raw material and the sodium hydroxide aqueous solution is increased, so that the contact area between the raw material and the sodium hydroxide solution 805 is fully reacted, and the sodium hydroxide solution, and the reaction is increased, and the preparation efficiency and the effect is improved.

The working principle is as follows: the water inlet pipe 503 is connected with an external water pipeline, sodium hydroxide aqueous solution is injected into the reaction chamber 3 through the injection pipe 604, melt is poured into equipment through the cooling chamber 2, the melt enters the spiral pipe 502 through the communicating hole, the water pipeline simultaneously conveys water into the cooling chamber 2, the water takes away heat transferred by the melt on the spiral pipe 502 to achieve a water cooling effect, the cooled melt enters the treatment cylinder 1 through the feeding hole, the control driving motor 701 is started, the mounting rod 401 is driven to rotate through the transmission of the chain wheel 702 and the chain 703, the crushing blade 402 rotates along with the rotation, the crushing blade 402 crushes the cooled melt, the fan blades 404 simultaneously rotate, air cooling treatment is carried out on the melt, the rubber rod 403 simultaneously rotates and strikes the inner wall of the treatment cylinder 1, scraps generated in the crushing process and adhered to the inner wall of the treatment cylinder 1 are shaken off, the crushed raw materials fall into the filter cylinder 601 through the discharging hole to react with the sodium hydroxide aqueous solution, the mounting rod 401 rotates while driving the driving rod 803 to rotate through the transmission action of the connecting rod 804 and the belt 805, the connecting rod 802 and the filter cylinder 601 and opens the inner wall of the filter cylinder 601 to completely react with the waste water, the waste water in the waste water chamber 601, the waste water filter cylinder 601 is completely reacts, and the waste water filter cylinder 601, the waste water filter cylinder 601 is discharged from the waste water chamber 601.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (3)

1. The utility model provides a preparation equipment of porous high activity non-noble metal catalyst, includes a processing section of thick bamboo (1), processing module and drive assembly, its characterized in that: a feeding hole is formed in the top of the treatment barrel (1), a discharging hole is formed in the bottom of the treatment barrel (1), a cooling chamber (2) is fixedly mounted at the feeding hole, a reaction chamber (3) is fixedly mounted at the discharging hole, and a waste discharging hole is formed in the bottom of the reaction chamber (3);

the treatment assembly comprises a crushing assembly (4), a cooling mechanism (5) and a reaction mechanism (6), the crushing assembly (4) is arranged on the inner side of the treatment barrel (1), the cooling mechanism (5) is arranged on the inner side of the cooling chamber (2), the reaction mechanism (6) is arranged on the inner side of the reaction chamber (3), an installation rod (401) is arranged on the inner side of the treatment barrel (1), a crushing blade (402), a rubber rod (403) and a fan blade (404) are fixedly installed on the outer wall of the installation rod (401), and the crushing blade (402) is located right below the cooling mechanism (5);

the driving assembly comprises a transmission assembly (7) and a linkage assembly (8), the transmission assembly (7) is connected with the crushing assembly (4), and the linkage assembly (8) is connected with the reaction mechanism (6);

the crushing component (4) comprises an installation rod (401), a crushing blade (402), a rubber rod (403), fan blades (404) and an exhaust pipe (405), a mounting plate is fixedly installed on the inner wall of the treatment cylinder (1), the installation rod (401) is rotatably installed between the outer wall of one side of the mounting plate and the inner wall of one side of the treatment cylinder (1), an exhaust hole is formed in the outer wall of the treatment cylinder (1), the exhaust pipe (405) is fixedly installed at the exhaust hole, the cooling mechanism (5) comprises a sealing plate (501), a spiral pipe (502), a water inlet pipe (503) and a water conveying pipe (504), two groups of sealing plates (501) are fixedly installed on the inner wall of the cooling chamber (2), communication holes are formed in the two groups of sealing plates (501) and longitudinally distributed, the spiral pipe (502) is fixedly connected between the two groups of communication holes which are longitudinally distributed, the outer wall of the cooling chamber (2) is provided with two groups of installation holes, the water inlet pipe (503) and the water conveying pipe (504) are fixedly installed in the two groups of installation holes respectively, the reaction mechanism (6) comprises a filter cylinder (601), an arc-shaped heat conduction pipe (602), a water outlet pipe (603) and a water injection pipe (3) and a connection hole (602) are formed in the two sides of the reaction chamber (3) respectively installed on the inner wall of the reaction chamber (601), one end of a water pipe (504) penetrates through a through hole to extend into the reaction chamber (3) and is fixedly connected with the arc-shaped heat-conducting pipe (602), the water pipe (504) is communicated with the interior of the arc-shaped heat-conducting pipe (602), a water outlet pipe (603) is fixedly arranged in the connecting hole, one end of the water outlet pipe (603) extends into the arc-shaped heat-conducting pipe (602), a liquid injection hole is formed in the top of the reaction chamber (3), a liquid injection pipe (604) is fixedly arranged in the liquid injection hole, a transmission assembly (7) comprises a driving motor (701), a chain wheel (702) and a chain (703), a support plate is fixedly arranged at the top of the treatment barrel (1), the driving motor (701) is fixedly arranged at the top of the support plate, an output shaft of the driving motor (701) is fixedly arranged with a group of chain wheels (702) through a coupler, one end of an installation rod (401) extends to the exterior of the treatment barrel (1) and is fixedly arranged with a group of chain wheels (702), the two groups of chain wheels (702) are sleeved with chains (703), the two groups of chain wheels (702) are in transmission connection through the chain (703), the assembly (8) comprises a connecting rod (801), a bevel gear (802), a belt pulley (804), a connecting rod (802), a belt (804) and a rotating shaft, and a rotating shaft (3) are arranged between the bottom of the treatment barrel (3), one end of connecting rod (801) extends to the inside of reacting chamber (3) and is connected with the bottom of straining a section of thick bamboo (601), fixed mounting has a set of bevel gear (802) on the outer wall of connecting rod (801), fixed mounting has the extension board on the inboard bottom of a processing section of thick bamboo (1), it installs transfer line (803) to rotate on the extension board, the one end fixed mounting of transfer line (803) has a set of bevel gear (802), two sets of bevel gear (802) mesh mutually, the other end fixed mounting of transfer line (803) has a set of belt pulley (804), fixed mounting has a set of belt pulley (804) on the one section outer wall that installation pole (401) are located a processing section of thick bamboo (1) outside, set is established on two sets of belt pulley (804) and is installed belt (805), two sets of belt pulley (804) pass through belt (805) transmission connection.

2. The apparatus for preparing a porous high-activity non-noble metal catalyst according to claim 1, wherein: the front side of the reaction chamber (3) is provided with a material taking hole, the material taking hole is hinged with a magnetic suction sealing door, and the magnetic suction sealing door is provided with an observation window and a pull handle.

3. The apparatus for preparing a porous high-activity non-noble metal catalyst according to claim 2, wherein: the inner wall of the exhaust pipe (405) is embedded with a filter screen and activated carbon, and the activated carbon is close to the outer side of the treatment cylinder (1).

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