CN113601691A - High temperature resistant anticorrosive permanent magnetic ferrite production filler device - Google Patents

Abstract

The invention discloses a high-temperature-resistant and corrosion-resistant filling device for producing a permanent magnetic ferrite, which comprises a fixing plate, a filling cylinder and a top cover, wherein the filling cylinder is installed at the top of the fixing plate; two sets of electric telescopic handle who arranges side by side are installed to the diapire of a packing section of thick bamboo, the ring is installed at electric telescopic handle's top, the hopper is installed out to the inner wall of ring, flexible hose is installed to the bottom of going out the hopper. The device can drive the telescopic hose to contract and retract through the installed electric telescopic rod, so that shaking discharging is realized, pipeline blockage caused by filler can be avoided to a certain extent, meanwhile, the filler blocking the pipeline can be driven to shake and fall down under the action of self gravity, the flow controllability of the filler can be realized in the device, meanwhile, the device can automatically feed, labor is saved, and heat monitoring can be performed in real time during the operation of the device.

Description

High temperature resistant anticorrosive permanent magnetic ferrite production filler device

Technical Field

The invention relates to the technical field of permanent magnetic ferrite production, in particular to a high-temperature-resistant and corrosion-resistant filling device for permanent magnetic ferrite production.

Background

The permanent magnetic ferrite material mainly comprises three metal elements of iron, manganese and zinc, is a functional material for generating a magnetic field, and is mainly used for manufacturing a magnetic ring.

The existing filling device has the following defects:

1. reference CN213132828U discloses a mixing arrangement is used in corrosion-resistant filler production, "including a jar body, the top of jar body is provided with the mounting panel, it has first pivot and second pivot to run through on the mounting panel, the fixed cover of having connect the second gear in the first pivot, the fixed cover of having connected first gear and second sprocket in the second pivot. The utility model discloses well first pivot and second pivot are with the opposite direction rotation, drive stirring tooth opposite direction stirring, can prevent that internal thick liquids of jar from causing the layering at the stirring in-process, its stirring effect is better, the scraper blade of the bottom installation of first pivot and second pivot can prevent that thick liquids from gluing the bottom of gluing at the jar body, it is extravagant to cause the internal portion of jar not good washing and thick liquids, to the jar body, first pivot, the second pivot, scraper blade and stirring tooth wash, it is convenient to wash, can avoid the internal compounding doping that causes because of compounding many times of jar, cause badly. However, when the filler in the device is led out from the discharge pipe, the blockage is easy to occur, and the filler cannot be dredged by self;

2. reference document CN113083129A discloses a packing device for producing multilayer composite rock wool boards and a packing method thereof, which comprises a machine body, wherein a feed hopper is arranged above the machine body, a support column is arranged at a dead angle below the machine body, a mixing cavity is formed in the machine body, a notch communicated with the feed hopper is formed in the upper end face of the machine body, and a mixing stirring device is arranged in the mixing cavity. The invention discloses a filling device and a filling method for multilayer composite rock wool board production, which improve the degree of fusion of materials, ensure uniform mixing, improve the quality of the whole material, improve the degree of fusion of the materials, ensure uniform mixing, facilitate the disassembly and the installation of the whole tamping assembly, facilitate the later repair, the cleaning and the replacement, improve the mobility during filling, ensure the convenience of filling, improve the uniformity of the filling, increase the filling quality by tamping, prevent the internal structure from being loose, effectively perform vibration blanking and prevent the material from being blocked. The amount of the filler in the device is not controllable, so that the amount of the filler in each group is inconsistent, and the production quality of rock wool boards in the later period is influenced;

3. reference file CN111568680A discloses a quantitative filler device based on PE membrane master batch production and processing usefulness, "specifically be PE membrane master batch production field, the on-line screen storage device comprises a base, detachable the installing of base is used for the proportioning device of quantitative transport master batch, detachable the installing conveyor on the base, detachable the installing elevating gear on the top of base, elevating gear's expansion end is detachable installs the hopper, the detachable buffer that buffers when installing and can supply the master batch gliding of hopper, it can alleviate the bad effect that takes place violent collision between master batch and the master batch effectively to have, so that reduce the damage probability of master batch, and then improve the mesh of the processing effect of filler. However, the device does not have autonomous feeding, and when feeding is carried out, a user needs to manually convey the filler to a feeding port at the top of the device, so that the applying operation is troublesome;

4. reference CN212357138U discloses a packing device for coal coking production, "including broken storehouse, and one side in broken storehouse installs broken motor, the internally mounted that one end of broken motor is located broken storehouse has the crushing roller, the externally mounted surface of crushing roller has the cutter, and the outside of crushing roller installs the screen cloth, be connected with feeding pipe between outer protection casing and the broken storehouse, and the other end of bottom sprag seat installs feeding motor. The cutter on the crushing roller rotates and cuts the coal cinder breakage, the coal cinder after cutting falls from the through-hole on the screen cloth, thereby can avoid the great motion that can block the hob in the pay-off blade of coal cinder volume, fall on the packing plate when the coal cinder, along with coal cinder weight increase, can push down the packing plate and rotate with the elastic rotating shaft, then the coal cinder throws the material to the high temperature dry distillation tower, after the coal cinder falls into, the elastic recovery ability through the elastic rotating shaft resets the packing plate, throw the material once more. However, the device lacks a part for monitoring the heat of the device in real time, and when the internal heat is too high, a worker cannot process the device in time.

Disclosure of Invention

The invention aims to provide a high-temperature-resistant and corrosion-resistant filling device for producing a permanent magnetic ferrite, so as to solve the problems mentioned in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the high-temperature-resistant and corrosion-resistant filling device for producing the permanent magnetic ferrite comprises a fixed plate, a filling cylinder and a top cover, wherein the filling cylinder is installed at the top of the fixed plate, the top cover is installed at the top of the filling cylinder, and a stirring motor is installed at the top of the top cover;

the bottom wall of the packing cylinder is provided with two groups of electric telescopic rods which are arranged side by side, the top of each electric telescopic rod is provided with a circular ring, the inner wall of each circular ring is provided with a discharge hopper, the bottom of each discharge hopper extends out of the inside of the circular ring, the bottom of each discharge hopper is provided with a flexible hose, the bottom of each flexible hose is provided with a fixed pipe, and the bottom of each fixed pipe extends out of the inside of the packing cylinder;

the bottom of the fixed pipe is provided with a connecting pipe, the top of the fixed plate is provided with an air cooler, and the air cooler is positioned on one side of the packing cylinder.

Preferably, the outer surface of the connecting pipe is provided with an annular groove, the outer surface of the connecting pipe is provided with a movable pipe, the inner wall of the movable pipe is provided with an annular lug, the inner wall of the annular lug is attached to the inner wall of the annular groove, the outer surface of the movable pipe is provided with a second gear, the bottom of the movable pipe is provided with a bottom plate, the bottom plate is located below the connecting pipe, four groups of discharging pipes which are arranged in a square mode are arranged at the top of the bottom plate, and a control valve is arranged on the outer wall of one side of each discharging pipe.

Preferably, a plurality of groups of bottom feet are installed at the bottom of the fixing plate, a flat plate is installed on the outer wall of one side of the fixing plate, a servo motor is installed at the bottom of the fixing plate, a shaft rod is installed at the output end of the servo motor, a first gear is installed on the outer surface of the shaft rod, and the first gear is connected with a second gear through tooth grooves in a coordination mode.

Preferably, the feed cylinder is installed at dull and stereotyped top, and the bottom of going up the feed cylinder runs through dull and stereotyped inside, and the material pouring pipe is installed at the top of going up the feed cylinder, and the feeding pipe mouth is installed to one side outer wall that goes up the feed cylinder and keeps away from a packing section of thick bamboo, and the division board is installed to the inner wall of going up the feed cylinder, and the rotation motor is installed to the diapire of going up the feed cylinder, and the output of rotation motor is installed axostylus axostyle one, and the inside of division board is run through at the top of axostylus axostyle one, and the screw rod is installed at the top of axostylus axostyle, and the helical blade that the multiunit was arranged from top to bottom is evenly installed to the surface of screw rod.

Preferably, an air inlet pipeline is installed at the output end of the air cooler, the tail end of the air inlet pipeline extends into the filling cylinder, and a temperature sensor is installed at the bottom of the top cover.

Preferably, a second shaft rod is installed at the output end of the stirring motor, the bottom of the second shaft rod penetrates through the inside of the top cover, the rotating rod is installed at the bottom of the second shaft rod, a plurality of groups of lantern rings which are arranged from top to bottom are evenly installed on the outer surface of the rotating rod, the stirring rods which are arranged in an annular mode are evenly installed on the outer surface of the lantern rings, a connecting rod is installed between every two adjacent stirring rods, and a rotating plate is installed at the bottom of the rotating rod.

Preferably, two sets of opening and closing doors arranged side by side are installed on the front surface of the packing cylinder, a control panel is installed on the front surface of the packing cylinder, and the control panel is located above the opening and closing doors.

Preferably, V type inlet pipe is installed at the top of top cap, and V type inlet pipe is located one side of agitator motor, and the top of V type inlet pipe and the bottom laminating of pouring the material pipe, the closure plate is installed to one side outer wall of V type inlet pipe, and the inner wall laminating of one side outer wall of closure plate and V type inlet pipe, four groups of suspenders of evenly arranging are installed to the bottom of top cap, the sieve has been installed to the bottom of suspender, cross the top of sieve and install the plectane, the bobbin board is installed at the top of plectane, and the inner wall laminating of bobbin board and the outer wall of commentaries on classics board.

Preferably, the working steps of the device are as follows:

s1, drawing out a blocking plate clamped at a V-shaped feeding pipe to enable the interior of the blocking plate to be changed from a blocking state to an opening state, pressing a rotating motor starting button on a control panel, guiding filler into the interior of an upper charging barrel from the interior of a feeding pipe opening, scattering the filler around a spiral feeding rod, simultaneously driving the spiral feeding rod to rotate through a shaft rod arranged at the output end of a rotating motor, then enabling a spiral blade arranged on the outer surface of the spiral feeding rod to rotate along with the rotation of the spiral blade, then conveying the filler scattered on the spiral blade upwards, then reaching the top of the spiral feeding rod, and then discharging the material to the interior of the V-shaped feeding pipe through a material pouring pipe;

s2, the filler falls down to the interior of the filler cylinder from the V-shaped feed pipe, and meanwhile, the stirring motor is started, after the stirring motor is started, the shaft rod II installed at the output end can drive the rotating rod to rotate at a set rotating speed according to a set direction, and then the lantern ring, the stirring rod and the connecting rod installed on the outer surface of the rotating rod are driven to synchronously rotate along with the rotating rod, so that the filler falling down from the V-shaped feed pipe is scattered, and when the diameter of filler particles is smaller than that of a hole groove formed in the sieve plate, the filler particles can directly fall down from the upper side of the sieve plate;

s3, when the filler falls into the discharge hopper from the sieving plate, synchronously starting the electric telescopic rod, repeatedly performing upward extension and downward contraction operation according to a set frequency after the electric telescopic rod is started, then driving the circular ring and the discharge hopper to perform circulating up-and-down movement operation, and then enabling the telescopic hose to perform contraction and retraction operation, so that the filler in the telescopic hose can fall down quickly, and the phenomenon that the pipeline is blocked due to the accumulation of excessive filler in the pipeline is avoided;

s4, the pipe diameters of the four groups of discharge pipes are different, workers place the permanent magnetic ferrite ring molds with four different sizes below the discharge pipes in sequence according to the rule from large to small, the rotating speed, the rotating angle and the interval time of the servo motor are set in advance according to the frequency of the placement of the die, after the servo motor is started, the rotating shaft arranged at the output end of the control valve can drive the first gear to rotate, then the first gear can drive the second gear to drive the movable pipe to rotate on the outer surface of the connecting pipe, so that a die arranged below the movable pipe can be matched with the discharging pipe with the corresponding pipe diameter, and the opening time of the control valve is a fixed value, the output quantity of the filler at the position of the discharge pipe with the corresponding diameter is controllable, when the loading of the filler in the die is finished, when the control valve on the corresponding discharge pipe is closed and then a mould with another size is placed below the discharge pipe, repeating the above operations;

s5, the temperature sensor can monitor the temperature condition inside the space enclosed by the packing cylinder and the top cover in real time, when the temperature is too high, the air cooler electrically connected with the temperature sensor can be correspondingly started, and the air cooler can convey cold air into the packing cylinder through the air inlet pipeline so as to reduce the heat inside the air cooler.

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

1. after the electric telescopic rod is started, the electric telescopic rod can repeatedly carry out upward extension and downward contraction operation according to a set frequency, then the circular ring and the discharge hopper are driven to circularly move up and down, at the moment, the telescopic hose can carry out contraction and retraction operation, and when the telescopic hose repeatedly moves up and down, shaking sense can be generated, so that the speed of the filler in the telescopic hose falling down can be increased, meanwhile, when the telescopic hose is blocked by excessive filler, the telescopic hose can drive the filler in the telescopic hose to fluctuate up and down, so that the filler blocked by the hose is made to shake, and then the filler falls down under the action of self gravity, so that the blocked telescopic hose can be dredged;

2. when the invention is used for subpackaging the fillers, four permanent magnetic ferrite ring moulds with different sizes are sequentially placed below the discharge pipes according to the rule from large to small, the pipe diameters of the four groups of discharge pipes are sequentially reduced in a counterclockwise arrangement from the front, when the device is used for loading the filler in the die, the rotating speed, the rotating angle and the interval time of the servo motor are required to be set in advance according to the placing frequency of the die, then the servo motor is started, the rotating shaft arranged at the output end of the connecting pipe can drive the first gear to rotate, then the first gear can drive the second gear to drive the movable pipe to rotate on the outer surface of the connecting pipe, so that the discharging pipe to be used is driven to be positioned in front, a die arranged below the movable pipe can be driven to be matched with the discharging pipe with the corresponding pipe diameter, the opening time of the control valve is a fixed value, so that the output quantity of the filler at the discharge pipe with the corresponding diameter is controllable;

3. in the using process of the feeding device, the rotating motor is started, the filler is guided into the charging barrel from the inside of the feeding pipe opening, the filler is scattered around the spiral feeding rod, meanwhile, the rotating motor can drive the spiral feeding rod to rotate through the shaft rod arranged at the output end of the rotating motor, then, the spiral blade arranged on the outer surface of the spiral feeding rod can rotate along with the spiral feeding rod, the filler scattered on the spiral blade is conveyed upwards and then reaches the top of the spiral feeding rod, and then, the material is discharged into the V-shaped feeding pipe through the material pouring pipe, so that the automatic feeding can be realized, and the workload of workers is reduced;

4. when the temperature sensor is used, the temperature condition in the space enclosed by the filler cylinder and the top cover can be monitored in real time by the temperature sensor, when the temperature is too high, the air cooler electrically connected with the air cooler can be correspondingly started, and the air cooler can convey cold air into the filler cylinder through the air inlet pipeline so as to reduce the heat in the air cooler.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic view of the installation structure of the hanger bar, the sieving plate and the circular plate according to the present invention;

FIG. 5 is a schematic view of the mounting structure of the rotating rod, the sleeve ring and the stirring rod of the present invention;

FIG. 6 is a schematic view of the mounting structure of the electric telescopic rod, the ring and the discharge hopper of the present invention;

FIG. 7 is a schematic view of the installation structure of the fixed pipe, the connecting pipe and the movable pipe according to the present invention;

FIG. 8 is a schematic view of the mounting structure of the movable tube, the second gear and the bottom plate according to the present invention.

In the figure: 1. a fixing plate; 101. footing; 102. a flat plate; 103. a servo motor; 104. a first gear; 2. a packing cylinder; 201. opening and closing the door; 202. a control panel; 3. a top cover; 301. a V-shaped feeding pipe; 302. a blocking plate; 303. a boom; 304. sieving a sieve plate; 305. a circular plate; 306. a barrel plate; 307. a temperature sensor; 4. a stirring motor; 401. a rotating rod; 402. a collar; 403. a stirring rod; 404. a connecting rod; 405. rotating the plate; 5. an electric telescopic rod; 501. a circular ring; 502. a discharge hopper; 503. a flexible hose; 504. a fixed tube; 6. connecting the pipe; 601. an annular groove; 602. a movable tube; 603. a second gear; 604. a base plate; 605. a discharge pipe; 606. a control valve; 7. an air cooler; 701. an air inlet pipeline; 8. feeding a material barrel; 801. pouring a material pipe; 802. a feed tube orifice; 803. a partition plate; 804. rotating the motor; 805. a screw feed rod.

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.

The first embodiment is as follows:

as shown in fig. 5 and 6, the high temperature resistant and corrosion resistant filling device for producing the permanent magnetic ferrite comprises a fixing plate 1, a filling cylinder 2 and a top cover 3, wherein the filling cylinder 2 is installed at the top of the fixing plate 1, the top cover 3 is installed at the top of the filling cylinder 2, and a stirring motor 4 is installed at the top of the top cover 3;

fixed plate 1 can be used to stable installation packing section of thick bamboo 2 and air-cooler 7, packing section of thick bamboo 2 is used for loading the raw materials of production permanent magnetic ferrite magnetic ring, be in demountable installation between top cap 3 and the packing section of thick bamboo 2, the rubber pad has been increased to the junction between the two, the leakproofness of multiplicable two connection, then can form an inclosed space between top cap 3 and the packing section of thick bamboo 2, the device is when not using, its inside filler can not contact with the outside air, can avoid receiving the moisture influence, and top cap 3 can be dismantled from the top of its packing section of thick bamboo 2, be convenient for clear up the inside of packing section of thick bamboo 2 then, it has too much back phase to pack to remain to avoid its inner wall, influence the quality that the later stage packs, can make two drive bull sticks 401 of axostylus axostyle that its output was installed after agitator motor 4 started set for the rotational speed rotation according to the direction.

Two groups of electric telescopic rods 5 which are arranged side by side are mounted on the bottom wall of the packing cylinder 2, a circular ring 501 is mounted at the top of each electric telescopic rod 5, a discharge hopper 502 is mounted on the inner wall of each circular ring 501, the bottom of each discharge hopper 502 extends out of the corresponding circular ring 501, a telescopic hose 503 is mounted at the bottom of each discharge hopper 502, a fixed pipe 504 is mounted at the bottom of each telescopic hose 503, and the bottom of each fixed pipe 504 extends out of the corresponding packing cylinder 2;

it is specific, start electric telescopic handle 5, it can be according to setting for the frequency repetition person of upwards extending and the operation of shrink down, then drive ring 501, go out hopper 502 and circulate and reciprocate the operation, flexible hose 503 can be followed and contract and receive and release the operation this moment, when it reciprocates repeatedly, can produce and tremble the sensation of movement, then it drops down fast to be convenient for its inside filler, avoid too much filler to pile up in the pipeline, cause the pipe blockage, ring 501 is used for linking up electric telescopic handle 5 and play hopper 502, make and form a whole between the three, go out hopper 502 from last its diameter that down dwindles gradually, its inner wall is the tilt state, then be convenient for filler to down landing to flexible hose 503 department, fixed pipe 504 is used for installing flexible hose 503, simultaneously it and join in marriage and adopt flange joint between 6.

A second shaft rod is installed at the output end of the stirring motor 4, the bottom of the second shaft rod penetrates through the inside of the top cover 3, a rotating rod 401 is installed at the bottom of the second shaft rod, a plurality of groups of lantern rings 402 which are arranged from top to bottom are evenly installed on the outer surface of the rotating rod 401, stirring rods 403 which are arranged in an annular mode are evenly installed on the outer surface of the lantern rings 402, a connecting rod 404 is installed between every two groups of adjacent stirring rods 403, and a rotating plate 405 is installed at the bottom of the rotating rod 401.

It is specific, agitator motor 4 starts the back, can make two drive bull sticks 401 that the output was installed of axostylus axostyle set for the rotational speed rotation according to setting for the direction, then drive the lantern ring 402 that bull stick 401 surface was installed, puddler 403 and connecting rod 404 follow synchronous rotation, mutually support between multiunit puddler 403 and the connecting rod 404 simultaneously and use, multiplicable and the touching number of times between the filler, then be used for breaking up the filler that down drops from V type inlet pipe 301 fast, avoid inside great graininess filler gets into the lower pipeline, cause the jam to the pipeline.

Two sets of opening and closing doors 201 arranged side by side are installed on the front surface of the packing barrel 2, a control panel 202 is installed on the front surface of the packing barrel 2, and the control panel 202 is located above the opening and closing doors 201.

Specifically, adopt hinge connection between door 201 and the section of thick bamboo 2 that packs, it can be followed the surface of a section of thick bamboo 2 and opened, is convenient for then inspect the inside electric telescopic handle 5 of a section of thick bamboo 2 that packs, and control panel 202 is used for each electric component among the controlling means.

Example two:

as shown in fig. 3, 7 and 8, the bottom of the fixed pipe 504 is provided with the connection pipe 6, the outer surface of the connection pipe 6 is provided with an annular groove 601, the outer surface of the connection pipe 6 is provided with a movable pipe 602, the inner wall of the movable pipe 602 is provided with an annular projection, the inner wall of the annular projection is attached to the inner wall of the annular groove 601, the outer surface of the movable pipe 602 is provided with a second gear 603, the bottom of the movable pipe 602 is provided with a bottom plate 604, the bottom plate 604 is located below the connection pipe 6, the top of the bottom plate 604 is provided with four groups of discharge pipes 605 arranged in a square shape, and the outer wall of one side of the discharge pipe 605 is provided with a control valve 606.

The bottom of fixed plate 1 installs multiunit footing 101, and dull and stereotyped 102 is installed to one side outer wall of fixed plate 1, and servo motor 103 is installed to the bottom of fixed plate 1, and the axostylus axostyle is installed to servo motor 103's output, and the surface mounting of axostylus axostyle has gear one 104, and gear one 104 passes through tooth's socket coordination with gear two 603 and is connected.

Specifically, the connecting pipe 6 is used for mounting the movable pipe 602, the connecting pipe and the movable pipe 602 are both used for guiding out the filler downwards, the annular groove 601 can be used for clamping the annular bump, the annular bump and the annular groove 601 are in a non-fixed attaching state, when the movable pipe 602 rotates under the action of external force, the annular bump can rotate on the outer surface of the annular groove 601, the bottom foot 101 can be used for supporting the fixed plate 1, so that the stability of the fixed plate 1 is improved, meanwhile, the fixed plate 1 can be lifted to a certain height, a certain height space is reserved between the bottom of the discharging pipe 605 and the ground, the flat plate 102 can be used for mounting the charging barrel 8, after the servo motor 103 is started, a rotating shaft mounted at the output end can be promoted to drive the first gear 104 to rotate, then the second gear 603 connected with the first gear 104 through tooth space coordination can be driven to rotate, and then the second gear 603 can synchronously transmit the rotating force to the movable pipe 602, the movable pipe 602 is driven to rotate on the outer surface of the connecting pipe 6, meanwhile, the bottom plate 604 and the discharge pipes 605 arranged at the bottom of the movable pipe 602 can synchronously rotate to adjust the corresponding positions of the discharge pipes 605, the diameters of the four groups of discharge pipes 605 in the device are different, the discharge pipes are arranged anticlockwise from the front, the diameters of the discharge pipes 605 are sequentially reduced, when a worker places a permanent magnetic ferrite magnetic ring mold below the movable pipe 602, the servo motor 103 can be started, then the discharge pipes 605 corresponding to the mold placed below the movable pipe 602 are rotated to the front, then the control valve 606 is opened, and the filler can be led out of the discharge pipes 605 into the mold.

Example three:

as shown in fig. 2, the top of the flat plate 102 is provided with an upper charging barrel 8, the bottom of the upper charging barrel 8 penetrates through the flat plate 102, the top of the upper charging barrel 8 is provided with a discharging pipe 801, the outer wall of one side of the upper charging barrel 8, which is far away from the filling barrel 2, is provided with a feeding pipe opening 802, the inner wall of the upper charging barrel 8 is provided with a partition plate 803, the bottom wall of the upper charging barrel 8 is provided with a rotating motor 804, the output end of the rotating motor 804 is provided with a first shaft rod, the top of the first shaft rod penetrates through the partition plate 803, the top of the first shaft rod is provided with a screw feeding rod 805, and the outer surface of the screw feeding rod 805 is uniformly provided with a plurality of groups of screw blades which are arranged up and down.

Specifically, the rotating motor 804 is started, which can drive a first shaft rod installed at the output end to drive the screw feeding rod 805 to rotate, the feeding pipe opening 802 can facilitate the introduction of the filler into the upper charging barrel 8 from the position, the outlet of the material pouring pipe 801 is connected with the inlet of the V-shaped feeding pipe 301, which can drive the filler led out from the upper charging barrel 8 to be discharged into the V-shaped feeding pipe 301, the partition plate 803 can be used for partitioning the inner space of the upper charging barrel 8, so that the external interference when the rotating motor 804 operates is avoided, when the screw feeding rod 805 rotates, the screw blade installed on the outer surface of the screw feeding rod 805 can rotate along with the rotation, and then the filler scattered on the screw blade is conveyed upwards, and then reaches the top of the screw feeding rod 805.

Example four:

as shown in fig. 1, 2 and 4, an air cooler 7 is mounted on the top of the fixing plate 1, the air cooler 7 is located on one side of the filler cylinder 2, an air inlet pipe 701 is mounted at the output end of the air cooler 7, the tail end of the air inlet pipe 701 extends into the filler cylinder 2, and a temperature sensor 307 is mounted at the bottom of the top cover 3.

Specifically, the air cooler 7 enters the cavity to generate negative pressure during operation, so that air outside the machine enters the machine through the porous wet curtain, the heat is absorbed by the evaporation of water on the wet curtain, the system is forced to cool through the air of the wet curtain, the temperature of the output air is further promoted to be lower, the temperature sensor 307 can monitor the temperature condition inside the space enclosed by the filler cylinder 2 and the top cover 3 in real time, when the temperature is too high, the air cooler 7 can be correspondingly started and electrically connected with the air cooler 7, the air cooler 7 can convey cold air into the filler cylinder 2 through the air inlet pipeline 701, the temperature inside the air cooler is reduced, meanwhile, the evaporation rate of moisture inside the filler cylinder 2 can be accelerated, and the phenomenon that the filler cylinder 2 is corroded under the action of the moisture is avoided.

V type inlet pipe 301 is installed at the top of top cap 3, V type inlet pipe 301 is located one side of agitator motor 4, and the top of V type inlet pipe 301 and the laminating of the bottom of pouring pipe 801, closure plate 302 is installed to one side outer wall of V type inlet pipe 301, and the laminating of one side outer wall of closure plate 302 and V type inlet pipe 301's inner wall, four groups of jib 303 of evenly arranging are installed to the bottom of top cap 3, sieve 304 is installed to the bottom of jib 303, circular plate 305 is installed at the top of sieve 304, tube sheet 306 is installed at the top of circular plate 305, and the inner wall of tube sheet 306 and the laminating of the outer wall of commentaries on classics board 405.

Specifically, V type feed pipe 301 is convenient for the material to be leading-in to the inside of packing section of thick bamboo 2, and it is when using, need use closure plate 302 to plug up its passageway, avoid among external debris from the top access device of V type feed pipe 301, jib 303 is used for installing sieve 304, when filler particle diameter is less than the diameter of crossing the hole groove that sets up on the sieve 304, it can directly drop down from the top of sieving the board 304, be in the non-fixed gomphosis state between barrel board 306 and the commentaries on classics board 405, can rotate in barrel board 306's inside under the drive of external force when commentaries on classics board 405.

Specifically, the working steps of the device are as follows:

s1, drawing out a blocking plate 302 clamped at a V-shaped feeding pipe 301 to enable the interior of the blocking plate to be changed from a blocking state to an opening state, pressing a rotating motor 804 on a control panel 202 to start a button, guiding filler into the upper charging barrel 8 from the interior of a feeding pipe opening 802, scattering the filler around a spiral feeding rod 805, simultaneously driving the spiral feeding rod 805 to rotate by a shaft rod arranged at the output end of the rotating motor 804, then enabling a spiral blade arranged on the outer surface of the spiral feeding rod 805 to rotate along with the rotation, then conveying the filler scattered on the spiral blade upwards, then reaching the top of the spiral feeding rod 805, and then discharging the material to the interior of the V-shaped feeding pipe 301 through a material pouring pipe 801;

s2, the filler falls down from the V-shaped feeding pipe 301 to the interior of the filler barrel 2, the stirring motor 4 is started, after the stirring motor is started, a second shaft rod installed at the output end can drive the rotating rod 401 to rotate at a set rotating speed according to a set direction, then the sleeve ring 402, the stirring rod 403 and the connecting rod 404 installed on the outer surface of the rotating rod 401 are driven to synchronously rotate along with the rotating rod, the filler falling down from the V-shaped feeding pipe 301 is scattered, and when the diameter of filler particles is smaller than that of hole grooves formed in the sieving plate 304, the filler particles can directly fall down from the upper side of the sieving plate 304;

s3, when the filler falls into the discharge hopper 502 from the sieving plate 304, the electric telescopic rod 5 is synchronously started, after the electric telescopic rod is started, the upward extending operation and the downward retracting operation are repeatedly performed according to a set frequency, then the circular ring 501 and the discharge hopper 502 are driven to circularly move up and down, then the telescopic hose 503 can be retracted and retracted, so that the filler in the telescopic hose 503 can rapidly fall down, and the phenomenon that the excessive filler is accumulated in a pipeline to cause pipeline blockage is avoided;

s4, the pipe diameters of the four groups of discharging pipes 605 are different, a worker sequentially places four permanent magnetic ferrite magnetic ring molds with different sizes below the discharging pipes 605 according to a rule from large to small, the rotating speed, the rotating angle and the interval time of the servo motor 103 are set in advance according to the placing frequency of the molds, after the servo motor 103 is started, a rotating shaft installed at the output end of the servo motor can drive a first gear 104 to rotate, then the first gear 104 can drive a second gear 603 to drive a movable pipe 602 to rotate on the outer surface of a connecting pipe 6, so that the mold placed below the movable pipe 602 can be matched with the discharging pipe 605 with the corresponding pipe diameter, because the opening time of a control valve 606 is a fixed value, the output quantity of the filling material at the discharging pipe 605 with the corresponding diameter is controllable, when the filling material in the mold is completely loaded, the control valve 606 on the corresponding discharging pipe 605 is closed, and then the mold with the other size is placed below the discharging pipe 605, repeating the above operations;

s5, the temperature sensor 307 can monitor the temperature condition inside the space enclosed by the filler cylinder 2 and the top cover 3 in real time, when the temperature is too high, the air cooler 7 electrically connected with the air cooler can be correspondingly started, and the air cooler 7 can convey cold air into the filler cylinder 2 through the air inlet pipeline 701 so as to reduce the heat inside the air cooler.

The working principle is as follows: after the rotating motor 804 is started, the screw feeding rod 805 can be driven to rotate by the shaft rod arranged at the output end of the rotating motor, then the screw blade arranged on the outer surface of the rotating motor is driven to upwards convey the filler led in from the feeding pipe opening 802, then the filler reaches the top of the screw feeding rod 805, then the material is discharged into the V-shaped feeding pipe 301 through the material pouring pipe 801, after the stirring motor 4 is started, the shaft rod two arranged at the output end is driven to drive the rotating rod 401 to rotate according to the set rotating speed set in the set direction, then the lantern ring 402, the stirring rod 403 and the connecting rod 404 arranged on the outer surface of the rotating rod 401 are driven to synchronously rotate, meanwhile, a plurality of groups of stirring rods 403 and connecting rods 404 are mutually matched for use, the number of times of contact with the filler can be increased, the filler is used for scattering the filler falling from the V-shaped feeding pipe 301, and when the diameter of the filler particles is smaller than the diameter of the hole grooves arranged on the sieving plate 304, the device can directly fall down from the upper part of a sieving plate 304, when filler enters a discharge hopper 502, an electric telescopic rod 5 can be synchronously started, the device repeatedly performs upward extending and downward contraction operations according to a set frequency, then drives a circular ring 501 and the discharge hopper 502 to perform circulating up-and-down movement operations, then a telescopic hose 503 can fluctuate up and down, and the blocked filler in the telescopic hose 503 can rapidly fall down conveniently, four groups of discharge pipes 605 with different pipe diameters are installed in the device, when a mould is placed below the device, a servo motor 103 can be started, a rotating shaft installed at an output end can drive a gear I104 to rotate, then a gear II 603 connected with the gear I through tooth space coordination can drive a movable pipe 602 to rotate, then the discharge pipe 605 corresponding to the mould below the device can be moved to the front, then a control valve 606 of the discharge pipe 605 is opened, so that the filler is guided into the mould from the interior of the device downwards, since the opening time of the control valve 606 is fixed, the amount of the packing output at the discharge pipe 605 corresponding to the diameter is controllable.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a high temperature resistant anticorrosive permanent magnetic ferrite production is with packing device, includes fixed plate (1), a packing section of thick bamboo (2) and top cap (3), its characterized in that: a filling cylinder (2) is mounted at the top of the fixing plate (1), a top cover (3) is mounted at the top of the filling cylinder (2), and a stirring motor (4) is mounted at the top of the top cover (3);

the packing device is characterized in that two groups of electric telescopic rods (5) which are arranged side by side are mounted on the bottom wall of the packing barrel (2), a circular ring (501) is mounted at the top of each electric telescopic rod (5), a discharge hopper (502) is mounted on the inner wall of each circular ring (501), the bottom of each discharge hopper (502) extends out of the corresponding circular ring (501), a telescopic hose (503) is mounted at the bottom of each discharge hopper (502), a fixed pipe (504) is mounted at the bottom of each telescopic hose (503), and the bottom of each fixed pipe (504) extends out of the corresponding packing barrel (2);

the bottom of fixed pipe (504) is installed and is linked up pipe (6), air-cooler (7) are installed at the top of fixed plate (1), and air-cooler (7) are located one side of packing section of thick bamboo (2).

2. The high-temperature-resistant anti-corrosion filling device for the production of the permanent magnetic ferrite according to claim 1, which is characterized in that: the outer surface of linking pipe (6) is provided with ring channel (601), the surface mounting who links up pipe (6) has movable pipe (602), the annular lug is installed to the inner wall of movable pipe (602), and the inner wall of annular lug and the inner wall laminating of ring channel (601), the surface mounting of movable pipe (602) has gear two (603), bottom plate (604) are installed to the bottom of movable pipe (602), and bottom plate (604) are located the below of linking pipe (6), four groups are discharging pipe (605) that are square arrangement are installed at the top of bottom plate (604), control valve (606) are installed to one side outer wall of discharging pipe (605).

3. The high-temperature-resistant anti-corrosion filling device for the production of the permanent magnetic ferrite according to claim 1, which is characterized in that: the bottom of fixed plate (1) is installed multiunit footing (101), and dull and stereotyped (102) are installed to one side outer wall of fixed plate (1), and servo motor (103) are installed to the bottom of fixed plate (1), and the axostylus axostyle is installed to the output of servo motor (103), and the surface mounting of axostylus axostyle has gear one (104), and gear one (104) and gear two (603) pass through tooth's socket coordination connection.

4. The high-temperature-resistant anti-corrosion filling device for the production of the permanent magnetic ferrite according to claim 3, which is characterized in that: feed cylinder (8) are installed at the top of flat board (102), and go up the inside that flat board (102) was run through to the bottom of feed cylinder (8), material pouring pipe (801) are installed at the top of going up feed cylinder (8), go up one side outer wall that feed cylinder (8) kept away from packing section of thick bamboo (2) and install feeding pipe mouth (802), division board (803) are installed to the inner wall of going up feed cylinder (8), rotation motor (804) are installed to the diapire of going up feed cylinder (8), axle lever one is installed to the output of rotation motor (804), and the inside of division board (803) is run through at the top of axle lever one, screw rod (805) are installed at the top of axle lever, the helical blade that the multiunit was arranged from top to bottom is evenly installed to the surface of screw rod (805).

5. The high-temperature-resistant anti-corrosion filling device for the production of the permanent magnetic ferrite according to claim 1, which is characterized in that: an air inlet pipeline (701) is installed at the output end of the air cooler (7), the tail end of the air inlet pipeline (701) extends into the filler cylinder (2), and a temperature sensor (307) is installed at the bottom of the top cover (3).

6. The high-temperature-resistant anti-corrosion filling device for the production of the permanent magnetic ferrite according to claim 1, which is characterized in that: a second shaft rod is installed at the output end of the stirring motor (4), the bottom of the second shaft rod penetrates through the inside of the top cover (3), a rotating rod (401) is installed at the bottom of the second shaft rod, a plurality of groups of lantern rings (402) which are arranged from top to bottom are evenly installed on the outer surface of the rotating rod (401), stirring rods (403) which are arranged in an annular mode are evenly installed on the outer surface of the lantern rings (402), a connecting rod (404) is installed between the two groups of upper and lower adjacent stirring rods (403), and a rotating plate (405) is installed at the bottom of the rotating rod (401).

7. The high-temperature-resistant anti-corrosion filling device for the production of the permanent magnetic ferrite according to claim 1, which is characterized in that: two sets of opening and closing doors (201) arranged side by side are installed on the front surface of the packing barrel (2), a control panel (202) is installed on the front surface of the packing barrel (2), and the control panel (202) is located above the opening and closing doors (201).

8. The high-temperature-resistant anti-corrosion filling device for the production of the permanent magnetic ferrite according to claim 1, which is characterized in that: v type inlet pipe (301) is installed at the top of top cap (3), V type inlet pipe (301) are located one side of agitator motor (4), and the top of V type inlet pipe (301) and the bottom laminating of pouring pipe (801), closure plate (302) are installed to one side outer wall of V type inlet pipe (301), and the inner wall laminating of one side outer wall and V type inlet pipe (301) of closure plate (302), jib (303) that four groups were evenly arranged are installed to the bottom of top cap (3), sieve board (304) have been installed to the bottom of jib (303), circular plate (305) are installed at the top of sieving board (304), barrel head (306) are installed at the top of circular plate (305), and the inner wall of barrel head (306) and the outer wall laminating of commentaries on classics board (405).

9. The filler device for producing the high-temperature-resistant and corrosion-resistant permanent magnetic ferrite according to any one of claims 1 to 8, wherein: the working steps of the device are as follows:

s1, drawing out a blocking plate (302) clamped at a V-shaped feeding pipe (301) to enable the interior of the V-shaped feeding pipe to be changed from a blocking state to an opening state, pressing a start button of a rotating motor (804) on a control panel (202), guiding filler into the upper charging barrel (8) from the interior of a feeding pipe opening (802), scattering the filler around a spiral feeding rod (805), driving the spiral feeding rod (805) to rotate by the rotating motor (804) through a shaft rod arranged at the output end of the rotating motor, enabling a spiral blade arranged on the outer surface of the spiral feeding rod (805) to rotate along with the rotating motor, conveying the filler scattered on the spiral blade upwards, then reaching the top of the spiral feeding rod (805), and discharging the filler to the interior of the V-shaped feeding pipe (301) through a material pouring pipe (801);

s2, the filler falls down to the interior of the filler cylinder (2) from the V-shaped feed pipe (301), and meanwhile, the stirring motor (4) is started, after the stirring motor is started, a second shaft rod installed at the output end can drive the rotating rod (401) to rotate at a set rotating speed according to a set direction, then the lantern ring (402), the stirring rod (403) and the connecting rod (404) installed on the outer surface of the rotating rod (401) are driven to rotate synchronously to break up the filler falling down from the V-shaped feed pipe (301), and when the diameter of the filler particles is smaller than that of a hole groove formed in the sieve plate (304), the filler particles can directly fall down from the upper side of the sieve plate (304);

s3, when the filler drops into the discharge hopper (502) from the sieving plate (304), the electric telescopic rod (5) is synchronously started, after the electric telescopic rod is started, upward extending and downward contracting operations are repeatedly performed according to a set frequency, then the circular ring (501) and the discharge hopper (502) are driven to perform circulating up-and-down moving operations, then the telescopic hose (503) can be contracted and retracted, and then the filler in the telescopic hose (503) can rapidly drop downwards, so that excessive filler is prevented from being accumulated in a pipeline to cause pipeline blockage;

s4, the pipe diameters of the four groups of discharge pipes (605) are different, a worker sequentially places four permanent magnetic ferrite magnetic ring molds with different sizes below the discharge pipes (605) according to a rule from large to small, the rotating speed, the rotating angle and the interval time of the servo motor (103) are set in advance according to the placing frequency of the molds, after the servo motor (103) is started, a rotating shaft installed at the output end of the servo motor can drive a first gear (104) to rotate, then the first gear (104) can drive a second gear (603) to drive a movable pipe (602) to rotate on the outer surface of a connecting pipe (6), so that the mold placed below the movable pipe (602) can be matched with the discharge pipes (605) with corresponding pipe diameters, the opening time of a control valve (606) is a fixed value, the output quantity of fillers at the discharge pipes (605) with corresponding diameters is controllable, and after the fillers in the mold are loaded completely, the control valve (606) on the corresponding discharge pipes (605) is closed, then when a mould with another size is placed below the discharge pipe (605), the operations are repeated;

s5, the temperature sensor (307) can monitor the temperature condition inside the space enclosed by the filler cylinder (2) and the top cover (3) in real time, when the temperature is too high, the air cooler (7) electrically connected with the temperature sensor can be started correspondingly, and the air cooler (7) can convey cold air into the filler cylinder (2) through the air inlet pipeline (701) so as to reduce the heat inside the filler cylinder.

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