CN111804215A - Anticorrosive paint production equipment for chemical equipment - Google Patents

Abstract

The invention discloses anticorrosive paint production equipment for chemical equipment in the technical field of welding, which is provided with a cutting blade device and a crushing and feeding device for crushing input raw materials, so that the contact area between the raw materials is increased, the mixing efficiency is improved, the paint production efficiency is further improved, a shell is protected by the mixing device to prevent the paint production efficiency and quality from being influenced by external environment, meanwhile, the inside of the equipment has buffer protection capability, the service life of the anticorrosive paint production equipment is prolonged, the internal temperature of the mixed shell can be effectively adjusted, and the optimal state of paint production is kept; puddler and fixed threaded rod that are equipped with, improve equipment are to the mixing efficiency of coating, and the wallboard of scraping that is equipped with avoids coating to be stained with on mixing the casing inside wall, and leads to the wasting of resources, and the coating loading attachment that is equipped with can realize the charging bucket automatic loading replacement ability, need not to consume simultaneously and outer power, has practiced thrift the resource greatly, reduces energy consumption, greatly reduced personnel burden.

Description

Anticorrosive paint production equipment for chemical equipment

Technical Field

The invention belongs to the technical field of coating mixing production equipment; in particular to a production device of an anti-corrosion coating for chemical equipment.

Background

The anti-corrosion coating is a coating for coating the surface of production equipment, prolonging the service life of the equipment and avoiding the corrosion and damage of the equipment, most of the coating is in a liquid state or a viscous state, most of the existing anti-corrosion coating production equipment is a common stirring device, a plurality of raw materials are mixed by the stirring device and are made after stirring, most of the stirring device is exposed in or is in an external environment, so that the coating is easily influenced by the external environment in the production process, the production efficiency of the coating and the quality of the coating are greatly reduced, meanwhile, the existing equipment does not carry a protection device, when the equipment is impacted by the outside, the damage is easily caused, the service life of the equipment is greatly reduced, the resource waste and the production cost are greatly increased, and meanwhile, after the existing equipment finishes the production of the coating, the charging barrel is repeatedly placed at the discharging port manually, and when the charging barrel is full, a new charging barrel is replaced, so that when the equipment is used for producing the coating, workers need to stare at the charging barrel all the time and replace the charging barrel, and the work load of the workers is greatly increased.

Disclosure of Invention

The invention aims to provide anticorrosive paint production equipment for chemical equipment.

In order to achieve the purpose, the invention provides the following technical scheme: an anticorrosion paint production device for chemical equipment comprises a paint loading device underframe, an equipment support frame, a mixing device protective shell, a crushing and feeding device, a cutting blade device, a crushing driving device, a mixing device, a discharge chute, a charging bucket and a paint loading device, and is characterized in that the paint loading device underframe is uniformly fixed on the lower end face of the paint loading device, a plurality of charging buckets are arranged on the upper end face of the paint loading device, the equipment support frame is fixed on one side of the paint loading device, the upper end of the equipment support frame is fixed with the mixing device protective shell, the mixing device is arranged in the mixing device protective shell, the discharge chute is fixed on the side wall of the mixing device, the discharge chute penetrates through the inner side of the mixing device and the side wall of the mixing device protective shell, and is arranged on the upper side of the charging bucket, a crushing and feeding device is fixedly communicated with the upper end of the mixing device, a cutting blade device is arranged at the upper end of the crushing and feeding device, the crushing driving device is fixed on the outer side wall of the crushing and feeding device, and the crushing driving device is rotatably connected with the inside of the crushing and feeding device;

the crushing driving device comprises a driving motor and a motor fixing frame, the driving motor is embedded in the motor fixing frame, and the driving motor is fixed on the outer side wall of the crushing feeding device through the motor fixing frame.

Further, mixing arrangement protective housing includes protective housing body, protective housing body and buffering protection device, the protective housing body overlaps in the protective housing body inboard, and evenly is equipped with a plurality of buffering protection devices on the protective housing body lateral wall, the outer lateral wall fixed connection of shell in buffering protection device one end and protective housing body, the other end and protective housing body inside wall fixed connection.

Furthermore, the buffer protection device comprises a first hinge seat, a first rocker arm, a second rocker arm, a buffer supporting spring, a second hinge seat, a third rocker arm and a fourth rocker arm, the first hinge seat is fixed on the inner side wall of the protective outer shell, the first hinge base is respectively connected with the head ends of the first rocker arm and the fourth rocker arm in a rotating way, the tail end of the first rocker arm is connected with the head end of the second rocker arm in a rotating way, the tail end of the second rocker arm is rotationally connected with a second hinge base, the second hinge base is rotationally connected with the tail ends of the second rocker arm and the third rocker arm respectively, the head end of the third rocker arm is rotationally connected with the tail end of the fourth rocker arm, the second hinge seat is fixed on the outer side wall of the protective inner shell, the buffering support spring is arranged between the first hinge seat and the second hinge seat, the head end of the buffering support spring is fixedly connected with the first hinge seat, and the tail end of the buffering support spring is fixedly connected with the second hinge seat.

Furthermore, the crushing and feeding device comprises a first crushing roller, a first gear, a first crushing roller shaft, a second gear, an output pipe, a second crushing roller shaft, a second crushing roller and a crushing and feeding shell, wherein the first crushing roller is sleeved on the first crushing roller shaft, the first crushing roller is fixed on the inner side of the crushing and feeding shell through the rotation of the first crushing roller shaft, the second crushing roller is sleeved on the second crushing roller shaft, the second crushing roller is fixed on the inner side of the crushing and feeding shell through the rotation of the second crushing roller shaft, the first crushing roller and the second crushing roller are in cross engagement, one end of the first crushing roller shaft is rotatably embedded on the side wall of the crushing and feeding shell, the other end of the first crushing roller shaft penetrates through the side wall of the crushing and feeding shell and is fixedly connected with the first gear, one end of the second crushing roller shaft penetrates through the side wall of the crushing and feeding shell and is rotatably connected with, the other end pierces through crushing reinforced shell lateral wall and second gear fixed connection, the output tube is fixed in and smashes reinforced shell lower extreme, and output tube and crushing reinforced shell through connection, cutting blade device is fixed in and smashes reinforced shell upper end, first gear meshes with the second gear mutually.

Further, cutting blade device is including two rotary blade structures altogether, two rotary blade structure is the same, two rotary blade structure symmetry is fixed in on smashing reinforced shell up end, two rotary blade structure is alternately arranged from top to bottom, rotary blade structure includes blade, blade mount pad, blade rotating electrical machines mount and blade rotating electrical machines, blade rotating electrical machines mount is fixed in on smashing reinforced shell upper end inside wall, the embedded blade rotating electrical machines that have on the blade rotating electrical machines mount, be fixed with the blade mount pad on the blade rotating electrical machines output shaft, evenly be fixed with the blade on the blade mount pad lateral wall.

Further, the mixing device comprises a feeding funnel, a mixing motor, a mixing drive gear, a rotating shaft, a fixed threaded rod, a mixing pipe sleeve, a mixing rod, a control circuit, a semiconductor refrigerating sheet, a mixing shell, a heat conduction pipe, a scraping plate and a mixing driven gear, wherein the mixing shell is arranged on the inner side of the protective inner shell, the feeding funnel is fixed at the upper end of the mixing shell, the feeding funnel is in through connection with the inner side of the mixing shell, the fixed threaded rod is arranged on the inner side of the mixing shell, the lower end of the fixed threaded rod is fixedly connected with the bottom surface of the inner side of the mixing shell, the upper end of the fixed threaded rod is fixedly connected with the inner side wall of the upper end of the mixing shell through a connecting frame, the rotating shaft is a hollow shaft, the rotating shaft is sleeved on the fixed threaded rod, the, a plurality of stirring rods are uniformly fixed on the outer side wall of the stirring pipe sleeve, the stirring pipe sleeve is in threaded fit with a fixed threaded rod, the rotating shaft is fixedly connected with a wall scraping plate through a connecting rod, the mixing motor is embedded in the bottom surface of a feeding hopper, a mixing driving gear is fixed on an output shaft of the mixing motor, the mixing driving gear is meshed with a mixing driven gear, a heat conducting pipe is spirally wound on the outer side wall of the mixing shell, a semiconductor refrigerating sheet is fixed on the lower end surface of the outer side of the mixing shell and is fixedly connected with the heat conducting pipe, a control circuit is electrically connected with the semiconductor refrigerating sheet, a storage battery is fixed on the control circuit and is electrically connected with the control circuit, the wall scraping plate is in close contact with the inner side wall of the mixing shell, two circular threads are arranged on the fixed threaded rod, and a temperature sensor, the temperature sensor is electrically connected with the control circuit.

Further, the rotation axis is including lining up spout, rotation axis body and rotation axis recess, the rotation axis body is hollow cylinder, and is equipped with the rotation axis recess on the rotation axis body lateral wall, evenly be equipped with the spout that link up on the rotation axis recess cell wall, the cover has the stirring pipe box on the rotation axis recess, stirring pipe box partial structure pierces through the spout that links up and stretches into in the rotation axis body inboard.

Further, the stirring pipe box includes stirring pipe box shell, stirring pipe box inner shell and stirring pipe box connecting plate, it is inboard that stirring pipe box shell is located to stirring pipe box inner shell, stirring pipe box connecting plate is located between stirring pipe box inner shell and the stirring pipe box shell, stirring pipe box connecting plate one end and stirring pipe box inner shell lateral wall fixed connection, the other end and stirring pipe box shell inside wall fixed connection, stirring pipe box shell cover is on the rotation axis recess, stirring pipe box connecting plate pierces through the spout and stretches in rotation axis body inboard, rotation axis body is inboard to the stirring pipe box inner shell, and stirring pipe box inner shell and fixed threaded rod screw-thread fit are connected.

Further, the paint loading apparatus includes: the coating loading device comprises a coating loading supporting spring, a downward moving slide block, an inclined block, a coating loading rotating shaft, a tensioning spring, a coating loading hinge seat, a buckle, a coating loading chassis, a coating loading shell, a first turntable, a second turntable and a supporting chassis, wherein the coating loading shell is a non-top and non-bottom cylindrical shell, the coating loading chassis is fixed on the lower end face of the coating loading shell, the inclined block is fixed on the upper end face of the coating loading chassis, the second turntable is rotationally fixed on the side wall of the upper end face of the coating loading shell, the coating loading rotating shaft is fixed on the lower end face of the second turntable, the lower end of the coating loading rotating shaft penetrates through the first turntable to be rotationally connected with the coating loading chassis, the coating loading rotating shaft is fixedly connected with the first turntable, the first turntable is rotationally fixed on the side wall of the coating loading shell, and the, the lower end of the charging barrel penetrates through the second rotary table and extends to the lower side of the second rotary table, a supporting base plate is arranged on the lower side of the charging barrel, the lower end of the supporting base plate is fixedly connected with the upper end of the first rotary table through a coating loading supporting spring, the downward moving slide block is arranged on the lower side of the first rotary table, the upper end of the downward moving slide block penetrates through the first rotary table and is fixedly connected with the supporting base plate, the lower end of the downward moving slide block is matched with the inclined block, a plurality of coating loading hinge seats are uniformly distributed on the left side and the right side of the downward moving slide block and are fixed on the lower end face of the first rotary table, the buckle is rotationally fixed on the coating loading hinge seat, one end of the buckle is matched with the downward moving slide block, the other end of the buckle is fixedly connected with the lower end.

Further, the working steps of the anticorrosive paint production equipment for the chemical equipment are as follows:

1) starting the equipment;

2) putting the raw materials for producing the coating into a crushing and feeding device from the upper end of the crushing and feeding device;

3) the blade mounting seat rotates, the blade cuts the raw materials, and the cut and crushed raw materials fall onto the first crushing roller and the second crushing roller;

4) the crushing driving device drives the second crushing roller to rotate, the second crushing roller drives the first gear and the first crushing roller to rotate through the second gear, the first crushing roller is meshed with the second crushing roller to further crush the cut raw materials, and the crushed raw materials fall into the mixing shell through the output pipe;

5) the mixing motor rotates to drive the mixing driving gear to rotate, the mixing driving gear drives the mixing driven gear to rotate, and further drives the rotating shaft to rotate, so that the wall scraping plate rotates along the inner side wall of the mixing shell, and simultaneously drives the stirring pipe sleeve to rotate, the stirring pipe sleeve enables the stirring rod to stir the crushed raw materials, when the stirring pipe sleeve rotates, the inner shell of the stirring pipe sleeve is in threaded engagement with the fixed threaded rod and rotates relatively, and further the stirring pipe sleeve reciprocates up and down along the rotating shaft, so that the crushed raw materials are stirred up and down;

6) the temperature sensor senses the internal temperature of the hybrid shell, so that power supply adjustment is carried out on the semiconductor refrigerating sheet, the semiconductor refrigerating sheet generates corresponding temperature, the corresponding temperature is transmitted to the hybrid shell through the heat conduction pipe, and the temperature of the hybrid shell is adjusted;

7) the stirred and processed coating is led out from a discharge chute;

8) the coating led out from the discharge chute falls onto the charging bucket;

9) when the charging barrel is filled with the coating, the weight of the charging barrel exceeds the elastic force of the tensioning spring, the buckle is flicked and separated from the downward moving slide block, the downward moving slide block moves downward under the weight of the charging barrel, the lower end of the downward moving slide block is matched with the inclined block, the first rotary disc is driven to rotate, the charging barrel filled with the coating is driven to move, and the charging barrel not filled with the coating rotates to move to the lower side of the discharging chute along with the rotation of the first rotary disc;

10) and (4) repeating the steps 8) to 9) until all the charging barrels are full and the coating in the equipment is completely filled, and stopping the equipment.

Compared with the prior art, the invention has the beneficial effects that: the invention is provided with a cutting blade device and a crushing and feeding device which can crush the input raw materials as the coating, thereby improving the contact area between the liquid raw materials and the solid raw materials and between the solid raw materials and the solid raw materials, further greatly improving the mixing efficiency when the raw materials are mixed, further improving the production efficiency of the coating, and the protection shell of the mixing device is arranged, on one hand, the internal environment of the mixing device is isolated from the external environment, and the influence of the external environment on the production efficiency of the coating and the quality of the coating in the mixing device is avoided, on the other hand, because the buffer protection device is arranged on the inner side of the protection shell of the mixing device, when the equipment is impacted, the impact force is buffered through the buffer protection device, the internal damage of the equipment is avoided, further, the service life of the invention is greatly prolonged, and the semiconductor refrigeration piece, the temperature in the mixing shell can be effectively adjusted, so that the interior of the mixing shell is always kept in the optimal production state; puddler and fixed threaded rod that are equipped with can carry out upper and lower circulation stirring to coating, and then improve equipment greatly is to the processing production efficiency of coating, the wallboard of scraping that is equipped with can scrape mixed casing inside wall, avoid coating to be stained with and attach on mixed casing inside wall, and lead to the wasting of resources, the coating loading attachment that is equipped with can realize that the charging bucket automatic loading replacement ability, need not to consume simultaneously and outer power, the resource has been practiced thrift greatly, energy consumption is reduced, greatly reduced personnel burden.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall configuration of an anticorrosive coating production facility for chemical plants according to the present invention;

FIG. 2 is a schematic structural view of a protective casing of a mixing device of an anticorrosive coating production facility for chemical equipment according to the present invention;

FIG. 3 is a schematic structural view of a buffer protection device of an anticorrosive coating production facility for chemical equipment according to the present invention;

FIG. 4 is a schematic structural view of a crushing and charging device of an anticorrosive coating production facility for chemical equipment according to the present invention;

FIG. 5 is a schematic structural view of a cutting blade device of an anticorrosive coating production equipment for chemical equipment according to the present invention;

FIG. 6 is a schematic structural view of a mixing apparatus of an anticorrosive coating production facility for chemical equipment according to the present invention;

FIG. 7 is a schematic structural view of a rotary shaft of an anticorrosive paint production apparatus for chemical plants according to the present invention;

FIG. 8 is a schematic structural view of a stirring pipe sleeve of an anticorrosive paint production facility for chemical equipment according to the present invention;

FIG. 9 is a schematic structural view of a coating material loading apparatus of an anticorrosive coating material production facility for chemical equipment according to the present 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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: an anticorrosion paint production device for chemical equipment comprises a paint loading device underframe 1, an equipment support frame 2, a mixing device protective shell 3, a crushing feeding device 4, a cutting blade device 5, a crushing driving device 6, a mixing device 7, a discharge chute 8, a charging bucket 9 and a paint loading device 10, wherein the paint loading device underframe 1 is uniformly fixed on the lower end face of the paint loading device 10, the charging buckets 9 are multiple, the charging buckets 9 are uniformly arranged on the upper end face of the paint loading device 10, the equipment support frame 2 is fixed on one side of the paint loading device 10, the mixing device protective shell 3 is fixed on the upper end of the equipment support frame 2, the mixing device 7 is arranged in the mixing device protective shell 3, the discharge chute 8 is fixed on the side wall of the mixing device 7, the discharge chute 8 penetrates through the inner side of the mixing device 7 and the side wall of the mixing device protective shell 3, the discharge chute 8 is arranged on, mixing arrangement 7 upper end link up to be fixed with and smash feeding device 4, smash feeding device 4 upper end and be equipped with cutting blade device 5, smash drive arrangement 6 and be fixed in on smashing feeding device 4 lateral wall, and smash drive arrangement 6 and smash feeding device 4 internal rotation and be connected.

Smash drive arrangement 6 and include driving motor and motor mount, driving motor is embedded on the motor mount, and driving motor is fixed in on smashing feeding device 4 lateral wall through the motor mount.

As shown in fig. 2, the hybrid device protective housing 3 includes a protective outer housing 31, a protective inner housing 32 and a buffer protection device 33, the protective inner housing 32 is sleeved inside the protective outer housing 31, and a plurality of buffer protection devices 33 are uniformly arranged on the outer side wall of the protective inner housing 32, one end of each buffer protection device 33 is fixedly connected to the outer side wall of the protective inner housing 32, and the other end of each buffer protection device is fixedly connected to the inner side wall of the protective outer housing 31.

As shown in fig. 3, the buffer protection device 33 includes a first hinge base 331, a first swing arm 332, a second swing arm 333, a buffer support spring 334, a second hinge base 335, a third swing arm 336 and a fourth swing arm 337, the first hinge base 331 is fixed on the inner side wall of the protective outer shell 31, the first hinge base 331 is respectively connected with the head ends of the first swing arm 332 and the fourth swing arm 337 in a rotating manner, the tail end of the first swing arm 332 is connected with the head end of the second swing arm 333 in a rotating manner, the tail end of the second swing arm 333 is connected with the second hinge base 335 in a rotating manner, the second hinge base 335 is respectively connected with the tail ends of the second swing arm 333 and the third swing arm 336 in a rotating manner, the head end of the third swing arm 336 is connected with the tail end of the fourth swing arm 337 in a rotating manner, the second hinge base 335 is fixed on the outer side wall of the protective inner shell 32, the buffer support spring is arranged between the first hinge base 331 and, the end of the buffer support spring 334 is fixedly connected with the second hinge base 335.

As shown in fig. 4, the crushing and feeding device 4 includes a first crushing roller 41, a first gear 42, a first crushing roller shaft 43, a second gear 44, an output pipe 45, a second crushing roller shaft 46, a second crushing roller 47 and a crushing and feeding housing 48, wherein the first crushing roller 41 is sleeved on the first crushing roller shaft 43, the first crushing roller 41 is rotatably fixed inside the crushing and feeding housing 48 through the first crushing roller shaft 43, the second crushing roller 47 is sleeved on the second crushing roller shaft 46, the second crushing roller 47 is rotatably fixed inside the crushing and feeding housing 48 through the second crushing roller shaft 46, the first crushing roller 41 and the second crushing roller 47 are in cross engagement, one end of the first crushing roller shaft 43 is rotatably embedded on the side wall of the crushing and feeding housing 48, the other end penetrates through the side wall of the crushing and feeding housing 48 and is fixedly connected with the first gear 42, one end of the second crushing roller shaft 46 penetrates through the side wall of the crushing and feeding housing 48 and is rotatably connected with a driving motor on the crushing and driving device, the other end penetrates through the side wall of the crushing and feeding shell 48 to be fixedly connected with the second gear 44, the output pipe 45 is fixed at the lower end of the crushing and feeding shell 48, the output pipe 45 is in through connection with the crushing and feeding shell 48, the cutting blade device 5 is fixed at the upper end of the crushing and feeding shell 48, and the first gear 42 is meshed with the second gear 44.

As shown in fig. 5, the cutting blade device 5 includes two rotating blade structures, the two rotating blade structures are completely the same, the two rotating blade structures are symmetrically fixed on the upper end surface of the crushing and charging shell 48, the two rotating blade structures are crossed and arranged up and down, the rotating blade structure includes a blade 51, a blade mounting seat 52, a blade rotating motor fixing frame 53 and a blade rotating motor 54, the blade rotating motor fixing frame 53 is fixed on the inner side wall of the upper end of the crushing and charging shell 48, the blade rotating motor 54 is embedded in the blade rotating motor fixing frame 53, the blade mounting seat 52 is fixed on the output shaft of the blade rotating motor 54, and the blades 51 are uniformly fixed on the outer side wall of the blade mounting seat 52.

As shown in fig. 6, the mixing device 7 includes a feeding funnel 71, a mixing motor 72, a mixing driving gear 73, a rotating shaft 74, a fixed threaded rod 75, a mixing sleeve 76, a mixing rod 77, a control circuit 78, a semiconductor cooling fin 79, a mixing casing 710, a heat pipe 711, a wall scraping plate 712, and a mixing driven gear 713, the mixing casing 710 is disposed inside the protective inner casing 32, the feeding funnel 71 is fixed to the upper end of the mixing casing 710, the feeding funnel 71 is connected to the inner side of the mixing casing 710 in a penetrating manner, the fixed threaded rod 75 is disposed inside the mixing casing 710, the lower end of the fixed threaded rod 75 is fixedly connected to the bottom surface of the inner side of the mixing casing 710, the upper end of the fixed threaded rod 75 is fixedly connected to the inner side wall of the upper end of the mixing casing 710 through a connecting frame, the rotating shaft 74 is a hollow shaft, the rotating shaft 74, the stirring pipe sleeve 76 is in up-and-down sliding fit with the rotating shaft 74, a plurality of stirring rods 77 are uniformly fixed on the outer side wall of the stirring pipe sleeve 76, the stirring pipe sleeve 76 is in threaded fit with a fixed threaded rod 75, the rotating shaft 74 is fixedly connected with a scraping plate 712 through a connecting rod, the mixing motor 72 is embedded in the bottom surface of the feeding hopper 71, a mixing drive gear 73 is fixed on an output shaft of the mixing motor 72, the mixing drive gear 73 is meshed with a mixing driven gear 713, a heat conducting pipe 711 is spirally wound on the outer side wall of the mixing shell 710, a semiconductor refrigerating sheet 79 is fixed on the lower end surface of the outer side of the mixing shell 710, the semiconductor refrigerating sheet 79 is fixedly connected with the heat conducting pipe 711, a control circuit 78 is electrically connected with the semiconductor refrigerating sheet 79, a storage battery is fixed on the control circuit 78, the storage battery is electrically connected with the control circuit 78, the outer side wall of the mixing shell 710 is fixed with a temperature sensor, and the temperature sensor is electrically connected with the control circuit 78.

As shown in fig. 7, the rotating shaft 74 includes a through sliding slot 741, a rotating shaft body 742 and a rotating shaft slot 743, the rotating shaft body 742 is a hollow cylinder, the rotating shaft slot 743 is disposed on an outer sidewall of the rotating shaft body 742, the through sliding slot 741 is uniformly disposed on a groove wall of the rotating shaft slot 743, the stirring pipe 76 is sleeved on the rotating shaft slot 743, and a part of the stirring pipe 76 penetrates through the through sliding slot 741 and extends into the rotating shaft body 742.

As shown in fig. 8, the stirring sleeve 76 includes a stirring sleeve outer casing 761, a stirring sleeve inner casing 762, and a stirring sleeve connection plate 763, the stirring sleeve inner casing 762 is disposed inside the stirring sleeve outer casing 761, the stirring sleeve connection plate 763 is disposed between the stirring sleeve inner casing 762 and the stirring sleeve outer casing 761, one end of the stirring sleeve connection plate 763 is fixedly connected to an outer side wall of the stirring sleeve inner casing 762, the other end of the stirring sleeve connection plate 763 is fixedly connected to an inner side wall of the stirring sleeve outer casing 761, the stirring sleeve outer casing 761 is fitted over the rotation shaft groove 743, the stirring sleeve connection plate 763 penetrates through the through sliding groove 741 and extends inside the rotation shaft 742, the stirring sleeve inner casing 762 is disposed inside the rotation shaft 742.

As shown in fig. 9, the paint loader 10 includes: the coating loading device comprises a coating loading supporting spring 101, a downward moving slide block 102, an inclined block 103, a coating loading rotating shaft 104, a tensioning spring 105, a coating loading hinge seat 106, a buckle 107, a coating loading chassis 108, a coating loading shell 109, a first rotating disk 1010, a second rotating disk 1011 and a supporting chassis 1012, wherein the coating loading shell 109 is a non-top and non-bottom cylindrical shell, the coating loading chassis 108 is fixed on the lower end face of the coating loading shell 109, the inclined block 103 is fixed on the upper end face of the coating loading chassis 108, the second rotating disk 1011 is rotationally fixed on the side wall of the upper end face of the coating loading shell 109, the coating loading rotating shaft 104 is fixed on the lower end face of the second rotating disk 1011, the lower end of the coating loading rotating shaft 104 penetrates through the first rotating disk 1010 to be rotationally connected with the coating loading chassis 108, the coating loading rotating shaft 104 is fixedly connected with the first rotating disk 1010, the first rotating disk 1010 is rotationally, the lower end of the charging barrel 9 penetrates through the second rotary table 1011 to extend to the lower side of the second rotary table 1011, the lower side of the charging barrel 9 is provided with a supporting chassis 1012, the lower end of the supporting chassis 1012 is fixedly connected with the upper end of the first rotary table 1010 through a coating loading supporting spring 101, the downward moving slide block 102 is arranged at the lower side of the first rotary table 1010, the upper end of the downward moving slide block 102 penetrates through the first rotary disc 1010 to be fixedly connected with the supporting chassis 1012, the lower end of the downward moving slide block 102 is matched with the inclined block 103, a plurality of paint loading hinge seats 106 are arranged, the paint loading hinge seats 106 are uniformly distributed on the left side and the right side of the downward moving slide block 102, and is fixed on the lower end surface of the first rotary plate 1010, the buckle 107 is rotationally fixed on the paint loading hinge seat 106, and one end of the buckle 107 is matched with the downward moving slide block 102, and the other end is fixedly connected with the lower end of the first rotating disc 1010 through a tension spring 105, and the supporting force of the tension spring 105 is slightly smaller than the gravity of the charging bucket 9 filled with the coating.

The working steps of the anticorrosive paint production equipment for the chemical equipment are as follows:

1) starting the equipment;

2) putting the raw materials for producing the coating into the crushing and feeding device 4 from the upper end of the crushing and feeding device 4;

3) the blade mounting seat 52 rotates, the blade 51 cuts the raw material, and the cut and crushed raw material falls into the first crushing roller 41 and the second crushing roller 47;

4) the crushing driving device 6 drives the second crushing roller 47 to rotate, the second crushing roller 47 drives the first gear 42 and the first crushing roller 41 to rotate through the second gear 44, the first crushing roller 41 is meshed with the second crushing roller 47 to further crush the cut raw materials, and the crushed raw materials fall into the mixing shell 710 through the output pipe 45;

5) the mixing motor 72 rotates to drive the mixing driving gear 73 to rotate, the mixing driving gear 73 drives the mixing driven gear 713 to rotate, and further drives the rotating shaft 74 to rotate, so that the scraping plate 712 rotates along the inner side wall of the mixing shell 710, and simultaneously drives the stirring pipe sleeve 76 to rotate, the stirring pipe sleeve 76 enables the stirring rod 77 to stir the crushed raw materials, when the stirring pipe sleeve 76 rotates, the stirring pipe sleeve inner shell 762 is in threaded engagement with the fixed threaded rod 75 and rotates relatively, and further the stirring pipe sleeve 76 reciprocates up and down along the rotating shaft 74, so that the crushed raw materials are stirred up and down;

6) the temperature sensor senses the temperature inside the hybrid shell 710, so that power supply adjustment is performed on the semiconductor refrigeration sheet 79, corresponding temperature is generated through the semiconductor refrigeration sheet 79 and is transmitted to the hybrid shell 710 through the heat conduction pipe 711, and temperature adjustment is performed on the hybrid shell 710;

7) the stirred and processed coating is led out from a discharge chute 8;

8) the coating guided out by the discharge chute 8 falls onto the charging bucket 9;

9) when the charging bucket 9 is filled with the coating, the weight of the charging bucket 9 exceeds the elastic force of the tension spring 105, the buckle 107 is flicked to be separated from the downward moving slide block 102, the downward moving slide block 102 moves downward under the weight of the charging bucket 9, the lower end of the downward moving slide block 102 is matched with the inclined block 103, the first rotary disc 1010 is further driven to rotate, the charging bucket 9 filled with the coating is further driven to move, and the charging bucket 9 not filled with the coating moves to the lower side of the discharge chute 8 along with the rotation of the first rotary disc 1010;

10) and repeating the steps 8) -9) until all the charging barrels 9 are full and the coating in the device is completely filled, stopping the device.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. An anticorrosion paint production device for chemical equipment comprises a paint loading device chassis (1), an equipment support frame (2), a mixing device protective shell (3), a crushing and feeding device (4), a cutting blade device (5), a crushing driving device (6), a mixing device (7), a discharge chute (8), a charging bucket (9) and a paint loading device (10), and is characterized in that the paint loading device chassis (1) is uniformly fixed on the lower end face of the paint loading device (10), a plurality of charging buckets (9) are arranged, the charging buckets (9) are uniformly arranged on the upper end face of the paint loading device (10), the equipment support frame (2) is fixed on one side of the paint loading device (10), the mixing device protective shell (3) is fixed at the upper end of the equipment support frame (2), and the mixing device (7) is arranged in the mixing device protective shell (3), the discharge chute (8) is fixed on the side wall of the mixing device (7), the discharge chute (8) penetrates through the inner side of the mixing device (7) and the side wall of the mixing device protective shell (3), the discharge chute (8) is arranged on the upper side of the charging bucket (9), the upper end of the mixing device (7) is fixedly penetrated with the crushing and feeding device (4), the upper end of the crushing and feeding device (4) is provided with a cutting blade device (5), the crushing driving device (6) is fixed on the outer side wall of the crushing and feeding device (4), and the crushing driving device (6) is rotatably connected with the inner part of the crushing and feeding device (4);

smash drive arrangement (6) including driving motor and motor mount, driving motor is embedded on the motor mount, and driving motor is fixed in on smashing feeding device (4) lateral wall through the motor mount.

2. The anticorrosive paint production equipment for chemical equipment according to claim 1, wherein the mixing device protective shell (3) comprises an outer protective shell (31), an inner protective shell (32) and buffer protection devices (33), the inner protective shell (32) is sleeved inside the outer protective shell (31), the outer side wall of the inner protective shell (32) is uniformly provided with a plurality of buffer protection devices (33), one end of each buffer protection device (33) is fixedly connected with the outer side wall of the inner protective shell (32), and the other end of each buffer protection device (33) is fixedly connected with the inner side wall of the outer protective shell (31).

3. The anticorrosion paint production equipment for chemical equipment according to claim 2, wherein the buffer protection device (33) comprises a first hinge base (331), a first rocker arm (332), a second rocker arm (333), a buffer support spring (334), a second hinge base (335), a third rocker arm (336) and a fourth rocker arm (337), the first hinge base (331) is fixed on the inner side wall of the protective outer shell (31), the first hinge base (331) is respectively and rotatably connected with the head ends of the first rocker arm (332) and the fourth rocker arm (337), the tail end of the first rocker arm (332) is rotatably connected with the head end of the second rocker arm (333), the tail end of the second rocker arm (333) is rotatably connected with the second hinge base (335), and the second hinge base (335) is respectively and rotatably connected with the tail ends of the second rocker arm (333) and the third rocker arm (336), the utility model discloses a safety protection device for a vehicle, including protection inner casing (32), buffer support spring (334), third rocking arm (336) head end and the terminal rotation of fourth rocking arm (337) are connected, second hinge seat (335) are fixed in on protection inner casing (32) lateral wall, first hinge seat (331) and second hinge seat (335) are located in buffer support spring (334), buffer support spring (334) head end and first hinge seat (331) fixed connection, and buffer support spring (334) end and second hinge seat (335) fixed connection.

4. The anticorrosive paint production equipment for chemical equipment according to claim 1, wherein the crushing and feeding device (4) comprises a first crushing roller (41), a first gear (42), a first crushing roller shaft (43), a second gear (44), an output pipe (45), a second crushing roller shaft (46), a second crushing roller (47) and a crushing and feeding housing (48), the first crushing roller (41) is sleeved on the first crushing roller shaft (43), the first crushing roller (41) is rotationally fixed inside the crushing and feeding housing (48) through the first crushing roller shaft (43), the second crushing roller (47) is sleeved on the second crushing roller shaft (46), the second crushing roller (47) is rotationally fixed inside the crushing and feeding housing (48) through the second crushing roller shaft (46), and the first crushing roller (41) and the second crushing roller (47) are in crossed engagement, first crushing roller (43) one end is rotated on the embedded crushing reinforced shell (48) lateral wall, and the other end pierces through crushing reinforced shell (48) lateral wall and first gear (42) fixed connection, second crushing roller (46) one end pierces through the crushing reinforced shell (48) lateral wall and smashes driving motor on drive arrangement (6) and rotates and be connected, the other end pierces through crushing reinforced shell (48) lateral wall and second gear (44) fixed connection, output tube (45) are fixed in and smash reinforced shell (48) lower extreme, and output tube (45) and crushing reinforced shell (48) through connection, cutting blade device (5) are fixed in and smash reinforced shell (48) upper end, first gear (42) mesh mutually with second gear (44).

5. The anticorrosion paint production equipment for chemical equipment according to claim 1, wherein the cutting blade device (5) comprises two rotary blade structures, the two rotary blade structures are identical, the two rotary blade structures are symmetrically fixed on the upper end surface of the crushing and charging shell (48), the two rotary blade structures are crossed and arranged up and down, the rotary blade structure comprises a blade (51), a blade mounting seat (52), a blade rotary motor fixing frame (53) and a blade rotary motor (54), the blade rotary motor fixing frame (53) is fixed on the inner side wall of the upper end of the crushing and charging shell (48), the blade rotary motor (54) is embedded in the blade rotary motor fixing frame (53), and a blade mounting seat (52) is fixed on the output shaft of the blade rotary motor (54), blades (51) are uniformly fixed on the outer side wall of the blade mounting seat (52).

6. The anticorrosion paint production equipment for chemical equipment as claimed in claim 1, wherein the mixing device (7) comprises a feeding funnel (71), a mixing motor (72), a mixing driving gear (73), a rotating shaft (74), a fixed threaded rod (75), a stirring pipe sleeve (76), a stirring rod (77), a control circuit (78), a semiconductor refrigeration sheet (79), a mixing shell (710), a heat conducting pipe (711), a wall scraping plate (712) and a mixing driven gear (713), wherein the mixing shell (710) is arranged inside the protective inner shell (32), the feeding funnel (71) is fixed at the upper end of the mixing shell (710), the feeding funnel (71) is communicated with the inner side of the mixing shell (710), the fixed threaded rod (75) is arranged inside the mixing shell (710), the lower end of the fixed threaded rod (75) is fixedly connected with the bottom surface of the inner side of the mixing shell (710), fixed screw (75) upper end is through link and mixed casing (710) upper end inside wall fixed connection, rotation axis (74) is the hollow shaft, rotation axis (74) cover on fixed screw (75), rotation axis (74) upper end is fixed with mixes driven gear (713), stirring pipe box (76) cover is on rotation axis (74), and stirring pipe box (76) and rotation axis (74) sliding fit from top to bottom, evenly be fixed with a plurality of puddlers (77) on stirring pipe box (76) lateral wall, stirring pipe box (76) and fixed screw (75) screw-thread fit, rotation axis (74) pass through the connecting rod with scrape wallboard (712) fixed connection, mix motor (72) embedded in feeding funnel (71) bottom surface, and be fixed with on mixing motor (72) output shaft and mix drive gear (73), mix drive gear (73) and mix driven gear (713) and mesh, heat pipe (711) spiral winding is on mixing casing (710) lateral wall, semiconductor refrigeration piece (79) are fixed in on the terminal surface under mixing casing (710) outside, semiconductor refrigeration piece (79) and heat pipe (711) fixed connection, control circuit (78) and semiconductor refrigeration piece (79) electric connection, be fixed with the battery on control circuit (78), and battery and control circuit (78) electric connection, scrape wallboard (712) and mix casing (710) inside wall in close contact with, be equipped with circulation double thread on fixed threaded rod (75), be fixed with temperature sensor on mixing casing (710) lateral wall, temperature sensor and control circuit (78) electric connection.

7. The anticorrosive paint production equipment for chemical equipment according to claim 6, wherein the rotating shaft (74) comprises a through chute (741), a rotating shaft body (742) and a rotating shaft groove (743), the rotating shaft body (742) is a hollow cylinder, the rotating shaft groove (743) is formed in the outer side wall of the rotating shaft body (742), the through chute (741) is uniformly formed in the groove wall of the rotating shaft groove (743), the stirring pipe sleeve (76) is sleeved on the rotating shaft groove (743), and part of the stirring pipe sleeve (76) penetrates through the through chute (741) and extends to the inner side of the rotating shaft body (742).

8. The anticorrosive paint production equipment for chemical equipment according to claim 6, wherein the stirring bar (76) comprises an outer stirring bar housing (761), an inner stirring bar housing (762), and a connecting stirring bar housing plate (763), the inner stirring bar housing (762) is disposed inside the outer stirring bar housing (761), the connecting stirring bar housing plate (763) is disposed between the inner stirring bar housing (762) and the outer stirring bar housing (761), one end of the connecting stirring bar housing plate (763) is fixedly connected to an outer sidewall of the inner stirring bar housing (762), the other end is fixedly connected to an inner sidewall of the outer stirring bar housing (761), the outer stirring bar housing (761) is fitted over the groove (743) of the rotation shaft, the connecting stirring bar housing plate (763) penetrates through the through sliding groove (741) and extends inside the body (742), the inner stirring bar housing (762) is disposed inside the body (742), and the inner shell (762) of the stirring pipe sleeve is in threaded fit connection with the fixed threaded rod (75).

9. The anti-corrosion coating production equipment for chemical equipment according to claim 1, wherein said coating loading device (10) comprises: the coating loading device comprises a coating loading supporting spring (101), a downward moving slide block (102), an inclined block (103), a coating loading rotating shaft (104), a tensioning spring (105), a coating loading hinge seat (106), a buckle (107), a coating loading chassis (108), a coating loading shell (109), a first turntable (1010), a second turntable (1011) and a supporting chassis (1012), wherein the coating loading shell (109) is a non-top and non-bottom cylindrical shell, the coating loading chassis (108) is fixed on the lower end face of the coating loading shell (109), the inclined block (103) is fixed on the upper end face of the coating loading chassis (108), the second turntable (1011) is rotationally fixed on the side wall of the upper end face of the coating loading shell (109), the coating loading rotating shaft (104) is fixed on the lower end face of the second turntable (1011), and the lower end of the coating loading rotating shaft (104) penetrates through the first turntable (1010) to be rotationally connected with the coating loading chassis (108), the coating material loading rotating shaft (104) is fixedly connected with a first rotating disc (1010), the first rotating disc (1010) is rotationally fixed on the side wall of a coating material loading shell (109), the charging barrels (9) are uniformly distributed on a second rotating disc (1011), the lower end of each charging barrel (9) penetrates through the second rotating disc (1011) and extends to the lower side of the second rotating disc (1011), a supporting base plate (1012) is arranged on the lower side of each charging barrel (9), the lower end of each supporting base plate (1012) is fixedly connected with the upper end of the first rotating disc (1010) through a coating material loading supporting spring (101), the downward moving slide block (102) is arranged on the lower side of the first rotating disc (1010), the upper end of the downward moving slide block (102) penetrates through the first rotating disc (1010) and is fixedly connected with the supporting base plate (1012), the lower end of the downward moving slide block (102) is matched with an inclined block (103), a plurality of coating material loading hinge seats (106) are arranged, and a plurality of coating material loading hinge seats (106), and the clamping buckle (107) is rotationally fixed on the paint loading hinge seat (106), one end of the clamping buckle (107) is matched with the downward moving slide block (102), the other end of the clamping buckle (107) is fixedly connected with the lower end of the first rotary disc (1010) through a tension spring (105), and the supporting force of the tension spring (105) is slightly smaller than the gravity of the charging barrel (9) filled with paint.

10. The anti-corrosion coating production equipment for chemical equipment according to claim 1, wherein the working steps of the anti-corrosion coating production equipment for chemical equipment are as follows:

starting the equipment;

putting the raw materials for producing the coating into the crushing and feeding device (4) from the upper end of the crushing and feeding device (4);

the blade mounting seat (52) rotates, the blade (51) cuts the raw material, and the raw material falls onto the first crushing roller (41) and the second crushing roller (47) after being cut and crushed;

the crushing driving device (6) drives the second crushing roller (47) to rotate, the second crushing roller (47) drives the first gear (42) and the first crushing roller (41) to rotate through the second gear (44), the first crushing roller (41) is meshed with the second crushing roller (47) to further crush the cut raw materials, and the crushed raw materials fall into the mixing shell (710) through the output pipe (45);

the mixing motor (72) rotates to drive the mixing driving gear (73) to rotate, the mixing driving gear (73) drives the mixing driven gear (713) to rotate and further drives the rotating shaft (74) to rotate, so that the scraping plate (712) rotates along the inner side wall of the mixing shell (710), and meanwhile, the mixing pipe sleeve (76) is driven to rotate, the mixing pipe sleeve (76) enables the mixing rod (77) to mix crushed raw materials, when the mixing pipe sleeve (76) rotates, the inner shell (762) of the mixing pipe sleeve is in threaded engagement with the fixed threaded rod (75) and rotates relatively, and further the mixing pipe sleeve (76) is enabled to reciprocate up and down along the rotating shaft (74), so that the crushed raw materials are mixed up and down;

the temperature sensor senses the internal temperature of the hybrid shell (710), so that power supply adjustment is carried out on the semiconductor refrigeration sheet (79), corresponding temperature is generated through the semiconductor refrigeration sheet (79), and the semiconductor refrigeration sheet is transmitted to the hybrid shell (710) through the heat conduction pipe (711), so that the temperature of the hybrid shell (710) is adjusted;

the stirred and processed coating is led out from a discharge chute (8);

the coating guided out of the discharge chute (8) falls onto a charging bucket (9);

when the charging bucket (9) is filled with the coating, the weight of the charging bucket (9) exceeds the elastic force of the tension spring (105), at the moment, the buckle (107) is opened to be separated from the downward moving slide block (102), the downward moving slide block (102) moves downward under the weight of the charging bucket (9), at the moment, the lower end of the downward moving slide block (102) is matched with the inclined block (103), so that the first rotary disc (1010) is driven to rotate, the charging bucket (9) filled with the coating is driven to move, and the charging bucket (9) not filled with the coating moves to the lower side of the discharge chute (8) along with the rotation of the first rotary disc (1010);

and (4) repeating the steps 8) to 9) until all the charging barrels (9) are full and the coating in the equipment is completely filled, and stopping the equipment.

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